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-rw-r--r--drivers/net/8139cp.c46
-rw-r--r--drivers/net/8390.c2
-rw-r--r--drivers/net/Kconfig10
-rw-r--r--drivers/net/Makefile1
-rw-r--r--drivers/net/arcnet/com90io.c4
-rw-r--r--drivers/net/arm/am79c961a.c22
-rw-r--r--drivers/net/bmac.c2
-rw-r--r--drivers/net/bonding/bond_main.c16
-rw-r--r--drivers/net/cassini.c5237
-rw-r--r--drivers/net/cassini.h4425
-rw-r--r--drivers/net/cs89x0.c1
-rw-r--r--drivers/net/e100.c4
-rw-r--r--drivers/net/e1000/e1000_main.c1
-rw-r--r--drivers/net/ibmveth.c6
-rw-r--r--drivers/net/irda/vlsi_ir.c4
-rw-r--r--drivers/net/ixgb/ixgb_main.c2
-rw-r--r--drivers/net/pppoe.c4
-rw-r--r--drivers/net/r8169.c7
-rw-r--r--drivers/net/s2io.c9
-rw-r--r--drivers/net/sk98lin/skge.c20
-rw-r--r--drivers/net/skge.c312
-rw-r--r--drivers/net/skge.h4
-rw-r--r--drivers/net/spider_net.c4
-rw-r--r--drivers/net/tg3.c215
-rw-r--r--drivers/net/tg3.h1
-rw-r--r--drivers/net/tulip/xircom_cb.c2
-rw-r--r--drivers/net/wan/hdlc_cisco.c2
-rw-r--r--drivers/net/wan/sdlamain.c23
-rw-r--r--drivers/net/wan/syncppp.c2
-rw-r--r--drivers/net/wireless/airo.c5
-rw-r--r--drivers/net/wireless/orinoco.c2
-rw-r--r--drivers/net/wireless/orinoco_cs.c1
-rw-r--r--drivers/net/wireless/strip.c4
33 files changed, 10079 insertions, 321 deletions
diff --git a/drivers/net/8139cp.c b/drivers/net/8139cp.c
index 34b80de34fa..bc537440ca0 100644
--- a/drivers/net/8139cp.c
+++ b/drivers/net/8139cp.c
@@ -353,8 +353,6 @@ struct cp_private {
struct net_device_stats net_stats;
struct cp_extra_stats cp_stats;
- struct cp_dma_stats *nic_stats;
- dma_addr_t nic_stats_dma;
unsigned rx_tail ____cacheline_aligned;
struct cp_desc *rx_ring;
@@ -1143,10 +1141,6 @@ static int cp_alloc_rings (struct cp_private *cp)
cp->rx_ring = mem;
cp->tx_ring = &cp->rx_ring[CP_RX_RING_SIZE];
- mem += (CP_RING_BYTES - CP_STATS_SIZE);
- cp->nic_stats = mem;
- cp->nic_stats_dma = cp->ring_dma + (CP_RING_BYTES - CP_STATS_SIZE);
-
return cp_init_rings(cp);
}
@@ -1187,7 +1181,6 @@ static void cp_free_rings (struct cp_private *cp)
pci_free_consistent(cp->pdev, CP_RING_BYTES, cp->rx_ring, cp->ring_dma);
cp->rx_ring = NULL;
cp->tx_ring = NULL;
- cp->nic_stats = NULL;
}
static int cp_open (struct net_device *dev)
@@ -1516,13 +1509,17 @@ static void cp_get_ethtool_stats (struct net_device *dev,
struct ethtool_stats *estats, u64 *tmp_stats)
{
struct cp_private *cp = netdev_priv(dev);
+ struct cp_dma_stats *nic_stats;
+ dma_addr_t dma;
int i;
- memset(cp->nic_stats, 0, sizeof(struct cp_dma_stats));
+ nic_stats = pci_alloc_consistent(cp->pdev, sizeof(*nic_stats), &dma);
+ if (!nic_stats)
+ return;
/* begin NIC statistics dump */
- cpw32(StatsAddr + 4, (cp->nic_stats_dma >> 16) >> 16);
- cpw32(StatsAddr, (cp->nic_stats_dma & 0xffffffff) | DumpStats);
+ cpw32(StatsAddr + 4, (u64)dma >> 32);
+ cpw32(StatsAddr, ((u64)dma & DMA_32BIT_MASK) | DumpStats);
cpr32(StatsAddr);
for (i = 0; i < 1000; i++) {
@@ -1532,24 +1529,27 @@ static void cp_get_ethtool_stats (struct net_device *dev,
}
cpw32(StatsAddr, 0);
cpw32(StatsAddr + 4, 0);
+ cpr32(StatsAddr);
i = 0;
- tmp_stats[i++] = le64_to_cpu(cp->nic_stats->tx_ok);
- tmp_stats[i++] = le64_to_cpu(cp->nic_stats->rx_ok);
- tmp_stats[i++] = le64_to_cpu(cp->nic_stats->tx_err);
- tmp_stats[i++] = le32_to_cpu(cp->nic_stats->rx_err);
- tmp_stats[i++] = le16_to_cpu(cp->nic_stats->rx_fifo);
- tmp_stats[i++] = le16_to_cpu(cp->nic_stats->frame_align);
- tmp_stats[i++] = le32_to_cpu(cp->nic_stats->tx_ok_1col);
- tmp_stats[i++] = le32_to_cpu(cp->nic_stats->tx_ok_mcol);
- tmp_stats[i++] = le64_to_cpu(cp->nic_stats->rx_ok_phys);
- tmp_stats[i++] = le64_to_cpu(cp->nic_stats->rx_ok_bcast);
- tmp_stats[i++] = le32_to_cpu(cp->nic_stats->rx_ok_mcast);
- tmp_stats[i++] = le16_to_cpu(cp->nic_stats->tx_abort);
- tmp_stats[i++] = le16_to_cpu(cp->nic_stats->tx_underrun);
+ tmp_stats[i++] = le64_to_cpu(nic_stats->tx_ok);
+ tmp_stats[i++] = le64_to_cpu(nic_stats->rx_ok);
+ tmp_stats[i++] = le64_to_cpu(nic_stats->tx_err);
+ tmp_stats[i++] = le32_to_cpu(nic_stats->rx_err);
+ tmp_stats[i++] = le16_to_cpu(nic_stats->rx_fifo);
+ tmp_stats[i++] = le16_to_cpu(nic_stats->frame_align);
+ tmp_stats[i++] = le32_to_cpu(nic_stats->tx_ok_1col);
+ tmp_stats[i++] = le32_to_cpu(nic_stats->tx_ok_mcol);
+ tmp_stats[i++] = le64_to_cpu(nic_stats->rx_ok_phys);
+ tmp_stats[i++] = le64_to_cpu(nic_stats->rx_ok_bcast);
+ tmp_stats[i++] = le32_to_cpu(nic_stats->rx_ok_mcast);
+ tmp_stats[i++] = le16_to_cpu(nic_stats->tx_abort);
+ tmp_stats[i++] = le16_to_cpu(nic_stats->tx_underrun);
tmp_stats[i++] = cp->cp_stats.rx_frags;
if (i != CP_NUM_STATS)
BUG();
+
+ pci_free_consistent(cp->pdev, sizeof(*nic_stats), nic_stats, dma);
}
static struct ethtool_ops cp_ethtool_ops = {
diff --git a/drivers/net/8390.c b/drivers/net/8390.c
index 6d76f3a99b1..f8702742008 100644
--- a/drivers/net/8390.c
+++ b/drivers/net/8390.c
@@ -1094,7 +1094,7 @@ static void NS8390_trigger_send(struct net_device *dev, unsigned int length,
outb_p(E8390_NODMA+E8390_PAGE0, e8390_base+E8390_CMD);
- if (inb_p(e8390_base) & E8390_TRANS)
+ if (inb_p(e8390_base + E8390_CMD) & E8390_TRANS)
{
printk(KERN_WARNING "%s: trigger_send() called with the transmitter busy.\n",
dev->name);
diff --git a/drivers/net/Kconfig b/drivers/net/Kconfig
index 54fff9c2e80..2a908c4690a 100644
--- a/drivers/net/Kconfig
+++ b/drivers/net/Kconfig
@@ -548,6 +548,14 @@ config SUNGEM
Support for the Sun GEM chip, aka Sun GigabitEthernet/P 2.0. See also
<http://www.sun.com/products-n-solutions/hardware/docs/pdf/806-3985-10.pdf>.
+config CASSINI
+ tristate "Sun Cassini support"
+ depends on NET_ETHERNET && PCI
+ select CRC32
+ help
+ Support for the Sun Cassini chip, aka Sun GigaSwift Ethernet. See also
+ <http://www.sun.com/products-n-solutions/hardware/docs/pdf/817-4341-10.pdf>
+
config NET_VENDOR_3COM
bool "3COM cards"
depends on NET_ETHERNET && (ISA || EISA || MCA || PCI)
@@ -1951,7 +1959,7 @@ config SKGE
---help---
This driver support the Marvell Yukon or SysKonnect SK-98xx/SK-95xx
and related Gigabit Ethernet adapters. It is a new smaller driver
- driver with better performance and more complete ethtool support.
+ with better performance and more complete ethtool support.
It does not support the link failover and network management
features that "portable" vendor supplied sk98lin driver does.
diff --git a/drivers/net/Makefile b/drivers/net/Makefile
index 8645c843cf4..8aeec9f2495 100644
--- a/drivers/net/Makefile
+++ b/drivers/net/Makefile
@@ -28,6 +28,7 @@ obj-$(CONFIG_SUNQE) += sunqe.o
obj-$(CONFIG_SUNBMAC) += sunbmac.o
obj-$(CONFIG_MYRI_SBUS) += myri_sbus.o
obj-$(CONFIG_SUNGEM) += sungem.o sungem_phy.o
+obj-$(CONFIG_CASSINI) += cassini.o
obj-$(CONFIG_MACE) += mace.o
obj-$(CONFIG_BMAC) += bmac.o
diff --git a/drivers/net/arcnet/com90io.c b/drivers/net/arcnet/com90io.c
index 52c77cbe8c6..1f030273541 100644
--- a/drivers/net/arcnet/com90io.c
+++ b/drivers/net/arcnet/com90io.c
@@ -160,7 +160,7 @@ static int __init com90io_probe(struct net_device *dev)
return -ENODEV;
}
if (!request_region(ioaddr, ARCNET_TOTAL_SIZE, "com90io probe")) {
- BUGMSG(D_INIT_REASONS, "IO check_region %x-%x failed.\n",
+ BUGMSG(D_INIT_REASONS, "IO request_region %x-%x failed.\n",
ioaddr, ioaddr + ARCNET_TOTAL_SIZE - 1);
return -ENXIO;
}
@@ -242,7 +242,7 @@ static int __init com90io_found(struct net_device *dev)
BUGMSG(D_NORMAL, "Can't get IRQ %d!\n", dev->irq);
return -ENODEV;
}
- /* Reserve the I/O region - guaranteed to work by check_region */
+ /* Reserve the I/O region */
if (!request_region(dev->base_addr, ARCNET_TOTAL_SIZE, "arcnet (COM90xx-IO)")) {
free_irq(dev->irq, dev);
return -EBUSY;
diff --git a/drivers/net/arm/am79c961a.c b/drivers/net/arm/am79c961a.c
index 9b659e3c8d6..c56d86d371a 100644
--- a/drivers/net/arm/am79c961a.c
+++ b/drivers/net/arm/am79c961a.c
@@ -15,16 +15,13 @@
*/
#include <linux/kernel.h>
#include <linux/types.h>
-#include <linux/fcntl.h>
#include <linux/interrupt.h>
#include <linux/ioport.h>
-#include <linux/in.h>
#include <linux/slab.h>
#include <linux/string.h>
#include <linux/errno.h>
#include <linux/netdevice.h>
#include <linux/etherdevice.h>
-#include <linux/skbuff.h>
#include <linux/delay.h>
#include <linux/init.h>
#include <linux/crc32.h>
@@ -33,7 +30,6 @@
#include <asm/system.h>
#include <asm/irq.h>
#include <asm/io.h>
-#include <asm/dma.h>
#define TX_BUFFERS 15
#define RX_BUFFERS 25
@@ -85,7 +81,7 @@ static inline unsigned short read_ireg(u_long base_addr, u_int reg)
u_short v;
__asm__(
"str%?h %1, [%2] @ NAT_RAP\n\t"
- "str%?h %0, [%2, #8] @ NET_IDP\n\t"
+ "ldr%?h %0, [%2, #8] @ NET_IDP\n\t"
: "=r" (v)
: "r" (reg), "r" (ISAIO_BASE + 0x0464));
return v;
@@ -288,7 +284,7 @@ static void am79c961_timer(unsigned long data)
else if (!lnkstat && carrier)
netif_carrier_off(dev);
- mod_timer(&priv->timer, jiffies + 5*HZ);
+ mod_timer(&priv->timer, jiffies + msecs_to_jiffies(500));
}
/*
@@ -709,13 +705,9 @@ static int __init am79c961_init(void)
goto release;
am79c961_banner();
- printk(KERN_INFO "%s: ether address ", dev->name);
- /* Retrive and print the ethernet address. */
- for (i = 0; i < 6; i++) {
+ for (i = 0; i < 6; i++)
dev->dev_addr[i] = inb(dev->base_addr + i * 2) & 0xff;
- printk (i == 5 ? "%02x\n" : "%02x:", dev->dev_addr[i]);
- }
spin_lock_init(&priv->chip_lock);
init_timer(&priv->timer);
@@ -736,8 +728,14 @@ static int __init am79c961_init(void)
#endif
ret = register_netdev(dev);
- if (ret == 0)
+ if (ret == 0) {
+ printk(KERN_INFO "%s: ether address ", dev->name);
+
+ for (i = 0; i < 6; i++)
+ printk (i == 5 ? "%02x\n" : "%02x:", dev->dev_addr[i]);
+
return 0;
+ }
release:
release_region(dev->base_addr, 0x18);
diff --git a/drivers/net/bmac.c b/drivers/net/bmac.c
index 8dc657fc8af..60dba4a1ca5 100644
--- a/drivers/net/bmac.c
+++ b/drivers/net/bmac.c
@@ -218,7 +218,7 @@ void bmwrite(struct net_device *dev, unsigned long reg_offset, unsigned data )
static inline
-volatile unsigned short bmread(struct net_device *dev, unsigned long reg_offset )
+unsigned short bmread(struct net_device *dev, unsigned long reg_offset )
{
return in_le16((void __iomem *)dev->base_addr + reg_offset);
}
diff --git a/drivers/net/bonding/bond_main.c b/drivers/net/bonding/bond_main.c
index 94c9f68dd16..bf81cd45e4d 100644
--- a/drivers/net/bonding/bond_main.c
+++ b/drivers/net/bonding/bond_main.c
@@ -1653,7 +1653,8 @@ static int bond_enslave(struct net_device *bond_dev, struct net_device *slave_de
int old_features = bond_dev->features;
int res = 0;
- if (slave_dev->do_ioctl == NULL) {
+ if (!bond->params.use_carrier && slave_dev->ethtool_ops == NULL &&
+ slave_dev->do_ioctl == NULL) {
printk(KERN_WARNING DRV_NAME
": Warning : no link monitoring support for %s\n",
slave_dev->name);
@@ -2775,7 +2776,7 @@ static u32 bond_glean_dev_ip(struct net_device *dev)
return 0;
rcu_read_lock();
- idev = __in_dev_get(dev);
+ idev = __in_dev_get_rcu(dev);
if (!idev)
goto out;
@@ -2879,6 +2880,7 @@ static void bond_arp_send_all(struct bonding *bond, struct slave *slave)
* This target is not on a VLAN
*/
if (rt->u.dst.dev == bond->dev) {
+ ip_rt_put(rt);
dprintk("basa: rtdev == bond->dev: arp_send\n");
bond_arp_send(slave->dev, ARPOP_REQUEST, targets[i],
bond->master_ip, 0);
@@ -2898,6 +2900,7 @@ static void bond_arp_send_all(struct bonding *bond, struct slave *slave)
}
if (vlan_id) {
+ ip_rt_put(rt);
bond_arp_send(slave->dev, ARPOP_REQUEST, targets[i],
vlan->vlan_ip, vlan_id);
continue;
@@ -2909,6 +2912,7 @@ static void bond_arp_send_all(struct bonding *bond, struct slave *slave)
bond->dev->name, NIPQUAD(fl.fl4_dst),
rt->u.dst.dev ? rt->u.dst.dev->name : "NULL");
}
+ ip_rt_put(rt);
}
}
@@ -5036,6 +5040,14 @@ static int __init bonding_init(void)
return 0;
out_err:
+ /*
+ * rtnl_unlock() will run netdev_run_todo(), putting the
+ * thus-far-registered bonding devices into a state which
+ * unregigister_netdevice() will accept
+ */
+ rtnl_unlock();
+ rtnl_lock();
+
/* free and unregister all bonds that were successfully added */
bond_free_all();
diff --git a/drivers/net/cassini.c b/drivers/net/cassini.c
new file mode 100644
index 00000000000..2e617424d3f
--- /dev/null
+++ b/drivers/net/cassini.c
@@ -0,0 +1,5237 @@
+/* cassini.c: Sun Microsystems Cassini(+) ethernet driver.
+ *
+ * Copyright (C) 2004 Sun Microsystems Inc.
+ * Copyright (C) 2003 Adrian Sun (asun@darksunrising.com)
+ *
+ * This program is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU General Public License as
+ * published by the Free Software Foundation; either version 2 of the
+ * License, or (at your option) any later version.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
+ * 02111-1307, USA.
+ *
+ * This driver uses the sungem driver (c) David Miller
+ * (davem@redhat.com) as its basis.
+ *
+ * The cassini chip has a number of features that distinguish it from
+ * the gem chip:
+ * 4 transmit descriptor rings that are used for either QoS (VLAN) or
+ * load balancing (non-VLAN mode)
+ * batching of multiple packets
+ * multiple CPU dispatching
+ * page-based RX descriptor engine with separate completion rings
+ * Gigabit support (GMII and PCS interface)
+ * MIF link up/down detection works
+ *
+ * RX is handled by page sized buffers that are attached as fragments to
+ * the skb. here's what's done:
+ * -- driver allocates pages at a time and keeps reference counts
+ * on them.
+ * -- the upper protocol layers assume that the header is in the skb
+ * itself. as a result, cassini will copy a small amount (64 bytes)
+ * to make them happy.
+ * -- driver appends the rest of the data pages as frags to skbuffs
+ * and increments the reference count
+ * -- on page reclamation, the driver swaps the page with a spare page.
+ * if that page is still in use, it frees its reference to that page,
+ * and allocates a new page for use. otherwise, it just recycles the
+ * the page.
+ *
+ * NOTE: cassini can parse the header. however, it's not worth it
+ * as long as the network stack requires a header copy.
+ *
+ * TX has 4 queues. currently these queues are used in a round-robin
+ * fashion for load balancing. They can also be used for QoS. for that
+ * to work, however, QoS information needs to be exposed down to the driver
+ * level so that subqueues get targetted to particular transmit rings.
+ * alternatively, the queues can be configured via use of the all-purpose
+ * ioctl.
+ *
+ * RX DATA: the rx completion ring has all the info, but the rx desc
+ * ring has all of the data. RX can conceivably come in under multiple
+ * interrupts, but the INT# assignment needs to be set up properly by
+ * the BIOS and conveyed to the driver. PCI BIOSes don't know how to do
+ * that. also, the two descriptor rings are designed to distinguish between
+ * encrypted and non-encrypted packets, but we use them for buffering
+ * instead.
+ *
+ * by default, the selective clear mask is set up to process rx packets.
+ */
+
+#include <linux/config.h>
+#include <linux/version.h>
+
+#include <linux/module.h>
+#include <linux/kernel.h>
+#include <linux/types.h>
+#include <linux/compiler.h>
+#include <linux/slab.h>
+#include <linux/delay.h>
+#include <linux/init.h>
+#include <linux/ioport.h>
+#include <linux/pci.h>
+#include <linux/mm.h>
+#include <linux/highmem.h>
+#include <linux/list.h>
+#include <linux/dma-mapping.h>
+
+#include <linux/netdevice.h>
+#include <linux/etherdevice.h>
+#include <linux/skbuff.h>
+#include <linux/ethtool.h>
+#include <linux/crc32.h>
+#include <linux/random.h>
+#include <linux/mii.h>
+#include <linux/ip.h>
+#include <linux/tcp.h>
+
+#include <net/checksum.h>
+
+#include <asm/atomic.h>
+#include <asm/system.h>
+#include <asm/io.h>
+#include <asm/byteorder.h>
+#include <asm/uaccess.h>
+
+#define cas_page_map(x) kmap_atomic((x), KM_SKB_DATA_SOFTIRQ)
+#define cas_page_unmap(x) kunmap_atomic((x), KM_SKB_DATA_SOFTIRQ)
+#define CAS_NCPUS num_online_cpus()
+
+#if defined(CONFIG_CASSINI_NAPI) && defined(HAVE_NETDEV_POLL)
+#define USE_NAPI
+#define cas_skb_release(x) netif_receive_skb(x)
+#else
+#define cas_skb_release(x) netif_rx(x)
+#endif
+
+/* select which firmware to use */
+#define USE_HP_WORKAROUND
+#define HP_WORKAROUND_DEFAULT /* select which firmware to use as default */
+#define CAS_HP_ALT_FIRMWARE cas_prog_null /* alternate firmware */
+
+#include "cassini.h"
+
+#define USE_TX_COMPWB /* use completion writeback registers */
+#define USE_CSMA_CD_PROTO /* standard CSMA/CD */
+#define USE_RX_BLANK /* hw interrupt mitigation */
+#undef USE_ENTROPY_DEV /* don't test for entropy device */
+
+/* NOTE: these aren't useable unless PCI interrupts can be assigned.
+ * also, we need to make cp->lock finer-grained.
+ */
+#undef USE_PCI_INTB
+#undef USE_PCI_INTC
+#undef USE_PCI_INTD
+#undef USE_QOS
+
+#undef USE_VPD_DEBUG /* debug vpd information if defined */
+
+/* rx processing options */
+#define USE_PAGE_ORDER /* specify to allocate large rx pages */
+#define RX_DONT_BATCH 0 /* if 1, don't batch flows */
+#define RX_COPY_ALWAYS 0 /* if 0, use frags */
+#define RX_COPY_MIN 64 /* copy a little to make upper layers happy */
+#undef RX_COUNT_BUFFERS /* define to calculate RX buffer stats */
+
+#define DRV_MODULE_NAME "cassini"
+#define PFX DRV_MODULE_NAME ": "
+#define DRV_MODULE_VERSION "1.4"
+#define DRV_MODULE_RELDATE "1 July 2004"
+
+#define CAS_DEF_MSG_ENABLE \
+ (NETIF_MSG_DRV | \
+ NETIF_MSG_PROBE | \
+ NETIF_MSG_LINK | \
+ NETIF_MSG_TIMER | \
+ NETIF_MSG_IFDOWN | \
+ NETIF_MSG_IFUP | \
+ NETIF_MSG_RX_ERR | \
+ NETIF_MSG_TX_ERR)
+
+/* length of time before we decide the hardware is borked,
+ * and dev->tx_timeout() should be called to fix the problem
+ */
+#define CAS_TX_TIMEOUT (HZ)
+#define CAS_LINK_TIMEOUT (22*HZ/10)
+#define CAS_LINK_FAST_TIMEOUT (1)
+
+/* timeout values for state changing. these specify the number
+ * of 10us delays to be used before giving up.
+ */
+#define STOP_TRIES_PHY 1000
+#define STOP_TRIES 5000
+
+/* specify a minimum frame size to deal with some fifo issues
+ * max mtu == 2 * page size - ethernet header - 64 - swivel =
+ * 2 * page_size - 0x50
+ */
+#define CAS_MIN_FRAME 97
+#define CAS_1000MB_MIN_FRAME 255
+#define CAS_MIN_MTU 60
+#define CAS_MAX_MTU min(((cp->page_size << 1) - 0x50), 9000)
+
+#if 1
+/*
+ * Eliminate these and use separate atomic counters for each, to
+ * avoid a race condition.
+ */
+#else
+#define CAS_RESET_MTU 1
+#define CAS_RESET_ALL 2
+#define CAS_RESET_SPARE 3
+#endif
+
+static char version[] __devinitdata =
+ DRV_MODULE_NAME ".c:v" DRV_MODULE_VERSION " (" DRV_MODULE_RELDATE ")\n";
+
+MODULE_AUTHOR("Adrian Sun (asun@darksunrising.com)");
+MODULE_DESCRIPTION("Sun Cassini(+) ethernet driver");
+MODULE_LICENSE("GPL");
+MODULE_PARM(cassini_debug, "i");
+MODULE_PARM_DESC(cassini_debug, "Cassini bitmapped debugging message enable value");
+MODULE_PARM(link_mode, "i");
+MODULE_PARM_DESC(link_mode, "default link mode");
+
+/*
+ * Work around for a PCS bug in which the link goes down due to the chip
+ * being confused and never showing a link status of "up."
+ */
+#define DEFAULT_LINKDOWN_TIMEOUT 5
+/*
+ * Value in seconds, for user input.
+ */
+static int linkdown_timeout = DEFAULT_LINKDOWN_TIMEOUT;
+MODULE_PARM(linkdown_timeout, "i");
+MODULE_PARM_DESC(linkdown_timeout,
+"min reset interval in sec. for PCS linkdown issue; disabled if not positive");
+
+/*
+ * value in 'ticks' (units used by jiffies). Set when we init the
+ * module because 'HZ' in actually a function call on some flavors of
+ * Linux. This will default to DEFAULT_LINKDOWN_TIMEOUT * HZ.
+ */
+static int link_transition_timeout;
+
+
+static int cassini_debug = -1; /* -1 == use CAS_DEF_MSG_ENABLE as value */
+static int link_mode;
+
+static u16 link_modes[] __devinitdata = {
+ BMCR_ANENABLE, /* 0 : autoneg */
+ 0, /* 1 : 10bt half duplex */
+ BMCR_SPEED100, /* 2 : 100bt half duplex */
+ BMCR_FULLDPLX, /* 3 : 10bt full duplex */
+ BMCR_SPEED100|BMCR_FULLDPLX, /* 4 : 100bt full duplex */
+ CAS_BMCR_SPEED1000|BMCR_FULLDPLX /* 5 : 1000bt full duplex */
+};
+
+static struct pci_device_id cas_pci_tbl[] __devinitdata = {
+ { PCI_VENDOR_ID_SUN, PCI_DEVICE_ID_SUN_CASSINI,
+ PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0UL },
+ { PCI_VENDOR_ID_NS, PCI_DEVICE_ID_NS_SATURN,
+ PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0UL },
+ { 0, }
+};
+
+MODULE_DEVICE_TABLE(pci, cas_pci_tbl);
+
+static void cas_set_link_modes(struct cas *cp);
+
+static inline void cas_lock_tx(struct cas *cp)
+{
+ int i;
+
+ for (i = 0; i < N_TX_RINGS; i++)
+ spin_lock(&cp->tx_lock[i]);
+}
+
+static inline void cas_lock_all(struct cas *cp)
+{
+ spin_lock_irq(&cp->lock);
+ cas_lock_tx(cp);
+}
+
+/* WTZ: QA was finding deadlock problems with the previous
+ * versions after long test runs with multiple cards per machine.
+ * See if replacing cas_lock_all with safer versions helps. The
+ * symptoms QA is reporting match those we'd expect if interrupts
+ * aren't being properly restored, and we fixed a previous deadlock
+ * with similar symptoms by using save/restore versions in other
+ * places.
+ */
+#define cas_lock_all_save(cp, flags) \
+do { \
+ struct cas *xxxcp = (cp); \
+ spin_lock_irqsave(&xxxcp->lock, flags); \
+ cas_lock_tx(xxxcp); \
+} while (0)
+
+static inline void cas_unlock_tx(struct cas *cp)
+{
+ int i;
+
+ for (i = N_TX_RINGS; i > 0; i--)
+ spin_unlock(&cp->tx_lock[i - 1]);
+}
+
+static inline void cas_unlock_all(struct cas *cp)
+{
+ cas_unlock_tx(cp);
+ spin_unlock_irq(&cp->lock);
+}
+
+#define cas_unlock_all_restore(cp, flags) \
+do { \
+ struct cas *xxxcp = (cp); \
+ cas_unlock_tx(xxxcp); \
+ spin_unlock_irqrestore(&xxxcp->lock, flags); \
+} while (0)
+
+static void cas_disable_irq(struct cas *cp, const int ring)
+{
+ /* Make sure we won't get any more interrupts */
+ if (ring == 0) {
+ writel(0xFFFFFFFF, cp->regs + REG_INTR_MASK);
+ return;
+ }
+
+ /* disable completion interrupts and selectively mask */
+ if (cp->cas_flags & CAS_FLAG_REG_PLUS) {
+ switch (ring) {
+#if defined (USE_PCI_INTB) || defined(USE_PCI_INTC) || defined(USE_PCI_INTD)
+#ifdef USE_PCI_INTB
+ case 1:
+#endif
+#ifdef USE_PCI_INTC
+ case 2:
+#endif
+#ifdef USE_PCI_INTD
+ case 3:
+#endif
+ writel(INTRN_MASK_CLEAR_ALL | INTRN_MASK_RX_EN,
+ cp->regs + REG_PLUS_INTRN_MASK(ring));
+ break;
+#endif
+ default:
+ writel(INTRN_MASK_CLEAR_ALL, cp->regs +
+ REG_PLUS_INTRN_MASK(ring));
+ break;
+ }
+ }
+}
+
+static inline void cas_mask_intr(struct cas *cp)
+{
+ int i;
+
+ for (i = 0; i < N_RX_COMP_RINGS; i++)
+ cas_disable_irq(cp, i);
+}
+
+static void cas_enable_irq(struct cas *cp, const int ring)
+{
+ if (ring == 0) { /* all but TX_DONE */
+ writel(INTR_TX_DONE, cp->regs + REG_INTR_MASK);
+ return;
+ }
+
+ if (cp->cas_flags & CAS_FLAG_REG_PLUS) {
+ switch (ring) {
+#if defined (USE_PCI_INTB) || defined(USE_PCI_INTC) || defined(USE_PCI_INTD)
+#ifdef USE_PCI_INTB
+ case 1:
+#endif
+#ifdef USE_PCI_INTC
+ case 2:
+#endif
+#ifdef USE_PCI_INTD
+ case 3:
+#endif
+ writel(INTRN_MASK_RX_EN, cp->regs +
+ REG_PLUS_INTRN_MASK(ring));
+ break;
+#endif
+ default:
+ break;
+ }
+ }
+}
+
+static inline void cas_unmask_intr(struct cas *cp)
+{
+ int i;
+
+ for (i = 0; i < N_RX_COMP_RINGS; i++)
+ cas_enable_irq(cp, i);
+}
+
+static inline void cas_entropy_gather(struct cas *cp)
+{
+#ifdef USE_ENTROPY_DEV
+ if ((cp->cas_flags & CAS_FLAG_ENTROPY_DEV) == 0)
+ return;
+
+ batch_entropy_store(readl(cp->regs + REG_ENTROPY_IV),
+ readl(cp->regs + REG_ENTROPY_IV),
+ sizeof(uint64_t)*8);
+#endif
+}
+
+static inline void cas_entropy_reset(struct cas *cp)
+{
+#ifdef USE_ENTROPY_DEV
+ if ((cp->cas_flags & CAS_FLAG_ENTROPY_DEV) == 0)
+ return;
+
+ writel(BIM_LOCAL_DEV_PAD | BIM_LOCAL_DEV_PROM | BIM_LOCAL_DEV_EXT,
+ cp->regs + REG_BIM_LOCAL_DEV_EN);
+ writeb(ENTROPY_RESET_STC_MODE, cp->regs + REG_ENTROPY_RESET);
+ writeb(0x55, cp->regs + REG_ENTROPY_RAND_REG);
+
+ /* if we read back 0x0, we don't have an entropy device */
+ if (readb(cp->regs + REG_ENTROPY_RAND_REG) == 0)
+ cp->cas_flags &= ~CAS_FLAG_ENTROPY_DEV;
+#endif
+}
+
+/* access to the phy. the following assumes that we've initialized the MIF to
+ * be in frame rather than bit-bang mode
+ */
+static u16 cas_phy_read(struct cas *cp, int reg)
+{
+ u32 cmd;
+ int limit = STOP_TRIES_PHY;
+
+ cmd = MIF_FRAME_ST | MIF_FRAME_OP_READ;
+ cmd |= CAS_BASE(MIF_FRAME_PHY_ADDR, cp->phy_addr);
+ cmd |= CAS_BASE(MIF_FRAME_REG_ADDR, reg);
+ cmd |= MIF_FRAME_TURN_AROUND_MSB;
+ writel(cmd, cp->regs + REG_MIF_FRAME);
+
+ /* poll for completion */
+ while (limit-- > 0) {
+ udelay(10);
+ cmd = readl(cp->regs + REG_MIF_FRAME);
+ if (cmd & MIF_FRAME_TURN_AROUND_LSB)
+ return (cmd & MIF_FRAME_DATA_MASK);
+ }
+ return 0xFFFF; /* -1 */
+}
+
+static int cas_phy_write(struct cas *cp, int reg, u16 val)
+{
+ int limit = STOP_TRIES_PHY;
+ u32 cmd;
+
+ cmd = MIF_FRAME_ST | MIF_FRAME_OP_WRITE;
+ cmd |= CAS_BASE(MIF_FRAME_PHY_ADDR, cp->phy_addr);
+ cmd |= CAS_BASE(MIF_FRAME_REG_ADDR, reg);
+ cmd |= MIF_FRAME_TURN_AROUND_MSB;
+ cmd |= val & MIF_FRAME_DATA_MASK;
+ writel(cmd, cp->regs + REG_MIF_FRAME);
+
+ /* poll for completion */
+ while (limit-- > 0) {
+ udelay(10);
+ cmd = readl(cp->regs + REG_MIF_FRAME);
+ if (cmd & MIF_FRAME_TURN_AROUND_LSB)
+ return 0;
+ }
+ return -1;
+}
+
+static void cas_phy_powerup(struct cas *cp)
+{
+ u16 ctl = cas_phy_read(cp, MII_BMCR);
+
+ if ((ctl & BMCR_PDOWN) == 0)
+ return;
+ ctl &= ~BMCR_PDOWN;
+ cas_phy_write(cp, MII_BMCR, ctl);
+}
+
+static void cas_phy_powerdown(struct cas *cp)
+{
+ u16 ctl = cas_phy_read(cp, MII_BMCR);
+
+ if (ctl & BMCR_PDOWN)
+ return;
+ ctl |= BMCR_PDOWN;
+ cas_phy_write(cp, MII_BMCR, ctl);
+}
+
+/* cp->lock held. note: the last put_page will free the buffer */
+static int cas_page_free(struct cas *cp, cas_page_t *page)
+{
+ pci_unmap_page(cp->pdev, page->dma_addr, cp->page_size,
+ PCI_DMA_FROMDEVICE);
+ __free_pages(page->buffer, cp->page_order);
+ kfree(page);
+ return 0;
+}
+
+#ifdef RX_COUNT_BUFFERS
+#define RX_USED_ADD(x, y) ((x)->used += (y))
+#define RX_USED_SET(x, y) ((x)->used = (y))
+#else
+#define RX_USED_ADD(x, y)
+#define RX_USED_SET(x, y)
+#endif
+
+/* local page allocation routines for the receive buffers. jumbo pages
+ * require at least 8K contiguous and 8K aligned buffers.
+ */
+static cas_page_t *cas_page_alloc(struct cas *cp, const int flags)
+{
+ cas_page_t *page;
+
+ page = kmalloc(sizeof(cas_page_t), flags);
+ if (!page)
+ return NULL;
+
+ INIT_LIST_HEAD(&page->list);
+ RX_USED_SET(page, 0);
+ page->buffer = alloc_pages(flags, cp->page_order);
+ if (!page->buffer)
+ goto page_err;
+ page->dma_addr = pci_map_page(cp->pdev, page->buffer, 0,
+ cp->page_size, PCI_DMA_FROMDEVICE);
+ return page;
+
+page_err:
+ kfree(page);
+ return NULL;
+}
+
+/* initialize spare pool of rx buffers, but allocate during the open */
+static void cas_spare_init(struct cas *cp)
+{
+ spin_lock(&cp->rx_inuse_lock);
+ INIT_LIST_HEAD(&cp->rx_inuse_list);
+ spin_unlock(&cp->rx_inuse_lock);
+
+ spin_lock(&cp->rx_spare_lock);
+ INIT_LIST_HEAD(&cp->rx_spare_list);
+ cp->rx_spares_needed = RX_SPARE_COUNT;
+ spin_unlock(&cp->rx_spare_lock);
+}
+
+/* used on close. free all the spare buffers. */
+static void cas_spare_free(struct cas *cp)
+{
+ struct list_head list, *elem, *tmp;
+
+ /* free spare buffers */
+ INIT_LIST_HEAD(&list);
+ spin_lock(&cp->rx_spare_lock);
+ list_splice(&cp->rx_spare_list, &list);
+ INIT_LIST_HEAD(&cp->rx_spare_list);
+ spin_unlock(&cp->rx_spare_lock);
+ list_for_each_safe(elem, tmp, &list) {
+ cas_page_free(cp, list_entry(elem, cas_page_t, list));
+ }
+
+ INIT_LIST_HEAD(&list);
+#if 1
+ /*
+ * Looks like Adrian had protected this with a different
+ * lock than used everywhere else to manipulate this list.
+ */
+ spin_lock(&cp->rx_inuse_lock);
+ list_splice(&cp->rx_inuse_list, &list);
+ INIT_LIST_HEAD(&cp->rx_inuse_list);
+ spin_unlock(&cp->rx_inuse_lock);
+#else
+ spin_lock(&cp->rx_spare_lock);
+ list_splice(&cp->rx_inuse_list, &list);
+ INIT_LIST_HEAD(&cp->rx_inuse_list);
+ spin_unlock(&cp->rx_spare_lock);
+#endif
+ list_for_each_safe(elem, tmp, &list) {
+ cas_page_free(cp, list_entry(elem, cas_page_t, list));
+ }
+}
+
+/* replenish spares if needed */
+static void cas_spare_recover(struct cas *cp, const int flags)
+{
+ struct list_head list, *elem, *tmp;
+ int needed, i;
+
+ /* check inuse list. if we don't need any more free buffers,
+ * just free it
+ */
+
+ /* make a local copy of the list */
+ INIT_LIST_HEAD(&list);
+ spin_lock(&cp->rx_inuse_lock);
+ list_splice(&cp->rx_inuse_list, &list);
+ INIT_LIST_HEAD(&cp->rx_inuse_list);
+ spin_unlock(&cp->rx_inuse_lock);
+
+ list_for_each_safe(elem, tmp, &list) {
+ cas_page_t *page = list_entry(elem, cas_page_t, list);
+
+ if (page_count(page->buffer) > 1)
+ continue;
+
+ list_del(elem);
+ spin_lock(&cp->rx_spare_lock);
+ if (cp->rx_spares_needed > 0) {
+ list_add(elem, &cp->rx_spare_list);
+ cp->rx_spares_needed--;
+ spin_unlock(&cp->rx_spare_lock);
+ } else {
+ spin_unlock(&cp->rx_spare_lock);
+ cas_page_free(cp, page);
+ }
+ }
+
+ /* put any inuse buffers back on the list */
+ if (!list_empty(&list)) {
+ spin_lock(&cp->rx_inuse_lock);
+ list_splice(&list, &cp->rx_inuse_list);
+ spin_unlock(&cp->rx_inuse_lock);
+ }
+
+ spin_lock(&cp->rx_spare_lock);
+ needed = cp->rx_spares_needed;
+ spin_unlock(&cp->rx_spare_lock);
+ if (!needed)
+ return;
+
+ /* we still need spares, so try to allocate some */
+ INIT_LIST_HEAD(&list);
+ i = 0;
+ while (i < needed) {
+ cas_page_t *spare = cas_page_alloc(cp, flags);
+ if (!spare)
+ break;
+ list_add(&spare->list, &list);
+ i++;
+ }
+
+ spin_lock(&cp->rx_spare_lock);
+ list_splice(&list, &cp->rx_spare_list);
+ cp->rx_spares_needed -= i;
+ spin_unlock(&cp->rx_spare_lock);
+}
+
+/* pull a page from the list. */
+static cas_page_t *cas_page_dequeue(struct cas *cp)
+{
+ struct list_head *entry;
+ int recover;
+
+ spin_lock(&cp->rx_spare_lock);
+ if (list_empty(&cp->rx_spare_list)) {
+ /* try to do a quick recovery */
+ spin_unlock(&cp->rx_spare_lock);
+ cas_spare_recover(cp, GFP_ATOMIC);
+ spin_lock(&cp->rx_spare_lock);
+ if (list_empty(&cp->rx_spare_list)) {
+ if (netif_msg_rx_err(cp))
+ printk(KERN_ERR "%s: no spare buffers "
+ "available.\n", cp->dev->name);
+ spin_unlock(&cp->rx_spare_lock);
+ return NULL;
+ }
+ }
+
+ entry = cp->rx_spare_list.next;
+ list_del(entry);
+ recover = ++cp->rx_spares_needed;
+ spin_unlock(&cp->rx_spare_lock);
+
+ /* trigger the timer to do the recovery */
+ if ((recover & (RX_SPARE_RECOVER_VAL - 1)) == 0) {
+#if 1
+ atomic_inc(&cp->reset_task_pending);
+ atomic_inc(&cp->reset_task_pending_spare);
+ schedule_work(&cp->reset_task);
+#else
+ atomic_set(&cp->reset_task_pending, CAS_RESET_SPARE);
+ schedule_work(&cp->reset_task);
+#endif
+ }
+ return list_entry(entry, cas_page_t, list);
+}
+
+
+static void cas_mif_poll(struct cas *cp, const int enable)
+{
+ u32 cfg;
+
+ cfg = readl(cp->regs + REG_MIF_CFG);
+ cfg &= (MIF_CFG_MDIO_0 | MIF_CFG_MDIO_1);
+
+ if (cp->phy_type & CAS_PHY_MII_MDIO1)
+ cfg |= MIF_CFG_PHY_SELECT;
+
+ /* poll and interrupt on link status change. */
+ if (enable) {
+ cfg |= MIF_CFG_POLL_EN;
+ cfg |= CAS_BASE(MIF_CFG_POLL_REG, MII_BMSR);
+ cfg |= CAS_BASE(MIF_CFG_POLL_PHY, cp->phy_addr);
+ }
+ writel((enable) ? ~(BMSR_LSTATUS | BMSR_ANEGCOMPLETE) : 0xFFFF,
+ cp->regs + REG_MIF_MASK);
+ writel(cfg, cp->regs + REG_MIF_CFG);
+}
+
+/* Must be invoked under cp->lock */
+static void cas_begin_auto_negotiation(struct cas *cp, struct ethtool_cmd *ep)
+{
+ u16 ctl;
+#if 1
+ int lcntl;
+ int changed = 0;
+ int oldstate = cp->lstate;
+ int link_was_not_down = !(oldstate == link_down);
+#endif
+ /* Setup link parameters */
+ if (!ep)
+ goto start_aneg;
+ lcntl = cp->link_cntl;
+ if (ep->autoneg == AUTONEG_ENABLE)
+ cp->link_cntl = BMCR_ANENABLE;
+ else {
+ cp->link_cntl = 0;
+ if (ep->speed == SPEED_100)
+ cp->link_cntl |= BMCR_SPEED100;
+ else if (ep->speed == SPEED_1000)
+ cp->link_cntl |= CAS_BMCR_SPEED1000;
+ if (ep->duplex == DUPLEX_FULL)
+ cp->link_cntl |= BMCR_FULLDPLX;
+ }
+#if 1
+ changed = (lcntl != cp->link_cntl);
+#endif
+start_aneg:
+ if (cp->lstate == link_up) {
+ printk(KERN_INFO "%s: PCS link down.\n",
+ cp->dev->name);
+ } else {
+ if (changed) {
+ printk(KERN_INFO "%s: link configuration changed\n",
+ cp->dev->name);
+ }
+ }
+ cp->lstate = link_down;
+ cp->link_transition = LINK_TRANSITION_LINK_DOWN;
+ if (!cp->hw_running)
+ return;
+#if 1
+ /*
+ * WTZ: If the old state was link_up, we turn off the carrier
+ * to replicate everything we do elsewhere on a link-down
+ * event when we were already in a link-up state..
+ */
+ if (oldstate == link_up)
+ netif_carrier_off(cp->dev);
+ if (changed && link_was_not_down) {
+ /*
+ * WTZ: This branch will simply schedule a full reset after
+ * we explicitly changed link modes in an ioctl. See if this
+ * fixes the link-problems we were having for forced mode.
+ */
+ atomic_inc(&cp->reset_task_pending);
+ atomic_inc(&cp->reset_task_pending_all);
+ schedule_work(&cp->reset_task);
+ cp->timer_ticks = 0;
+ mod_timer(&cp->link_timer, jiffies + CAS_LINK_TIMEOUT);
+ return;
+ }
+#endif
+ if (cp->phy_type & CAS_PHY_SERDES) {
+ u32 val = readl(cp->regs + REG_PCS_MII_CTRL);
+
+ if (cp->link_cntl & BMCR_ANENABLE) {
+ val |= (PCS_MII_RESTART_AUTONEG | PCS_MII_AUTONEG_EN);
+ cp->lstate = link_aneg;
+ } else {
+ if (cp->link_cntl & BMCR_FULLDPLX)
+ val |= PCS_MII_CTRL_DUPLEX;
+ val &= ~PCS_MII_AUTONEG_EN;
+ cp->lstate = link_force_ok;
+ }
+ cp->link_transition = LINK_TRANSITION_LINK_CONFIG;
+ writel(val, cp->regs + REG_PCS_MII_CTRL);
+
+ } else {
+ cas_mif_poll(cp, 0);
+ ctl = cas_phy_read(cp, MII_BMCR);
+ ctl &= ~(BMCR_FULLDPLX | BMCR_SPEED100 |
+ CAS_BMCR_SPEED1000 | BMCR_ANENABLE);
+ ctl |= cp->link_cntl;
+ if (ctl & BMCR_ANENABLE) {
+ ctl |= BMCR_ANRESTART;
+ cp->lstate = link_aneg;
+ } else {
+ cp->lstate = link_force_ok;
+ }
+ cp->link_transition = LINK_TRANSITION_LINK_CONFIG;
+ cas_phy_write(cp, MII_BMCR, ctl);
+ cas_mif_poll(cp, 1);
+ }
+
+ cp->timer_ticks = 0;
+ mod_timer(&cp->link_timer, jiffies + CAS_LINK_TIMEOUT);
+}
+
+/* Must be invoked under cp->lock. */
+static int cas_reset_mii_phy(struct cas *cp)
+{
+ int limit = STOP_TRIES_PHY;
+ u16 val;
+
+ cas_phy_write(cp, MII_BMCR, BMCR_RESET);
+ udelay(100);
+ while (limit--) {
+ val = cas_phy_read(cp, MII_BMCR);
+ if ((val & BMCR_RESET) == 0)
+ break;
+ udelay(10);
+ }
+ return (limit <= 0);
+}
+
+static void cas_saturn_firmware_load(struct cas *cp)
+{
+ cas_saturn_patch_t *patch = cas_saturn_patch;
+
+ cas_phy_powerdown(cp);
+
+ /* expanded memory access mode */
+ cas_phy_write(cp, DP83065_MII_MEM, 0x0);
+
+ /* pointer configuration for new firmware */
+ cas_phy_write(cp, DP83065_MII_REGE, 0x8ff9);
+ cas_phy_write(cp, DP83065_MII_REGD, 0xbd);
+ cas_phy_write(cp, DP83065_MII_REGE, 0x8ffa);
+ cas_phy_write(cp, DP83065_MII_REGD, 0x82);
+ cas_phy_write(cp, DP83065_MII_REGE, 0x8ffb);
+ cas_phy_write(cp, DP83065_MII_REGD, 0x0);
+ cas_phy_write(cp, DP83065_MII_REGE, 0x8ffc);
+ cas_phy_write(cp, DP83065_MII_REGD, 0x39);
+
+ /* download new firmware */
+ cas_phy_write(cp, DP83065_MII_MEM, 0x1);
+ cas_phy_write(cp, DP83065_MII_REGE, patch->addr);
+ while (patch->addr) {
+ cas_phy_write(cp, DP83065_MII_REGD, patch->val);
+ patch++;
+ }
+
+ /* enable firmware */
+ cas_phy_write(cp, DP83065_MII_REGE, 0x8ff8);
+ cas_phy_write(cp, DP83065_MII_REGD, 0x1);
+}
+
+
+/* phy initialization */
+static void cas_phy_init(struct cas *cp)
+{
+ u16 val;
+
+ /* if we're in MII/GMII mode, set up phy */
+ if (CAS_PHY_MII(cp->phy_type)) {
+ writel(PCS_DATAPATH_MODE_MII,
+ cp->regs + REG_PCS_DATAPATH_MODE);
+
+ cas_mif_poll(cp, 0);
+ cas_reset_mii_phy(cp); /* take out of isolate mode */
+
+ if (PHY_LUCENT_B0 == cp->phy_id) {
+ /* workaround link up/down issue with lucent */
+ cas_phy_write(cp, LUCENT_MII_REG, 0x8000);
+ cas_phy_write(cp, MII_BMCR, 0x00f1);
+ cas_phy_write(cp, LUCENT_MII_REG, 0x0);
+
+ } else if (PHY_BROADCOM_B0 == (cp->phy_id & 0xFFFFFFFC)) {
+ /* workarounds for broadcom phy */
+ cas_phy_write(cp, BROADCOM_MII_REG8, 0x0C20);
+ cas_phy_write(cp, BROADCOM_MII_REG7, 0x0012);
+ cas_phy_write(cp, BROADCOM_MII_REG5, 0x1804);
+ cas_phy_write(cp, BROADCOM_MII_REG7, 0x0013);
+ cas_phy_write(cp, BROADCOM_MII_REG5, 0x1204);
+ cas_phy_write(cp, BROADCOM_MII_REG7, 0x8006);
+ cas_phy_write(cp, BROADCOM_MII_REG5, 0x0132);
+ cas_phy_write(cp, BROADCOM_MII_REG7, 0x8006);
+ cas_phy_write(cp, BROADCOM_MII_REG5, 0x0232);
+ cas_phy_write(cp, BROADCOM_MII_REG7, 0x201F);
+ cas_phy_write(cp, BROADCOM_MII_REG5, 0x0A20);
+
+ } else if (PHY_BROADCOM_5411 == cp->phy_id) {
+ val = cas_phy_read(cp, BROADCOM_MII_REG4);
+ val = cas_phy_read(cp, BROADCOM_MII_REG4);
+ if (val & 0x0080) {
+ /* link workaround */
+ cas_phy_write(cp, BROADCOM_MII_REG4,
+ val & ~0x0080);
+ }
+
+ } else if (cp->cas_flags & CAS_FLAG_SATURN) {
+ writel((cp->phy_type & CAS_PHY_MII_MDIO0) ?
+ SATURN_PCFG_FSI : 0x0,
+ cp->regs + REG_SATURN_PCFG);
+
+ /* load firmware to address 10Mbps auto-negotiation
+ * issue. NOTE: this will need to be changed if the
+ * default firmware gets fixed.
+ */
+ if (PHY_NS_DP83065 == cp->phy_id) {
+ cas_saturn_firmware_load(cp);
+ }
+ cas_phy_powerup(cp);
+ }
+
+ /* advertise capabilities */
+ val = cas_phy_read(cp, MII_BMCR);
+ val &= ~BMCR_ANENABLE;
+ cas_phy_write(cp, MII_BMCR, val);
+ udelay(10);
+
+ cas_phy_write(cp, MII_ADVERTISE,
+ cas_phy_read(cp, MII_ADVERTISE) |
+ (ADVERTISE_10HALF | ADVERTISE_10FULL |
+ ADVERTISE_100HALF | ADVERTISE_100FULL |
+ CAS_ADVERTISE_PAUSE |
+ CAS_ADVERTISE_ASYM_PAUSE));
+
+ if (cp->cas_flags & CAS_FLAG_1000MB_CAP) {
+ /* make sure that we don't advertise half
+ * duplex to avoid a chip issue
+ */
+ val = cas_phy_read(cp, CAS_MII_1000_CTRL);
+ val &= ~CAS_ADVERTISE_1000HALF;
+ val |= CAS_ADVERTISE_1000FULL;
+ cas_phy_write(cp, CAS_MII_1000_CTRL, val);
+ }
+
+ } else {
+ /* reset pcs for serdes */
+ u32 val;
+ int limit;
+
+ writel(PCS_DATAPATH_MODE_SERDES,
+ cp->regs + REG_PCS_DATAPATH_MODE);
+
+ /* enable serdes pins on saturn */
+ if (cp->cas_flags & CAS_FLAG_SATURN)
+ writel(0, cp->regs + REG_SATURN_PCFG);
+
+ /* Reset PCS unit. */
+ val = readl(cp->regs + REG_PCS_MII_CTRL);
+ val |= PCS_MII_RESET;
+ writel(val, cp->regs + REG_PCS_MII_CTRL);
+
+ limit = STOP_TRIES;
+ while (limit-- > 0) {
+ udelay(10);
+ if ((readl(cp->regs + REG_PCS_MII_CTRL) &
+ PCS_MII_RESET) == 0)
+ break;
+ }
+ if (limit <= 0)
+ printk(KERN_WARNING "%s: PCS reset bit would not "
+ "clear [%08x].\n", cp->dev->name,
+ readl(cp->regs + REG_PCS_STATE_MACHINE));
+
+ /* Make sure PCS is disabled while changing advertisement
+ * configuration.
+ */
+ writel(0x0, cp->regs + REG_PCS_CFG);
+
+ /* Advertise all capabilities except half-duplex. */
+ val = readl(cp->regs + REG_PCS_MII_ADVERT);
+ val &= ~PCS_MII_ADVERT_HD;
+ val |= (PCS_MII_ADVERT_FD | PCS_MII_ADVERT_SYM_PAUSE |
+ PCS_MII_ADVERT_ASYM_PAUSE);
+ writel(val, cp->regs + REG_PCS_MII_ADVERT);
+
+ /* enable PCS */
+ writel(PCS_CFG_EN, cp->regs + REG_PCS_CFG);
+
+ /* pcs workaround: enable sync detect */
+ writel(PCS_SERDES_CTRL_SYNCD_EN,
+ cp->regs + REG_PCS_SERDES_CTRL);
+ }
+}
+
+
+static int cas_pcs_link_check(struct cas *cp)
+{
+ u32 stat, state_machine;
+ int retval = 0;
+
+ /* The link status bit latches on zero, so you must
+ * read it twice in such a case to see a transition
+ * to the link being up.
+ */
+ stat = readl(cp->regs + REG_PCS_MII_STATUS);
+ if ((stat & PCS_MII_STATUS_LINK_STATUS) == 0)
+ stat = readl(cp->regs + REG_PCS_MII_STATUS);
+
+ /* The remote-fault indication is only valid
+ * when autoneg has completed.
+ */
+ if ((stat & (PCS_MII_STATUS_AUTONEG_COMP |
+ PCS_MII_STATUS_REMOTE_FAULT)) ==
+ (PCS_MII_STATUS_AUTONEG_COMP | PCS_MII_STATUS_REMOTE_FAULT)) {
+ if (netif_msg_link(cp))
+ printk(KERN_INFO "%s: PCS RemoteFault\n",
+ cp->dev->name);
+ }
+
+ /* work around link detection issue by querying the PCS state
+ * machine directly.
+ */
+ state_machine = readl(cp->regs + REG_PCS_STATE_MACHINE);
+ if ((state_machine & PCS_SM_LINK_STATE_MASK) != SM_LINK_STATE_UP) {
+ stat &= ~PCS_MII_STATUS_LINK_STATUS;
+ } else if (state_machine & PCS_SM_WORD_SYNC_STATE_MASK) {
+ stat |= PCS_MII_STATUS_LINK_STATUS;
+ }
+
+ if (stat & PCS_MII_STATUS_LINK_STATUS) {
+ if (cp->lstate != link_up) {
+ if (cp->opened) {
+ cp->lstate = link_up;
+ cp->link_transition = LINK_TRANSITION_LINK_UP;
+
+ cas_set_link_modes(cp);
+ netif_carrier_on(cp->dev);
+ }
+ }
+ } else if (cp->lstate == link_up) {
+ cp->lstate = link_down;
+ if (link_transition_timeout != 0 &&
+ cp->link_transition != LINK_TRANSITION_REQUESTED_RESET &&
+ !cp->link_transition_jiffies_valid) {
+ /*
+ * force a reset, as a workaround for the
+ * link-failure problem. May want to move this to a
+ * point a bit earlier in the sequence. If we had
+ * generated a reset a short time ago, we'll wait for
+ * the link timer to check the status until a
+ * timer expires (link_transistion_jiffies_valid is
+ * true when the timer is running.) Instead of using
+ * a system timer, we just do a check whenever the
+ * link timer is running - this clears the flag after
+ * a suitable delay.
+ */
+ retval = 1;
+ cp->link_transition = LINK_TRANSITION_REQUESTED_RESET;
+ cp->link_transition_jiffies = jiffies;
+ cp->link_transition_jiffies_valid = 1;
+ } else {
+ cp->link_transition = LINK_TRANSITION_ON_FAILURE;
+ }
+ netif_carrier_off(cp->dev);
+ if (cp->opened && netif_msg_link(cp)) {
+ printk(KERN_INFO "%s: PCS link down.\n",
+ cp->dev->name);
+ }
+
+ /* Cassini only: if you force a mode, there can be
+ * sync problems on link down. to fix that, the following
+ * things need to be checked:
+ * 1) read serialink state register
+ * 2) read pcs status register to verify link down.
+ * 3) if link down and serial link == 0x03, then you need
+ * to global reset the chip.
+ */
+ if ((cp->cas_flags & CAS_FLAG_REG_PLUS) == 0) {
+ /* should check to see if we're in a forced mode */
+ stat = readl(cp->regs + REG_PCS_SERDES_STATE);
+ if (stat == 0x03)
+ return 1;
+ }
+ } else if (cp->lstate == link_down) {
+ if (link_transition_timeout != 0 &&
+ cp->link_transition != LINK_TRANSITION_REQUESTED_RESET &&
+ !cp->link_transition_jiffies_valid) {
+ /* force a reset, as a workaround for the
+ * link-failure problem. May want to move
+ * this to a point a bit earlier in the
+ * sequence.
+ */
+ retval = 1;
+ cp->link_transition = LINK_TRANSITION_REQUESTED_RESET;
+ cp->link_transition_jiffies = jiffies;
+ cp->link_transition_jiffies_valid = 1;
+ } else {
+ cp->link_transition = LINK_TRANSITION_STILL_FAILED;
+ }
+ }
+
+ return retval;
+}
+
+static int cas_pcs_interrupt(struct net_device *dev,
+ struct cas *cp, u32 status)
+{
+ u32 stat = readl(cp->regs + REG_PCS_INTR_STATUS);
+
+ if ((stat & PCS_INTR_STATUS_LINK_CHANGE) == 0)
+ return 0;
+ return cas_pcs_link_check(cp);
+}
+
+static int cas_txmac_interrupt(struct net_device *dev,
+ struct cas *cp, u32 status)
+{
+ u32 txmac_stat = readl(cp->regs + REG_MAC_TX_STATUS);
+
+ if (!txmac_stat)
+ return 0;
+
+ if (netif_msg_intr(cp))
+ printk(KERN_DEBUG "%s: txmac interrupt, txmac_stat: 0x%x\n",
+ cp->dev->name, txmac_stat);
+
+ /* Defer timer expiration is quite normal,
+ * don't even log the event.
+ */
+ if ((txmac_stat & MAC_TX_DEFER_TIMER) &&
+ !(txmac_stat & ~MAC_TX_DEFER_TIMER))
+ return 0;
+
+ spin_lock(&cp->stat_lock[0]);
+ if (txmac_stat & MAC_TX_UNDERRUN) {
+ printk(KERN_ERR "%s: TX MAC xmit underrun.\n",
+ dev->name);
+ cp->net_stats[0].tx_fifo_errors++;
+ }
+
+ if (txmac_stat & MAC_TX_MAX_PACKET_ERR) {
+ printk(KERN_ERR "%s: TX MAC max packet size error.\n",
+ dev->name);
+ cp->net_stats[0].tx_errors++;
+ }
+
+ /* The rest are all cases of one of the 16-bit TX
+ * counters expiring.
+ */
+ if (txmac_stat & MAC_TX_COLL_NORMAL)
+ cp->net_stats[0].collisions += 0x10000;
+
+ if (txmac_stat & MAC_TX_COLL_EXCESS) {
+ cp->net_stats[0].tx_aborted_errors += 0x10000;
+ cp->net_stats[0].collisions += 0x10000;
+ }
+
+ if (txmac_stat & MAC_TX_COLL_LATE) {
+ cp->net_stats[0].tx_aborted_errors += 0x10000;
+ cp->net_stats[0].collisions += 0x10000;
+ }
+ spin_unlock(&cp->stat_lock[0]);
+
+ /* We do not keep track of MAC_TX_COLL_FIRST and
+ * MAC_TX_PEAK_ATTEMPTS events.
+ */
+ return 0;
+}
+
+static void cas_load_firmware(struct cas *cp, cas_hp_inst_t *firmware)
+{
+ cas_hp_inst_t *inst;
+ u32 val;
+ int i;
+
+ i = 0;
+ while ((inst = firmware) && inst->note) {
+ writel(i, cp->regs + REG_HP_INSTR_RAM_ADDR);
+
+ val = CAS_BASE(HP_INSTR_RAM_HI_VAL, inst->val);
+ val |= CAS_BASE(HP_INSTR_RAM_HI_MASK, inst->mask);
+ writel(val, cp->regs + REG_HP_INSTR_RAM_DATA_HI);
+
+ val = CAS_BASE(HP_INSTR_RAM_MID_OUTARG, inst->outarg >> 10);
+ val |= CAS_BASE(HP_INSTR_RAM_MID_OUTOP, inst->outop);
+ val |= CAS_BASE(HP_INSTR_RAM_MID_FNEXT, inst->fnext);
+ val |= CAS_BASE(HP_INSTR_RAM_MID_FOFF, inst->foff);
+ val |= CAS_BASE(HP_INSTR_RAM_MID_SNEXT, inst->snext);
+ val |= CAS_BASE(HP_INSTR_RAM_MID_SOFF, inst->soff);
+ val |= CAS_BASE(HP_INSTR_RAM_MID_OP, inst->op);
+ writel(val, cp->regs + REG_HP_INSTR_RAM_DATA_MID);
+
+ val = CAS_BASE(HP_INSTR_RAM_LOW_OUTMASK, inst->outmask);
+ val |= CAS_BASE(HP_INSTR_RAM_LOW_OUTSHIFT, inst->outshift);
+ val |= CAS_BASE(HP_INSTR_RAM_LOW_OUTEN, inst->outenab);
+ val |= CAS_BASE(HP_INSTR_RAM_LOW_OUTARG, inst->outarg);
+ writel(val, cp->regs + REG_HP_INSTR_RAM_DATA_LOW);
+ ++firmware;
+ ++i;
+ }
+}
+
+static void cas_init_rx_dma(struct cas *cp)
+{
+ u64 desc_dma = cp->block_dvma;
+ u32 val;
+ int i, size;
+
+ /* rx free descriptors */
+ val = CAS_BASE(RX_CFG_SWIVEL, RX_SWIVEL_OFF_VAL);
+ val |= CAS_BASE(RX_CFG_DESC_RING, RX_DESC_RINGN_INDEX(0));
+ val |= CAS_BASE(RX_CFG_COMP_RING, RX_COMP_RINGN_INDEX(0));
+ if ((N_RX_DESC_RINGS > 1) &&
+ (cp->cas_flags & CAS_FLAG_REG_PLUS)) /* do desc 2 */
+ val |= CAS_BASE(RX_CFG_DESC_RING1, RX_DESC_RINGN_INDEX(1));
+ writel(val, cp->regs + REG_RX_CFG);
+
+ val = (unsigned long) cp->init_rxds[0] -
+ (unsigned long) cp->init_block;
+ writel((desc_dma + val) >> 32, cp->regs + REG_RX_DB_HI);
+ writel((desc_dma + val) & 0xffffffff, cp->regs + REG_RX_DB_LOW);
+ writel(RX_DESC_RINGN_SIZE(0) - 4, cp->regs + REG_RX_KICK);
+
+ if (cp->cas_flags & CAS_FLAG_REG_PLUS) {
+ /* rx desc 2 is for IPSEC packets. however,
+ * we don't it that for that purpose.
+ */
+ val = (unsigned long) cp->init_rxds[1] -
+ (unsigned long) cp->init_block;
+ writel((desc_dma + val) >> 32, cp->regs + REG_PLUS_RX_DB1_HI);
+ writel((desc_dma + val) & 0xffffffff, cp->regs +
+ REG_PLUS_RX_DB1_LOW);
+ writel(RX_DESC_RINGN_SIZE(1) - 4, cp->regs +
+ REG_PLUS_RX_KICK1);
+ }
+
+ /* rx completion registers */
+ val = (unsigned long) cp->init_rxcs[0] -
+ (unsigned long) cp->init_block;
+ writel((desc_dma + val) >> 32, cp->regs + REG_RX_CB_HI);
+ writel((desc_dma + val) & 0xffffffff, cp->regs + REG_RX_CB_LOW);
+
+ if (cp->cas_flags & CAS_FLAG_REG_PLUS) {
+ /* rx comp 2-4 */
+ for (i = 1; i < MAX_RX_COMP_RINGS; i++) {
+ val = (unsigned long) cp->init_rxcs[i] -
+ (unsigned long) cp->init_block;
+ writel((desc_dma + val) >> 32, cp->regs +
+ REG_PLUS_RX_CBN_HI(i));
+ writel((desc_dma + val) & 0xffffffff, cp->regs +
+ REG_PLUS_RX_CBN_LOW(i));
+ }
+ }
+
+ /* read selective clear regs to prevent spurious interrupts
+ * on reset because complete == kick.
+ * selective clear set up to prevent interrupts on resets
+ */
+ readl(cp->regs + REG_INTR_STATUS_ALIAS);
+ writel(INTR_RX_DONE | INTR_RX_BUF_UNAVAIL, cp->regs + REG_ALIAS_CLEAR);
+ if (cp->cas_flags & CAS_FLAG_REG_PLUS) {
+ for (i = 1; i < N_RX_COMP_RINGS; i++)
+ readl(cp->regs + REG_PLUS_INTRN_STATUS_ALIAS(i));
+
+ /* 2 is different from 3 and 4 */
+ if (N_RX_COMP_RINGS > 1)
+ writel(INTR_RX_DONE_ALT | INTR_RX_BUF_UNAVAIL_1,
+ cp->regs + REG_PLUS_ALIASN_CLEAR(1));
+
+ for (i = 2; i < N_RX_COMP_RINGS; i++)
+ writel(INTR_RX_DONE_ALT,
+ cp->regs + REG_PLUS_ALIASN_CLEAR(i));
+ }
+
+ /* set up pause thresholds */
+ val = CAS_BASE(RX_PAUSE_THRESH_OFF,
+ cp->rx_pause_off / RX_PAUSE_THRESH_QUANTUM);
+ val |= CAS_BASE(RX_PAUSE_THRESH_ON,
+ cp->rx_pause_on / RX_PAUSE_THRESH_QUANTUM);
+ writel(val, cp->regs + REG_RX_PAUSE_THRESH);
+
+ /* zero out dma reassembly buffers */
+ for (i = 0; i < 64; i++) {
+ writel(i, cp->regs + REG_RX_TABLE_ADDR);
+ writel(0x0, cp->regs + REG_RX_TABLE_DATA_LOW);
+ writel(0x0, cp->regs + REG_RX_TABLE_DATA_MID);
+ writel(0x0, cp->regs + REG_RX_TABLE_DATA_HI);
+ }
+
+ /* make sure address register is 0 for normal operation */
+ writel(0x0, cp->regs + REG_RX_CTRL_FIFO_ADDR);
+ writel(0x0, cp->regs + REG_RX_IPP_FIFO_ADDR);
+
+ /* interrupt mitigation */
+#ifdef USE_RX_BLANK
+ val = CAS_BASE(RX_BLANK_INTR_TIME, RX_BLANK_INTR_TIME_VAL);
+ val |= CAS_BASE(RX_BLANK_INTR_PKT, RX_BLANK_INTR_PKT_VAL);
+ writel(val, cp->regs + REG_RX_BLANK);
+#else
+ writel(0x0, cp->regs + REG_RX_BLANK);
+#endif
+
+ /* interrupt generation as a function of low water marks for
+ * free desc and completion entries. these are used to trigger
+ * housekeeping for rx descs. we don't use the free interrupt
+ * as it's not very useful
+ */
+ /* val = CAS_BASE(RX_AE_THRESH_FREE, RX_AE_FREEN_VAL(0)); */
+ val = CAS_BASE(RX_AE_THRESH_COMP, RX_AE_COMP_VAL);
+ writel(val, cp->regs + REG_RX_AE_THRESH);
+ if (cp->cas_flags & CAS_FLAG_REG_PLUS) {
+ val = CAS_BASE(RX_AE1_THRESH_FREE, RX_AE_FREEN_VAL(1));
+ writel(val, cp->regs + REG_PLUS_RX_AE1_THRESH);
+ }
+
+ /* Random early detect registers. useful for congestion avoidance.
+ * this should be tunable.
+ */
+ writel(0x0, cp->regs + REG_RX_RED);
+
+ /* receive page sizes. default == 2K (0x800) */
+ val = 0;
+ if (cp->page_size == 0x1000)
+ val = 0x1;
+ else if (cp->page_size == 0x2000)
+ val = 0x2;
+ else if (cp->page_size == 0x4000)
+ val = 0x3;
+
+ /* round mtu + offset. constrain to page size. */
+ size = cp->dev->mtu + 64;
+ if (size > cp->page_size)
+ size = cp->page_size;
+
+ if (size <= 0x400)
+ i = 0x0;
+ else if (size <= 0x800)
+ i = 0x1;
+ else if (size <= 0x1000)
+ i = 0x2;
+ else
+ i = 0x3;
+
+ cp->mtu_stride = 1 << (i + 10);
+ val = CAS_BASE(RX_PAGE_SIZE, val);
+ val |= CAS_BASE(RX_PAGE_SIZE_MTU_STRIDE, i);
+ val |= CAS_BASE(RX_PAGE_SIZE_MTU_COUNT, cp->page_size >> (i + 10));
+ val |= CAS_BASE(RX_PAGE_SIZE_MTU_OFF, 0x1);
+ writel(val, cp->regs + REG_RX_PAGE_SIZE);
+
+ /* enable the header parser if desired */
+ if (CAS_HP_FIRMWARE == cas_prog_null)
+ return;
+
+ val = CAS_BASE(HP_CFG_NUM_CPU, CAS_NCPUS > 63 ? 0 : CAS_NCPUS);
+ val |= HP_CFG_PARSE_EN | HP_CFG_SYN_INC_MASK;
+ val |= CAS_BASE(HP_CFG_TCP_THRESH, HP_TCP_THRESH_VAL);
+ writel(val, cp->regs + REG_HP_CFG);
+}
+
+static inline void cas_rxc_init(struct cas_rx_comp *rxc)
+{
+ memset(rxc, 0, sizeof(*rxc));
+ rxc->word4 = cpu_to_le64(RX_COMP4_ZERO);
+}
+
+/* NOTE: we use the ENC RX DESC ring for spares. the rx_page[0,1]
+ * flipping is protected by the fact that the chip will not
+ * hand back the same page index while it's being processed.
+ */
+static inline cas_page_t *cas_page_spare(struct cas *cp, const int index)
+{
+ cas_page_t *page = cp->rx_pages[1][index];
+ cas_page_t *new;
+
+ if (page_count(page->buffer) == 1)
+ return page;
+
+ new = cas_page_dequeue(cp);
+ if (new) {
+ spin_lock(&cp->rx_inuse_lock);
+ list_add(&page->list, &cp->rx_inuse_list);
+ spin_unlock(&cp->rx_inuse_lock);
+ }
+ return new;
+}
+
+/* this needs to be changed if we actually use the ENC RX DESC ring */
+static cas_page_t *cas_page_swap(struct cas *cp, const int ring,
+ const int index)
+{
+ cas_page_t **page0 = cp->rx_pages[0];
+ cas_page_t **page1 = cp->rx_pages[1];
+
+ /* swap if buffer is in use */
+ if (page_count(page0[index]->buffer) > 1) {
+ cas_page_t *new = cas_page_spare(cp, index);
+ if (new) {
+ page1[index] = page0[index];
+ page0[index] = new;
+ }
+ }
+ RX_USED_SET(page0[index], 0);
+ return page0[index];
+}
+
+static void cas_clean_rxds(struct cas *cp)
+{
+ /* only clean ring 0 as ring 1 is used for spare buffers */
+ struct cas_rx_desc *rxd = cp->init_rxds[0];
+ int i, size;
+
+ /* release all rx flows */
+ for (i = 0; i < N_RX_FLOWS; i++) {
+ struct sk_buff *skb;
+ while ((skb = __skb_dequeue(&cp->rx_flows[i]))) {
+ cas_skb_release(skb);
+ }
+ }
+
+ /* initialize descriptors */
+ size = RX_DESC_RINGN_SIZE(0);
+ for (i = 0; i < size; i++) {
+ cas_page_t *page = cas_page_swap(cp, 0, i);
+ rxd[i].buffer = cpu_to_le64(page->dma_addr);
+ rxd[i].index = cpu_to_le64(CAS_BASE(RX_INDEX_NUM, i) |
+ CAS_BASE(RX_INDEX_RING, 0));
+ }
+
+ cp->rx_old[0] = RX_DESC_RINGN_SIZE(0) - 4;
+ cp->rx_last[0] = 0;
+ cp->cas_flags &= ~CAS_FLAG_RXD_POST(0);
+}
+
+static void cas_clean_rxcs(struct cas *cp)
+{
+ int i, j;
+
+ /* take ownership of rx comp descriptors */
+ memset(cp->rx_cur, 0, sizeof(*cp->rx_cur)*N_RX_COMP_RINGS);
+ memset(cp->rx_new, 0, sizeof(*cp->rx_new)*N_RX_COMP_RINGS);
+ for (i = 0; i < N_RX_COMP_RINGS; i++) {
+ struct cas_rx_comp *rxc = cp->init_rxcs[i];
+ for (j = 0; j < RX_COMP_RINGN_SIZE(i); j++) {
+ cas_rxc_init(rxc + j);
+ }
+ }
+}
+
+#if 0
+/* When we get a RX fifo overflow, the RX unit is probably hung
+ * so we do the following.
+ *
+ * If any part of the reset goes wrong, we return 1 and that causes the
+ * whole chip to be reset.
+ */
+static int cas_rxmac_reset(struct cas *cp)
+{
+ struct net_device *dev = cp->dev;
+ int limit;
+ u32 val;
+
+ /* First, reset MAC RX. */
+ writel(cp->mac_rx_cfg & ~MAC_RX_CFG_EN, cp->regs + REG_MAC_RX_CFG);
+ for (limit = 0; limit < STOP_TRIES; limit++) {
+ if (!(readl(cp->regs + REG_MAC_RX_CFG) & MAC_RX_CFG_EN))
+ break;
+ udelay(10);
+ }
+ if (limit == STOP_TRIES) {
+ printk(KERN_ERR "%s: RX MAC will not disable, resetting whole "
+ "chip.\n", dev->name);
+ return 1;
+ }
+
+ /* Second, disable RX DMA. */
+ writel(0, cp->regs + REG_RX_CFG);
+ for (limit = 0; limit < STOP_TRIES; limit++) {
+ if (!(readl(cp->regs + REG_RX_CFG) & RX_CFG_DMA_EN))
+ break;
+ udelay(10);
+ }
+ if (limit == STOP_TRIES) {
+ printk(KERN_ERR "%s: RX DMA will not disable, resetting whole "
+ "chip.\n", dev->name);
+ return 1;
+ }
+
+ mdelay(5);
+
+ /* Execute RX reset command. */
+ writel(SW_RESET_RX, cp->regs + REG_SW_RESET);
+ for (limit = 0; limit < STOP_TRIES; limit++) {
+ if (!(readl(cp->regs + REG_SW_RESET) & SW_RESET_RX))
+ break;
+ udelay(10);
+ }
+ if (limit == STOP_TRIES) {
+ printk(KERN_ERR "%s: RX reset command will not execute, "
+ "resetting whole chip.\n", dev->name);
+ return 1;
+ }
+
+ /* reset driver rx state */
+ cas_clean_rxds(cp);
+ cas_clean_rxcs(cp);
+
+ /* Now, reprogram the rest of RX unit. */
+ cas_init_rx_dma(cp);
+
+ /* re-enable */
+ val = readl(cp->regs + REG_RX_CFG);
+ writel(val | RX_CFG_DMA_EN, cp->regs + REG_RX_CFG);
+ writel(MAC_RX_FRAME_RECV, cp->regs + REG_MAC_RX_MASK);
+ val = readl(cp->regs + REG_MAC_RX_CFG);
+ writel(val | MAC_RX_CFG_EN, cp->regs + REG_MAC_RX_CFG);
+ return 0;
+}
+#endif
+
+static int cas_rxmac_interrupt(struct net_device *dev, struct cas *cp,
+ u32 status)
+{
+ u32 stat = readl(cp->regs + REG_MAC_RX_STATUS);
+
+ if (!stat)
+ return 0;
+
+ if (netif_msg_intr(cp))
+ printk(KERN_DEBUG "%s: rxmac interrupt, stat: 0x%x\n",
+ cp->dev->name, stat);
+
+ /* these are all rollovers */
+ spin_lock(&cp->stat_lock[0]);
+ if (stat & MAC_RX_ALIGN_ERR)
+ cp->net_stats[0].rx_frame_errors += 0x10000;
+
+ if (stat & MAC_RX_CRC_ERR)
+ cp->net_stats[0].rx_crc_errors += 0x10000;
+
+ if (stat & MAC_RX_LEN_ERR)
+ cp->net_stats[0].rx_length_errors += 0x10000;
+
+ if (stat & MAC_RX_OVERFLOW) {
+ cp->net_stats[0].rx_over_errors++;
+ cp->net_stats[0].rx_fifo_errors++;
+ }
+
+ /* We do not track MAC_RX_FRAME_COUNT and MAC_RX_VIOL_ERR
+ * events.
+ */
+ spin_unlock(&cp->stat_lock[0]);
+ return 0;
+}
+
+static int cas_mac_interrupt(struct net_device *dev, struct cas *cp,
+ u32 status)
+{
+ u32 stat = readl(cp->regs + REG_MAC_CTRL_STATUS);
+
+ if (!stat)
+ return 0;
+
+ if (netif_msg_intr(cp))
+ printk(KERN_DEBUG "%s: mac interrupt, stat: 0x%x\n",
+ cp->dev->name, stat);
+
+ /* This interrupt is just for pause frame and pause
+ * tracking. It is useful for diagnostics and debug
+ * but probably by default we will mask these events.
+ */
+ if (stat & MAC_CTRL_PAUSE_STATE)
+ cp->pause_entered++;
+
+ if (stat & MAC_CTRL_PAUSE_RECEIVED)
+ cp->pause_last_time_recvd = (stat >> 16);
+
+ return 0;
+}
+
+
+/* Must be invoked under cp->lock. */
+static inline int cas_mdio_link_not_up(struct cas *cp)
+{
+ u16 val;
+
+ switch (cp->lstate) {
+ case link_force_ret:
+ if (netif_msg_link(cp))
+ printk(KERN_INFO "%s: Autoneg failed again, keeping"
+ " forced mode\n", cp->dev->name);
+ cas_phy_write(cp, MII_BMCR, cp->link_fcntl);
+ cp->timer_ticks = 5;
+ cp->lstate = link_force_ok;
+ cp->link_transition = LINK_TRANSITION_LINK_CONFIG;
+ break;
+
+ case link_aneg:
+ val = cas_phy_read(cp, MII_BMCR);
+
+ /* Try forced modes. we try things in the following order:
+ * 1000 full -> 100 full/half -> 10 half
+ */
+ val &= ~(BMCR_ANRESTART | BMCR_ANENABLE);
+ val |= BMCR_FULLDPLX;
+ val |= (cp->cas_flags & CAS_FLAG_1000MB_CAP) ?
+ CAS_BMCR_SPEED1000 : BMCR_SPEED100;
+ cas_phy_write(cp, MII_BMCR, val);
+ cp->timer_ticks = 5;
+ cp->lstate = link_force_try;
+ cp->link_transition = LINK_TRANSITION_LINK_CONFIG;
+ break;
+
+ case link_force_try:
+ /* Downgrade from 1000 to 100 to 10 Mbps if necessary. */
+ val = cas_phy_read(cp, MII_BMCR);
+ cp->timer_ticks = 5;
+ if (val & CAS_BMCR_SPEED1000) { /* gigabit */
+ val &= ~CAS_BMCR_SPEED1000;
+ val |= (BMCR_SPEED100 | BMCR_FULLDPLX);
+ cas_phy_write(cp, MII_BMCR, val);
+ break;
+ }
+
+ if (val & BMCR_SPEED100) {
+ if (val & BMCR_FULLDPLX) /* fd failed */
+ val &= ~BMCR_FULLDPLX;
+ else { /* 100Mbps failed */
+ val &= ~BMCR_SPEED100;
+ }
+ cas_phy_write(cp, MII_BMCR, val);
+ break;
+ }
+ default:
+ break;
+ }
+ return 0;
+}
+
+
+/* must be invoked with cp->lock held */
+static int cas_mii_link_check(struct cas *cp, const u16 bmsr)
+{
+ int restart;
+
+ if (bmsr & BMSR_LSTATUS) {
+ /* Ok, here we got a link. If we had it due to a forced
+ * fallback, and we were configured for autoneg, we
+ * retry a short autoneg pass. If you know your hub is
+ * broken, use ethtool ;)
+ */
+ if ((cp->lstate == link_force_try) &&
+ (cp->link_cntl & BMCR_ANENABLE)) {
+ cp->lstate = link_force_ret;
+ cp->link_transition = LINK_TRANSITION_LINK_CONFIG;
+ cas_mif_poll(cp, 0);
+ cp->link_fcntl = cas_phy_read(cp, MII_BMCR);
+ cp->timer_ticks = 5;
+ if (cp->opened && netif_msg_link(cp))
+ printk(KERN_INFO "%s: Got link after fallback, retrying"
+ " autoneg once...\n", cp->dev->name);
+ cas_phy_write(cp, MII_BMCR,
+ cp->link_fcntl | BMCR_ANENABLE |
+ BMCR_ANRESTART);
+ cas_mif_poll(cp, 1);
+
+ } else if (cp->lstate != link_up) {
+ cp->lstate = link_up;
+ cp->link_transition = LINK_TRANSITION_LINK_UP;
+
+ if (cp->opened) {
+ cas_set_link_modes(cp);
+ netif_carrier_on(cp->dev);
+ }
+ }
+ return 0;
+ }
+
+ /* link not up. if the link was previously up, we restart the
+ * whole process
+ */
+ restart = 0;
+ if (cp->lstate == link_up) {
+ cp->lstate = link_down;
+ cp->link_transition = LINK_TRANSITION_LINK_DOWN;
+
+ netif_carrier_off(cp->dev);
+ if (cp->opened && netif_msg_link(cp))
+ printk(KERN_INFO "%s: Link down\n",
+ cp->dev->name);
+ restart = 1;
+
+ } else if (++cp->timer_ticks > 10)
+ cas_mdio_link_not_up(cp);
+
+ return restart;
+}
+
+static int cas_mif_interrupt(struct net_device *dev, struct cas *cp,
+ u32 status)
+{
+ u32 stat = readl(cp->regs + REG_MIF_STATUS);
+ u16 bmsr;
+
+ /* check for a link change */
+ if (CAS_VAL(MIF_STATUS_POLL_STATUS, stat) == 0)
+ return 0;
+
+ bmsr = CAS_VAL(MIF_STATUS_POLL_DATA, stat);
+ return cas_mii_link_check(cp, bmsr);
+}
+
+static int cas_pci_interrupt(struct net_device *dev, struct cas *cp,
+ u32 status)
+{
+ u32 stat = readl(cp->regs + REG_PCI_ERR_STATUS);
+
+ if (!stat)
+ return 0;
+
+ printk(KERN_ERR "%s: PCI error [%04x:%04x] ", dev->name, stat,
+ readl(cp->regs + REG_BIM_DIAG));
+
+ /* cassini+ has this reserved */
+ if ((stat & PCI_ERR_BADACK) &&
+ ((cp->cas_flags & CAS_FLAG_REG_PLUS) == 0))
+ printk("<No ACK64# during ABS64 cycle> ");
+
+ if (stat & PCI_ERR_DTRTO)
+ printk("<Delayed transaction timeout> ");
+ if (stat & PCI_ERR_OTHER)
+ printk("<other> ");
+ if (stat & PCI_ERR_BIM_DMA_WRITE)
+ printk("<BIM DMA 0 write req> ");
+ if (stat & PCI_ERR_BIM_DMA_READ)
+ printk("<BIM DMA 0 read req> ");
+ printk("\n");
+
+ if (stat & PCI_ERR_OTHER) {
+ u16 cfg;
+
+ /* Interrogate PCI config space for the
+ * true cause.
+ */
+ pci_read_config_word(cp->pdev, PCI_STATUS, &cfg);
+ printk(KERN_ERR "%s: Read PCI cfg space status [%04x]\n",
+ dev->name, cfg);
+ if (cfg & PCI_STATUS_PARITY)
+ printk(KERN_ERR "%s: PCI parity error detected.\n",
+ dev->name);
+ if (cfg & PCI_STATUS_SIG_TARGET_ABORT)
+ printk(KERN_ERR "%s: PCI target abort.\n",
+ dev->name);
+ if (cfg & PCI_STATUS_REC_TARGET_ABORT)
+ printk(KERN_ERR "%s: PCI master acks target abort.\n",
+ dev->name);
+ if (cfg & PCI_STATUS_REC_MASTER_ABORT)
+ printk(KERN_ERR "%s: PCI master abort.\n", dev->name);
+ if (cfg & PCI_STATUS_SIG_SYSTEM_ERROR)
+ printk(KERN_ERR "%s: PCI system error SERR#.\n",
+ dev->name);
+ if (cfg & PCI_STATUS_DETECTED_PARITY)
+ printk(KERN_ERR "%s: PCI parity error.\n",
+ dev->name);
+
+ /* Write the error bits back to clear them. */
+ cfg &= (PCI_STATUS_PARITY |
+ PCI_STATUS_SIG_TARGET_ABORT |
+ PCI_STATUS_REC_TARGET_ABORT |
+ PCI_STATUS_REC_MASTER_ABORT |
+ PCI_STATUS_SIG_SYSTEM_ERROR |
+ PCI_STATUS_DETECTED_PARITY);
+ pci_write_config_word(cp->pdev, PCI_STATUS, cfg);
+ }
+
+ /* For all PCI errors, we should reset the chip. */
+ return 1;
+}
+
+/* All non-normal interrupt conditions get serviced here.
+ * Returns non-zero if we should just exit the interrupt
+ * handler right now (ie. if we reset the card which invalidates
+ * all of the other original irq status bits).
+ */
+static int cas_abnormal_irq(struct net_device *dev, struct cas *cp,
+ u32 status)
+{
+ if (status & INTR_RX_TAG_ERROR) {
+ /* corrupt RX tag framing */
+ if (netif_msg_rx_err(cp))
+ printk(KERN_DEBUG "%s: corrupt rx tag framing\n",
+ cp->dev->name);
+ spin_lock(&cp->stat_lock[0]);
+ cp->net_stats[0].rx_errors++;
+ spin_unlock(&cp->stat_lock[0]);
+ goto do_reset;
+ }
+
+ if (status & INTR_RX_LEN_MISMATCH) {
+ /* length mismatch. */
+ if (netif_msg_rx_err(cp))
+ printk(KERN_DEBUG "%s: length mismatch for rx frame\n",
+ cp->dev->name);
+ spin_lock(&cp->stat_lock[0]);
+ cp->net_stats[0].rx_errors++;
+ spin_unlock(&cp->stat_lock[0]);
+ goto do_reset;
+ }
+
+ if (status & INTR_PCS_STATUS) {
+ if (cas_pcs_interrupt(dev, cp, status))
+ goto do_reset;
+ }
+
+ if (status & INTR_TX_MAC_STATUS) {
+ if (cas_txmac_interrupt(dev, cp, status))
+ goto do_reset;
+ }
+
+ if (status & INTR_RX_MAC_STATUS) {
+ if (cas_rxmac_interrupt(dev, cp, status))
+ goto do_reset;
+ }
+
+ if (status & INTR_MAC_CTRL_STATUS) {
+ if (cas_mac_interrupt(dev, cp, status))
+ goto do_reset;
+ }
+
+ if (status & INTR_MIF_STATUS) {
+ if (cas_mif_interrupt(dev, cp, status))
+ goto do_reset;
+ }
+
+ if (status & INTR_PCI_ERROR_STATUS) {
+ if (cas_pci_interrupt(dev, cp, status))
+ goto do_reset;
+ }
+ return 0;
+
+do_reset:
+#if 1
+ atomic_inc(&cp->reset_task_pending);
+ atomic_inc(&cp->reset_task_pending_all);
+ printk(KERN_ERR "%s:reset called in cas_abnormal_irq [0x%x]\n",
+ dev->name, status);
+ schedule_work(&cp->reset_task);
+#else
+ atomic_set(&cp->reset_task_pending, CAS_RESET_ALL);
+ printk(KERN_ERR "reset called in cas_abnormal_irq\n");
+ schedule_work(&cp->reset_task);
+#endif
+ return 1;
+}
+
+/* NOTE: CAS_TABORT returns 1 or 2 so that it can be used when
+ * determining whether to do a netif_stop/wakeup
+ */
+#define CAS_TABORT(x) (((x)->cas_flags & CAS_FLAG_TARGET_ABORT) ? 2 : 1)
+#define CAS_ROUND_PAGE(x) (((x) + PAGE_SIZE - 1) & PAGE_MASK)
+static inline int cas_calc_tabort(struct cas *cp, const unsigned long addr,
+ const int len)
+{
+ unsigned long off = addr + len;
+
+ if (CAS_TABORT(cp) == 1)
+ return 0;
+ if ((CAS_ROUND_PAGE(off) - off) > TX_TARGET_ABORT_LEN)
+ return 0;
+ return TX_TARGET_ABORT_LEN;
+}
+
+static inline void cas_tx_ringN(struct cas *cp, int ring, int limit)
+{
+ struct cas_tx_desc *txds;
+ struct sk_buff **skbs;
+ struct net_device *dev = cp->dev;
+ int entry, count;
+
+ spin_lock(&cp->tx_lock[ring]);
+ txds = cp->init_txds[ring];
+ skbs = cp->tx_skbs[ring];
+ entry = cp->tx_old[ring];
+
+ count = TX_BUFF_COUNT(ring, entry, limit);
+ while (entry != limit) {
+ struct sk_buff *skb = skbs[entry];
+ dma_addr_t daddr;
+ u32 dlen;
+ int frag;
+
+ if (!skb) {
+ /* this should never occur */
+ entry = TX_DESC_NEXT(ring, entry);
+ continue;
+ }
+
+ /* however, we might get only a partial skb release. */
+ count -= skb_shinfo(skb)->nr_frags +
+ + cp->tx_tiny_use[ring][entry].nbufs + 1;
+ if (count < 0)
+ break;
+
+ if (netif_msg_tx_done(cp))
+ printk(KERN_DEBUG "%s: tx[%d] done, slot %d\n",
+ cp->dev->name, ring, entry);
+
+ skbs[entry] = NULL;
+ cp->tx_tiny_use[ring][entry].nbufs = 0;
+
+ for (frag = 0; frag <= skb_shinfo(skb)->nr_frags; frag++) {
+ struct cas_tx_desc *txd = txds + entry;
+
+ daddr = le64_to_cpu(txd->buffer);
+ dlen = CAS_VAL(TX_DESC_BUFLEN,
+ le64_to_cpu(txd->control));
+ pci_unmap_page(cp->pdev, daddr, dlen,
+ PCI_DMA_TODEVICE);
+ entry = TX_DESC_NEXT(ring, entry);
+
+ /* tiny buffer may follow */
+ if (cp->tx_tiny_use[ring][entry].used) {
+ cp->tx_tiny_use[ring][entry].used = 0;
+ entry = TX_DESC_NEXT(ring, entry);
+ }
+ }
+
+ spin_lock(&cp->stat_lock[ring]);
+ cp->net_stats[ring].tx_packets++;
+ cp->net_stats[ring].tx_bytes += skb->len;
+ spin_unlock(&cp->stat_lock[ring]);
+ dev_kfree_skb_irq(skb);
+ }
+ cp->tx_old[ring] = entry;
+
+ /* this is wrong for multiple tx rings. the net device needs
+ * multiple queues for this to do the right thing. we wait
+ * for 2*packets to be available when using tiny buffers
+ */
+ if (netif_queue_stopped(dev) &&
+ (TX_BUFFS_AVAIL(cp, ring) > CAS_TABORT(cp)*(MAX_SKB_FRAGS + 1)))
+ netif_wake_queue(dev);
+ spin_unlock(&cp->tx_lock[ring]);
+}
+
+static void cas_tx(struct net_device *dev, struct cas *cp,
+ u32 status)
+{
+ int limit, ring;
+#ifdef USE_TX_COMPWB
+ u64 compwb = le64_to_cpu(cp->init_block->tx_compwb);
+#endif
+ if (netif_msg_intr(cp))
+ printk(KERN_DEBUG "%s: tx interrupt, status: 0x%x, %lx\n",
+ cp->dev->name, status, compwb);
+ /* process all the rings */
+ for (ring = 0; ring < N_TX_RINGS; ring++) {
+#ifdef USE_TX_COMPWB
+ /* use the completion writeback registers */
+ limit = (CAS_VAL(TX_COMPWB_MSB, compwb) << 8) |
+ CAS_VAL(TX_COMPWB_LSB, compwb);
+ compwb = TX_COMPWB_NEXT(compwb);
+#else
+ limit = readl(cp->regs + REG_TX_COMPN(ring));
+#endif
+ if (cp->tx_old[ring] != limit)
+ cas_tx_ringN(cp, ring, limit);
+ }
+}
+
+
+static int cas_rx_process_pkt(struct cas *cp, struct cas_rx_comp *rxc,
+ int entry, const u64 *words,
+ struct sk_buff **skbref)
+{
+ int dlen, hlen, len, i, alloclen;
+ int off, swivel = RX_SWIVEL_OFF_VAL;
+ struct cas_page *page;
+ struct sk_buff *skb;
+ void *addr, *crcaddr;
+ char *p;
+
+ hlen = CAS_VAL(RX_COMP2_HDR_SIZE, words[1]);
+ dlen = CAS_VAL(RX_COMP1_DATA_SIZE, words[0]);
+ len = hlen + dlen;
+
+ if (RX_COPY_ALWAYS || (words[2] & RX_COMP3_SMALL_PKT))
+ alloclen = len;
+ else
+ alloclen = max(hlen, RX_COPY_MIN);
+
+ skb = dev_alloc_skb(alloclen + swivel + cp->crc_size);
+ if (skb == NULL)
+ return -1;
+
+ *skbref = skb;
+ skb->dev = cp->dev;
+ skb_reserve(skb, swivel);
+
+ p = skb->data;
+ addr = crcaddr = NULL;
+ if (hlen) { /* always copy header pages */
+ i = CAS_VAL(RX_COMP2_HDR_INDEX, words[1]);
+ page = cp->rx_pages[CAS_VAL(RX_INDEX_RING, i)][CAS_VAL(RX_INDEX_NUM, i)];
+ off = CAS_VAL(RX_COMP2_HDR_OFF, words[1]) * 0x100 +
+ swivel;
+
+ i = hlen;
+ if (!dlen) /* attach FCS */
+ i += cp->crc_size;
+ pci_dma_sync_single_for_cpu(cp->pdev, page->dma_addr + off, i,
+ PCI_DMA_FROMDEVICE);
+ addr = cas_page_map(page->buffer);
+ memcpy(p, addr + off, i);
+ pci_dma_sync_single_for_device(cp->pdev, page->dma_addr + off, i,
+ PCI_DMA_FROMDEVICE);
+ cas_page_unmap(addr);
+ RX_USED_ADD(page, 0x100);
+ p += hlen;
+ swivel = 0;
+ }
+
+
+ if (alloclen < (hlen + dlen)) {
+ skb_frag_t *frag = skb_shinfo(skb)->frags;
+
+ /* normal or jumbo packets. we use frags */
+ i = CAS_VAL(RX_COMP1_DATA_INDEX, words[0]);
+ page = cp->rx_pages[CAS_VAL(RX_INDEX_RING, i)][CAS_VAL(RX_INDEX_NUM, i)];
+ off = CAS_VAL(RX_COMP1_DATA_OFF, words[0]) + swivel;
+
+ hlen = min(cp->page_size - off, dlen);
+ if (hlen < 0) {
+ if (netif_msg_rx_err(cp)) {
+ printk(KERN_DEBUG "%s: rx page overflow: "
+ "%d\n", cp->dev->name, hlen);
+ }
+ dev_kfree_skb_irq(skb);
+ return -1;
+ }
+ i = hlen;
+ if (i == dlen) /* attach FCS */
+ i += cp->crc_size;
+ pci_dma_sync_single_for_cpu(cp->pdev, page->dma_addr + off, i,
+ PCI_DMA_FROMDEVICE);
+
+ /* make sure we always copy a header */
+ swivel = 0;
+ if (p == (char *) skb->data) { /* not split */
+ addr = cas_page_map(page->buffer);
+ memcpy(p, addr + off, RX_COPY_MIN);
+ pci_dma_sync_single_for_device(cp->pdev, page->dma_addr + off, i,
+ PCI_DMA_FROMDEVICE);
+ cas_page_unmap(addr);
+ off += RX_COPY_MIN;
+ swivel = RX_COPY_MIN;
+ RX_USED_ADD(page, cp->mtu_stride);
+ } else {
+ RX_USED_ADD(page, hlen);
+ }
+ skb_put(skb, alloclen);
+
+ skb_shinfo(skb)->nr_frags++;
+ skb->data_len += hlen - swivel;
+ skb->len += hlen - swivel;
+
+ get_page(page->buffer);
+ frag->page = page->buffer;
+ frag->page_offset = off;
+ frag->size = hlen - swivel;
+
+ /* any more data? */
+ if ((words[0] & RX_COMP1_SPLIT_PKT) && ((dlen -= hlen) > 0)) {
+ hlen = dlen;
+ off = 0;
+
+ i = CAS_VAL(RX_COMP2_NEXT_INDEX, words[1]);
+ page = cp->rx_pages[CAS_VAL(RX_INDEX_RING, i)][CAS_VAL(RX_INDEX_NUM, i)];
+ pci_dma_sync_single_for_cpu(cp->pdev, page->dma_addr,
+ hlen + cp->crc_size,
+ PCI_DMA_FROMDEVICE);
+ pci_dma_sync_single_for_device(cp->pdev, page->dma_addr,
+ hlen + cp->crc_size,
+ PCI_DMA_FROMDEVICE);
+
+ skb_shinfo(skb)->nr_frags++;
+ skb->data_len += hlen;
+ skb->len += hlen;
+ frag++;
+
+ get_page(page->buffer);
+ frag->page = page->buffer;
+ frag->page_offset = 0;
+ frag->size = hlen;
+ RX_USED_ADD(page, hlen + cp->crc_size);
+ }
+
+ if (cp->crc_size) {
+ addr = cas_page_map(page->buffer);
+ crcaddr = addr + off + hlen;
+ }
+
+ } else {
+ /* copying packet */
+ if (!dlen)
+ goto end_copy_pkt;
+
+ i = CAS_VAL(RX_COMP1_DATA_INDEX, words[0]);
+ page = cp->rx_pages[CAS_VAL(RX_INDEX_RING, i)][CAS_VAL(RX_INDEX_NUM, i)];
+ off = CAS_VAL(RX_COMP1_DATA_OFF, words[0]) + swivel;
+ hlen = min(cp->page_size - off, dlen);
+ if (hlen < 0) {
+ if (netif_msg_rx_err(cp)) {
+ printk(KERN_DEBUG "%s: rx page overflow: "
+ "%d\n", cp->dev->name, hlen);
+ }
+ dev_kfree_skb_irq(skb);
+ return -1;
+ }
+ i = hlen;
+ if (i == dlen) /* attach FCS */
+ i += cp->crc_size;
+ pci_dma_sync_single_for_cpu(cp->pdev, page->dma_addr + off, i,
+ PCI_DMA_FROMDEVICE);
+ addr = cas_page_map(page->buffer);
+ memcpy(p, addr + off, i);
+ pci_dma_sync_single_for_device(cp->pdev, page->dma_addr + off, i,
+ PCI_DMA_FROMDEVICE);
+ cas_page_unmap(addr);
+ if (p == (char *) skb->data) /* not split */
+ RX_USED_ADD(page, cp->mtu_stride);
+ else
+ RX_USED_ADD(page, i);
+
+ /* any more data? */
+ if ((words[0] & RX_COMP1_SPLIT_PKT) && ((dlen -= hlen) > 0)) {
+ p += hlen;
+ i = CAS_VAL(RX_COMP2_NEXT_INDEX, words[1]);
+ page = cp->rx_pages[CAS_VAL(RX_INDEX_RING, i)][CAS_VAL(RX_INDEX_NUM, i)];
+ pci_dma_sync_single_for_cpu(cp->pdev, page->dma_addr,
+ dlen + cp->crc_size,
+ PCI_DMA_FROMDEVICE);
+ addr = cas_page_map(page->buffer);
+ memcpy(p, addr, dlen + cp->crc_size);
+ pci_dma_sync_single_for_device(cp->pdev, page->dma_addr,
+ dlen + cp->crc_size,
+ PCI_DMA_FROMDEVICE);
+ cas_page_unmap(addr);
+ RX_USED_ADD(page, dlen + cp->crc_size);
+ }
+end_copy_pkt:
+ if (cp->crc_size) {
+ addr = NULL;
+ crcaddr = skb->data + alloclen;
+ }
+ skb_put(skb, alloclen);
+ }
+
+ i = CAS_VAL(RX_COMP4_TCP_CSUM, words[3]);
+ if (cp->crc_size) {
+ /* checksum includes FCS. strip it out. */
+ i = csum_fold(csum_partial(crcaddr, cp->crc_size, i));
+ if (addr)
+ cas_page_unmap(addr);
+ }
+ skb->csum = ntohs(i ^ 0xffff);
+ skb->ip_summed = CHECKSUM_HW;
+ skb->protocol = eth_type_trans(skb, cp->dev);
+ return len;
+}
+
+
+/* we can handle up to 64 rx flows at a time. we do the same thing
+ * as nonreassm except that we batch up the buffers.
+ * NOTE: we currently just treat each flow as a bunch of packets that
+ * we pass up. a better way would be to coalesce the packets
+ * into a jumbo packet. to do that, we need to do the following:
+ * 1) the first packet will have a clean split between header and
+ * data. save both.
+ * 2) each time the next flow packet comes in, extend the
+ * data length and merge the checksums.
+ * 3) on flow release, fix up the header.
+ * 4) make sure the higher layer doesn't care.
+ * because packets get coalesced, we shouldn't run into fragment count
+ * issues.
+ */
+static inline void cas_rx_flow_pkt(struct cas *cp, const u64 *words,
+ struct sk_buff *skb)
+{
+ int flowid = CAS_VAL(RX_COMP3_FLOWID, words[2]) & (N_RX_FLOWS - 1);
+ struct sk_buff_head *flow = &cp->rx_flows[flowid];
+
+ /* this is protected at a higher layer, so no need to
+ * do any additional locking here. stick the buffer
+ * at the end.
+ */
+ __skb_insert(skb, flow->prev, (struct sk_buff *) flow, flow);
+ if (words[0] & RX_COMP1_RELEASE_FLOW) {
+ while ((skb = __skb_dequeue(flow))) {
+ cas_skb_release(skb);
+ }
+ }
+}
+
+/* put rx descriptor back on ring. if a buffer is in use by a higher
+ * layer, this will need to put in a replacement.
+ */
+static void cas_post_page(struct cas *cp, const int ring, const int index)
+{
+ cas_page_t *new;
+ int entry;
+
+ entry = cp->rx_old[ring];
+
+ new = cas_page_swap(cp, ring, index);
+ cp->init_rxds[ring][entry].buffer = cpu_to_le64(new->dma_addr);
+ cp->init_rxds[ring][entry].index =
+ cpu_to_le64(CAS_BASE(RX_INDEX_NUM, index) |
+ CAS_BASE(RX_INDEX_RING, ring));
+
+ entry = RX_DESC_ENTRY(ring, entry + 1);
+ cp->rx_old[ring] = entry;
+
+ if (entry % 4)
+ return;
+
+ if (ring == 0)
+ writel(entry, cp->regs + REG_RX_KICK);
+ else if ((N_RX_DESC_RINGS > 1) &&
+ (cp->cas_flags & CAS_FLAG_REG_PLUS))
+ writel(entry, cp->regs + REG_PLUS_RX_KICK1);
+}
+
+
+/* only when things are bad */
+static int cas_post_rxds_ringN(struct cas *cp, int ring, int num)
+{
+ unsigned int entry, last, count, released;
+ int cluster;
+ cas_page_t **page = cp->rx_pages[ring];
+
+ entry = cp->rx_old[ring];
+
+ if (netif_msg_intr(cp))
+ printk(KERN_DEBUG "%s: rxd[%d] interrupt, done: %d\n",
+ cp->dev->name, ring, entry);
+
+ cluster = -1;
+ count = entry & 0x3;
+ last = RX_DESC_ENTRY(ring, num ? entry + num - 4: entry - 4);
+ released = 0;
+ while (entry != last) {
+ /* make a new buffer if it's still in use */
+ if (page_count(page[entry]->buffer) > 1) {
+ cas_page_t *new = cas_page_dequeue(cp);
+ if (!new) {
+ /* let the timer know that we need to
+ * do this again
+ */
+ cp->cas_flags |= CAS_FLAG_RXD_POST(ring);
+ if (!timer_pending(&cp->link_timer))
+ mod_timer(&cp->link_timer, jiffies +
+ CAS_LINK_FAST_TIMEOUT);
+ cp->rx_old[ring] = entry;
+ cp->rx_last[ring] = num ? num - released : 0;
+ return -ENOMEM;
+ }
+ spin_lock(&cp->rx_inuse_lock);
+ list_add(&page[entry]->list, &cp->rx_inuse_list);
+ spin_unlock(&cp->rx_inuse_lock);
+ cp->init_rxds[ring][entry].buffer =
+ cpu_to_le64(new->dma_addr);
+ page[entry] = new;
+
+ }
+
+ if (++count == 4) {
+ cluster = entry;
+ count = 0;
+ }
+ released++;
+ entry = RX_DESC_ENTRY(ring, entry + 1);
+ }
+ cp->rx_old[ring] = entry;
+
+ if (cluster < 0)
+ return 0;
+
+ if (ring == 0)
+ writel(cluster, cp->regs + REG_RX_KICK);
+ else if ((N_RX_DESC_RINGS > 1) &&
+ (cp->cas_flags & CAS_FLAG_REG_PLUS))
+ writel(cluster, cp->regs + REG_PLUS_RX_KICK1);
+ return 0;
+}
+
+
+/* process a completion ring. packets are set up in three basic ways:
+ * small packets: should be copied header + data in single buffer.
+ * large packets: header and data in a single buffer.
+ * split packets: header in a separate buffer from data.
+ * data may be in multiple pages. data may be > 256
+ * bytes but in a single page.
+ *
+ * NOTE: RX page posting is done in this routine as well. while there's
+ * the capability of using multiple RX completion rings, it isn't
+ * really worthwhile due to the fact that the page posting will
+ * force serialization on the single descriptor ring.
+ */
+static int cas_rx_ringN(struct cas *cp, int ring, int budget)
+{
+ struct cas_rx_comp *rxcs = cp->init_rxcs[ring];
+ int entry, drops;
+ int npackets = 0;
+
+ if (netif_msg_intr(cp))
+ printk(KERN_DEBUG "%s: rx[%d] interrupt, done: %d/%d\n",
+ cp->dev->name, ring,
+ readl(cp->regs + REG_RX_COMP_HEAD),
+ cp->rx_new[ring]);
+
+ entry = cp->rx_new[ring];
+ drops = 0;
+ while (1) {
+ struct cas_rx_comp *rxc = rxcs + entry;
+ struct sk_buff *skb;
+ int type, len;
+ u64 words[4];
+ int i, dring;
+
+ words[0] = le64_to_cpu(rxc->word1);
+ words[1] = le64_to_cpu(rxc->word2);
+ words[2] = le64_to_cpu(rxc->word3);
+ words[3] = le64_to_cpu(rxc->word4);
+
+ /* don't touch if still owned by hw */
+ type = CAS_VAL(RX_COMP1_TYPE, words[0]);
+ if (type == 0)
+ break;
+
+ /* hw hasn't cleared the zero bit yet */
+ if (words[3] & RX_COMP4_ZERO) {
+ break;
+ }
+
+ /* get info on the packet */
+ if (words[3] & (RX_COMP4_LEN_MISMATCH | RX_COMP4_BAD)) {
+ spin_lock(&cp->stat_lock[ring]);
+ cp->net_stats[ring].rx_errors++;
+ if (words[3] & RX_COMP4_LEN_MISMATCH)
+ cp->net_stats[ring].rx_length_errors++;
+ if (words[3] & RX_COMP4_BAD)
+ cp->net_stats[ring].rx_crc_errors++;
+ spin_unlock(&cp->stat_lock[ring]);
+
+ /* We'll just return it to Cassini. */
+ drop_it:
+ spin_lock(&cp->stat_lock[ring]);
+ ++cp->net_stats[ring].rx_dropped;
+ spin_unlock(&cp->stat_lock[ring]);
+ goto next;
+ }
+
+ len = cas_rx_process_pkt(cp, rxc, entry, words, &skb);
+ if (len < 0) {
+ ++drops;
+ goto drop_it;
+ }
+
+ /* see if it's a flow re-assembly or not. the driver
+ * itself handles release back up.
+ */
+ if (RX_DONT_BATCH || (type == 0x2)) {
+ /* non-reassm: these always get released */
+ cas_skb_release(skb);
+ } else {
+ cas_rx_flow_pkt(cp, words, skb);
+ }
+
+ spin_lock(&cp->stat_lock[ring]);
+ cp->net_stats[ring].rx_packets++;
+ cp->net_stats[ring].rx_bytes += len;
+ spin_unlock(&cp->stat_lock[ring]);
+ cp->dev->last_rx = jiffies;
+
+ next:
+ npackets++;
+
+ /* should it be released? */
+ if (words[0] & RX_COMP1_RELEASE_HDR) {
+ i = CAS_VAL(RX_COMP2_HDR_INDEX, words[1]);
+ dring = CAS_VAL(RX_INDEX_RING, i);
+ i = CAS_VAL(RX_INDEX_NUM, i);
+ cas_post_page(cp, dring, i);
+ }
+
+ if (words[0] & RX_COMP1_RELEASE_DATA) {
+ i = CAS_VAL(RX_COMP1_DATA_INDEX, words[0]);
+ dring = CAS_VAL(RX_INDEX_RING, i);
+ i = CAS_VAL(RX_INDEX_NUM, i);
+ cas_post_page(cp, dring, i);
+ }
+
+ if (words[0] & RX_COMP1_RELEASE_NEXT) {
+ i = CAS_VAL(RX_COMP2_NEXT_INDEX, words[1]);
+ dring = CAS_VAL(RX_INDEX_RING, i);
+ i = CAS_VAL(RX_INDEX_NUM, i);
+ cas_post_page(cp, dring, i);
+ }
+
+ /* skip to the next entry */
+ entry = RX_COMP_ENTRY(ring, entry + 1 +
+ CAS_VAL(RX_COMP1_SKIP, words[0]));
+#ifdef USE_NAPI
+ if (budget && (npackets >= budget))
+ break;
+#endif
+ }
+ cp->rx_new[ring] = entry;
+
+ if (drops)
+ printk(KERN_INFO "%s: Memory squeeze, deferring packet.\n",
+ cp->dev->name);
+ return npackets;
+}
+
+
+/* put completion entries back on the ring */
+static void cas_post_rxcs_ringN(struct net_device *dev,
+ struct cas *cp, int ring)
+{
+ struct cas_rx_comp *rxc = cp->init_rxcs[ring];
+ int last, entry;
+
+ last = cp->rx_cur[ring];
+ entry = cp->rx_new[ring];
+ if (netif_msg_intr(cp))
+ printk(KERN_DEBUG "%s: rxc[%d] interrupt, done: %d/%d\n",
+ dev->name, ring, readl(cp->regs + REG_RX_COMP_HEAD),
+ entry);
+
+ /* zero and re-mark descriptors */
+ while (last != entry) {
+ cas_rxc_init(rxc + last);
+ last = RX_COMP_ENTRY(ring, last + 1);
+ }
+ cp->rx_cur[ring] = last;
+
+ if (ring == 0)
+ writel(last, cp->regs + REG_RX_COMP_TAIL);
+ else if (cp->cas_flags & CAS_FLAG_REG_PLUS)
+ writel(last, cp->regs + REG_PLUS_RX_COMPN_TAIL(ring));
+}
+
+
+
+/* cassini can use all four PCI interrupts for the completion ring.
+ * rings 3 and 4 are identical
+ */
+#if defined(USE_PCI_INTC) || defined(USE_PCI_INTD)
+static inline void cas_handle_irqN(struct net_device *dev,
+ struct cas *cp, const u32 status,
+ const int ring)
+{
+ if (status & (INTR_RX_COMP_FULL_ALT | INTR_RX_COMP_AF_ALT))
+ cas_post_rxcs_ringN(dev, cp, ring);
+}
+
+static irqreturn_t cas_interruptN(int irq, void *dev_id, struct pt_regs *regs)
+{
+ struct net_device *dev = dev_id;
+ struct cas *cp = netdev_priv(dev);
+ unsigned long flags;
+ int ring;
+ u32 status = readl(cp->regs + REG_PLUS_INTRN_STATUS(ring));
+
+ /* check for shared irq */
+ if (status == 0)
+ return IRQ_NONE;
+
+ ring = (irq == cp->pci_irq_INTC) ? 2 : 3;
+ spin_lock_irqsave(&cp->lock, flags);
+ if (status & INTR_RX_DONE_ALT) { /* handle rx separately */
+#ifdef USE_NAPI
+ cas_mask_intr(cp);
+ netif_rx_schedule(dev);
+#else
+ cas_rx_ringN(cp, ring, 0);
+#endif
+ status &= ~INTR_RX_DONE_ALT;
+ }
+
+ if (status)
+ cas_handle_irqN(dev, cp, status, ring);
+ spin_unlock_irqrestore(&cp->lock, flags);
+ return IRQ_HANDLED;
+}
+#endif
+
+#ifdef USE_PCI_INTB
+/* everything but rx packets */
+static inline void cas_handle_irq1(struct cas *cp, const u32 status)
+{
+ if (status & INTR_RX_BUF_UNAVAIL_1) {
+ /* Frame arrived, no free RX buffers available.
+ * NOTE: we can get this on a link transition. */
+ cas_post_rxds_ringN(cp, 1, 0);
+ spin_lock(&cp->stat_lock[1]);
+ cp->net_stats[1].rx_dropped++;
+ spin_unlock(&cp->stat_lock[1]);
+ }
+
+ if (status & INTR_RX_BUF_AE_1)
+ cas_post_rxds_ringN(cp, 1, RX_DESC_RINGN_SIZE(1) -
+ RX_AE_FREEN_VAL(1));
+
+ if (status & (INTR_RX_COMP_AF | INTR_RX_COMP_FULL))
+ cas_post_rxcs_ringN(cp, 1);
+}
+
+/* ring 2 handles a few more events than 3 and 4 */
+static irqreturn_t cas_interrupt1(int irq, void *dev_id, struct pt_regs *regs)
+{
+ struct net_device *dev = dev_id;
+ struct cas *cp = netdev_priv(dev);
+ unsigned long flags;
+ u32 status = readl(cp->regs + REG_PLUS_INTRN_STATUS(1));
+
+ /* check for shared interrupt */
+ if (status == 0)
+ return IRQ_NONE;
+
+ spin_lock_irqsave(&cp->lock, flags);
+ if (status & INTR_RX_DONE_ALT) { /* handle rx separately */
+#ifdef USE_NAPI
+ cas_mask_intr(cp);
+ netif_rx_schedule(dev);
+#else
+ cas_rx_ringN(cp, 1, 0);
+#endif
+ status &= ~INTR_RX_DONE_ALT;
+ }
+ if (status)
+ cas_handle_irq1(cp, status);
+ spin_unlock_irqrestore(&cp->lock, flags);
+ return IRQ_HANDLED;
+}
+#endif
+
+static inline void cas_handle_irq(struct net_device *dev,
+ struct cas *cp, const u32 status)
+{
+ /* housekeeping interrupts */
+ if (status & INTR_ERROR_MASK)
+ cas_abnormal_irq(dev, cp, status);
+
+ if (status & INTR_RX_BUF_UNAVAIL) {
+ /* Frame arrived, no free RX buffers available.
+ * NOTE: we can get this on a link transition.
+ */
+ cas_post_rxds_ringN(cp, 0, 0);
+ spin_lock(&cp->stat_lock[0]);
+ cp->net_stats[0].rx_dropped++;
+ spin_unlock(&cp->stat_lock[0]);
+ } else if (status & INTR_RX_BUF_AE) {
+ cas_post_rxds_ringN(cp, 0, RX_DESC_RINGN_SIZE(0) -
+ RX_AE_FREEN_VAL(0));
+ }
+
+ if (status & (INTR_RX_COMP_AF | INTR_RX_COMP_FULL))
+ cas_post_rxcs_ringN(dev, cp, 0);
+}
+
+static irqreturn_t cas_interrupt(int irq, void *dev_id, struct pt_regs *regs)
+{
+ struct net_device *dev = dev_id;
+ struct cas *cp = netdev_priv(dev);
+ unsigned long flags;
+ u32 status = readl(cp->regs + REG_INTR_STATUS);
+
+ if (status == 0)
+ return IRQ_NONE;
+
+ spin_lock_irqsave(&cp->lock, flags);
+ if (status & (INTR_TX_ALL | INTR_TX_INTME)) {
+ cas_tx(dev, cp, status);
+ status &= ~(INTR_TX_ALL | INTR_TX_INTME);
+ }
+
+ if (status & INTR_RX_DONE) {
+#ifdef USE_NAPI
+ cas_mask_intr(cp);
+ netif_rx_schedule(dev);
+#else
+ cas_rx_ringN(cp, 0, 0);
+#endif
+ status &= ~INTR_RX_DONE;
+ }
+
+ if (status)
+ cas_handle_irq(dev, cp, status);
+ spin_unlock_irqrestore(&cp->lock, flags);
+ return IRQ_HANDLED;
+}
+
+
+#ifdef USE_NAPI
+static int cas_poll(struct net_device *dev, int *budget)
+{
+ struct cas *cp = netdev_priv(dev);
+ int i, enable_intr, todo, credits;
+ u32 status = readl(cp->regs + REG_INTR_STATUS);
+ unsigned long flags;
+
+ spin_lock_irqsave(&cp->lock, flags);
+ cas_tx(dev, cp, status);
+ spin_unlock_irqrestore(&cp->lock, flags);
+
+ /* NAPI rx packets. we spread the credits across all of the
+ * rxc rings
+ */
+ todo = min(*budget, dev->quota);
+
+ /* to make sure we're fair with the work we loop through each
+ * ring N_RX_COMP_RING times with a request of
+ * todo / N_RX_COMP_RINGS
+ */
+ enable_intr = 1;
+ credits = 0;
+ for (i = 0; i < N_RX_COMP_RINGS; i++) {
+ int j;
+ for (j = 0; j < N_RX_COMP_RINGS; j++) {
+ credits += cas_rx_ringN(cp, j, todo / N_RX_COMP_RINGS);
+ if (credits >= todo) {
+ enable_intr = 0;
+ goto rx_comp;
+ }
+ }
+ }
+
+rx_comp:
+ *budget -= credits;
+ dev->quota -= credits;
+
+ /* final rx completion */
+ spin_lock_irqsave(&cp->lock, flags);
+ if (status)
+ cas_handle_irq(dev, cp, status);
+
+#ifdef USE_PCI_INTB
+ if (N_RX_COMP_RINGS > 1) {
+ status = readl(cp->regs + REG_PLUS_INTRN_STATUS(1));
+ if (status)
+ cas_handle_irq1(dev, cp, status);
+ }
+#endif
+
+#ifdef USE_PCI_INTC
+ if (N_RX_COMP_RINGS > 2) {
+ status = readl(cp->regs + REG_PLUS_INTRN_STATUS(2));
+ if (status)
+ cas_handle_irqN(dev, cp, status, 2);
+ }
+#endif
+
+#ifdef USE_PCI_INTD
+ if (N_RX_COMP_RINGS > 3) {
+ status = readl(cp->regs + REG_PLUS_INTRN_STATUS(3));
+ if (status)
+ cas_handle_irqN(dev, cp, status, 3);
+ }
+#endif
+ spin_unlock_irqrestore(&cp->lock, flags);
+ if (enable_intr) {
+ netif_rx_complete(dev);
+ cas_unmask_intr(cp);
+ return 0;
+ }
+ return 1;
+}
+#endif
+
+#ifdef CONFIG_NET_POLL_CONTROLLER
+static void cas_netpoll(struct net_device *dev)
+{
+ struct cas *cp = netdev_priv(dev);
+
+ cas_disable_irq(cp, 0);
+ cas_interrupt(cp->pdev->irq, dev, NULL);
+ cas_enable_irq(cp, 0);
+
+#ifdef USE_PCI_INTB
+ if (N_RX_COMP_RINGS > 1) {
+ /* cas_interrupt1(); */
+ }
+#endif
+#ifdef USE_PCI_INTC
+ if (N_RX_COMP_RINGS > 2) {
+ /* cas_interruptN(); */
+ }
+#endif
+#ifdef USE_PCI_INTD
+ if (N_RX_COMP_RINGS > 3) {
+ /* cas_interruptN(); */
+ }
+#endif
+}
+#endif
+
+static void cas_tx_timeout(struct net_device *dev)
+{
+ struct cas *cp = netdev_priv(dev);
+
+ printk(KERN_ERR "%s: transmit timed out, resetting\n", dev->name);
+ if (!cp->hw_running) {
+ printk("%s: hrm.. hw not running!\n", dev->name);
+ return;
+ }
+
+ printk(KERN_ERR "%s: MIF_STATE[%08x]\n",
+ dev->name, readl(cp->regs + REG_MIF_STATE_MACHINE));
+
+ printk(KERN_ERR "%s: MAC_STATE[%08x]\n",
+ dev->name, readl(cp->regs + REG_MAC_STATE_MACHINE));
+
+ printk(KERN_ERR "%s: TX_STATE[%08x:%08x:%08x] "
+ "FIFO[%08x:%08x:%08x] SM1[%08x] SM2[%08x]\n",
+ dev->name,
+ readl(cp->regs + REG_TX_CFG),
+ readl(cp->regs + REG_MAC_TX_STATUS),
+ readl(cp->regs + REG_MAC_TX_CFG),
+ readl(cp->regs + REG_TX_FIFO_PKT_CNT),
+ readl(cp->regs + REG_TX_FIFO_WRITE_PTR),
+ readl(cp->regs + REG_TX_FIFO_READ_PTR),
+ readl(cp->regs + REG_TX_SM_1),
+ readl(cp->regs + REG_TX_SM_2));
+
+ printk(KERN_ERR "%s: RX_STATE[%08x:%08x:%08x]\n",
+ dev->name,
+ readl(cp->regs + REG_RX_CFG),
+ readl(cp->regs + REG_MAC_RX_STATUS),
+ readl(cp->regs + REG_MAC_RX_CFG));
+
+ printk(KERN_ERR "%s: HP_STATE[%08x:%08x:%08x:%08x]\n",
+ dev->name,
+ readl(cp->regs + REG_HP_STATE_MACHINE),
+ readl(cp->regs + REG_HP_STATUS0),
+ readl(cp->regs + REG_HP_STATUS1),
+ readl(cp->regs + REG_HP_STATUS2));
+
+#if 1
+ atomic_inc(&cp->reset_task_pending);
+ atomic_inc(&cp->reset_task_pending_all);
+ schedule_work(&cp->reset_task);
+#else
+ atomic_set(&cp->reset_task_pending, CAS_RESET_ALL);
+ schedule_work(&cp->reset_task);
+#endif
+}
+
+static inline int cas_intme(int ring, int entry)
+{
+ /* Algorithm: IRQ every 1/2 of descriptors. */
+ if (!(entry & ((TX_DESC_RINGN_SIZE(ring) >> 1) - 1)))
+ return 1;
+ return 0;
+}
+
+
+static void cas_write_txd(struct cas *cp, int ring, int entry,
+ dma_addr_t mapping, int len, u64 ctrl, int last)
+{
+ struct cas_tx_desc *txd = cp->init_txds[ring] + entry;
+
+ ctrl |= CAS_BASE(TX_DESC_BUFLEN, len);
+ if (cas_intme(ring, entry))
+ ctrl |= TX_DESC_INTME;
+ if (last)
+ ctrl |= TX_DESC_EOF;
+ txd->control = cpu_to_le64(ctrl);
+ txd->buffer = cpu_to_le64(mapping);
+}
+
+static inline void *tx_tiny_buf(struct cas *cp, const int ring,
+ const int entry)
+{
+ return cp->tx_tiny_bufs[ring] + TX_TINY_BUF_LEN*entry;
+}
+
+static inline dma_addr_t tx_tiny_map(struct cas *cp, const int ring,
+ const int entry, const int tentry)
+{
+ cp->tx_tiny_use[ring][tentry].nbufs++;
+ cp->tx_tiny_use[ring][entry].used = 1;
+ return cp->tx_tiny_dvma[ring] + TX_TINY_BUF_LEN*entry;
+}
+
+static inline int cas_xmit_tx_ringN(struct cas *cp, int ring,
+ struct sk_buff *skb)
+{
+ struct net_device *dev = cp->dev;
+ int entry, nr_frags, frag, tabort, tentry;
+ dma_addr_t mapping;
+ unsigned long flags;
+ u64 ctrl;
+ u32 len;
+
+ spin_lock_irqsave(&cp->tx_lock[ring], flags);
+
+ /* This is a hard error, log it. */
+ if (TX_BUFFS_AVAIL(cp, ring) <=
+ CAS_TABORT(cp)*(skb_shinfo(skb)->nr_frags + 1)) {
+ netif_stop_queue(dev);
+ spin_unlock_irqrestore(&cp->tx_lock[ring], flags);
+ printk(KERN_ERR PFX "%s: BUG! Tx Ring full when "
+ "queue awake!\n", dev->name);
+ return 1;
+ }
+
+ ctrl = 0;
+ if (skb->ip_summed == CHECKSUM_HW) {
+ u64 csum_start_off, csum_stuff_off;
+
+ csum_start_off = (u64) (skb->h.raw - skb->data);
+ csum_stuff_off = (u64) ((skb->h.raw + skb->csum) - skb->data);
+
+ ctrl = TX_DESC_CSUM_EN |
+ CAS_BASE(TX_DESC_CSUM_START, csum_start_off) |
+ CAS_BASE(TX_DESC_CSUM_STUFF, csum_stuff_off);
+ }
+
+ entry = cp->tx_new[ring];
+ cp->tx_skbs[ring][entry] = skb;
+
+ nr_frags = skb_shinfo(skb)->nr_frags;
+ len = skb_headlen(skb);
+ mapping = pci_map_page(cp->pdev, virt_to_page(skb->data),
+ offset_in_page(skb->data), len,
+ PCI_DMA_TODEVICE);
+
+ tentry = entry;
+ tabort = cas_calc_tabort(cp, (unsigned long) skb->data, len);
+ if (unlikely(tabort)) {
+ /* NOTE: len is always > tabort */
+ cas_write_txd(cp, ring, entry, mapping, len - tabort,
+ ctrl | TX_DESC_SOF, 0);
+ entry = TX_DESC_NEXT(ring, entry);
+
+ memcpy(tx_tiny_buf(cp, ring, entry), skb->data +
+ len - tabort, tabort);
+ mapping = tx_tiny_map(cp, ring, entry, tentry);
+ cas_write_txd(cp, ring, entry, mapping, tabort, ctrl,
+ (nr_frags == 0));
+ } else {
+ cas_write_txd(cp, ring, entry, mapping, len, ctrl |
+ TX_DESC_SOF, (nr_frags == 0));
+ }
+ entry = TX_DESC_NEXT(ring, entry);
+
+ for (frag = 0; frag < nr_frags; frag++) {
+ skb_frag_t *fragp = &skb_shinfo(skb)->frags[frag];
+
+ len = fragp->size;
+ mapping = pci_map_page(cp->pdev, fragp->page,
+ fragp->page_offset, len,
+ PCI_DMA_TODEVICE);
+
+ tabort = cas_calc_tabort(cp, fragp->page_offset, len);
+ if (unlikely(tabort)) {
+ void *addr;
+
+ /* NOTE: len is always > tabort */
+ cas_write_txd(cp, ring, entry, mapping, len - tabort,
+ ctrl, 0);
+ entry = TX_DESC_NEXT(ring, entry);
+
+ addr = cas_page_map(fragp->page);
+ memcpy(tx_tiny_buf(cp, ring, entry),
+ addr + fragp->page_offset + len - tabort,
+ tabort);
+ cas_page_unmap(addr);
+ mapping = tx_tiny_map(cp, ring, entry, tentry);
+ len = tabort;
+ }
+
+ cas_write_txd(cp, ring, entry, mapping, len, ctrl,
+ (frag + 1 == nr_frags));
+ entry = TX_DESC_NEXT(ring, entry);
+ }
+
+ cp->tx_new[ring] = entry;
+ if (TX_BUFFS_AVAIL(cp, ring) <= CAS_TABORT(cp)*(MAX_SKB_FRAGS + 1))
+ netif_stop_queue(dev);
+
+ if (netif_msg_tx_queued(cp))
+ printk(KERN_DEBUG "%s: tx[%d] queued, slot %d, skblen %d, "
+ "avail %d\n",
+ dev->name, ring, entry, skb->len,
+ TX_BUFFS_AVAIL(cp, ring));
+ writel(entry, cp->regs + REG_TX_KICKN(ring));
+ spin_unlock_irqrestore(&cp->tx_lock[ring], flags);
+ return 0;
+}
+
+static int cas_start_xmit(struct sk_buff *skb, struct net_device *dev)
+{
+ struct cas *cp = netdev_priv(dev);
+
+ /* this is only used as a load-balancing hint, so it doesn't
+ * need to be SMP safe
+ */
+ static int ring;
+
+ skb = skb_padto(skb, cp->min_frame_size);
+ if (!skb)
+ return 0;
+
+ /* XXX: we need some higher-level QoS hooks to steer packets to
+ * individual queues.
+ */
+ if (cas_xmit_tx_ringN(cp, ring++ & N_TX_RINGS_MASK, skb))
+ return 1;
+ dev->trans_start = jiffies;
+ return 0;
+}
+
+static void cas_init_tx_dma(struct cas *cp)
+{
+ u64 desc_dma = cp->block_dvma;
+ unsigned long off;
+ u32 val;
+ int i;
+
+ /* set up tx completion writeback registers. must be 8-byte aligned */
+#ifdef USE_TX_COMPWB
+ off = offsetof(struct cas_init_block, tx_compwb);
+ writel((desc_dma + off) >> 32, cp->regs + REG_TX_COMPWB_DB_HI);
+ writel((desc_dma + off) & 0xffffffff, cp->regs + REG_TX_COMPWB_DB_LOW);
+#endif
+
+ /* enable completion writebacks, enable paced mode,
+ * disable read pipe, and disable pre-interrupt compwbs
+ */
+ val = TX_CFG_COMPWB_Q1 | TX_CFG_COMPWB_Q2 |
+ TX_CFG_COMPWB_Q3 | TX_CFG_COMPWB_Q4 |
+ TX_CFG_DMA_RDPIPE_DIS | TX_CFG_PACED_MODE |
+ TX_CFG_INTR_COMPWB_DIS;
+
+ /* write out tx ring info and tx desc bases */
+ for (i = 0; i < MAX_TX_RINGS; i++) {
+ off = (unsigned long) cp->init_txds[i] -
+ (unsigned long) cp->init_block;
+
+ val |= CAS_TX_RINGN_BASE(i);
+ writel((desc_dma + off) >> 32, cp->regs + REG_TX_DBN_HI(i));
+ writel((desc_dma + off) & 0xffffffff, cp->regs +
+ REG_TX_DBN_LOW(i));
+ /* don't zero out the kick register here as the system
+ * will wedge
+ */
+ }
+ writel(val, cp->regs + REG_TX_CFG);
+
+ /* program max burst sizes. these numbers should be different
+ * if doing QoS.
+ */
+#ifdef USE_QOS
+ writel(0x800, cp->regs + REG_TX_MAXBURST_0);
+ writel(0x1600, cp->regs + REG_TX_MAXBURST_1);
+ writel(0x2400, cp->regs + REG_TX_MAXBURST_2);
+ writel(0x4800, cp->regs + REG_TX_MAXBURST_3);
+#else
+ writel(0x800, cp->regs + REG_TX_MAXBURST_0);
+ writel(0x800, cp->regs + REG_TX_MAXBURST_1);
+ writel(0x800, cp->regs + REG_TX_MAXBURST_2);
+ writel(0x800, cp->regs + REG_TX_MAXBURST_3);
+#endif
+}
+
+/* Must be invoked under cp->lock. */
+static inline void cas_init_dma(struct cas *cp)
+{
+ cas_init_tx_dma(cp);
+ cas_init_rx_dma(cp);
+}
+
+/* Must be invoked under cp->lock. */
+static u32 cas_setup_multicast(struct cas *cp)
+{
+ u32 rxcfg = 0;
+ int i;
+
+ if (cp->dev->flags & IFF_PROMISC) {
+ rxcfg |= MAC_RX_CFG_PROMISC_EN;
+
+ } else if (cp->dev->flags & IFF_ALLMULTI) {
+ for (i=0; i < 16; i++)
+ writel(0xFFFF, cp->regs + REG_MAC_HASH_TABLEN(i));
+ rxcfg |= MAC_RX_CFG_HASH_FILTER_EN;
+
+ } else {
+ u16 hash_table[16];
+ u32 crc;
+ struct dev_mc_list *dmi = cp->dev->mc_list;
+ int i;
+
+ /* use the alternate mac address registers for the
+ * first 15 multicast addresses
+ */
+ for (i = 1; i <= CAS_MC_EXACT_MATCH_SIZE; i++) {
+ if (!dmi) {
+ writel(0x0, cp->regs + REG_MAC_ADDRN(i*3 + 0));
+ writel(0x0, cp->regs + REG_MAC_ADDRN(i*3 + 1));
+ writel(0x0, cp->regs + REG_MAC_ADDRN(i*3 + 2));
+ continue;
+ }
+ writel((dmi->dmi_addr[4] << 8) | dmi->dmi_addr[5],
+ cp->regs + REG_MAC_ADDRN(i*3 + 0));
+ writel((dmi->dmi_addr[2] << 8) | dmi->dmi_addr[3],
+ cp->regs + REG_MAC_ADDRN(i*3 + 1));
+ writel((dmi->dmi_addr[0] << 8) | dmi->dmi_addr[1],
+ cp->regs + REG_MAC_ADDRN(i*3 + 2));
+ dmi = dmi->next;
+ }
+
+ /* use hw hash table for the next series of
+ * multicast addresses
+ */
+ memset(hash_table, 0, sizeof(hash_table));
+ while (dmi) {
+ crc = ether_crc_le(ETH_ALEN, dmi->dmi_addr);
+ crc >>= 24;
+ hash_table[crc >> 4] |= 1 << (15 - (crc & 0xf));
+ dmi = dmi->next;
+ }
+ for (i=0; i < 16; i++)
+ writel(hash_table[i], cp->regs +
+ REG_MAC_HASH_TABLEN(i));
+ rxcfg |= MAC_RX_CFG_HASH_FILTER_EN;
+ }
+
+ return rxcfg;
+}
+
+/* must be invoked under cp->stat_lock[N_TX_RINGS] */
+static void cas_clear_mac_err(struct cas *cp)
+{
+ writel(0, cp->regs + REG_MAC_COLL_NORMAL);
+ writel(0, cp->regs + REG_MAC_COLL_FIRST);
+ writel(0, cp->regs + REG_MAC_COLL_EXCESS);
+ writel(0, cp->regs + REG_MAC_COLL_LATE);
+ writel(0, cp->regs + REG_MAC_TIMER_DEFER);
+ writel(0, cp->regs + REG_MAC_ATTEMPTS_PEAK);
+ writel(0, cp->regs + REG_MAC_RECV_FRAME);
+ writel(0, cp->regs + REG_MAC_LEN_ERR);
+ writel(0, cp->regs + REG_MAC_ALIGN_ERR);
+ writel(0, cp->regs + REG_MAC_FCS_ERR);
+ writel(0, cp->regs + REG_MAC_RX_CODE_ERR);
+}
+
+
+static void cas_mac_reset(struct cas *cp)
+{
+ int i;
+
+ /* do both TX and RX reset */
+ writel(0x1, cp->regs + REG_MAC_TX_RESET);
+ writel(0x1, cp->regs + REG_MAC_RX_RESET);
+
+ /* wait for TX */
+ i = STOP_TRIES;
+ while (i-- > 0) {
+ if (readl(cp->regs + REG_MAC_TX_RESET) == 0)
+ break;
+ udelay(10);
+ }
+
+ /* wait for RX */
+ i = STOP_TRIES;
+ while (i-- > 0) {
+ if (readl(cp->regs + REG_MAC_RX_RESET) == 0)
+ break;
+ udelay(10);
+ }
+
+ if (readl(cp->regs + REG_MAC_TX_RESET) |
+ readl(cp->regs + REG_MAC_RX_RESET))
+ printk(KERN_ERR "%s: mac tx[%d]/rx[%d] reset failed [%08x]\n",
+ cp->dev->name, readl(cp->regs + REG_MAC_TX_RESET),
+ readl(cp->regs + REG_MAC_RX_RESET),
+ readl(cp->regs + REG_MAC_STATE_MACHINE));
+}
+
+
+/* Must be invoked under cp->lock. */
+static void cas_init_mac(struct cas *cp)
+{
+ unsigned char *e = &cp->dev->dev_addr[0];
+ int i;
+#ifdef CONFIG_CASSINI_MULTICAST_REG_WRITE
+ u32 rxcfg;
+#endif
+ cas_mac_reset(cp);
+
+ /* setup core arbitration weight register */
+ writel(CAWR_RR_DIS, cp->regs + REG_CAWR);
+
+ /* XXX Use pci_dma_burst_advice() */
+#if !defined(CONFIG_SPARC64) && !defined(CONFIG_ALPHA)
+ /* set the infinite burst register for chips that don't have
+ * pci issues.
+ */
+ if ((cp->cas_flags & CAS_FLAG_TARGET_ABORT) == 0)
+ writel(INF_BURST_EN, cp->regs + REG_INF_BURST);
+#endif
+
+ writel(0x1BF0, cp->regs + REG_MAC_SEND_PAUSE);
+
+ writel(0x00, cp->regs + REG_MAC_IPG0);
+ writel(0x08, cp->regs + REG_MAC_IPG1);
+ writel(0x04, cp->regs + REG_MAC_IPG2);
+
+ /* change later for 802.3z */
+ writel(0x40, cp->regs + REG_MAC_SLOT_TIME);
+
+ /* min frame + FCS */
+ writel(ETH_ZLEN + 4, cp->regs + REG_MAC_FRAMESIZE_MIN);
+
+ /* Ethernet payload + header + FCS + optional VLAN tag. NOTE: we
+ * specify the maximum frame size to prevent RX tag errors on
+ * oversized frames.
+ */
+ writel(CAS_BASE(MAC_FRAMESIZE_MAX_BURST, 0x2000) |
+ CAS_BASE(MAC_FRAMESIZE_MAX_FRAME,
+ (CAS_MAX_MTU + ETH_HLEN + 4 + 4)),
+ cp->regs + REG_MAC_FRAMESIZE_MAX);
+
+ /* NOTE: crc_size is used as a surrogate for half-duplex.
+ * workaround saturn half-duplex issue by increasing preamble
+ * size to 65 bytes.
+ */
+ if ((cp->cas_flags & CAS_FLAG_SATURN) && cp->crc_size)
+ writel(0x41, cp->regs + REG_MAC_PA_SIZE);
+ else
+ writel(0x07, cp->regs + REG_MAC_PA_SIZE);
+ writel(0x04, cp->regs + REG_MAC_JAM_SIZE);
+ writel(0x10, cp->regs + REG_MAC_ATTEMPT_LIMIT);
+ writel(0x8808, cp->regs + REG_MAC_CTRL_TYPE);
+
+ writel((e[5] | (e[4] << 8)) & 0x3ff, cp->regs + REG_MAC_RANDOM_SEED);
+
+ writel(0, cp->regs + REG_MAC_ADDR_FILTER0);
+ writel(0, cp->regs + REG_MAC_ADDR_FILTER1);
+ writel(0, cp->regs + REG_MAC_ADDR_FILTER2);
+ writel(0, cp->regs + REG_MAC_ADDR_FILTER2_1_MASK);
+ writel(0, cp->regs + REG_MAC_ADDR_FILTER0_MASK);
+
+ /* setup mac address in perfect filter array */
+ for (i = 0; i < 45; i++)
+ writel(0x0, cp->regs + REG_MAC_ADDRN(i));
+
+ writel((e[4] << 8) | e[5], cp->regs + REG_MAC_ADDRN(0));
+ writel((e[2] << 8) | e[3], cp->regs + REG_MAC_ADDRN(1));
+ writel((e[0] << 8) | e[1], cp->regs + REG_MAC_ADDRN(2));
+
+ writel(0x0001, cp->regs + REG_MAC_ADDRN(42));
+ writel(0xc200, cp->regs + REG_MAC_ADDRN(43));
+ writel(0x0180, cp->regs + REG_MAC_ADDRN(44));
+
+#ifndef CONFIG_CASSINI_MULTICAST_REG_WRITE
+ cp->mac_rx_cfg = cas_setup_multicast(cp);
+#else
+ /* WTZ: Do what Adrian did in cas_set_multicast. Doing
+ * a writel does not seem to be necessary because Cassini
+ * seems to preserve the configuration when we do the reset.
+ * If the chip is in trouble, though, it is not clear if we
+ * can really count on this behavior. cas_set_multicast uses
+ * spin_lock_irqsave, but we are called only in cas_init_hw and
+ * cas_init_hw is protected by cas_lock_all, which calls
+ * spin_lock_irq (so it doesn't need to save the flags, and
+ * we should be OK for the writel, as that is the only
+ * difference).
+ */
+ cp->mac_rx_cfg = rxcfg = cas_setup_multicast(cp);
+ writel(rxcfg, cp->regs + REG_MAC_RX_CFG);
+#endif
+ spin_lock(&cp->stat_lock[N_TX_RINGS]);
+ cas_clear_mac_err(cp);
+ spin_unlock(&cp->stat_lock[N_TX_RINGS]);
+
+ /* Setup MAC interrupts. We want to get all of the interesting
+ * counter expiration events, but we do not want to hear about
+ * normal rx/tx as the DMA engine tells us that.
+ */
+ writel(MAC_TX_FRAME_XMIT, cp->regs + REG_MAC_TX_MASK);
+ writel(MAC_RX_FRAME_RECV, cp->regs + REG_MAC_RX_MASK);
+
+ /* Don't enable even the PAUSE interrupts for now, we
+ * make no use of those events other than to record them.
+ */
+ writel(0xffffffff, cp->regs + REG_MAC_CTRL_MASK);
+}
+
+/* Must be invoked under cp->lock. */
+static void cas_init_pause_thresholds(struct cas *cp)
+{
+ /* Calculate pause thresholds. Setting the OFF threshold to the
+ * full RX fifo size effectively disables PAUSE generation
+ */
+ if (cp->rx_fifo_size <= (2 * 1024)) {
+ cp->rx_pause_off = cp->rx_pause_on = cp->rx_fifo_size;
+ } else {
+ int max_frame = (cp->dev->mtu + ETH_HLEN + 4 + 4 + 64) & ~63;
+ if (max_frame * 3 > cp->rx_fifo_size) {
+ cp->rx_pause_off = 7104;
+ cp->rx_pause_on = 960;
+ } else {
+ int off = (cp->rx_fifo_size - (max_frame * 2));
+ int on = off - max_frame;
+ cp->rx_pause_off = off;
+ cp->rx_pause_on = on;
+ }
+ }
+}
+
+static int cas_vpd_match(const void __iomem *p, const char *str)
+{
+ int len = strlen(str) + 1;
+ int i;
+
+ for (i = 0; i < len; i++) {
+ if (readb(p + i) != str[i])
+ return 0;
+ }
+ return 1;
+}
+
+
+/* get the mac address by reading the vpd information in the rom.
+ * also get the phy type and determine if there's an entropy generator.
+ * NOTE: this is a bit convoluted for the following reasons:
+ * 1) vpd info has order-dependent mac addresses for multinic cards
+ * 2) the only way to determine the nic order is to use the slot
+ * number.
+ * 3) fiber cards don't have bridges, so their slot numbers don't
+ * mean anything.
+ * 4) we don't actually know we have a fiber card until after
+ * the mac addresses are parsed.
+ */
+static int cas_get_vpd_info(struct cas *cp, unsigned char *dev_addr,
+ const int offset)
+{
+ void __iomem *p = cp->regs + REG_EXPANSION_ROM_RUN_START;
+ void __iomem *base, *kstart;
+ int i, len;
+ int found = 0;
+#define VPD_FOUND_MAC 0x01
+#define VPD_FOUND_PHY 0x02
+
+ int phy_type = CAS_PHY_MII_MDIO0; /* default phy type */
+ int mac_off = 0;
+
+ /* give us access to the PROM */
+ writel(BIM_LOCAL_DEV_PROM | BIM_LOCAL_DEV_PAD,
+ cp->regs + REG_BIM_LOCAL_DEV_EN);
+
+ /* check for an expansion rom */
+ if (readb(p) != 0x55 || readb(p + 1) != 0xaa)
+ goto use_random_mac_addr;
+
+ /* search for beginning of vpd */
+ base = NULL;
+ for (i = 2; i < EXPANSION_ROM_SIZE; i++) {
+ /* check for PCIR */
+ if ((readb(p + i + 0) == 0x50) &&
+ (readb(p + i + 1) == 0x43) &&
+ (readb(p + i + 2) == 0x49) &&
+ (readb(p + i + 3) == 0x52)) {
+ base = p + (readb(p + i + 8) |
+ (readb(p + i + 9) << 8));
+ break;
+ }
+ }
+
+ if (!base || (readb(base) != 0x82))
+ goto use_random_mac_addr;
+
+ i = (readb(base + 1) | (readb(base + 2) << 8)) + 3;
+ while (i < EXPANSION_ROM_SIZE) {
+ if (readb(base + i) != 0x90) /* no vpd found */
+ goto use_random_mac_addr;
+
+ /* found a vpd field */
+ len = readb(base + i + 1) | (readb(base + i + 2) << 8);
+
+ /* extract keywords */
+ kstart = base + i + 3;
+ p = kstart;
+ while ((p - kstart) < len) {
+ int klen = readb(p + 2);
+ int j;
+ char type;
+
+ p += 3;
+
+ /* look for the following things:
+ * -- correct length == 29
+ * 3 (type) + 2 (size) +
+ * 18 (strlen("local-mac-address") + 1) +
+ * 6 (mac addr)
+ * -- VPD Instance 'I'
+ * -- VPD Type Bytes 'B'
+ * -- VPD data length == 6
+ * -- property string == local-mac-address
+ *
+ * -- correct length == 24
+ * 3 (type) + 2 (size) +
+ * 12 (strlen("entropy-dev") + 1) +
+ * 7 (strlen("vms110") + 1)
+ * -- VPD Instance 'I'
+ * -- VPD Type String 'B'
+ * -- VPD data length == 7
+ * -- property string == entropy-dev
+ *
+ * -- correct length == 18
+ * 3 (type) + 2 (size) +
+ * 9 (strlen("phy-type") + 1) +
+ * 4 (strlen("pcs") + 1)
+ * -- VPD Instance 'I'
+ * -- VPD Type String 'S'
+ * -- VPD data length == 4
+ * -- property string == phy-type
+ *
+ * -- correct length == 23
+ * 3 (type) + 2 (size) +
+ * 14 (strlen("phy-interface") + 1) +
+ * 4 (strlen("pcs") + 1)
+ * -- VPD Instance 'I'
+ * -- VPD Type String 'S'
+ * -- VPD data length == 4
+ * -- property string == phy-interface
+ */
+ if (readb(p) != 'I')
+ goto next;
+
+ /* finally, check string and length */
+ type = readb(p + 3);
+ if (type == 'B') {
+ if ((klen == 29) && readb(p + 4) == 6 &&
+ cas_vpd_match(p + 5,
+ "local-mac-address")) {
+ if (mac_off++ > offset)
+ goto next;
+
+ /* set mac address */
+ for (j = 0; j < 6; j++)
+ dev_addr[j] =
+ readb(p + 23 + j);
+ goto found_mac;
+ }
+ }
+
+ if (type != 'S')
+ goto next;
+
+#ifdef USE_ENTROPY_DEV
+ if ((klen == 24) &&
+ cas_vpd_match(p + 5, "entropy-dev") &&
+ cas_vpd_match(p + 17, "vms110")) {
+ cp->cas_flags |= CAS_FLAG_ENTROPY_DEV;
+ goto next;
+ }
+#endif
+
+ if (found & VPD_FOUND_PHY)
+ goto next;
+
+ if ((klen == 18) && readb(p + 4) == 4 &&
+ cas_vpd_match(p + 5, "phy-type")) {
+ if (cas_vpd_match(p + 14, "pcs")) {
+ phy_type = CAS_PHY_SERDES;
+ goto found_phy;
+ }
+ }
+
+ if ((klen == 23) && readb(p + 4) == 4 &&
+ cas_vpd_match(p + 5, "phy-interface")) {
+ if (cas_vpd_match(p + 19, "pcs")) {
+ phy_type = CAS_PHY_SERDES;
+ goto found_phy;
+ }
+ }
+found_mac:
+ found |= VPD_FOUND_MAC;
+ goto next;
+
+found_phy:
+ found |= VPD_FOUND_PHY;
+
+next:
+ p += klen;
+ }
+ i += len + 3;
+ }
+
+use_random_mac_addr:
+ if (found & VPD_FOUND_MAC)
+ goto done;
+
+ /* Sun MAC prefix then 3 random bytes. */
+ printk(PFX "MAC address not found in ROM VPD\n");
+ dev_addr[0] = 0x08;
+ dev_addr[1] = 0x00;
+ dev_addr[2] = 0x20;
+ get_random_bytes(dev_addr + 3, 3);
+
+done:
+ writel(0, cp->regs + REG_BIM_LOCAL_DEV_EN);
+ return phy_type;
+}
+
+/* check pci invariants */
+static void cas_check_pci_invariants(struct cas *cp)
+{
+ struct pci_dev *pdev = cp->pdev;
+ u8 rev;
+
+ cp->cas_flags = 0;
+ pci_read_config_byte(pdev, PCI_REVISION_ID, &rev);
+ if ((pdev->vendor == PCI_VENDOR_ID_SUN) &&
+ (pdev->device == PCI_DEVICE_ID_SUN_CASSINI)) {
+ if (rev >= CAS_ID_REVPLUS)
+ cp->cas_flags |= CAS_FLAG_REG_PLUS;
+ if (rev < CAS_ID_REVPLUS02u)
+ cp->cas_flags |= CAS_FLAG_TARGET_ABORT;
+
+ /* Original Cassini supports HW CSUM, but it's not
+ * enabled by default as it can trigger TX hangs.
+ */
+ if (rev < CAS_ID_REV2)
+ cp->cas_flags |= CAS_FLAG_NO_HW_CSUM;
+ } else {
+ /* Only sun has original cassini chips. */
+ cp->cas_flags |= CAS_FLAG_REG_PLUS;
+
+ /* We use a flag because the same phy might be externally
+ * connected.
+ */
+ if ((pdev->vendor == PCI_VENDOR_ID_NS) &&
+ (pdev->device == PCI_DEVICE_ID_NS_SATURN))
+ cp->cas_flags |= CAS_FLAG_SATURN;
+ }
+}
+
+
+static int cas_check_invariants(struct cas *cp)
+{
+ struct pci_dev *pdev = cp->pdev;
+ u32 cfg;
+ int i;
+
+ /* get page size for rx buffers. */
+ cp->page_order = 0;
+#ifdef USE_PAGE_ORDER
+ if (PAGE_SHIFT < CAS_JUMBO_PAGE_SHIFT) {
+ /* see if we can allocate larger pages */
+ struct page *page = alloc_pages(GFP_ATOMIC,
+ CAS_JUMBO_PAGE_SHIFT -
+ PAGE_SHIFT);
+ if (page) {
+ __free_pages(page, CAS_JUMBO_PAGE_SHIFT - PAGE_SHIFT);
+ cp->page_order = CAS_JUMBO_PAGE_SHIFT - PAGE_SHIFT;
+ } else {
+ printk(PFX "MTU limited to %d bytes\n", CAS_MAX_MTU);
+ }
+ }
+#endif
+ cp->page_size = (PAGE_SIZE << cp->page_order);
+
+ /* Fetch the FIFO configurations. */
+ cp->tx_fifo_size = readl(cp->regs + REG_TX_FIFO_SIZE) * 64;
+ cp->rx_fifo_size = RX_FIFO_SIZE;
+
+ /* finish phy determination. MDIO1 takes precedence over MDIO0 if
+ * they're both connected.
+ */
+ cp->phy_type = cas_get_vpd_info(cp, cp->dev->dev_addr,
+ PCI_SLOT(pdev->devfn));
+ if (cp->phy_type & CAS_PHY_SERDES) {
+ cp->cas_flags |= CAS_FLAG_1000MB_CAP;
+ return 0; /* no more checking needed */
+ }
+
+ /* MII */
+ cfg = readl(cp->regs + REG_MIF_CFG);
+ if (cfg & MIF_CFG_MDIO_1) {
+ cp->phy_type = CAS_PHY_MII_MDIO1;
+ } else if (cfg & MIF_CFG_MDIO_0) {
+ cp->phy_type = CAS_PHY_MII_MDIO0;
+ }
+
+ cas_mif_poll(cp, 0);
+ writel(PCS_DATAPATH_MODE_MII, cp->regs + REG_PCS_DATAPATH_MODE);
+
+ for (i = 0; i < 32; i++) {
+ u32 phy_id;
+ int j;
+
+ for (j = 0; j < 3; j++) {
+ cp->phy_addr = i;
+ phy_id = cas_phy_read(cp, MII_PHYSID1) << 16;
+ phy_id |= cas_phy_read(cp, MII_PHYSID2);
+ if (phy_id && (phy_id != 0xFFFFFFFF)) {
+ cp->phy_id = phy_id;
+ goto done;
+ }
+ }
+ }
+ printk(KERN_ERR PFX "MII phy did not respond [%08x]\n",
+ readl(cp->regs + REG_MIF_STATE_MACHINE));
+ return -1;
+
+done:
+ /* see if we can do gigabit */
+ cfg = cas_phy_read(cp, MII_BMSR);
+ if ((cfg & CAS_BMSR_1000_EXTEND) &&
+ cas_phy_read(cp, CAS_MII_1000_EXTEND))
+ cp->cas_flags |= CAS_FLAG_1000MB_CAP;
+ return 0;
+}
+
+/* Must be invoked under cp->lock. */
+static inline void cas_start_dma(struct cas *cp)
+{
+ int i;
+ u32 val;
+ int txfailed = 0;
+
+ /* enable dma */
+ val = readl(cp->regs + REG_TX_CFG) | TX_CFG_DMA_EN;
+ writel(val, cp->regs + REG_TX_CFG);
+ val = readl(cp->regs + REG_RX_CFG) | RX_CFG_DMA_EN;
+ writel(val, cp->regs + REG_RX_CFG);
+
+ /* enable the mac */
+ val = readl(cp->regs + REG_MAC_TX_CFG) | MAC_TX_CFG_EN;
+ writel(val, cp->regs + REG_MAC_TX_CFG);
+ val = readl(cp->regs + REG_MAC_RX_CFG) | MAC_RX_CFG_EN;
+ writel(val, cp->regs + REG_MAC_RX_CFG);
+
+ i = STOP_TRIES;
+ while (i-- > 0) {
+ val = readl(cp->regs + REG_MAC_TX_CFG);
+ if ((val & MAC_TX_CFG_EN))
+ break;
+ udelay(10);
+ }
+ if (i < 0) txfailed = 1;
+ i = STOP_TRIES;
+ while (i-- > 0) {
+ val = readl(cp->regs + REG_MAC_RX_CFG);
+ if ((val & MAC_RX_CFG_EN)) {
+ if (txfailed) {
+ printk(KERN_ERR
+ "%s: enabling mac failed [tx:%08x:%08x].\n",
+ cp->dev->name,
+ readl(cp->regs + REG_MIF_STATE_MACHINE),
+ readl(cp->regs + REG_MAC_STATE_MACHINE));
+ }
+ goto enable_rx_done;
+ }
+ udelay(10);
+ }
+ printk(KERN_ERR "%s: enabling mac failed [%s:%08x:%08x].\n",
+ cp->dev->name,
+ (txfailed? "tx,rx":"rx"),
+ readl(cp->regs + REG_MIF_STATE_MACHINE),
+ readl(cp->regs + REG_MAC_STATE_MACHINE));
+
+enable_rx_done:
+ cas_unmask_intr(cp); /* enable interrupts */
+ writel(RX_DESC_RINGN_SIZE(0) - 4, cp->regs + REG_RX_KICK);
+ writel(0, cp->regs + REG_RX_COMP_TAIL);
+
+ if (cp->cas_flags & CAS_FLAG_REG_PLUS) {
+ if (N_RX_DESC_RINGS > 1)
+ writel(RX_DESC_RINGN_SIZE(1) - 4,
+ cp->regs + REG_PLUS_RX_KICK1);
+
+ for (i = 1; i < N_RX_COMP_RINGS; i++)
+ writel(0, cp->regs + REG_PLUS_RX_COMPN_TAIL(i));
+ }
+}
+
+/* Must be invoked under cp->lock. */
+static void cas_read_pcs_link_mode(struct cas *cp, int *fd, int *spd,
+ int *pause)
+{
+ u32 val = readl(cp->regs + REG_PCS_MII_LPA);
+ *fd = (val & PCS_MII_LPA_FD) ? 1 : 0;
+ *pause = (val & PCS_MII_LPA_SYM_PAUSE) ? 0x01 : 0x00;
+ if (val & PCS_MII_LPA_ASYM_PAUSE)
+ *pause |= 0x10;
+ *spd = 1000;
+}
+
+/* Must be invoked under cp->lock. */
+static void cas_read_mii_link_mode(struct cas *cp, int *fd, int *spd,
+ int *pause)
+{
+ u32 val;
+
+ *fd = 0;
+ *spd = 10;
+ *pause = 0;
+
+ /* use GMII registers */
+ val = cas_phy_read(cp, MII_LPA);
+ if (val & CAS_LPA_PAUSE)
+ *pause = 0x01;
+
+ if (val & CAS_LPA_ASYM_PAUSE)
+ *pause |= 0x10;
+
+ if (val & LPA_DUPLEX)
+ *fd = 1;
+ if (val & LPA_100)
+ *spd = 100;
+
+ if (cp->cas_flags & CAS_FLAG_1000MB_CAP) {
+ val = cas_phy_read(cp, CAS_MII_1000_STATUS);
+ if (val & (CAS_LPA_1000FULL | CAS_LPA_1000HALF))
+ *spd = 1000;
+ if (val & CAS_LPA_1000FULL)
+ *fd = 1;
+ }
+}
+
+/* A link-up condition has occurred, initialize and enable the
+ * rest of the chip.
+ *
+ * Must be invoked under cp->lock.
+ */
+static void cas_set_link_modes(struct cas *cp)
+{
+ u32 val;
+ int full_duplex, speed, pause;
+
+ full_duplex = 0;
+ speed = 10;
+ pause = 0;
+
+ if (CAS_PHY_MII(cp->phy_type)) {
+ cas_mif_poll(cp, 0);
+ val = cas_phy_read(cp, MII_BMCR);
+ if (val & BMCR_ANENABLE) {
+ cas_read_mii_link_mode(cp, &full_duplex, &speed,
+ &pause);
+ } else {
+ if (val & BMCR_FULLDPLX)
+ full_duplex = 1;
+
+ if (val & BMCR_SPEED100)
+ speed = 100;
+ else if (val & CAS_BMCR_SPEED1000)
+ speed = (cp->cas_flags & CAS_FLAG_1000MB_CAP) ?
+ 1000 : 100;
+ }
+ cas_mif_poll(cp, 1);
+
+ } else {
+ val = readl(cp->regs + REG_PCS_MII_CTRL);
+ cas_read_pcs_link_mode(cp, &full_duplex, &speed, &pause);
+ if ((val & PCS_MII_AUTONEG_EN) == 0) {
+ if (val & PCS_MII_CTRL_DUPLEX)
+ full_duplex = 1;
+ }
+ }
+
+ if (netif_msg_link(cp))
+ printk(KERN_INFO "%s: Link up at %d Mbps, %s-duplex.\n",
+ cp->dev->name, speed, (full_duplex ? "full" : "half"));
+
+ val = MAC_XIF_TX_MII_OUTPUT_EN | MAC_XIF_LINK_LED;
+ if (CAS_PHY_MII(cp->phy_type)) {
+ val |= MAC_XIF_MII_BUFFER_OUTPUT_EN;
+ if (!full_duplex)
+ val |= MAC_XIF_DISABLE_ECHO;
+ }
+ if (full_duplex)
+ val |= MAC_XIF_FDPLX_LED;
+ if (speed == 1000)
+ val |= MAC_XIF_GMII_MODE;
+ writel(val, cp->regs + REG_MAC_XIF_CFG);
+
+ /* deal with carrier and collision detect. */
+ val = MAC_TX_CFG_IPG_EN;
+ if (full_duplex) {
+ val |= MAC_TX_CFG_IGNORE_CARRIER;
+ val |= MAC_TX_CFG_IGNORE_COLL;
+ } else {
+#ifndef USE_CSMA_CD_PROTO
+ val |= MAC_TX_CFG_NEVER_GIVE_UP_EN;
+ val |= MAC_TX_CFG_NEVER_GIVE_UP_LIM;
+#endif
+ }
+ /* val now set up for REG_MAC_TX_CFG */
+
+ /* If gigabit and half-duplex, enable carrier extension
+ * mode. increase slot time to 512 bytes as well.
+ * else, disable it and make sure slot time is 64 bytes.
+ * also activate checksum bug workaround
+ */
+ if ((speed == 1000) && !full_duplex) {
+ writel(val | MAC_TX_CFG_CARRIER_EXTEND,
+ cp->regs + REG_MAC_TX_CFG);
+
+ val = readl(cp->regs + REG_MAC_RX_CFG);
+ val &= ~MAC_RX_CFG_STRIP_FCS; /* checksum workaround */
+ writel(val | MAC_RX_CFG_CARRIER_EXTEND,
+ cp->regs + REG_MAC_RX_CFG);
+
+ writel(0x200, cp->regs + REG_MAC_SLOT_TIME);
+
+ cp->crc_size = 4;
+ /* minimum size gigabit frame at half duplex */
+ cp->min_frame_size = CAS_1000MB_MIN_FRAME;
+
+ } else {
+ writel(val, cp->regs + REG_MAC_TX_CFG);
+
+ /* checksum bug workaround. don't strip FCS when in
+ * half-duplex mode
+ */
+ val = readl(cp->regs + REG_MAC_RX_CFG);
+ if (full_duplex) {
+ val |= MAC_RX_CFG_STRIP_FCS;
+ cp->crc_size = 0;
+ cp->min_frame_size = CAS_MIN_MTU;
+ } else {
+ val &= ~MAC_RX_CFG_STRIP_FCS;
+ cp->crc_size = 4;
+ cp->min_frame_size = CAS_MIN_FRAME;
+ }
+ writel(val & ~MAC_RX_CFG_CARRIER_EXTEND,
+ cp->regs + REG_MAC_RX_CFG);
+ writel(0x40, cp->regs + REG_MAC_SLOT_TIME);
+ }
+
+ if (netif_msg_link(cp)) {
+ if (pause & 0x01) {
+ printk(KERN_INFO "%s: Pause is enabled "
+ "(rxfifo: %d off: %d on: %d)\n",
+ cp->dev->name,
+ cp->rx_fifo_size,
+ cp->rx_pause_off,
+ cp->rx_pause_on);
+ } else if (pause & 0x10) {
+ printk(KERN_INFO "%s: TX pause enabled\n",
+ cp->dev->name);
+ } else {
+ printk(KERN_INFO "%s: Pause is disabled\n",
+ cp->dev->name);
+ }
+ }
+
+ val = readl(cp->regs + REG_MAC_CTRL_CFG);
+ val &= ~(MAC_CTRL_CFG_SEND_PAUSE_EN | MAC_CTRL_CFG_RECV_PAUSE_EN);
+ if (pause) { /* symmetric or asymmetric pause */
+ val |= MAC_CTRL_CFG_SEND_PAUSE_EN;
+ if (pause & 0x01) { /* symmetric pause */
+ val |= MAC_CTRL_CFG_RECV_PAUSE_EN;
+ }
+ }
+ writel(val, cp->regs + REG_MAC_CTRL_CFG);
+ cas_start_dma(cp);
+}
+
+/* Must be invoked under cp->lock. */
+static void cas_init_hw(struct cas *cp, int restart_link)
+{
+ if (restart_link)
+ cas_phy_init(cp);
+
+ cas_init_pause_thresholds(cp);
+ cas_init_mac(cp);
+ cas_init_dma(cp);
+
+ if (restart_link) {
+ /* Default aneg parameters */
+ cp->timer_ticks = 0;
+ cas_begin_auto_negotiation(cp, NULL);
+ } else if (cp->lstate == link_up) {
+ cas_set_link_modes(cp);
+ netif_carrier_on(cp->dev);
+ }
+}
+
+/* Must be invoked under cp->lock. on earlier cassini boards,
+ * SOFT_0 is tied to PCI reset. we use this to force a pci reset,
+ * let it settle out, and then restore pci state.
+ */
+static void cas_hard_reset(struct cas *cp)
+{
+ writel(BIM_LOCAL_DEV_SOFT_0, cp->regs + REG_BIM_LOCAL_DEV_EN);
+ udelay(20);
+ pci_restore_state(cp->pdev);
+}
+
+
+static void cas_global_reset(struct cas *cp, int blkflag)
+{
+ int limit;
+
+ /* issue a global reset. don't use RSTOUT. */
+ if (blkflag && !CAS_PHY_MII(cp->phy_type)) {
+ /* For PCS, when the blkflag is set, we should set the
+ * SW_REST_BLOCK_PCS_SLINK bit to prevent the results of
+ * the last autonegotiation from being cleared. We'll
+ * need some special handling if the chip is set into a
+ * loopback mode.
+ */
+ writel((SW_RESET_TX | SW_RESET_RX | SW_RESET_BLOCK_PCS_SLINK),
+ cp->regs + REG_SW_RESET);
+ } else {
+ writel(SW_RESET_TX | SW_RESET_RX, cp->regs + REG_SW_RESET);
+ }
+
+ /* need to wait at least 3ms before polling register */
+ mdelay(3);
+
+ limit = STOP_TRIES;
+ while (limit-- > 0) {
+ u32 val = readl(cp->regs + REG_SW_RESET);
+ if ((val & (SW_RESET_TX | SW_RESET_RX)) == 0)
+ goto done;
+ udelay(10);
+ }
+ printk(KERN_ERR "%s: sw reset failed.\n", cp->dev->name);
+
+done:
+ /* enable various BIM interrupts */
+ writel(BIM_CFG_DPAR_INTR_ENABLE | BIM_CFG_RMA_INTR_ENABLE |
+ BIM_CFG_RTA_INTR_ENABLE, cp->regs + REG_BIM_CFG);
+
+ /* clear out pci error status mask for handled errors.
+ * we don't deal with DMA counter overflows as they happen
+ * all the time.
+ */
+ writel(0xFFFFFFFFU & ~(PCI_ERR_BADACK | PCI_ERR_DTRTO |
+ PCI_ERR_OTHER | PCI_ERR_BIM_DMA_WRITE |
+ PCI_ERR_BIM_DMA_READ), cp->regs +
+ REG_PCI_ERR_STATUS_MASK);
+
+ /* set up for MII by default to address mac rx reset timeout
+ * issue
+ */
+ writel(PCS_DATAPATH_MODE_MII, cp->regs + REG_PCS_DATAPATH_MODE);
+}
+
+static void cas_reset(struct cas *cp, int blkflag)
+{
+ u32 val;
+
+ cas_mask_intr(cp);
+ cas_global_reset(cp, blkflag);
+ cas_mac_reset(cp);
+ cas_entropy_reset(cp);
+
+ /* disable dma engines. */
+ val = readl(cp->regs + REG_TX_CFG);
+ val &= ~TX_CFG_DMA_EN;
+ writel(val, cp->regs + REG_TX_CFG);
+
+ val = readl(cp->regs + REG_RX_CFG);
+ val &= ~RX_CFG_DMA_EN;
+ writel(val, cp->regs + REG_RX_CFG);
+
+ /* program header parser */
+ if ((cp->cas_flags & CAS_FLAG_TARGET_ABORT) ||
+ (CAS_HP_ALT_FIRMWARE == cas_prog_null)) {
+ cas_load_firmware(cp, CAS_HP_FIRMWARE);
+ } else {
+ cas_load_firmware(cp, CAS_HP_ALT_FIRMWARE);
+ }
+
+ /* clear out error registers */
+ spin_lock(&cp->stat_lock[N_TX_RINGS]);
+ cas_clear_mac_err(cp);
+ spin_unlock(&cp->stat_lock[N_TX_RINGS]);
+}
+
+/* Shut down the chip, must be called with pm_sem held. */
+static void cas_shutdown(struct cas *cp)
+{
+ unsigned long flags;
+
+ /* Make us not-running to avoid timers respawning */
+ cp->hw_running = 0;
+
+ del_timer_sync(&cp->link_timer);
+
+ /* Stop the reset task */
+#if 0
+ while (atomic_read(&cp->reset_task_pending_mtu) ||
+ atomic_read(&cp->reset_task_pending_spare) ||
+ atomic_read(&cp->reset_task_pending_all))
+ schedule();
+
+#else
+ while (atomic_read(&cp->reset_task_pending))
+ schedule();
+#endif
+ /* Actually stop the chip */
+ cas_lock_all_save(cp, flags);
+ cas_reset(cp, 0);
+ if (cp->cas_flags & CAS_FLAG_SATURN)
+ cas_phy_powerdown(cp);
+ cas_unlock_all_restore(cp, flags);
+}
+
+static int cas_change_mtu(struct net_device *dev, int new_mtu)
+{
+ struct cas *cp = netdev_priv(dev);
+
+ if (new_mtu < CAS_MIN_MTU || new_mtu > CAS_MAX_MTU)
+ return -EINVAL;
+
+ dev->mtu = new_mtu;
+ if (!netif_running(dev) || !netif_device_present(dev))
+ return 0;
+
+ /* let the reset task handle it */
+#if 1
+ atomic_inc(&cp->reset_task_pending);
+ if ((cp->phy_type & CAS_PHY_SERDES)) {
+ atomic_inc(&cp->reset_task_pending_all);
+ } else {
+ atomic_inc(&cp->reset_task_pending_mtu);
+ }
+ schedule_work(&cp->reset_task);
+#else
+ atomic_set(&cp->reset_task_pending, (cp->phy_type & CAS_PHY_SERDES) ?
+ CAS_RESET_ALL : CAS_RESET_MTU);
+ printk(KERN_ERR "reset called in cas_change_mtu\n");
+ schedule_work(&cp->reset_task);
+#endif
+
+ flush_scheduled_work();
+ return 0;
+}
+
+static void cas_clean_txd(struct cas *cp, int ring)
+{
+ struct cas_tx_desc *txd = cp->init_txds[ring];
+ struct sk_buff *skb, **skbs = cp->tx_skbs[ring];
+ u64 daddr, dlen;
+ int i, size;
+
+ size = TX_DESC_RINGN_SIZE(ring);
+ for (i = 0; i < size; i++) {
+ int frag;
+
+ if (skbs[i] == NULL)
+ continue;
+
+ skb = skbs[i];
+ skbs[i] = NULL;
+
+ for (frag = 0; frag <= skb_shinfo(skb)->nr_frags; frag++) {
+ int ent = i & (size - 1);
+
+ /* first buffer is never a tiny buffer and so
+ * needs to be unmapped.
+ */
+ daddr = le64_to_cpu(txd[ent].buffer);
+ dlen = CAS_VAL(TX_DESC_BUFLEN,
+ le64_to_cpu(txd[ent].control));
+ pci_unmap_page(cp->pdev, daddr, dlen,
+ PCI_DMA_TODEVICE);
+
+ if (frag != skb_shinfo(skb)->nr_frags) {
+ i++;
+
+ /* next buffer might by a tiny buffer.
+ * skip past it.
+ */
+ ent = i & (size - 1);
+ if (cp->tx_tiny_use[ring][ent].used)
+ i++;
+ }
+ }
+ dev_kfree_skb_any(skb);
+ }
+
+ /* zero out tiny buf usage */
+ memset(cp->tx_tiny_use[ring], 0, size*sizeof(*cp->tx_tiny_use[ring]));
+}
+
+/* freed on close */
+static inline void cas_free_rx_desc(struct cas *cp, int ring)
+{
+ cas_page_t **page = cp->rx_pages[ring];
+ int i, size;
+
+ size = RX_DESC_RINGN_SIZE(ring);
+ for (i = 0; i < size; i++) {
+ if (page[i]) {
+ cas_page_free(cp, page[i]);
+ page[i] = NULL;
+ }
+ }
+}
+
+static void cas_free_rxds(struct cas *cp)
+{
+ int i;
+
+ for (i = 0; i < N_RX_DESC_RINGS; i++)
+ cas_free_rx_desc(cp, i);
+}
+
+/* Must be invoked under cp->lock. */
+static void cas_clean_rings(struct cas *cp)
+{
+ int i;
+
+ /* need to clean all tx rings */
+ memset(cp->tx_old, 0, sizeof(*cp->tx_old)*N_TX_RINGS);
+ memset(cp->tx_new, 0, sizeof(*cp->tx_new)*N_TX_RINGS);
+ for (i = 0; i < N_TX_RINGS; i++)
+ cas_clean_txd(cp, i);
+
+ /* zero out init block */
+ memset(cp->init_block, 0, sizeof(struct cas_init_block));
+ cas_clean_rxds(cp);
+ cas_clean_rxcs(cp);
+}
+
+/* allocated on open */
+static inline int cas_alloc_rx_desc(struct cas *cp, int ring)
+{
+ cas_page_t **page = cp->rx_pages[ring];
+ int size, i = 0;
+
+ size = RX_DESC_RINGN_SIZE(ring);
+ for (i = 0; i < size; i++) {
+ if ((page[i] = cas_page_alloc(cp, GFP_KERNEL)) == NULL)
+ return -1;
+ }
+ return 0;
+}
+
+static int cas_alloc_rxds(struct cas *cp)
+{
+ int i;
+
+ for (i = 0; i < N_RX_DESC_RINGS; i++) {
+ if (cas_alloc_rx_desc(cp, i) < 0) {
+ cas_free_rxds(cp);
+ return -1;
+ }
+ }
+ return 0;
+}
+
+static void cas_reset_task(void *data)
+{
+ struct cas *cp = (struct cas *) data;
+#if 0
+ int pending = atomic_read(&cp->reset_task_pending);
+#else
+ int pending_all = atomic_read(&cp->reset_task_pending_all);
+ int pending_spare = atomic_read(&cp->reset_task_pending_spare);
+ int pending_mtu = atomic_read(&cp->reset_task_pending_mtu);
+
+ if (pending_all == 0 && pending_spare == 0 && pending_mtu == 0) {
+ /* We can have more tasks scheduled than actually
+ * needed.
+ */
+ atomic_dec(&cp->reset_task_pending);
+ return;
+ }
+#endif
+ /* The link went down, we reset the ring, but keep
+ * DMA stopped. Use this function for reset
+ * on error as well.
+ */
+ if (cp->hw_running) {
+ unsigned long flags;
+
+ /* Make sure we don't get interrupts or tx packets */
+ netif_device_detach(cp->dev);
+ cas_lock_all_save(cp, flags);
+
+ if (cp->opened) {
+ /* We call cas_spare_recover when we call cas_open.
+ * but we do not initialize the lists cas_spare_recover
+ * uses until cas_open is called.
+ */
+ cas_spare_recover(cp, GFP_ATOMIC);
+ }
+#if 1
+ /* test => only pending_spare set */
+ if (!pending_all && !pending_mtu)
+ goto done;
+#else
+ if (pending == CAS_RESET_SPARE)
+ goto done;
+#endif
+ /* when pending == CAS_RESET_ALL, the following
+ * call to cas_init_hw will restart auto negotiation.
+ * Setting the second argument of cas_reset to
+ * !(pending == CAS_RESET_ALL) will set this argument
+ * to 1 (avoiding reinitializing the PHY for the normal
+ * PCS case) when auto negotiation is not restarted.
+ */
+#if 1
+ cas_reset(cp, !(pending_all > 0));
+ if (cp->opened)
+ cas_clean_rings(cp);
+ cas_init_hw(cp, (pending_all > 0));
+#else
+ cas_reset(cp, !(pending == CAS_RESET_ALL));
+ if (cp->opened)
+ cas_clean_rings(cp);
+ cas_init_hw(cp, pending == CAS_RESET_ALL);
+#endif
+
+done:
+ cas_unlock_all_restore(cp, flags);
+ netif_device_attach(cp->dev);
+ }
+#if 1
+ atomic_sub(pending_all, &cp->reset_task_pending_all);
+ atomic_sub(pending_spare, &cp->reset_task_pending_spare);
+ atomic_sub(pending_mtu, &cp->reset_task_pending_mtu);
+ atomic_dec(&cp->reset_task_pending);
+#else
+ atomic_set(&cp->reset_task_pending, 0);
+#endif
+}
+
+static void cas_link_timer(unsigned long data)
+{
+ struct cas *cp = (struct cas *) data;
+ int mask, pending = 0, reset = 0;
+ unsigned long flags;
+
+ if (link_transition_timeout != 0 &&
+ cp->link_transition_jiffies_valid &&
+ ((jiffies - cp->link_transition_jiffies) >
+ (link_transition_timeout))) {
+ /* One-second counter so link-down workaround doesn't
+ * cause resets to occur so fast as to fool the switch
+ * into thinking the link is down.
+ */
+ cp->link_transition_jiffies_valid = 0;
+ }
+
+ if (!cp->hw_running)
+ return;
+
+ spin_lock_irqsave(&cp->lock, flags);
+ cas_lock_tx(cp);
+ cas_entropy_gather(cp);
+
+ /* If the link task is still pending, we just
+ * reschedule the link timer
+ */
+#if 1
+ if (atomic_read(&cp->reset_task_pending_all) ||
+ atomic_read(&cp->reset_task_pending_spare) ||
+ atomic_read(&cp->reset_task_pending_mtu))
+ goto done;
+#else
+ if (atomic_read(&cp->reset_task_pending))
+ goto done;
+#endif
+
+ /* check for rx cleaning */
+ if ((mask = (cp->cas_flags & CAS_FLAG_RXD_POST_MASK))) {
+ int i, rmask;
+
+ for (i = 0; i < MAX_RX_DESC_RINGS; i++) {
+ rmask = CAS_FLAG_RXD_POST(i);
+ if ((mask & rmask) == 0)
+ continue;
+
+ /* post_rxds will do a mod_timer */
+ if (cas_post_rxds_ringN(cp, i, cp->rx_last[i]) < 0) {
+ pending = 1;
+ continue;
+ }
+ cp->cas_flags &= ~rmask;
+ }
+ }
+
+ if (CAS_PHY_MII(cp->phy_type)) {
+ u16 bmsr;
+ cas_mif_poll(cp, 0);
+ bmsr = cas_phy_read(cp, MII_BMSR);
+ /* WTZ: Solaris driver reads this twice, but that
+ * may be due to the PCS case and the use of a
+ * common implementation. Read it twice here to be
+ * safe.
+ */
+ bmsr = cas_phy_read(cp, MII_BMSR);
+ cas_mif_poll(cp, 1);
+ readl(cp->regs + REG_MIF_STATUS); /* avoid dups */
+ reset = cas_mii_link_check(cp, bmsr);
+ } else {
+ reset = cas_pcs_link_check(cp);
+ }
+
+ if (reset)
+ goto done;
+
+ /* check for tx state machine confusion */
+ if ((readl(cp->regs + REG_MAC_TX_STATUS) & MAC_TX_FRAME_XMIT) == 0) {
+ u32 val = readl(cp->regs + REG_MAC_STATE_MACHINE);
+ u32 wptr, rptr;
+ int tlm = CAS_VAL(MAC_SM_TLM, val);
+
+ if (((tlm == 0x5) || (tlm == 0x3)) &&
+ (CAS_VAL(MAC_SM_ENCAP_SM, val) == 0)) {
+ if (netif_msg_tx_err(cp))
+ printk(KERN_DEBUG "%s: tx err: "
+ "MAC_STATE[%08x]\n",
+ cp->dev->name, val);
+ reset = 1;
+ goto done;
+ }
+
+ val = readl(cp->regs + REG_TX_FIFO_PKT_CNT);
+ wptr = readl(cp->regs + REG_TX_FIFO_WRITE_PTR);
+ rptr = readl(cp->regs + REG_TX_FIFO_READ_PTR);
+ if ((val == 0) && (wptr != rptr)) {
+ if (netif_msg_tx_err(cp))
+ printk(KERN_DEBUG "%s: tx err: "
+ "TX_FIFO[%08x:%08x:%08x]\n",
+ cp->dev->name, val, wptr, rptr);
+ reset = 1;
+ }
+
+ if (reset)
+ cas_hard_reset(cp);
+ }
+
+done:
+ if (reset) {
+#if 1
+ atomic_inc(&cp->reset_task_pending);
+ atomic_inc(&cp->reset_task_pending_all);
+ schedule_work(&cp->reset_task);
+#else
+ atomic_set(&cp->reset_task_pending, CAS_RESET_ALL);
+ printk(KERN_ERR "reset called in cas_link_timer\n");
+ schedule_work(&cp->reset_task);
+#endif
+ }
+
+ if (!pending)
+ mod_timer(&cp->link_timer, jiffies + CAS_LINK_TIMEOUT);
+ cas_unlock_tx(cp);
+ spin_unlock_irqrestore(&cp->lock, flags);
+}
+
+/* tiny buffers are used to avoid target abort issues with
+ * older cassini's
+ */
+static void cas_tx_tiny_free(struct cas *cp)
+{
+ struct pci_dev *pdev = cp->pdev;
+ int i;
+
+ for (i = 0; i < N_TX_RINGS; i++) {
+ if (!cp->tx_tiny_bufs[i])
+ continue;
+
+ pci_free_consistent(pdev, TX_TINY_BUF_BLOCK,
+ cp->tx_tiny_bufs[i],
+ cp->tx_tiny_dvma[i]);
+ cp->tx_tiny_bufs[i] = NULL;
+ }
+}
+
+static int cas_tx_tiny_alloc(struct cas *cp)
+{
+ struct pci_dev *pdev = cp->pdev;
+ int i;
+
+ for (i = 0; i < N_TX_RINGS; i++) {
+ cp->tx_tiny_bufs[i] =
+ pci_alloc_consistent(pdev, TX_TINY_BUF_BLOCK,
+ &cp->tx_tiny_dvma[i]);
+ if (!cp->tx_tiny_bufs[i]) {
+ cas_tx_tiny_free(cp);
+ return -1;
+ }
+ }
+ return 0;
+}
+
+
+static int cas_open(struct net_device *dev)
+{
+ struct cas *cp = netdev_priv(dev);
+ int hw_was_up, err;
+ unsigned long flags;
+
+ down(&cp->pm_sem);
+
+ hw_was_up = cp->hw_running;
+
+ /* The power-management semaphore protects the hw_running
+ * etc. state so it is safe to do this bit without cp->lock
+ */
+ if (!cp->hw_running) {
+ /* Reset the chip */
+ cas_lock_all_save(cp, flags);
+ /* We set the second arg to cas_reset to zero
+ * because cas_init_hw below will have its second
+ * argument set to non-zero, which will force
+ * autonegotiation to start.
+ */
+ cas_reset(cp, 0);
+ cp->hw_running = 1;
+ cas_unlock_all_restore(cp, flags);
+ }
+
+ if (cas_tx_tiny_alloc(cp) < 0)
+ return -ENOMEM;
+
+ /* alloc rx descriptors */
+ err = -ENOMEM;
+ if (cas_alloc_rxds(cp) < 0)
+ goto err_tx_tiny;
+
+ /* allocate spares */
+ cas_spare_init(cp);
+ cas_spare_recover(cp, GFP_KERNEL);
+
+ /* We can now request the interrupt as we know it's masked
+ * on the controller. cassini+ has up to 4 interrupts
+ * that can be used, but you need to do explicit pci interrupt
+ * mapping to expose them
+ */
+ if (request_irq(cp->pdev->irq, cas_interrupt,
+ SA_SHIRQ, dev->name, (void *) dev)) {
+ printk(KERN_ERR "%s: failed to request irq !\n",
+ cp->dev->name);
+ err = -EAGAIN;
+ goto err_spare;
+ }
+
+ /* init hw */
+ cas_lock_all_save(cp, flags);
+ cas_clean_rings(cp);
+ cas_init_hw(cp, !hw_was_up);
+ cp->opened = 1;
+ cas_unlock_all_restore(cp, flags);
+
+ netif_start_queue(dev);
+ up(&cp->pm_sem);
+ return 0;
+
+err_spare:
+ cas_spare_free(cp);
+ cas_free_rxds(cp);
+err_tx_tiny:
+ cas_tx_tiny_free(cp);
+ up(&cp->pm_sem);
+ return err;
+}
+
+static int cas_close(struct net_device *dev)
+{
+ unsigned long flags;
+ struct cas *cp = netdev_priv(dev);
+
+ /* Make sure we don't get distracted by suspend/resume */
+ down(&cp->pm_sem);
+
+ netif_stop_queue(dev);
+
+ /* Stop traffic, mark us closed */
+ cas_lock_all_save(cp, flags);
+ cp->opened = 0;
+ cas_reset(cp, 0);
+ cas_phy_init(cp);
+ cas_begin_auto_negotiation(cp, NULL);
+ cas_clean_rings(cp);
+ cas_unlock_all_restore(cp, flags);
+
+ free_irq(cp->pdev->irq, (void *) dev);
+ cas_spare_free(cp);
+ cas_free_rxds(cp);
+ cas_tx_tiny_free(cp);
+ up(&cp->pm_sem);
+ return 0;
+}
+
+static struct {
+ const char name[ETH_GSTRING_LEN];
+} ethtool_cassini_statnames[] = {
+ {"collisions"},
+ {"rx_bytes"},
+ {"rx_crc_errors"},
+ {"rx_dropped"},
+ {"rx_errors"},
+ {"rx_fifo_errors"},
+ {"rx_frame_errors"},
+ {"rx_length_errors"},
+ {"rx_over_errors"},
+ {"rx_packets"},
+ {"tx_aborted_errors"},
+ {"tx_bytes"},
+ {"tx_dropped"},
+ {"tx_errors"},
+ {"tx_fifo_errors"},
+ {"tx_packets"}
+};
+#define CAS_NUM_STAT_KEYS (sizeof(ethtool_cassini_statnames)/ETH_GSTRING_LEN)
+
+static struct {
+ const int offsets; /* neg. values for 2nd arg to cas_read_phy */
+} ethtool_register_table[] = {
+ {-MII_BMSR},
+ {-MII_BMCR},
+ {REG_CAWR},
+ {REG_INF_BURST},
+ {REG_BIM_CFG},
+ {REG_RX_CFG},
+ {REG_HP_CFG},
+ {REG_MAC_TX_CFG},
+ {REG_MAC_RX_CFG},
+ {REG_MAC_CTRL_CFG},
+ {REG_MAC_XIF_CFG},
+ {REG_MIF_CFG},
+ {REG_PCS_CFG},
+ {REG_SATURN_PCFG},
+ {REG_PCS_MII_STATUS},
+ {REG_PCS_STATE_MACHINE},
+ {REG_MAC_COLL_EXCESS},
+ {REG_MAC_COLL_LATE}
+};
+#define CAS_REG_LEN (sizeof(ethtool_register_table)/sizeof(int))
+#define CAS_MAX_REGS (sizeof (u32)*CAS_REG_LEN)
+
+static void cas_read_regs(struct cas *cp, u8 *ptr, int len)
+{
+ u8 *p;
+ int i;
+ unsigned long flags;
+
+ spin_lock_irqsave(&cp->lock, flags);
+ for (i = 0, p = ptr; i < len ; i ++, p += sizeof(u32)) {
+ u16 hval;
+ u32 val;
+ if (ethtool_register_table[i].offsets < 0) {
+ hval = cas_phy_read(cp,
+ -ethtool_register_table[i].offsets);
+ val = hval;
+ } else {
+ val= readl(cp->regs+ethtool_register_table[i].offsets);
+ }
+ memcpy(p, (u8 *)&val, sizeof(u32));
+ }
+ spin_unlock_irqrestore(&cp->lock, flags);
+}
+
+static struct net_device_stats *cas_get_stats(struct net_device *dev)
+{
+ struct cas *cp = netdev_priv(dev);
+ struct net_device_stats *stats = cp->net_stats;
+ unsigned long flags;
+ int i;
+ unsigned long tmp;
+
+ /* we collate all of the stats into net_stats[N_TX_RING] */
+ if (!cp->hw_running)
+ return stats + N_TX_RINGS;
+
+ /* collect outstanding stats */
+ /* WTZ: the Cassini spec gives these as 16 bit counters but
+ * stored in 32-bit words. Added a mask of 0xffff to be safe,
+ * in case the chip somehow puts any garbage in the other bits.
+ * Also, counter usage didn't seem to mach what Adrian did
+ * in the parts of the code that set these quantities. Made
+ * that consistent.
+ */
+ spin_lock_irqsave(&cp->stat_lock[N_TX_RINGS], flags);
+ stats[N_TX_RINGS].rx_crc_errors +=
+ readl(cp->regs + REG_MAC_FCS_ERR) & 0xffff;
+ stats[N_TX_RINGS].rx_frame_errors +=
+ readl(cp->regs + REG_MAC_ALIGN_ERR) &0xffff;
+ stats[N_TX_RINGS].rx_length_errors +=
+ readl(cp->regs + REG_MAC_LEN_ERR) & 0xffff;
+#if 1
+ tmp = (readl(cp->regs + REG_MAC_COLL_EXCESS) & 0xffff) +
+ (readl(cp->regs + REG_MAC_COLL_LATE) & 0xffff);
+ stats[N_TX_RINGS].tx_aborted_errors += tmp;
+ stats[N_TX_RINGS].collisions +=
+ tmp + (readl(cp->regs + REG_MAC_COLL_NORMAL) & 0xffff);
+#else
+ stats[N_TX_RINGS].tx_aborted_errors +=
+ readl(cp->regs + REG_MAC_COLL_EXCESS);
+ stats[N_TX_RINGS].collisions += readl(cp->regs + REG_MAC_COLL_EXCESS) +
+ readl(cp->regs + REG_MAC_COLL_LATE);
+#endif
+ cas_clear_mac_err(cp);
+
+ /* saved bits that are unique to ring 0 */
+ spin_lock(&cp->stat_lock[0]);
+ stats[N_TX_RINGS].collisions += stats[0].collisions;
+ stats[N_TX_RINGS].rx_over_errors += stats[0].rx_over_errors;
+ stats[N_TX_RINGS].rx_frame_errors += stats[0].rx_frame_errors;
+ stats[N_TX_RINGS].rx_fifo_errors += stats[0].rx_fifo_errors;
+ stats[N_TX_RINGS].tx_aborted_errors += stats[0].tx_aborted_errors;
+ stats[N_TX_RINGS].tx_fifo_errors += stats[0].tx_fifo_errors;
+ spin_unlock(&cp->stat_lock[0]);
+
+ for (i = 0; i < N_TX_RINGS; i++) {
+ spin_lock(&cp->stat_lock[i]);
+ stats[N_TX_RINGS].rx_length_errors +=
+ stats[i].rx_length_errors;
+ stats[N_TX_RINGS].rx_crc_errors += stats[i].rx_crc_errors;
+ stats[N_TX_RINGS].rx_packets += stats[i].rx_packets;
+ stats[N_TX_RINGS].tx_packets += stats[i].tx_packets;
+ stats[N_TX_RINGS].rx_bytes += stats[i].rx_bytes;
+ stats[N_TX_RINGS].tx_bytes += stats[i].tx_bytes;
+ stats[N_TX_RINGS].rx_errors += stats[i].rx_errors;
+ stats[N_TX_RINGS].tx_errors += stats[i].tx_errors;
+ stats[N_TX_RINGS].rx_dropped += stats[i].rx_dropped;
+ stats[N_TX_RINGS].tx_dropped += stats[i].tx_dropped;
+ memset(stats + i, 0, sizeof(struct net_device_stats));
+ spin_unlock(&cp->stat_lock[i]);
+ }
+ spin_unlock_irqrestore(&cp->stat_lock[N_TX_RINGS], flags);
+ return stats + N_TX_RINGS;
+}
+
+
+static void cas_set_multicast(struct net_device *dev)
+{
+ struct cas *cp = netdev_priv(dev);
+ u32 rxcfg, rxcfg_new;
+ unsigned long flags;
+ int limit = STOP_TRIES;
+
+ if (!cp->hw_running)
+ return;
+
+ spin_lock_irqsave(&cp->lock, flags);
+ rxcfg = readl(cp->regs + REG_MAC_RX_CFG);
+
+ /* disable RX MAC and wait for completion */
+ writel(rxcfg & ~MAC_RX_CFG_EN, cp->regs + REG_MAC_RX_CFG);
+ while (readl(cp->regs + REG_MAC_RX_CFG) & MAC_RX_CFG_EN) {
+ if (!limit--)
+ break;
+ udelay(10);
+ }
+
+ /* disable hash filter and wait for completion */
+ limit = STOP_TRIES;
+ rxcfg &= ~(MAC_RX_CFG_PROMISC_EN | MAC_RX_CFG_HASH_FILTER_EN);
+ writel(rxcfg & ~MAC_RX_CFG_EN, cp->regs + REG_MAC_RX_CFG);
+ while (readl(cp->regs + REG_MAC_RX_CFG) & MAC_RX_CFG_HASH_FILTER_EN) {
+ if (!limit--)
+ break;
+ udelay(10);
+ }
+
+ /* program hash filters */
+ cp->mac_rx_cfg = rxcfg_new = cas_setup_multicast(cp);
+ rxcfg |= rxcfg_new;
+ writel(rxcfg, cp->regs + REG_MAC_RX_CFG);
+ spin_unlock_irqrestore(&cp->lock, flags);
+}
+
+static void cas_get_drvinfo(struct net_device *dev, struct ethtool_drvinfo *info)
+{
+ struct cas *cp = netdev_priv(dev);
+ strncpy(info->driver, DRV_MODULE_NAME, ETHTOOL_BUSINFO_LEN);
+ strncpy(info->version, DRV_MODULE_VERSION, ETHTOOL_BUSINFO_LEN);
+ info->fw_version[0] = '\0';
+ strncpy(info->bus_info, pci_name(cp->pdev), ETHTOOL_BUSINFO_LEN);
+ info->regdump_len = cp->casreg_len < CAS_MAX_REGS ?
+ cp->casreg_len : CAS_MAX_REGS;
+ info->n_stats = CAS_NUM_STAT_KEYS;
+}
+
+static int cas_get_settings(struct net_device *dev, struct ethtool_cmd *cmd)
+{
+ struct cas *cp = netdev_priv(dev);
+ u16 bmcr;
+ int full_duplex, speed, pause;
+ unsigned long flags;
+ enum link_state linkstate = link_up;
+
+ cmd->advertising = 0;
+ cmd->supported = SUPPORTED_Autoneg;
+ if (cp->cas_flags & CAS_FLAG_1000MB_CAP) {
+ cmd->supported |= SUPPORTED_1000baseT_Full;
+ cmd->advertising |= ADVERTISED_1000baseT_Full;
+ }
+
+ /* Record PHY settings if HW is on. */
+ spin_lock_irqsave(&cp->lock, flags);
+ bmcr = 0;
+ linkstate = cp->lstate;
+ if (CAS_PHY_MII(cp->phy_type)) {
+ cmd->port = PORT_MII;
+ cmd->transceiver = (cp->cas_flags & CAS_FLAG_SATURN) ?
+ XCVR_INTERNAL : XCVR_EXTERNAL;
+ cmd->phy_address = cp->phy_addr;
+ cmd->advertising |= ADVERTISED_TP | ADVERTISED_MII |
+ ADVERTISED_10baseT_Half |
+ ADVERTISED_10baseT_Full |
+ ADVERTISED_100baseT_Half |
+ ADVERTISED_100baseT_Full;
+
+ cmd->supported |=
+ (SUPPORTED_10baseT_Half |
+ SUPPORTED_10baseT_Full |
+ SUPPORTED_100baseT_Half |
+ SUPPORTED_100baseT_Full |
+ SUPPORTED_TP | SUPPORTED_MII);
+
+ if (cp->hw_running) {
+ cas_mif_poll(cp, 0);
+ bmcr = cas_phy_read(cp, MII_BMCR);
+ cas_read_mii_link_mode(cp, &full_duplex,
+ &speed, &pause);
+ cas_mif_poll(cp, 1);
+ }
+
+ } else {
+ cmd->port = PORT_FIBRE;
+ cmd->transceiver = XCVR_INTERNAL;
+ cmd->phy_address = 0;
+ cmd->supported |= SUPPORTED_FIBRE;
+ cmd->advertising |= ADVERTISED_FIBRE;
+
+ if (cp->hw_running) {
+ /* pcs uses the same bits as mii */
+ bmcr = readl(cp->regs + REG_PCS_MII_CTRL);
+ cas_read_pcs_link_mode(cp, &full_duplex,
+ &speed, &pause);
+ }
+ }
+ spin_unlock_irqrestore(&cp->lock, flags);
+
+ if (bmcr & BMCR_ANENABLE) {
+ cmd->advertising |= ADVERTISED_Autoneg;
+ cmd->autoneg = AUTONEG_ENABLE;
+ cmd->speed = ((speed == 10) ?
+ SPEED_10 :
+ ((speed == 1000) ?
+ SPEED_1000 : SPEED_100));
+ cmd->duplex = full_duplex ? DUPLEX_FULL : DUPLEX_HALF;
+ } else {
+ cmd->autoneg = AUTONEG_DISABLE;
+ cmd->speed =
+ (bmcr & CAS_BMCR_SPEED1000) ?
+ SPEED_1000 :
+ ((bmcr & BMCR_SPEED100) ? SPEED_100:
+ SPEED_10);
+ cmd->duplex =
+ (bmcr & BMCR_FULLDPLX) ?
+ DUPLEX_FULL : DUPLEX_HALF;
+ }
+ if (linkstate != link_up) {
+ /* Force these to "unknown" if the link is not up and
+ * autonogotiation in enabled. We can set the link
+ * speed to 0, but not cmd->duplex,
+ * because its legal values are 0 and 1. Ethtool will
+ * print the value reported in parentheses after the
+ * word "Unknown" for unrecognized values.
+ *
+ * If in forced mode, we report the speed and duplex
+ * settings that we configured.
+ */
+ if (cp->link_cntl & BMCR_ANENABLE) {
+ cmd->speed = 0;
+ cmd->duplex = 0xff;
+ } else {
+ cmd->speed = SPEED_10;
+ if (cp->link_cntl & BMCR_SPEED100) {
+ cmd->speed = SPEED_100;
+ } else if (cp->link_cntl & CAS_BMCR_SPEED1000) {
+ cmd->speed = SPEED_1000;
+ }
+ cmd->duplex = (cp->link_cntl & BMCR_FULLDPLX)?
+ DUPLEX_FULL : DUPLEX_HALF;
+ }
+ }
+ return 0;
+}
+
+static int cas_set_settings(struct net_device *dev, struct ethtool_cmd *cmd)
+{
+ struct cas *cp = netdev_priv(dev);
+ unsigned long flags;
+
+ /* Verify the settings we care about. */
+ if (cmd->autoneg != AUTONEG_ENABLE &&
+ cmd->autoneg != AUTONEG_DISABLE)
+ return -EINVAL;
+
+ if (cmd->autoneg == AUTONEG_DISABLE &&
+ ((cmd->speed != SPEED_1000 &&
+ cmd->speed != SPEED_100 &&
+ cmd->speed != SPEED_10) ||
+ (cmd->duplex != DUPLEX_HALF &&
+ cmd->duplex != DUPLEX_FULL)))
+ return -EINVAL;
+
+ /* Apply settings and restart link process. */
+ spin_lock_irqsave(&cp->lock, flags);
+ cas_begin_auto_negotiation(cp, cmd);
+ spin_unlock_irqrestore(&cp->lock, flags);
+ return 0;
+}
+
+static int cas_nway_reset(struct net_device *dev)
+{
+ struct cas *cp = netdev_priv(dev);
+ unsigned long flags;
+
+ if ((cp->link_cntl & BMCR_ANENABLE) == 0)
+ return -EINVAL;
+
+ /* Restart link process. */
+ spin_lock_irqsave(&cp->lock, flags);
+ cas_begin_auto_negotiation(cp, NULL);
+ spin_unlock_irqrestore(&cp->lock, flags);
+
+ return 0;
+}
+
+static u32 cas_get_link(struct net_device *dev)
+{
+ struct cas *cp = netdev_priv(dev);
+ return cp->lstate == link_up;
+}
+
+static u32 cas_get_msglevel(struct net_device *dev)
+{
+ struct cas *cp = netdev_priv(dev);
+ return cp->msg_enable;
+}
+
+static void cas_set_msglevel(struct net_device *dev, u32 value)
+{
+ struct cas *cp = netdev_priv(dev);
+ cp->msg_enable = value;
+}
+
+static int cas_get_regs_len(struct net_device *dev)
+{
+ struct cas *cp = netdev_priv(dev);
+ return cp->casreg_len < CAS_MAX_REGS ? cp->casreg_len: CAS_MAX_REGS;
+}
+
+static void cas_get_regs(struct net_device *dev, struct ethtool_regs *regs,
+ void *p)
+{
+ struct cas *cp = netdev_priv(dev);
+ regs->version = 0;
+ /* cas_read_regs handles locks (cp->lock). */
+ cas_read_regs(cp, p, regs->len / sizeof(u32));
+}
+
+static int cas_get_stats_count(struct net_device *dev)
+{
+ return CAS_NUM_STAT_KEYS;
+}
+
+static void cas_get_strings(struct net_device *dev, u32 stringset, u8 *data)
+{
+ memcpy(data, &ethtool_cassini_statnames,
+ CAS_NUM_STAT_KEYS * ETH_GSTRING_LEN);
+}
+
+static void cas_get_ethtool_stats(struct net_device *dev,
+ struct ethtool_stats *estats, u64 *data)
+{
+ struct cas *cp = netdev_priv(dev);
+ struct net_device_stats *stats = cas_get_stats(cp->dev);
+ int i = 0;
+ data[i++] = stats->collisions;
+ data[i++] = stats->rx_bytes;
+ data[i++] = stats->rx_crc_errors;
+ data[i++] = stats->rx_dropped;
+ data[i++] = stats->rx_errors;
+ data[i++] = stats->rx_fifo_errors;
+ data[i++] = stats->rx_frame_errors;
+ data[i++] = stats->rx_length_errors;
+ data[i++] = stats->rx_over_errors;
+ data[i++] = stats->rx_packets;
+ data[i++] = stats->tx_aborted_errors;
+ data[i++] = stats->tx_bytes;
+ data[i++] = stats->tx_dropped;
+ data[i++] = stats->tx_errors;
+ data[i++] = stats->tx_fifo_errors;
+ data[i++] = stats->tx_packets;
+ BUG_ON(i != CAS_NUM_STAT_KEYS);
+}
+
+static struct ethtool_ops cas_ethtool_ops = {
+ .get_drvinfo = cas_get_drvinfo,
+ .get_settings = cas_get_settings,
+ .set_settings = cas_set_settings,
+ .nway_reset = cas_nway_reset,
+ .get_link = cas_get_link,
+ .get_msglevel = cas_get_msglevel,
+ .set_msglevel = cas_set_msglevel,
+ .get_regs_len = cas_get_regs_len,
+ .get_regs = cas_get_regs,
+ .get_stats_count = cas_get_stats_count,
+ .get_strings = cas_get_strings,
+ .get_ethtool_stats = cas_get_ethtool_stats,
+};
+
+static int cas_ioctl(struct net_device *dev, struct ifreq *ifr, int cmd)
+{
+ struct cas *cp = netdev_priv(dev);
+ struct mii_ioctl_data *data = if_mii(ifr);
+ unsigned long flags;
+ int rc = -EOPNOTSUPP;
+
+ /* Hold the PM semaphore while doing ioctl's or we may collide
+ * with open/close and power management and oops.
+ */
+ down(&cp->pm_sem);
+ switch (cmd) {
+ case SIOCGMIIPHY: /* Get address of MII PHY in use. */
+ data->phy_id = cp->phy_addr;
+ /* Fallthrough... */
+
+ case SIOCGMIIREG: /* Read MII PHY register. */
+ spin_lock_irqsave(&cp->lock, flags);
+ cas_mif_poll(cp, 0);
+ data->val_out = cas_phy_read(cp, data->reg_num & 0x1f);
+ cas_mif_poll(cp, 1);
+ spin_unlock_irqrestore(&cp->lock, flags);
+ rc = 0;
+ break;
+
+ case SIOCSMIIREG: /* Write MII PHY register. */
+ if (!capable(CAP_NET_ADMIN)) {
+ rc = -EPERM;
+ break;
+ }
+ spin_lock_irqsave(&cp->lock, flags);
+ cas_mif_poll(cp, 0);
+ rc = cas_phy_write(cp, data->reg_num & 0x1f, data->val_in);
+ cas_mif_poll(cp, 1);
+ spin_unlock_irqrestore(&cp->lock, flags);
+ break;
+ default:
+ break;
+ };
+
+ up(&cp->pm_sem);
+ return rc;
+}
+
+static int __devinit cas_init_one(struct pci_dev *pdev,
+ const struct pci_device_id *ent)
+{
+ static int cas_version_printed = 0;
+ unsigned long casreg_base, casreg_len;
+ struct net_device *dev;
+ struct cas *cp;
+ int i, err, pci_using_dac;
+ u16 pci_cmd;
+ u8 orig_cacheline_size = 0, cas_cacheline_size = 0;
+
+ if (cas_version_printed++ == 0)
+ printk(KERN_INFO "%s", version);
+
+ err = pci_enable_device(pdev);
+ if (err) {
+ printk(KERN_ERR PFX "Cannot enable PCI device, "
+ "aborting.\n");
+ return err;
+ }
+
+ if (!(pci_resource_flags(pdev, 0) & IORESOURCE_MEM)) {
+ printk(KERN_ERR PFX "Cannot find proper PCI device "
+ "base address, aborting.\n");
+ err = -ENODEV;
+ goto err_out_disable_pdev;
+ }
+
+ dev = alloc_etherdev(sizeof(*cp));
+ if (!dev) {
+ printk(KERN_ERR PFX "Etherdev alloc failed, aborting.\n");
+ err = -ENOMEM;
+ goto err_out_disable_pdev;
+ }
+ SET_MODULE_OWNER(dev);
+ SET_NETDEV_DEV(dev, &pdev->dev);
+
+ err = pci_request_regions(pdev, dev->name);
+ if (err) {
+ printk(KERN_ERR PFX "Cannot obtain PCI resources, "
+ "aborting.\n");
+ goto err_out_free_netdev;
+ }
+ pci_set_master(pdev);
+
+ /* we must always turn on parity response or else parity
+ * doesn't get generated properly. disable SERR/PERR as well.
+ * in addition, we want to turn MWI on.
+ */
+ pci_read_config_word(pdev, PCI_COMMAND, &pci_cmd);
+ pci_cmd &= ~PCI_COMMAND_SERR;
+ pci_cmd |= PCI_COMMAND_PARITY;
+ pci_write_config_word(pdev, PCI_COMMAND, pci_cmd);
+ pci_set_mwi(pdev);
+ /*
+ * On some architectures, the default cache line size set
+ * by pci_set_mwi reduces perforamnce. We have to increase
+ * it for this case. To start, we'll print some configuration
+ * data.
+ */
+#if 1
+ pci_read_config_byte(pdev, PCI_CACHE_LINE_SIZE,
+ &orig_cacheline_size);
+ if (orig_cacheline_size < CAS_PREF_CACHELINE_SIZE) {
+ cas_cacheline_size =
+ (CAS_PREF_CACHELINE_SIZE < SMP_CACHE_BYTES) ?
+ CAS_PREF_CACHELINE_SIZE : SMP_CACHE_BYTES;
+ if (pci_write_config_byte(pdev,
+ PCI_CACHE_LINE_SIZE,
+ cas_cacheline_size)) {
+ printk(KERN_ERR PFX "Could not set PCI cache "
+ "line size\n");
+ goto err_write_cacheline;
+ }
+ }
+#endif
+
+
+ /* Configure DMA attributes. */
+ if (!pci_set_dma_mask(pdev, DMA_64BIT_MASK)) {
+ pci_using_dac = 1;
+ err = pci_set_consistent_dma_mask(pdev,
+ DMA_64BIT_MASK);
+ if (err < 0) {
+ printk(KERN_ERR PFX "Unable to obtain 64-bit DMA "
+ "for consistent allocations\n");
+ goto err_out_free_res;
+ }
+
+ } else {
+ err = pci_set_dma_mask(pdev, DMA_32BIT_MASK);
+ if (err) {
+ printk(KERN_ERR PFX "No usable DMA configuration, "
+ "aborting.\n");
+ goto err_out_free_res;
+ }
+ pci_using_dac = 0;
+ }
+
+ casreg_base = pci_resource_start(pdev, 0);
+ casreg_len = pci_resource_len(pdev, 0);
+
+ cp = netdev_priv(dev);
+ cp->pdev = pdev;
+#if 1
+ /* A value of 0 indicates we never explicitly set it */
+ cp->orig_cacheline_size = cas_cacheline_size ? orig_cacheline_size: 0;
+#endif
+ cp->dev = dev;
+ cp->msg_enable = (cassini_debug < 0) ? CAS_DEF_MSG_ENABLE :
+ cassini_debug;
+
+ cp->link_transition = LINK_TRANSITION_UNKNOWN;
+ cp->link_transition_jiffies_valid = 0;
+
+ spin_lock_init(&cp->lock);
+ spin_lock_init(&cp->rx_inuse_lock);
+ spin_lock_init(&cp->rx_spare_lock);
+ for (i = 0; i < N_TX_RINGS; i++) {
+ spin_lock_init(&cp->stat_lock[i]);
+ spin_lock_init(&cp->tx_lock[i]);
+ }
+ spin_lock_init(&cp->stat_lock[N_TX_RINGS]);
+ init_MUTEX(&cp->pm_sem);
+
+ init_timer(&cp->link_timer);
+ cp->link_timer.function = cas_link_timer;
+ cp->link_timer.data = (unsigned long) cp;
+
+#if 1
+ /* Just in case the implementation of atomic operations
+ * change so that an explicit initialization is necessary.
+ */
+ atomic_set(&cp->reset_task_pending, 0);
+ atomic_set(&cp->reset_task_pending_all, 0);
+ atomic_set(&cp->reset_task_pending_spare, 0);
+ atomic_set(&cp->reset_task_pending_mtu, 0);
+#endif
+ INIT_WORK(&cp->reset_task, cas_reset_task, cp);
+
+ /* Default link parameters */
+ if (link_mode >= 0 && link_mode <= 6)
+ cp->link_cntl = link_modes[link_mode];
+ else
+ cp->link_cntl = BMCR_ANENABLE;
+ cp->lstate = link_down;
+ cp->link_transition = LINK_TRANSITION_LINK_DOWN;
+ netif_carrier_off(cp->dev);
+ cp->timer_ticks = 0;
+
+ /* give us access to cassini registers */
+ cp->regs = ioremap(casreg_base, casreg_len);
+ if (cp->regs == 0UL) {
+ printk(KERN_ERR PFX "Cannot map device registers, "
+ "aborting.\n");
+ goto err_out_free_res;
+ }
+ cp->casreg_len = casreg_len;
+
+ pci_save_state(pdev);
+ cas_check_pci_invariants(cp);
+ cas_hard_reset(cp);
+ cas_reset(cp, 0);
+ if (cas_check_invariants(cp))
+ goto err_out_iounmap;
+
+ cp->init_block = (struct cas_init_block *)
+ pci_alloc_consistent(pdev, sizeof(struct cas_init_block),
+ &cp->block_dvma);
+ if (!cp->init_block) {
+ printk(KERN_ERR PFX "Cannot allocate init block, "
+ "aborting.\n");
+ goto err_out_iounmap;
+ }
+
+ for (i = 0; i < N_TX_RINGS; i++)
+ cp->init_txds[i] = cp->init_block->txds[i];
+
+ for (i = 0; i < N_RX_DESC_RINGS; i++)
+ cp->init_rxds[i] = cp->init_block->rxds[i];
+
+ for (i = 0; i < N_RX_COMP_RINGS; i++)
+ cp->init_rxcs[i] = cp->init_block->rxcs[i];
+
+ for (i = 0; i < N_RX_FLOWS; i++)
+ skb_queue_head_init(&cp->rx_flows[i]);
+
+ dev->open = cas_open;
+ dev->stop = cas_close;
+ dev->hard_start_xmit = cas_start_xmit;
+ dev->get_stats = cas_get_stats;
+ dev->set_multicast_list = cas_set_multicast;
+ dev->do_ioctl = cas_ioctl;
+ dev->ethtool_ops = &cas_ethtool_ops;
+ dev->tx_timeout = cas_tx_timeout;
+ dev->watchdog_timeo = CAS_TX_TIMEOUT;
+ dev->change_mtu = cas_change_mtu;
+#ifdef USE_NAPI
+ dev->poll = cas_poll;
+ dev->weight = 64;
+#endif
+#ifdef CONFIG_NET_POLL_CONTROLLER
+ dev->poll_controller = cas_netpoll;
+#endif
+ dev->irq = pdev->irq;
+ dev->dma = 0;
+
+ /* Cassini features. */
+ if ((cp->cas_flags & CAS_FLAG_NO_HW_CSUM) == 0)
+ dev->features |= NETIF_F_HW_CSUM | NETIF_F_SG;
+
+ if (pci_using_dac)
+ dev->features |= NETIF_F_HIGHDMA;
+
+ if (register_netdev(dev)) {
+ printk(KERN_ERR PFX "Cannot register net device, "
+ "aborting.\n");
+ goto err_out_free_consistent;
+ }
+
+ i = readl(cp->regs + REG_BIM_CFG);
+ printk(KERN_INFO "%s: Sun Cassini%s (%sbit/%sMHz PCI/%s) "
+ "Ethernet[%d] ", dev->name,
+ (cp->cas_flags & CAS_FLAG_REG_PLUS) ? "+" : "",
+ (i & BIM_CFG_32BIT) ? "32" : "64",
+ (i & BIM_CFG_66MHZ) ? "66" : "33",
+ (cp->phy_type == CAS_PHY_SERDES) ? "Fi" : "Cu", pdev->irq);
+
+ for (i = 0; i < 6; i++)
+ printk("%2.2x%c", dev->dev_addr[i],
+ i == 5 ? ' ' : ':');
+ printk("\n");
+
+ pci_set_drvdata(pdev, dev);
+ cp->hw_running = 1;
+ cas_entropy_reset(cp);
+ cas_phy_init(cp);
+ cas_begin_auto_negotiation(cp, NULL);
+ return 0;
+
+err_out_free_consistent:
+ pci_free_consistent(pdev, sizeof(struct cas_init_block),
+ cp->init_block, cp->block_dvma);
+
+err_out_iounmap:
+ down(&cp->pm_sem);
+ if (cp->hw_running)
+ cas_shutdown(cp);
+ up(&cp->pm_sem);
+
+ iounmap(cp->regs);
+
+
+err_out_free_res:
+ pci_release_regions(pdev);
+
+err_write_cacheline:
+ /* Try to restore it in case the error occured after we
+ * set it.
+ */
+ pci_write_config_byte(pdev, PCI_CACHE_LINE_SIZE, orig_cacheline_size);
+
+err_out_free_netdev:
+ free_netdev(dev);
+
+err_out_disable_pdev:
+ pci_disable_device(pdev);
+ pci_set_drvdata(pdev, NULL);
+ return -ENODEV;
+}
+
+static void __devexit cas_remove_one(struct pci_dev *pdev)
+{
+ struct net_device *dev = pci_get_drvdata(pdev);
+ struct cas *cp;
+ if (!dev)
+ return;
+
+ cp = netdev_priv(dev);
+ unregister_netdev(dev);
+
+ down(&cp->pm_sem);
+ flush_scheduled_work();
+ if (cp->hw_running)
+ cas_shutdown(cp);
+ up(&cp->pm_sem);
+
+#if 1
+ if (cp->orig_cacheline_size) {
+ /* Restore the cache line size if we had modified
+ * it.
+ */
+ pci_write_config_byte(pdev, PCI_CACHE_LINE_SIZE,
+ cp->orig_cacheline_size);
+ }
+#endif
+ pci_free_consistent(pdev, sizeof(struct cas_init_block),
+ cp->init_block, cp->block_dvma);
+ iounmap(cp->regs);
+ free_netdev(dev);
+ pci_release_regions(pdev);
+ pci_disable_device(pdev);
+ pci_set_drvdata(pdev, NULL);
+}
+
+#ifdef CONFIG_PM
+static int cas_suspend(struct pci_dev *pdev, pm_message_t state)
+{
+ struct net_device *dev = pci_get_drvdata(pdev);
+ struct cas *cp = netdev_priv(dev);
+ unsigned long flags;
+
+ /* We hold the PM semaphore during entire driver
+ * sleep time
+ */
+ down(&cp->pm_sem);
+
+ /* If the driver is opened, we stop the DMA */
+ if (cp->opened) {
+ netif_device_detach(dev);
+
+ cas_lock_all_save(cp, flags);
+
+ /* We can set the second arg of cas_reset to 0
+ * because on resume, we'll call cas_init_hw with
+ * its second arg set so that autonegotiation is
+ * restarted.
+ */
+ cas_reset(cp, 0);
+ cas_clean_rings(cp);
+ cas_unlock_all_restore(cp, flags);
+ }
+
+ if (cp->hw_running)
+ cas_shutdown(cp);
+
+ return 0;
+}
+
+static int cas_resume(struct pci_dev *pdev)
+{
+ struct net_device *dev = pci_get_drvdata(pdev);
+ struct cas *cp = netdev_priv(dev);
+
+ printk(KERN_INFO "%s: resuming\n", dev->name);
+
+ cas_hard_reset(cp);
+ if (cp->opened) {
+ unsigned long flags;
+ cas_lock_all_save(cp, flags);
+ cas_reset(cp, 0);
+ cp->hw_running = 1;
+ cas_clean_rings(cp);
+ cas_init_hw(cp, 1);
+ cas_unlock_all_restore(cp, flags);
+
+ netif_device_attach(dev);
+ }
+ up(&cp->pm_sem);
+ return 0;
+}
+#endif /* CONFIG_PM */
+
+static struct pci_driver cas_driver = {
+ .name = DRV_MODULE_NAME,
+ .id_table = cas_pci_tbl,
+ .probe = cas_init_one,
+ .remove = __devexit_p(cas_remove_one),
+#ifdef CONFIG_PM
+ .suspend = cas_suspend,
+ .resume = cas_resume
+#endif
+};
+
+static int __init cas_init(void)
+{
+ if (linkdown_timeout > 0)
+ link_transition_timeout = linkdown_timeout * HZ;
+ else
+ link_transition_timeout = 0;
+
+ return pci_module_init(&cas_driver);
+}
+
+static void __exit cas_cleanup(void)
+{
+ pci_unregister_driver(&cas_driver);
+}
+
+module_init(cas_init);
+module_exit(cas_cleanup);
diff --git a/drivers/net/cassini.h b/drivers/net/cassini.h
new file mode 100644
index 00000000000..88063ef16cf
--- /dev/null
+++ b/drivers/net/cassini.h
@@ -0,0 +1,4425 @@
+/* $Id: cassini.h,v 1.16 2004/08/17 21:15:16 zaumen Exp $
+ * cassini.h: Definitions for Sun Microsystems Cassini(+) ethernet driver.
+ *
+ * Copyright (C) 2004 Sun Microsystems Inc.
+ * Copyright (c) 2003 Adrian Sun (asun@darksunrising.com)
+ *
+ * This program is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU General Public License as
+ * published by the Free Software Foundation; either version 2 of the
+ * License, or (at your option) any later version.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
+ * 02111-1307, USA.
+ *
+ * vendor id: 0x108E (Sun Microsystems, Inc.)
+ * device id: 0xabba (Cassini)
+ * revision ids: 0x01 = Cassini
+ * 0x02 = Cassini rev 2
+ * 0x10 = Cassini+
+ * 0x11 = Cassini+ 0.2u
+ *
+ * vendor id: 0x100b (National Semiconductor)
+ * device id: 0x0035 (DP83065/Saturn)
+ * revision ids: 0x30 = Saturn B2
+ *
+ * rings are all offset from 0.
+ *
+ * there are two clock domains:
+ * PCI: 33/66MHz clock
+ * chip: 125MHz clock
+ */
+
+#ifndef _CASSINI_H
+#define _CASSINI_H
+
+/* cassini register map: 2M memory mapped in 32-bit memory space accessible as
+ * 32-bit words. there is no i/o port access. REG_ addresses are
+ * shared between cassini and cassini+. REG_PLUS_ addresses only
+ * appear in cassini+. REG_MINUS_ addresses only appear in cassini.
+ */
+#define CAS_ID_REV2 0x02
+#define CAS_ID_REVPLUS 0x10
+#define CAS_ID_REVPLUS02u 0x11
+#define CAS_ID_REVSATURNB2 0x30
+
+/** global resources **/
+
+/* this register sets the weights for the weighted round robin arbiter. e.g.,
+ * if rx weight == 1 and tx weight == 0, rx == 2x tx transfer credit
+ * for its next turn to access the pci bus.
+ * map: 0x0 = x1, 0x1 = x2, 0x2 = x4, 0x3 = x8
+ * DEFAULT: 0x0, SIZE: 5 bits
+ */
+#define REG_CAWR 0x0004 /* core arbitration weight */
+#define CAWR_RX_DMA_WEIGHT_SHIFT 0
+#define CAWR_RX_DMA_WEIGHT_MASK 0x03 /* [0:1] */
+#define CAWR_TX_DMA_WEIGHT_SHIFT 2
+#define CAWR_TX_DMA_WEIGHT_MASK 0x0C /* [3:2] */
+#define CAWR_RR_DIS 0x10 /* [4] */
+
+/* if enabled, BIM can send bursts across PCI bus > cacheline size. burst
+ * sizes determined by length of packet or descriptor transfer and the
+ * max length allowed by the target.
+ * DEFAULT: 0x0, SIZE: 1 bit
+ */
+#define REG_INF_BURST 0x0008 /* infinite burst enable reg */
+#define INF_BURST_EN 0x1 /* enable */
+
+/* top level interrupts [0-9] are auto-cleared to 0 when the status
+ * register is read. second level interrupts [13 - 18] are cleared at
+ * the source. tx completion register 3 is replicated in [19 - 31]
+ * DEFAULT: 0x00000000, SIZE: 29 bits
+ */
+#define REG_INTR_STATUS 0x000C /* interrupt status register */
+#define INTR_TX_INTME 0x00000001 /* frame w/ INT ME desc bit set
+ xferred from host queue to
+ TX FIFO */
+#define INTR_TX_ALL 0x00000002 /* all xmit frames xferred into
+ TX FIFO. i.e.,
+ TX Kick == TX complete. if
+ PACED_MODE set, then TX FIFO
+ also empty */
+#define INTR_TX_DONE 0x00000004 /* any frame xferred into tx
+ FIFO */
+#define INTR_TX_TAG_ERROR 0x00000008 /* TX FIFO tag framing
+ corrupted. FATAL ERROR */
+#define INTR_RX_DONE 0x00000010 /* at least 1 frame xferred
+ from RX FIFO to host mem.
+ RX completion reg updated.
+ may be delayed by recv
+ intr blanking. */
+#define INTR_RX_BUF_UNAVAIL 0x00000020 /* no more receive buffers.
+ RX Kick == RX complete */
+#define INTR_RX_TAG_ERROR 0x00000040 /* RX FIFO tag framing
+ corrupted. FATAL ERROR */
+#define INTR_RX_COMP_FULL 0x00000080 /* no more room in completion
+ ring to post descriptors.
+ RX complete head incr to
+ almost reach RX complete
+ tail */
+#define INTR_RX_BUF_AE 0x00000100 /* less than the
+ programmable threshold #
+ of free descr avail for
+ hw use */
+#define INTR_RX_COMP_AF 0x00000200 /* less than the
+ programmable threshold #
+ of descr spaces for hw
+ use in completion descr
+ ring */
+#define INTR_RX_LEN_MISMATCH 0x00000400 /* len field from MAC !=
+ len of non-reassembly pkt
+ from fifo during DMA or
+ header parser provides TCP
+ header and payload size >
+ MAC packet size.
+ FATAL ERROR */
+#define INTR_SUMMARY 0x00001000 /* summary interrupt bit. this
+ bit will be set if an interrupt
+ generated on the pci bus. useful
+ when driver is polling for
+ interrupts */
+#define INTR_PCS_STATUS 0x00002000 /* PCS interrupt status register */
+#define INTR_TX_MAC_STATUS 0x00004000 /* TX MAC status register has at
+ least 1 unmasked interrupt set */
+#define INTR_RX_MAC_STATUS 0x00008000 /* RX MAC status register has at
+ least 1 unmasked interrupt set */
+#define INTR_MAC_CTRL_STATUS 0x00010000 /* MAC control status register has
+ at least 1 unmasked interrupt
+ set */
+#define INTR_MIF_STATUS 0x00020000 /* MIF status register has at least
+ 1 unmasked interrupt set */
+#define INTR_PCI_ERROR_STATUS 0x00040000 /* PCI error status register in the
+ BIF has at least 1 unmasked
+ interrupt set */
+#define INTR_TX_COMP_3_MASK 0xFFF80000 /* mask for TX completion
+ 3 reg data */
+#define INTR_TX_COMP_3_SHIFT 19
+#define INTR_ERROR_MASK (INTR_MIF_STATUS | INTR_PCI_ERROR_STATUS | \
+ INTR_PCS_STATUS | INTR_RX_LEN_MISMATCH | \
+ INTR_TX_MAC_STATUS | INTR_RX_MAC_STATUS | \
+ INTR_TX_TAG_ERROR | INTR_RX_TAG_ERROR | \
+ INTR_MAC_CTRL_STATUS)
+
+/* determines which status events will cause an interrupt. layout same
+ * as REG_INTR_STATUS.
+ * DEFAULT: 0xFFFFFFFF, SIZE: 16 bits
+ */
+#define REG_INTR_MASK 0x0010 /* Interrupt mask */
+
+/* top level interrupt bits that are cleared during read of REG_INTR_STATUS_ALIAS.
+ * useful when driver is polling for interrupts. layout same as REG_INTR_MASK.
+ * DEFAULT: 0x00000000, SIZE: 12 bits
+ */
+#define REG_ALIAS_CLEAR 0x0014 /* alias clear mask
+ (used w/ status alias) */
+/* same as REG_INTR_STATUS except that only bits cleared are those selected by
+ * REG_ALIAS_CLEAR
+ * DEFAULT: 0x00000000, SIZE: 29 bits
+ */
+#define REG_INTR_STATUS_ALIAS 0x001C /* interrupt status alias
+ (selective clear) */
+
+/* DEFAULT: 0x0, SIZE: 3 bits */
+#define REG_PCI_ERR_STATUS 0x1000 /* PCI error status */
+#define PCI_ERR_BADACK 0x01 /* reserved in Cassini+.
+ set if no ACK64# during ABS64 cycle
+ in Cassini. */
+#define PCI_ERR_DTRTO 0x02 /* delayed xaction timeout. set if
+ no read retry after 2^15 clocks */
+#define PCI_ERR_OTHER 0x04 /* other PCI errors */
+#define PCI_ERR_BIM_DMA_WRITE 0x08 /* BIM received 0 count DMA write req.
+ unused in Cassini. */
+#define PCI_ERR_BIM_DMA_READ 0x10 /* BIM received 0 count DMA read req.
+ unused in Cassini. */
+#define PCI_ERR_BIM_DMA_TIMEOUT 0x20 /* BIM received 255 retries during
+ DMA. unused in cassini. */
+
+/* mask for PCI status events that will set PCI_ERR_STATUS. if cleared, event
+ * causes an interrupt to be generated.
+ * DEFAULT: 0x7, SIZE: 3 bits
+ */
+#define REG_PCI_ERR_STATUS_MASK 0x1004 /* PCI Error status mask */
+
+/* used to configure PCI related parameters that are not in PCI config space.
+ * DEFAULT: 0bxx000, SIZE: 5 bits
+ */
+#define REG_BIM_CFG 0x1008 /* BIM Configuration */
+#define BIM_CFG_RESERVED0 0x001 /* reserved */
+#define BIM_CFG_RESERVED1 0x002 /* reserved */
+#define BIM_CFG_64BIT_DISABLE 0x004 /* disable 64-bit mode */
+#define BIM_CFG_66MHZ 0x008 /* (ro) 1 = 66MHz, 0 = < 66MHz */
+#define BIM_CFG_32BIT 0x010 /* (ro) 1 = 32-bit slot, 0 = 64-bit */
+#define BIM_CFG_DPAR_INTR_ENABLE 0x020 /* detected parity err enable */
+#define BIM_CFG_RMA_INTR_ENABLE 0x040 /* master abort intr enable */
+#define BIM_CFG_RTA_INTR_ENABLE 0x080 /* target abort intr enable */
+#define BIM_CFG_RESERVED2 0x100 /* reserved */
+#define BIM_CFG_BIM_DISABLE 0x200 /* stop BIM DMA. use before global
+ reset. reserved in Cassini. */
+#define BIM_CFG_BIM_STATUS 0x400 /* (ro) 1 = BIM DMA suspended.
+ reserved in Cassini. */
+#define BIM_CFG_PERROR_BLOCK 0x800 /* block PERR# to pci bus. def: 0.
+ reserved in Cassini. */
+
+/* DEFAULT: 0x00000000, SIZE: 32 bits */
+#define REG_BIM_DIAG 0x100C /* BIM Diagnostic */
+#define BIM_DIAG_MSTR_SM_MASK 0x3FFFFF00 /* PCI master controller state
+ machine bits [21:0] */
+#define BIM_DIAG_BRST_SM_MASK 0x7F /* PCI burst controller state
+ machine bits [6:0] */
+
+/* writing to SW_RESET_TX and SW_RESET_RX will issue a global
+ * reset. poll until TX and RX read back as 0's for completion.
+ */
+#define REG_SW_RESET 0x1010 /* Software reset */
+#define SW_RESET_TX 0x00000001 /* reset TX DMA engine. poll until
+ cleared to 0. */
+#define SW_RESET_RX 0x00000002 /* reset RX DMA engine. poll until
+ cleared to 0. */
+#define SW_RESET_RSTOUT 0x00000004 /* force RSTOUT# pin active (low).
+ resets PHY and anything else
+ connected to RSTOUT#. RSTOUT#
+ is also activated by local PCI
+ reset when hot-swap is being
+ done. */
+#define SW_RESET_BLOCK_PCS_SLINK 0x00000008 /* if a global reset is done with
+ this bit set, PCS and SLINK
+ modules won't be reset.
+ i.e., link won't drop. */
+#define SW_RESET_BREQ_SM_MASK 0x00007F00 /* breq state machine [6:0] */
+#define SW_RESET_PCIARB_SM_MASK 0x00070000 /* pci arbitration state bits:
+ 0b000: ARB_IDLE1
+ 0b001: ARB_IDLE2
+ 0b010: ARB_WB_ACK
+ 0b011: ARB_WB_WAT
+ 0b100: ARB_RB_ACK
+ 0b101: ARB_RB_WAT
+ 0b110: ARB_RB_END
+ 0b111: ARB_WB_END */
+#define SW_RESET_RDPCI_SM_MASK 0x00300000 /* read pci state bits:
+ 0b00: RD_PCI_WAT
+ 0b01: RD_PCI_RDY
+ 0b11: RD_PCI_ACK */
+#define SW_RESET_RDARB_SM_MASK 0x00C00000 /* read arbitration state bits:
+ 0b00: AD_IDL_RX
+ 0b01: AD_ACK_RX
+ 0b10: AD_ACK_TX
+ 0b11: AD_IDL_TX */
+#define SW_RESET_WRPCI_SM_MASK 0x06000000 /* write pci state bits
+ 0b00: WR_PCI_WAT
+ 0b01: WR_PCI_RDY
+ 0b11: WR_PCI_ACK */
+#define SW_RESET_WRARB_SM_MASK 0x38000000 /* write arbitration state bits:
+ 0b000: ARB_IDLE1
+ 0b001: ARB_IDLE2
+ 0b010: ARB_TX_ACK
+ 0b011: ARB_TX_WAT
+ 0b100: ARB_RX_ACK
+ 0b110: ARB_RX_WAT */
+
+/* Cassini only. 64-bit register used to check PCI datapath. when read,
+ * value written has both lower and upper 32-bit halves rotated to the right
+ * one bit position. e.g., FFFFFFFF FFFFFFFF -> 7FFFFFFF 7FFFFFFF
+ */
+#define REG_MINUS_BIM_DATAPATH_TEST 0x1018 /* Cassini: BIM datapath test
+ Cassini+: reserved */
+
+/* output enables are provided for each device's chip select and for the rest
+ * of the outputs from cassini to its local bus devices. two sw programmable
+ * bits are connected to general purpus control/status bits.
+ * DEFAULT: 0x7
+ */
+#define REG_BIM_LOCAL_DEV_EN 0x1020 /* BIM local device
+ output EN. default: 0x7 */
+#define BIM_LOCAL_DEV_PAD 0x01 /* address bus, RW signal, and
+ OE signal output enable on the
+ local bus interface. these
+ are shared between both local
+ bus devices. tristate when 0. */
+#define BIM_LOCAL_DEV_PROM 0x02 /* PROM chip select */
+#define BIM_LOCAL_DEV_EXT 0x04 /* secondary local bus device chip
+ select output enable */
+#define BIM_LOCAL_DEV_SOFT_0 0x08 /* sw programmable ctrl bit 0 */
+#define BIM_LOCAL_DEV_SOFT_1 0x10 /* sw programmable ctrl bit 1 */
+#define BIM_LOCAL_DEV_HW_RESET 0x20 /* internal hw reset. Cassini+ only. */
+
+/* access 24 entry BIM read and write buffers. put address in REG_BIM_BUFFER_ADDR
+ * and read/write from/to it REG_BIM_BUFFER_DATA_LOW and _DATA_HI.
+ * _DATA_HI should be the last access of the sequence.
+ * DEFAULT: undefined
+ */
+#define REG_BIM_BUFFER_ADDR 0x1024 /* BIM buffer address. for
+ purposes. */
+#define BIM_BUFFER_ADDR_MASK 0x3F /* index (0 - 23) of buffer */
+#define BIM_BUFFER_WR_SELECT 0x40 /* write buffer access = 1
+ read buffer access = 0 */
+/* DEFAULT: undefined */
+#define REG_BIM_BUFFER_DATA_LOW 0x1028 /* BIM buffer data low */
+#define REG_BIM_BUFFER_DATA_HI 0x102C /* BIM buffer data high */
+
+/* set BIM_RAM_BIST_START to start built-in self test for BIM read buffer.
+ * bit auto-clears when done with status read from _SUMMARY and _PASS bits.
+ */
+#define REG_BIM_RAM_BIST 0x102C /* BIM RAM (read buffer) BIST
+ control/status */
+#define BIM_RAM_BIST_RD_START 0x01 /* start BIST for BIM read buffer */
+#define BIM_RAM_BIST_WR_START 0x02 /* start BIST for BIM write buffer.
+ Cassini only. reserved in
+ Cassini+. */
+#define BIM_RAM_BIST_RD_PASS 0x04 /* summary BIST pass status for read
+ buffer. */
+#define BIM_RAM_BIST_WR_PASS 0x08 /* summary BIST pass status for write
+ buffer. Cassini only. reserved
+ in Cassini+. */
+#define BIM_RAM_BIST_RD_LOW_PASS 0x10 /* read low bank passes BIST */
+#define BIM_RAM_BIST_RD_HI_PASS 0x20 /* read high bank passes BIST */
+#define BIM_RAM_BIST_WR_LOW_PASS 0x40 /* write low bank passes BIST.
+ Cassini only. reserved in
+ Cassini+. */
+#define BIM_RAM_BIST_WR_HI_PASS 0x80 /* write high bank passes BIST.
+ Cassini only. reserved in
+ Cassini+. */
+
+/* ASUN: i'm not sure what this does as it's not in the spec.
+ * DEFAULT: 0xFC
+ */
+#define REG_BIM_DIAG_MUX 0x1030 /* BIM diagnostic probe mux
+ select register */
+
+/* enable probe monitoring mode and select data appearing on the P_A* bus. bit
+ * values for _SEL_HI_MASK and _SEL_LOW_MASK:
+ * 0x0: internal probe[7:0] (pci arb state, wtc empty w, wtc full w, wtc empty w,
+ * wtc empty r, post pci)
+ * 0x1: internal probe[15:8] (pci wbuf comp, pci wpkt comp, pci rbuf comp,
+ * pci rpkt comp, txdma wr req, txdma wr ack,
+ * txdma wr rdy, txdma wr xfr done)
+ * 0x2: internal probe[23:16] (txdma rd req, txdma rd ack, txdma rd rdy, rxdma rd,
+ * rd arb state, rd pci state)
+ * 0x3: internal probe[31:24] (rxdma req, rxdma ack, rxdma rdy, wrarb state,
+ * wrpci state)
+ * 0x4: pci io probe[7:0] 0x5: pci io probe[15:8]
+ * 0x6: pci io probe[23:16] 0x7: pci io probe[31:24]
+ * 0x8: pci io probe[39:32] 0x9: pci io probe[47:40]
+ * 0xa: pci io probe[55:48] 0xb: pci io probe[63:56]
+ * the following are not available in Cassini:
+ * 0xc: rx probe[7:0] 0xd: tx probe[7:0]
+ * 0xe: hp probe[7:0] 0xf: mac probe[7:0]
+ */
+#define REG_PLUS_PROBE_MUX_SELECT 0x1034 /* Cassini+: PROBE MUX SELECT */
+#define PROBE_MUX_EN 0x80000000 /* allow probe signals to be
+ driven on local bus P_A[15:0]
+ for debugging */
+#define PROBE_MUX_SUB_MUX_MASK 0x0000FF00 /* select sub module probe signals:
+ 0x03 = mac[1:0]
+ 0x0C = rx[1:0]
+ 0x30 = tx[1:0]
+ 0xC0 = hp[1:0] */
+#define PROBE_MUX_SEL_HI_MASK 0x000000F0 /* select which module to appear
+ on P_A[15:8]. see above for
+ values. */
+#define PROBE_MUX_SEL_LOW_MASK 0x0000000F /* select which module to appear
+ on P_A[7:0]. see above for
+ values. */
+
+/* values mean the same thing as REG_INTR_MASK excep that it's for INTB.
+ DEFAULT: 0x1F */
+#define REG_PLUS_INTR_MASK_1 0x1038 /* Cassini+: interrupt mask
+ register 2 for INTB */
+#define REG_PLUS_INTRN_MASK(x) (REG_PLUS_INTR_MASK_1 + ((x) - 1)*16)
+/* bits correspond to both _MASK and _STATUS registers. _ALT corresponds to
+ * all of the alternate (2-4) INTR registers while _1 corresponds to only
+ * _MASK_1 and _STATUS_1 registers.
+ * DEFAULT: 0x7 for MASK registers, 0x0 for ALIAS_CLEAR registers
+ */
+#define INTR_RX_DONE_ALT 0x01
+#define INTR_RX_COMP_FULL_ALT 0x02
+#define INTR_RX_COMP_AF_ALT 0x04
+#define INTR_RX_BUF_UNAVAIL_1 0x08
+#define INTR_RX_BUF_AE_1 0x10 /* almost empty */
+#define INTRN_MASK_RX_EN 0x80
+#define INTRN_MASK_CLEAR_ALL (INTR_RX_DONE_ALT | \
+ INTR_RX_COMP_FULL_ALT | \
+ INTR_RX_COMP_AF_ALT | \
+ INTR_RX_BUF_UNAVAIL_1 | \
+ INTR_RX_BUF_AE_1)
+#define REG_PLUS_INTR_STATUS_1 0x103C /* Cassini+: interrupt status
+ register 2 for INTB. default: 0x1F */
+#define REG_PLUS_INTRN_STATUS(x) (REG_PLUS_INTR_STATUS_1 + ((x) - 1)*16)
+#define INTR_STATUS_ALT_INTX_EN 0x80 /* generate INTX when one of the
+ flags are set. enables desc ring. */
+
+#define REG_PLUS_ALIAS_CLEAR_1 0x1040 /* Cassini+: alias clear mask
+ register 2 for INTB */
+#define REG_PLUS_ALIASN_CLEAR(x) (REG_PLUS_ALIAS_CLEAR_1 + ((x) - 1)*16)
+
+#define REG_PLUS_INTR_STATUS_ALIAS_1 0x1044 /* Cassini+: interrupt status
+ register alias 2 for INTB */
+#define REG_PLUS_INTRN_STATUS_ALIAS(x) (REG_PLUS_INTR_STATUS_ALIAS_1 + ((x) - 1)*16)
+
+#define REG_SATURN_PCFG 0x106c /* pin configuration register for
+ integrated macphy */
+
+#define SATURN_PCFG_TLA 0x00000001 /* 1 = phy actled */
+#define SATURN_PCFG_FLA 0x00000002 /* 1 = phy link10led */
+#define SATURN_PCFG_CLA 0x00000004 /* 1 = phy link100led */
+#define SATURN_PCFG_LLA 0x00000008 /* 1 = phy link1000led */
+#define SATURN_PCFG_RLA 0x00000010 /* 1 = phy duplexled */
+#define SATURN_PCFG_PDS 0x00000020 /* phy debug mode.
+ 0 = normal */
+#define SATURN_PCFG_MTP 0x00000080 /* test point select */
+#define SATURN_PCFG_GMO 0x00000100 /* GMII observe. 1 =
+ GMII on SERDES pins for
+ monitoring. */
+#define SATURN_PCFG_FSI 0x00000200 /* 1 = freeze serdes/gmii. all
+ pins configed as outputs.
+ for power saving when using
+ internal phy. */
+#define SATURN_PCFG_LAD 0x00000800 /* 0 = mac core led ctrl
+ polarity from strapping
+ value.
+ 1 = mac core led ctrl
+ polarity active low. */
+
+
+/** transmit dma registers **/
+#define MAX_TX_RINGS_SHIFT 2
+#define MAX_TX_RINGS (1 << MAX_TX_RINGS_SHIFT)
+#define MAX_TX_RINGS_MASK (MAX_TX_RINGS - 1)
+
+/* TX configuration.
+ * descr ring sizes size = 32 * (1 << n), n < 9. e.g., 0x8 = 8k. default: 0x8
+ * DEFAULT: 0x3F000001
+ */
+#define REG_TX_CFG 0x2004 /* TX config */
+#define TX_CFG_DMA_EN 0x00000001 /* enable TX DMA. if cleared, DMA
+ will stop after xfer of current
+ buffer has been completed. */
+#define TX_CFG_FIFO_PIO_SEL 0x00000002 /* TX DMA FIFO can be
+ accessed w/ FIFO addr
+ and data registers.
+ TX DMA should be
+ disabled. */
+#define TX_CFG_DESC_RING0_MASK 0x0000003C /* # desc entries in
+ ring 1. */
+#define TX_CFG_DESC_RING0_SHIFT 2
+#define TX_CFG_DESC_RINGN_MASK(a) (TX_CFG_DESC_RING0_MASK << (a)*4)
+#define TX_CFG_DESC_RINGN_SHIFT(a) (TX_CFG_DESC_RING0_SHIFT + (a)*4)
+#define TX_CFG_PACED_MODE 0x00100000 /* TX_ALL only set after
+ TX FIFO becomes empty.
+ if 0, TX_ALL set
+ if descr queue empty. */
+#define TX_CFG_DMA_RDPIPE_DIS 0x01000000 /* always set to 1 */
+#define TX_CFG_COMPWB_Q1 0x02000000 /* completion writeback happens at
+ the end of every packet kicked
+ through Q1. */
+#define TX_CFG_COMPWB_Q2 0x04000000 /* completion writeback happens at
+ the end of every packet kicked
+ through Q2. */
+#define TX_CFG_COMPWB_Q3 0x08000000 /* completion writeback happens at
+ the end of every packet kicked
+ through Q3 */
+#define TX_CFG_COMPWB_Q4 0x10000000 /* completion writeback happens at
+ the end of every packet kicked
+ through Q4 */
+#define TX_CFG_INTR_COMPWB_DIS 0x20000000 /* disable pre-interrupt completion
+ writeback */
+#define TX_CFG_CTX_SEL_MASK 0xC0000000 /* selects tx test port
+ connection
+ 0b00: tx mac req,
+ tx mac retry req,
+ tx ack and tx tag.
+ 0b01: txdma rd req,
+ txdma rd ack,
+ txdma rd rdy,
+ txdma rd type0
+ 0b11: txdma wr req,
+ txdma wr ack,
+ txdma wr rdy,
+ txdma wr xfr done. */
+#define TX_CFG_CTX_SEL_SHIFT 30
+
+/* 11-bit counters that point to next location in FIFO to be loaded/retrieved.
+ * used for diagnostics only.
+ */
+#define REG_TX_FIFO_WRITE_PTR 0x2014 /* TX FIFO write pointer */
+#define REG_TX_FIFO_SHADOW_WRITE_PTR 0x2018 /* TX FIFO shadow write
+ pointer. temp hold reg.
+ diagnostics only. */
+#define REG_TX_FIFO_READ_PTR 0x201C /* TX FIFO read pointer */
+#define REG_TX_FIFO_SHADOW_READ_PTR 0x2020 /* TX FIFO shadow read
+ pointer */
+
+/* (ro) 11-bit up/down counter w/ # of frames currently in TX FIFO */
+#define REG_TX_FIFO_PKT_CNT 0x2024 /* TX FIFO packet counter */
+
+/* current state of all state machines in TX */
+#define REG_TX_SM_1 0x2028 /* TX state machine reg #1 */
+#define TX_SM_1_CHAIN_MASK 0x000003FF /* chaining state machine */
+#define TX_SM_1_CSUM_MASK 0x00000C00 /* checksum state machine */
+#define TX_SM_1_FIFO_LOAD_MASK 0x0003F000 /* FIFO load state machine.
+ = 0x01 when TX disabled. */
+#define TX_SM_1_FIFO_UNLOAD_MASK 0x003C0000 /* FIFO unload state machine */
+#define TX_SM_1_CACHE_MASK 0x03C00000 /* desc. prefetch cache controller
+ state machine */
+#define TX_SM_1_CBQ_ARB_MASK 0xF8000000 /* CBQ arbiter state machine */
+
+#define REG_TX_SM_2 0x202C /* TX state machine reg #2 */
+#define TX_SM_2_COMP_WB_MASK 0x07 /* completion writeback sm */
+#define TX_SM_2_SUB_LOAD_MASK 0x38 /* sub load state machine */
+#define TX_SM_2_KICK_MASK 0xC0 /* kick state machine */
+
+/* 64-bit pointer to the transmit data buffer. only the 50 LSB are incremented
+ * while the upper 23 bits are taken from the TX descriptor
+ */
+#define REG_TX_DATA_PTR_LOW 0x2030 /* TX data pointer low */
+#define REG_TX_DATA_PTR_HI 0x2034 /* TX data pointer high */
+
+/* 13 bit registers written by driver w/ descriptor value that follows
+ * last valid xmit descriptor. kick # and complete # values are used by
+ * the xmit dma engine to control tx descr fetching. if > 1 valid
+ * tx descr is available within the cache line being read, cassini will
+ * internally cache up to 4 of them. 0 on reset. _KICK = rw, _COMP = ro.
+ */
+#define REG_TX_KICK0 0x2038 /* TX kick reg #1 */
+#define REG_TX_KICKN(x) (REG_TX_KICK0 + (x)*4)
+#define REG_TX_COMP0 0x2048 /* TX completion reg #1 */
+#define REG_TX_COMPN(x) (REG_TX_COMP0 + (x)*4)
+
+/* values of TX_COMPLETE_1-4 are written. each completion register
+ * is 2bytes in size and contiguous. 8B allocation w/ 8B alignment.
+ * NOTE: completion reg values are only written back prior to TX_INTME and
+ * TX_ALL interrupts. at all other times, the most up-to-date index values
+ * should be obtained from the REG_TX_COMPLETE_# registers.
+ * here's the layout:
+ * offset from base addr completion # byte
+ * 0 TX_COMPLETE_1_MSB
+ * 1 TX_COMPLETE_1_LSB
+ * 2 TX_COMPLETE_2_MSB
+ * 3 TX_COMPLETE_2_LSB
+ * 4 TX_COMPLETE_3_MSB
+ * 5 TX_COMPLETE_3_LSB
+ * 6 TX_COMPLETE_4_MSB
+ * 7 TX_COMPLETE_4_LSB
+ */
+#define TX_COMPWB_SIZE 8
+#define REG_TX_COMPWB_DB_LOW 0x2058 /* TX completion write back
+ base low */
+#define REG_TX_COMPWB_DB_HI 0x205C /* TX completion write back
+ base high */
+#define TX_COMPWB_MSB_MASK 0x00000000000000FFULL
+#define TX_COMPWB_MSB_SHIFT 0
+#define TX_COMPWB_LSB_MASK 0x000000000000FF00ULL
+#define TX_COMPWB_LSB_SHIFT 8
+#define TX_COMPWB_NEXT(x) ((x) >> 16)
+
+/* 53 MSB used as base address. 11 LSB assumed to be 0. TX desc pointer must
+ * be 2KB-aligned. */
+#define REG_TX_DB0_LOW 0x2060 /* TX descriptor base low #1 */
+#define REG_TX_DB0_HI 0x2064 /* TX descriptor base hi #1 */
+#define REG_TX_DBN_LOW(x) (REG_TX_DB0_LOW + (x)*8)
+#define REG_TX_DBN_HI(x) (REG_TX_DB0_HI + (x)*8)
+
+/* 16-bit registers hold weights for the weighted round-robin of the
+ * four CBQ TX descr rings. weights correspond to # bytes xferred from
+ * host to TXFIFO in a round of WRR arbitration. can be set
+ * dynamically with new weights set upon completion of the current
+ * packet transfer from host memory to TXFIFO. a dummy write to any of
+ * these registers causes a queue1 pre-emption with all historical bw
+ * deficit data reset to 0 (useful when congestion requires a
+ * pre-emption/re-allocation of network bandwidth
+ */
+#define REG_TX_MAXBURST_0 0x2080 /* TX MaxBurst #1 */
+#define REG_TX_MAXBURST_1 0x2084 /* TX MaxBurst #2 */
+#define REG_TX_MAXBURST_2 0x2088 /* TX MaxBurst #3 */
+#define REG_TX_MAXBURST_3 0x208C /* TX MaxBurst #4 */
+
+/* diagnostics access to any TX FIFO location. every access is 65
+ * bits. _DATA_LOW = 32 LSB, _DATA_HI_T1/T0 = 32 MSB. _TAG = tag bit.
+ * writing _DATA_HI_T0 sets tag bit low, writing _DATA_HI_T1 sets tag
+ * bit high. TX_FIFO_PIO_SEL must be set for TX FIFO PIO access. if
+ * TX FIFO data integrity is desired, TX DMA should be
+ * disabled. _DATA_HI_Tx should be the last access of the sequence.
+ */
+#define REG_TX_FIFO_ADDR 0x2104 /* TX FIFO address */
+#define REG_TX_FIFO_TAG 0x2108 /* TX FIFO tag */
+#define REG_TX_FIFO_DATA_LOW 0x210C /* TX FIFO data low */
+#define REG_TX_FIFO_DATA_HI_T1 0x2110 /* TX FIFO data high t1 */
+#define REG_TX_FIFO_DATA_HI_T0 0x2114 /* TX FIFO data high t0 */
+#define REG_TX_FIFO_SIZE 0x2118 /* (ro) TX FIFO size = 0x090 = 9KB */
+
+/* 9-bit register controls BIST of TX FIFO. bit set indicates that the BIST
+ * passed for the specified memory
+ */
+#define REG_TX_RAMBIST 0x211C /* TX RAMBIST control/status */
+#define TX_RAMBIST_STATE 0x01C0 /* progress state of RAMBIST
+ controller state machine */
+#define TX_RAMBIST_RAM33A_PASS 0x0020 /* RAM33A passed */
+#define TX_RAMBIST_RAM32A_PASS 0x0010 /* RAM32A passed */
+#define TX_RAMBIST_RAM33B_PASS 0x0008 /* RAM33B passed */
+#define TX_RAMBIST_RAM32B_PASS 0x0004 /* RAM32B passed */
+#define TX_RAMBIST_SUMMARY 0x0002 /* all RAM passed */
+#define TX_RAMBIST_START 0x0001 /* write 1 to start BIST. self
+ clears on completion. */
+
+/** receive dma registers **/
+#define MAX_RX_DESC_RINGS 2
+#define MAX_RX_COMP_RINGS 4
+
+/* receive DMA channel configuration. default: 0x80910
+ * free ring size = (1 << n)*32 -> [32 - 8k]
+ * completion ring size = (1 << n)*128 -> [128 - 32k], n < 9
+ * DEFAULT: 0x80910
+ */
+#define REG_RX_CFG 0x4000 /* RX config */
+#define RX_CFG_DMA_EN 0x00000001 /* enable RX DMA. 0 stops
+ channel as soon as current
+ frame xfer has completed.
+ driver should disable MAC
+ for 200ms before disabling
+ RX */
+#define RX_CFG_DESC_RING_MASK 0x0000001E /* # desc entries in RX
+ free desc ring.
+ def: 0x8 = 8k */
+#define RX_CFG_DESC_RING_SHIFT 1
+#define RX_CFG_COMP_RING_MASK 0x000001E0 /* # desc entries in RX complete
+ ring. def: 0x8 = 32k */
+#define RX_CFG_COMP_RING_SHIFT 5
+#define RX_CFG_BATCH_DIS 0x00000200 /* disable receive desc
+ batching. def: 0x0 =
+ enabled */
+#define RX_CFG_SWIVEL_MASK 0x00001C00 /* byte offset of the 1st
+ data byte of the packet
+ w/in 8 byte boundares.
+ this swivels the data
+ DMA'ed to header
+ buffers, jumbo buffers
+ when header split is not
+ requested and MTU sized
+ buffers. def: 0x2 */
+#define RX_CFG_SWIVEL_SHIFT 10
+
+/* cassini+ only */
+#define RX_CFG_DESC_RING1_MASK 0x000F0000 /* # of desc entries in
+ RX free desc ring 2.
+ def: 0x8 = 8k */
+#define RX_CFG_DESC_RING1_SHIFT 16
+
+
+/* the page size register allows cassini chips to do the following with
+ * received data:
+ * [--------------------------------------------------------------] page
+ * [off][buf1][pad][off][buf2][pad][off][buf3][pad][off][buf4][pad]
+ * |--------------| = PAGE_SIZE_BUFFER_STRIDE
+ * page = PAGE_SIZE
+ * offset = PAGE_SIZE_MTU_OFF
+ * for the above example, MTU_BUFFER_COUNT = 4.
+ * NOTE: as is apparent, you need to ensure that the following holds:
+ * MTU_BUFFER_COUNT <= PAGE_SIZE/PAGE_SIZE_BUFFER_STRIDE
+ * DEFAULT: 0x48002002 (8k pages)
+ */
+#define REG_RX_PAGE_SIZE 0x4004 /* RX page size */
+#define RX_PAGE_SIZE_MASK 0x00000003 /* size of pages pointed to
+ by receive descriptors.
+ if jumbo buffers are
+ supported the page size
+ should not be < 8k.
+ 0b00 = 2k, 0b01 = 4k
+ 0b10 = 8k, 0b11 = 16k
+ DEFAULT: 8k */
+#define RX_PAGE_SIZE_SHIFT 0
+#define RX_PAGE_SIZE_MTU_COUNT_MASK 0x00007800 /* # of MTU buffers the hw
+ packs into a page.
+ DEFAULT: 4 */
+#define RX_PAGE_SIZE_MTU_COUNT_SHIFT 11
+#define RX_PAGE_SIZE_MTU_STRIDE_MASK 0x18000000 /* # of bytes that separate
+ each MTU buffer +
+ offset from each
+ other.
+ 0b00 = 1k, 0b01 = 2k
+ 0b10 = 4k, 0b11 = 8k
+ DEFAULT: 0x1 */
+#define RX_PAGE_SIZE_MTU_STRIDE_SHIFT 27
+#define RX_PAGE_SIZE_MTU_OFF_MASK 0xC0000000 /* offset in each page that
+ hw writes the MTU buffer
+ into.
+ 0b00 = 0,
+ 0b01 = 64 bytes
+ 0b10 = 96, 0b11 = 128
+ DEFAULT: 0x1 */
+#define RX_PAGE_SIZE_MTU_OFF_SHIFT 30
+
+/* 11-bit counter points to next location in RX FIFO to be loaded/read.
+ * shadow write pointers enable retries in case of early receive aborts.
+ * DEFAULT: 0x0. generated on 64-bit boundaries.
+ */
+#define REG_RX_FIFO_WRITE_PTR 0x4008 /* RX FIFO write pointer */
+#define REG_RX_FIFO_READ_PTR 0x400C /* RX FIFO read pointer */
+#define REG_RX_IPP_FIFO_SHADOW_WRITE_PTR 0x4010 /* RX IPP FIFO shadow write
+ pointer */
+#define REG_RX_IPP_FIFO_SHADOW_READ_PTR 0x4014 /* RX IPP FIFO shadow read
+ pointer */
+#define REG_RX_IPP_FIFO_READ_PTR 0x400C /* RX IPP FIFO read
+ pointer. (8-bit counter) */
+
+/* current state of RX DMA state engines + other info
+ * DEFAULT: 0x0
+ */
+#define REG_RX_DEBUG 0x401C /* RX debug */
+#define RX_DEBUG_LOAD_STATE_MASK 0x0000000F /* load state machine w/ MAC:
+ 0x0 = idle, 0x1 = load_bop
+ 0x2 = load 1, 0x3 = load 2
+ 0x4 = load 3, 0x5 = load 4
+ 0x6 = last detect
+ 0x7 = wait req
+ 0x8 = wait req statuss 1st
+ 0x9 = load st
+ 0xa = bubble mac
+ 0xb = error */
+#define RX_DEBUG_LM_STATE_MASK 0x00000070 /* load state machine w/ HP and
+ RX FIFO:
+ 0x0 = idle, 0x1 = hp xfr
+ 0x2 = wait hp ready
+ 0x3 = wait flow code
+ 0x4 = fifo xfer
+ 0x5 = make status
+ 0x6 = csum ready
+ 0x7 = error */
+#define RX_DEBUG_FC_STATE_MASK 0x000000180 /* flow control state machine
+ w/ MAC:
+ 0x0 = idle
+ 0x1 = wait xoff ack
+ 0x2 = wait xon
+ 0x3 = wait xon ack */
+#define RX_DEBUG_DATA_STATE_MASK 0x000001E00 /* unload data state machine
+ states:
+ 0x0 = idle data
+ 0x1 = header begin
+ 0x2 = xfer header
+ 0x3 = xfer header ld
+ 0x4 = mtu begin
+ 0x5 = xfer mtu
+ 0x6 = xfer mtu ld
+ 0x7 = jumbo begin
+ 0x8 = xfer jumbo
+ 0x9 = xfer jumbo ld
+ 0xa = reas begin
+ 0xb = xfer reas
+ 0xc = flush tag
+ 0xd = xfer reas ld
+ 0xe = error
+ 0xf = bubble idle */
+#define RX_DEBUG_DESC_STATE_MASK 0x0001E000 /* unload desc state machine
+ states:
+ 0x0 = idle desc
+ 0x1 = wait ack
+ 0x9 = wait ack 2
+ 0x2 = fetch desc 1
+ 0xa = fetch desc 2
+ 0x3 = load ptrs
+ 0x4 = wait dma
+ 0x5 = wait ack batch
+ 0x6 = post batch
+ 0x7 = xfr done */
+#define RX_DEBUG_INTR_READ_PTR_MASK 0x30000000 /* interrupt read ptr of the
+ interrupt queue */
+#define RX_DEBUG_INTR_WRITE_PTR_MASK 0xC0000000 /* interrupt write pointer
+ of the interrupt queue */
+
+/* flow control frames are emmitted using two PAUSE thresholds:
+ * XOFF PAUSE uses pause time value pre-programmed in the Send PAUSE MAC reg
+ * XON PAUSE uses a pause time of 0. granularity of threshold is 64bytes.
+ * PAUSE thresholds defined in terms of FIFO occupancy and may be translated
+ * into FIFO vacancy using RX_FIFO_SIZE. setting ON will trigger XON frames
+ * when FIFO reaches 0. OFF threshold should not be > size of RX FIFO. max
+ * value is is 0x6F.
+ * DEFAULT: 0x00078
+ */
+#define REG_RX_PAUSE_THRESH 0x4020 /* RX pause thresholds */
+#define RX_PAUSE_THRESH_QUANTUM 64
+#define RX_PAUSE_THRESH_OFF_MASK 0x000001FF /* XOFF PAUSE emitted when
+ RX FIFO occupancy >
+ value*64B */
+#define RX_PAUSE_THRESH_OFF_SHIFT 0
+#define RX_PAUSE_THRESH_ON_MASK 0x001FF000 /* XON PAUSE emitted after
+ emitting XOFF PAUSE when RX
+ FIFO occupancy falls below
+ this value*64B. must be
+ < XOFF threshold. if =
+ RX_FIFO_SIZE< XON frames are
+ never emitted. */
+#define RX_PAUSE_THRESH_ON_SHIFT 12
+
+/* 13-bit register used to control RX desc fetching and intr generation. if 4+
+ * valid RX descriptors are available, Cassini will read 4 at a time.
+ * writing N means that all desc up to *but* excluding N are available. N must
+ * be a multiple of 4 (N % 4 = 0). first desc should be cache-line aligned.
+ * DEFAULT: 0 on reset
+ */
+#define REG_RX_KICK 0x4024 /* RX kick reg */
+
+/* 8KB aligned 64-bit pointer to the base of the RX free/completion rings.
+ * lower 13 bits of the low register are hard-wired to 0.
+ */
+#define REG_RX_DB_LOW 0x4028 /* RX descriptor ring
+ base low */
+#define REG_RX_DB_HI 0x402C /* RX descriptor ring
+ base hi */
+#define REG_RX_CB_LOW 0x4030 /* RX completion ring
+ base low */
+#define REG_RX_CB_HI 0x4034 /* RX completion ring
+ base hi */
+/* 13-bit register indicate desc used by cassini for receive frames. used
+ * for diagnostic purposes.
+ * DEFAULT: 0 on reset
+ */
+#define REG_RX_COMP 0x4038 /* (ro) RX completion */
+
+/* HEAD and TAIL are used to control RX desc posting and interrupt
+ * generation. hw moves the head register to pass ownership to sw. sw
+ * moves the tail register to pass ownership back to hw. to give all
+ * entries to hw, set TAIL = HEAD. if HEAD and TAIL indicate that no
+ * more entries are available, DMA will pause and an interrupt will be
+ * generated to indicate no more entries are available. sw can use
+ * this interrupt to reduce the # of times it must update the
+ * completion tail register.
+ * DEFAULT: 0 on reset
+ */
+#define REG_RX_COMP_HEAD 0x403C /* RX completion head */
+#define REG_RX_COMP_TAIL 0x4040 /* RX completion tail */
+
+/* values used for receive interrupt blanking. loaded each time the ISR is read
+ * DEFAULT: 0x00000000
+ */
+#define REG_RX_BLANK 0x4044 /* RX blanking register
+ for ISR read */
+#define RX_BLANK_INTR_PKT_MASK 0x000001FF /* RX_DONE intr asserted if
+ this many sets of completion
+ writebacks (up to 2 packets)
+ occur since the last time
+ the ISR was read. 0 = no
+ packet blanking */
+#define RX_BLANK_INTR_PKT_SHIFT 0
+#define RX_BLANK_INTR_TIME_MASK 0x3FFFF000 /* RX_DONE interrupt asserted
+ if that many clocks were
+ counted since last time the
+ ISR was read.
+ each count is 512 core
+ clocks (125MHz). 0 = no
+ time blanking */
+#define RX_BLANK_INTR_TIME_SHIFT 12
+
+/* values used for interrupt generation based on threshold values of how
+ * many free desc and completion entries are available for hw use.
+ * DEFAULT: 0x00000000
+ */
+#define REG_RX_AE_THRESH 0x4048 /* RX almost empty
+ thresholds */
+#define RX_AE_THRESH_FREE_MASK 0x00001FFF /* RX_BUF_AE will be
+ generated if # desc
+ avail for hw use <=
+ # */
+#define RX_AE_THRESH_FREE_SHIFT 0
+#define RX_AE_THRESH_COMP_MASK 0x0FFFE000 /* RX_COMP_AE will be
+ generated if # of
+ completion entries
+ avail for hw use <=
+ # */
+#define RX_AE_THRESH_COMP_SHIFT 13
+
+/* probabilities for random early drop (RED) thresholds on a FIFO threshold
+ * basis. probability should increase when the FIFO level increases. control
+ * packets are never dropped and not counted in stats. probability programmed
+ * on a 12.5% granularity. e.g., 0x1 = 1/8 packets dropped.
+ * DEFAULT: 0x00000000
+ */
+#define REG_RX_RED 0x404C /* RX random early detect enable */
+#define RX_RED_4K_6K_FIFO_MASK 0x000000FF /* 4KB < FIFO thresh < 6KB */
+#define RX_RED_6K_8K_FIFO_MASK 0x0000FF00 /* 6KB < FIFO thresh < 8KB */
+#define RX_RED_8K_10K_FIFO_MASK 0x00FF0000 /* 8KB < FIFO thresh < 10KB */
+#define RX_RED_10K_12K_FIFO_MASK 0xFF000000 /* 10KB < FIFO thresh < 12KB */
+
+/* FIFO fullness levels for RX FIFO, RX control FIFO, and RX IPP FIFO.
+ * RX control FIFO = # of packets in RX FIFO.
+ * DEFAULT: 0x0
+ */
+#define REG_RX_FIFO_FULLNESS 0x4050 /* (ro) RX FIFO fullness */
+#define RX_FIFO_FULLNESS_RX_FIFO_MASK 0x3FF80000 /* level w/ 8B granularity */
+#define RX_FIFO_FULLNESS_IPP_FIFO_MASK 0x0007FF00 /* level w/ 8B granularity */
+#define RX_FIFO_FULLNESS_RX_PKT_MASK 0x000000FF /* # packets in RX FIFO */
+#define REG_RX_IPP_PACKET_COUNT 0x4054 /* RX IPP packet counter */
+#define REG_RX_WORK_DMA_PTR_LOW 0x4058 /* RX working DMA ptr low */
+#define REG_RX_WORK_DMA_PTR_HI 0x405C /* RX working DMA ptr
+ high */
+
+/* BIST testing ro RX FIFO, RX control FIFO, and RX IPP FIFO. only RX BIST
+ * START/COMPLETE is writeable. START will clear when the BIST has completed
+ * checking all 17 RAMS.
+ * DEFAULT: 0bxxxx xxxxx xxxx xxxx xxxx x000 0000 0000 00x0
+ */
+#define REG_RX_BIST 0x4060 /* (ro) RX BIST */
+#define RX_BIST_32A_PASS 0x80000000 /* RX FIFO 32A passed */
+#define RX_BIST_33A_PASS 0x40000000 /* RX FIFO 33A passed */
+#define RX_BIST_32B_PASS 0x20000000 /* RX FIFO 32B passed */
+#define RX_BIST_33B_PASS 0x10000000 /* RX FIFO 33B passed */
+#define RX_BIST_32C_PASS 0x08000000 /* RX FIFO 32C passed */
+#define RX_BIST_33C_PASS 0x04000000 /* RX FIFO 33C passed */
+#define RX_BIST_IPP_32A_PASS 0x02000000 /* RX IPP FIFO 33B passed */
+#define RX_BIST_IPP_33A_PASS 0x01000000 /* RX IPP FIFO 33A passed */
+#define RX_BIST_IPP_32B_PASS 0x00800000 /* RX IPP FIFO 32B passed */
+#define RX_BIST_IPP_33B_PASS 0x00400000 /* RX IPP FIFO 33B passed */
+#define RX_BIST_IPP_32C_PASS 0x00200000 /* RX IPP FIFO 32C passed */
+#define RX_BIST_IPP_33C_PASS 0x00100000 /* RX IPP FIFO 33C passed */
+#define RX_BIST_CTRL_32_PASS 0x00800000 /* RX CTRL FIFO 32 passed */
+#define RX_BIST_CTRL_33_PASS 0x00400000 /* RX CTRL FIFO 33 passed */
+#define RX_BIST_REAS_26A_PASS 0x00200000 /* RX Reas 26A passed */
+#define RX_BIST_REAS_26B_PASS 0x00100000 /* RX Reas 26B passed */
+#define RX_BIST_REAS_27_PASS 0x00080000 /* RX Reas 27 passed */
+#define RX_BIST_STATE_MASK 0x00078000 /* BIST state machine */
+#define RX_BIST_SUMMARY 0x00000002 /* when BIST complete,
+ summary pass bit
+ contains AND of BIST
+ results of all 16
+ RAMS */
+#define RX_BIST_START 0x00000001 /* write 1 to start
+ BIST. self clears
+ on completion. */
+
+/* next location in RX CTRL FIFO that will be loaded w/ data from RX IPP/read
+ * from to retrieve packet control info.
+ * DEFAULT: 0
+ */
+#define REG_RX_CTRL_FIFO_WRITE_PTR 0x4064 /* (ro) RX control FIFO
+ write ptr */
+#define REG_RX_CTRL_FIFO_READ_PTR 0x4068 /* (ro) RX control FIFO read
+ ptr */
+
+/* receive interrupt blanking. loaded each time interrupt alias register is
+ * read.
+ * DEFAULT: 0x0
+ */
+#define REG_RX_BLANK_ALIAS_READ 0x406C /* RX blanking register for
+ alias read */
+#define RX_BAR_INTR_PACKET_MASK 0x000001FF /* assert RX_DONE if #
+ completion writebacks
+ > # since last ISR
+ read. 0 = no
+ blanking. up to 2
+ packets per
+ completion wb. */
+#define RX_BAR_INTR_TIME_MASK 0x3FFFF000 /* assert RX_DONE if #
+ clocks > # since last
+ ISR read. each count
+ is 512 core clocks
+ (125MHz). 0 = no
+ blanking. */
+
+/* diagnostic access to RX FIFO. 32 LSB accessed via DATA_LOW. 32 MSB accessed
+ * via DATA_HI_T0 or DATA_HI_T1. TAG reads the tag bit. writing HI_T0
+ * will unset the tag bit while writing HI_T1 will set the tag bit. to reset
+ * to normal operation after diagnostics, write to address location 0x0.
+ * RX_DMA_EN bit must be set to 0x0 for RX FIFO PIO access. DATA_HI should
+ * be the last write access of a write sequence.
+ * DEFAULT: undefined
+ */
+#define REG_RX_FIFO_ADDR 0x4080 /* RX FIFO address */
+#define REG_RX_FIFO_TAG 0x4084 /* RX FIFO tag */
+#define REG_RX_FIFO_DATA_LOW 0x4088 /* RX FIFO data low */
+#define REG_RX_FIFO_DATA_HI_T0 0x408C /* RX FIFO data high T0 */
+#define REG_RX_FIFO_DATA_HI_T1 0x4090 /* RX FIFO data high T1 */
+
+/* diagnostic assess to RX CTRL FIFO. 8-bit FIFO_ADDR holds address of
+ * 81 bit control entry and 6 bit flow id. LOW and MID are both 32-bit
+ * accesses. HI is 7-bits with 6-bit flow id and 1 bit control
+ * word. RX_DMA_EN must be 0 for RX CTRL FIFO PIO access. DATA_HI
+ * should be last write access of the write sequence.
+ * DEFAULT: undefined
+ */
+#define REG_RX_CTRL_FIFO_ADDR 0x4094 /* RX Control FIFO and
+ Batching FIFO addr */
+#define REG_RX_CTRL_FIFO_DATA_LOW 0x4098 /* RX Control FIFO data
+ low */
+#define REG_RX_CTRL_FIFO_DATA_MID 0x409C /* RX Control FIFO data
+ mid */
+#define REG_RX_CTRL_FIFO_DATA_HI 0x4100 /* RX Control FIFO data
+ hi and flow id */
+#define RX_CTRL_FIFO_DATA_HI_CTRL 0x0001 /* upper bit of ctrl word */
+#define RX_CTRL_FIFO_DATA_HI_FLOW_MASK 0x007E /* flow id */
+
+/* diagnostic access to RX IPP FIFO. same semantics as RX_FIFO.
+ * DEFAULT: undefined
+ */
+#define REG_RX_IPP_FIFO_ADDR 0x4104 /* RX IPP FIFO address */
+#define REG_RX_IPP_FIFO_TAG 0x4108 /* RX IPP FIFO tag */
+#define REG_RX_IPP_FIFO_DATA_LOW 0x410C /* RX IPP FIFO data low */
+#define REG_RX_IPP_FIFO_DATA_HI_T0 0x4110 /* RX IPP FIFO data high
+ T0 */
+#define REG_RX_IPP_FIFO_DATA_HI_T1 0x4114 /* RX IPP FIFO data high
+ T1 */
+
+/* 64-bit pointer to receive data buffer in host memory used for headers and
+ * small packets. MSB in high register. loaded by DMA state machine and
+ * increments as DMA writes receive data. only 50 LSB are incremented. top
+ * 13 bits taken from RX descriptor.
+ * DEFAULT: undefined
+ */
+#define REG_RX_HEADER_PAGE_PTR_LOW 0x4118 /* (ro) RX header page ptr
+ low */
+#define REG_RX_HEADER_PAGE_PTR_HI 0x411C /* (ro) RX header page ptr
+ high */
+#define REG_RX_MTU_PAGE_PTR_LOW 0x4120 /* (ro) RX MTU page pointer
+ low */
+#define REG_RX_MTU_PAGE_PTR_HI 0x4124 /* (ro) RX MTU page pointer
+ high */
+
+/* PIO diagnostic access to RX reassembly DMA Table RAM. 6-bit register holds
+ * one of 64 79-bit locations in the RX Reassembly DMA table and the addr of
+ * one of the 64 byte locations in the Batching table. LOW holds 32 LSB.
+ * MID holds the next 32 LSB. HIGH holds the 15 MSB. RX_DMA_EN must be set
+ * to 0 for PIO access. DATA_HIGH should be last write of write sequence.
+ * layout:
+ * reassmbl ptr [78:15] | reassmbl index [14:1] | reassmbl entry valid [0]
+ * DEFAULT: undefined
+ */
+#define REG_RX_TABLE_ADDR 0x4128 /* RX reassembly DMA table
+ address */
+#define RX_TABLE_ADDR_MASK 0x0000003F /* address mask */
+
+#define REG_RX_TABLE_DATA_LOW 0x412C /* RX reassembly DMA table
+ data low */
+#define REG_RX_TABLE_DATA_MID 0x4130 /* RX reassembly DMA table
+ data mid */
+#define REG_RX_TABLE_DATA_HI 0x4134 /* RX reassembly DMA table
+ data high */
+
+/* cassini+ only */
+/* 8KB aligned 64-bit pointer to base of RX rings. lower 13 bits hardwired to
+ * 0. same semantics as primary desc/complete rings.
+ */
+#define REG_PLUS_RX_DB1_LOW 0x4200 /* RX descriptor ring
+ 2 base low */
+#define REG_PLUS_RX_DB1_HI 0x4204 /* RX descriptor ring
+ 2 base high */
+#define REG_PLUS_RX_CB1_LOW 0x4208 /* RX completion ring
+ 2 base low. 4 total */
+#define REG_PLUS_RX_CB1_HI 0x420C /* RX completion ring
+ 2 base high. 4 total */
+#define REG_PLUS_RX_CBN_LOW(x) (REG_PLUS_RX_CB1_LOW + 8*((x) - 1))
+#define REG_PLUS_RX_CBN_HI(x) (REG_PLUS_RX_CB1_HI + 8*((x) - 1))
+#define REG_PLUS_RX_KICK1 0x4220 /* RX Kick 2 register */
+#define REG_PLUS_RX_COMP1 0x4224 /* (ro) RX completion 2
+ reg */
+#define REG_PLUS_RX_COMP1_HEAD 0x4228 /* (ro) RX completion 2
+ head reg. 4 total. */
+#define REG_PLUS_RX_COMP1_TAIL 0x422C /* RX completion 2
+ tail reg. 4 total. */
+#define REG_PLUS_RX_COMPN_HEAD(x) (REG_PLUS_RX_COMP1_HEAD + 8*((x) - 1))
+#define REG_PLUS_RX_COMPN_TAIL(x) (REG_PLUS_RX_COMP1_TAIL + 8*((x) - 1))
+#define REG_PLUS_RX_AE1_THRESH 0x4240 /* RX almost empty 2
+ thresholds */
+#define RX_AE1_THRESH_FREE_MASK RX_AE_THRESH_FREE_MASK
+#define RX_AE1_THRESH_FREE_SHIFT RX_AE_THRESH_FREE_SHIFT
+
+/** header parser registers **/
+
+/* RX parser configuration register.
+ * DEFAULT: 0x1651004
+ */
+#define REG_HP_CFG 0x4140 /* header parser
+ configuration reg */
+#define HP_CFG_PARSE_EN 0x00000001 /* enab header parsing */
+#define HP_CFG_NUM_CPU_MASK 0x000000FC /* # processors
+ 0 = 64. 0x3f = 63 */
+#define HP_CFG_NUM_CPU_SHIFT 2
+#define HP_CFG_SYN_INC_MASK 0x00000100 /* SYN bit won't increment
+ TCP seq # by one when
+ stored in FDBM */
+#define HP_CFG_TCP_THRESH_MASK 0x000FFE00 /* # bytes of TCP data
+ needed to be considered
+ for reassembly */
+#define HP_CFG_TCP_THRESH_SHIFT 9
+
+/* access to RX Instruction RAM. 5-bit register/counter holds addr
+ * of 39 bit entry to be read/written. 32 LSB in _DATA_LOW. 7 MSB in _DATA_HI.
+ * RX_DMA_EN must be 0 for RX instr PIO access. DATA_HI should be last access
+ * of sequence.
+ * DEFAULT: undefined
+ */
+#define REG_HP_INSTR_RAM_ADDR 0x4144 /* HP instruction RAM
+ address */
+#define HP_INSTR_RAM_ADDR_MASK 0x01F /* 5-bit mask */
+#define REG_HP_INSTR_RAM_DATA_LOW 0x4148 /* HP instruction RAM
+ data low */
+#define HP_INSTR_RAM_LOW_OUTMASK_MASK 0x0000FFFF
+#define HP_INSTR_RAM_LOW_OUTMASK_SHIFT 0
+#define HP_INSTR_RAM_LOW_OUTSHIFT_MASK 0x000F0000
+#define HP_INSTR_RAM_LOW_OUTSHIFT_SHIFT 16
+#define HP_INSTR_RAM_LOW_OUTEN_MASK 0x00300000
+#define HP_INSTR_RAM_LOW_OUTEN_SHIFT 20
+#define HP_INSTR_RAM_LOW_OUTARG_MASK 0xFFC00000
+#define HP_INSTR_RAM_LOW_OUTARG_SHIFT 22
+#define REG_HP_INSTR_RAM_DATA_MID 0x414C /* HP instruction RAM
+ data mid */
+#define HP_INSTR_RAM_MID_OUTARG_MASK 0x00000003
+#define HP_INSTR_RAM_MID_OUTARG_SHIFT 0
+#define HP_INSTR_RAM_MID_OUTOP_MASK 0x0000003C
+#define HP_INSTR_RAM_MID_OUTOP_SHIFT 2
+#define HP_INSTR_RAM_MID_FNEXT_MASK 0x000007C0
+#define HP_INSTR_RAM_MID_FNEXT_SHIFT 6
+#define HP_INSTR_RAM_MID_FOFF_MASK 0x0003F800
+#define HP_INSTR_RAM_MID_FOFF_SHIFT 11
+#define HP_INSTR_RAM_MID_SNEXT_MASK 0x007C0000
+#define HP_INSTR_RAM_MID_SNEXT_SHIFT 18
+#define HP_INSTR_RAM_MID_SOFF_MASK 0x3F800000
+#define HP_INSTR_RAM_MID_SOFF_SHIFT 23
+#define HP_INSTR_RAM_MID_OP_MASK 0xC0000000
+#define HP_INSTR_RAM_MID_OP_SHIFT 30
+#define REG_HP_INSTR_RAM_DATA_HI 0x4150 /* HP instruction RAM
+ data high */
+#define HP_INSTR_RAM_HI_VAL_MASK 0x0000FFFF
+#define HP_INSTR_RAM_HI_VAL_SHIFT 0
+#define HP_INSTR_RAM_HI_MASK_MASK 0xFFFF0000
+#define HP_INSTR_RAM_HI_MASK_SHIFT 16
+
+/* PIO access into RX Header parser data RAM and flow database.
+ * 11-bit register. Data fills the LSB portion of bus if less than 32 bits.
+ * DATA_RAM: write RAM_FDB_DATA with index to access DATA_RAM.
+ * RAM bytes = 4*(x - 1) + [3:0]. e.g., 0 -> [3:0], 31 -> [123:120]
+ * FLOWDB: write DATA_RAM_FDB register and then read/write FDB1-12 to access
+ * flow database.
+ * RX_DMA_EN must be 0 for RX parser RAM PIO access. RX Parser RAM data reg
+ * should be the last write access of the write sequence.
+ * DEFAULT: undefined
+ */
+#define REG_HP_DATA_RAM_FDB_ADDR 0x4154 /* HP data and FDB
+ RAM address */
+#define HP_DATA_RAM_FDB_DATA_MASK 0x001F /* select 1 of 86 byte
+ locations in header
+ parser data ram to
+ read/write */
+#define HP_DATA_RAM_FDB_FDB_MASK 0x3F00 /* 1 of 64 353-bit locations
+ in the flow database */
+#define REG_HP_DATA_RAM_DATA 0x4158 /* HP data RAM data */
+
+/* HP flow database registers: 1 - 12, 0x415C - 0x4188, 4 8-bit bytes
+ * FLOW_DB(1) = IP_SA[127:96], FLOW_DB(2) = IP_SA[95:64]
+ * FLOW_DB(3) = IP_SA[63:32], FLOW_DB(4) = IP_SA[31:0]
+ * FLOW_DB(5) = IP_DA[127:96], FLOW_DB(6) = IP_DA[95:64]
+ * FLOW_DB(7) = IP_DA[63:32], FLOW_DB(8) = IP_DA[31:0]
+ * FLOW_DB(9) = {TCP_SP[15:0],TCP_DP[15:0]}
+ * FLOW_DB(10) = bit 0 has value for flow valid
+ * FLOW_DB(11) = TCP_SEQ[63:32], FLOW_DB(12) = TCP_SEQ[31:0]
+ */
+#define REG_HP_FLOW_DB0 0x415C /* HP flow database 1 reg */
+#define REG_HP_FLOW_DBN(x) (REG_HP_FLOW_DB0 + (x)*4)
+
+/* diagnostics for RX Header Parser block.
+ * ASUN: the header parser state machine register is used for diagnostics
+ * purposes. however, the spec doesn't have any details on it.
+ */
+#define REG_HP_STATE_MACHINE 0x418C /* (ro) HP state machine */
+#define REG_HP_STATUS0 0x4190 /* (ro) HP status 1 */
+#define HP_STATUS0_SAP_MASK 0xFFFF0000 /* SAP */
+#define HP_STATUS0_L3_OFF_MASK 0x0000FE00 /* L3 offset */
+#define HP_STATUS0_LB_CPUNUM_MASK 0x000001F8 /* load balancing CPU
+ number */
+#define HP_STATUS0_HRP_OPCODE_MASK 0x00000007 /* HRP opcode */
+
+#define REG_HP_STATUS1 0x4194 /* (ro) HP status 2 */
+#define HP_STATUS1_ACCUR2_MASK 0xE0000000 /* accu R2[6:4] */
+#define HP_STATUS1_FLOWID_MASK 0x1F800000 /* flow id */
+#define HP_STATUS1_TCP_OFF_MASK 0x007F0000 /* tcp payload offset */
+#define HP_STATUS1_TCP_SIZE_MASK 0x0000FFFF /* tcp payload size */
+
+#define REG_HP_STATUS2 0x4198 /* (ro) HP status 3 */
+#define HP_STATUS2_ACCUR2_MASK 0xF0000000 /* accu R2[3:0] */
+#define HP_STATUS2_CSUM_OFF_MASK 0x07F00000 /* checksum start
+ start offset */
+#define HP_STATUS2_ACCUR1_MASK 0x000FE000 /* accu R1 */
+#define HP_STATUS2_FORCE_DROP 0x00001000 /* force drop */
+#define HP_STATUS2_BWO_REASSM 0x00000800 /* batching w/o
+ reassembly */
+#define HP_STATUS2_JH_SPLIT_EN 0x00000400 /* jumbo header split
+ enable */
+#define HP_STATUS2_FORCE_TCP_NOCHECK 0x00000200 /* force tcp no payload
+ check */
+#define HP_STATUS2_DATA_MASK_ZERO 0x00000100 /* mask of data length
+ equal to zero */
+#define HP_STATUS2_FORCE_TCP_CHECK 0x00000080 /* force tcp payload
+ chk */
+#define HP_STATUS2_MASK_TCP_THRESH 0x00000040 /* mask of payload
+ threshold */
+#define HP_STATUS2_NO_ASSIST 0x00000020 /* no assist */
+#define HP_STATUS2_CTRL_PACKET_FLAG 0x00000010 /* control packet flag */
+#define HP_STATUS2_TCP_FLAG_CHECK 0x00000008 /* tcp flag check */
+#define HP_STATUS2_SYN_FLAG 0x00000004 /* syn flag */
+#define HP_STATUS2_TCP_CHECK 0x00000002 /* tcp payload chk */
+#define HP_STATUS2_TCP_NOCHECK 0x00000001 /* tcp no payload chk */
+
+/* BIST for header parser(HP) and flow database memories (FDBM). set _START
+ * to start BIST. controller clears _START on completion. _START can also
+ * be cleared to force termination of BIST. a bit set indicates that that
+ * memory passed its BIST.
+ */
+#define REG_HP_RAM_BIST 0x419C /* HP RAM BIST reg */
+#define HP_RAM_BIST_HP_DATA_PASS 0x80000000 /* HP data ram */
+#define HP_RAM_BIST_HP_INSTR0_PASS 0x40000000 /* HP instr ram 0 */
+#define HP_RAM_BIST_HP_INSTR1_PASS 0x20000000 /* HP instr ram 1 */
+#define HP_RAM_BIST_HP_INSTR2_PASS 0x10000000 /* HP instr ram 2 */
+#define HP_RAM_BIST_FDBM_AGE0_PASS 0x08000000 /* FDBM aging RAM0 */
+#define HP_RAM_BIST_FDBM_AGE1_PASS 0x04000000 /* FDBM aging RAM1 */
+#define HP_RAM_BIST_FDBM_FLOWID00_PASS 0x02000000 /* FDBM flowid RAM0
+ bank 0 */
+#define HP_RAM_BIST_FDBM_FLOWID10_PASS 0x01000000 /* FDBM flowid RAM1
+ bank 0 */
+#define HP_RAM_BIST_FDBM_FLOWID20_PASS 0x00800000 /* FDBM flowid RAM2
+ bank 0 */
+#define HP_RAM_BIST_FDBM_FLOWID30_PASS 0x00400000 /* FDBM flowid RAM3
+ bank 0 */
+#define HP_RAM_BIST_FDBM_FLOWID01_PASS 0x00200000 /* FDBM flowid RAM0
+ bank 1 */
+#define HP_RAM_BIST_FDBM_FLOWID11_PASS 0x00100000 /* FDBM flowid RAM1
+ bank 2 */
+#define HP_RAM_BIST_FDBM_FLOWID21_PASS 0x00080000 /* FDBM flowid RAM2
+ bank 1 */
+#define HP_RAM_BIST_FDBM_FLOWID31_PASS 0x00040000 /* FDBM flowid RAM3
+ bank 1 */
+#define HP_RAM_BIST_FDBM_TCPSEQ_PASS 0x00020000 /* FDBM tcp sequence
+ RAM */
+#define HP_RAM_BIST_SUMMARY 0x00000002 /* all BIST tests */
+#define HP_RAM_BIST_START 0x00000001 /* start/stop BIST */
+
+
+/** MAC registers. **/
+/* reset bits are set using a PIO write and self-cleared after the command
+ * execution has completed.
+ */
+#define REG_MAC_TX_RESET 0x6000 /* TX MAC software reset
+ command (default: 0x0) */
+#define REG_MAC_RX_RESET 0x6004 /* RX MAC software reset
+ command (default: 0x0) */
+/* execute a pause flow control frame transmission
+ DEFAULT: 0x0XXXX */
+#define REG_MAC_SEND_PAUSE 0x6008 /* send pause command reg */
+#define MAC_SEND_PAUSE_TIME_MASK 0x0000FFFF /* value of pause time
+ to be sent on network
+ in units of slot
+ times */
+#define MAC_SEND_PAUSE_SEND 0x00010000 /* send pause flow ctrl
+ frame on network */
+
+/* bit set indicates that event occurred. auto-cleared when status register
+ * is read and have corresponding mask bits in mask register. events will
+ * trigger an interrupt if the corresponding mask bit is 0.
+ * status register default: 0x00000000
+ * mask register default = 0xFFFFFFFF on reset
+ */
+#define REG_MAC_TX_STATUS 0x6010 /* TX MAC status reg */
+#define MAC_TX_FRAME_XMIT 0x0001 /* successful frame
+ transmision */
+#define MAC_TX_UNDERRUN 0x0002 /* terminated frame
+ transmission due to
+ data starvation in the
+ xmit data path */
+#define MAC_TX_MAX_PACKET_ERR 0x0004 /* frame exceeds max allowed
+ length passed to TX MAC
+ by the DMA engine */
+#define MAC_TX_COLL_NORMAL 0x0008 /* rollover of the normal
+ collision counter */
+#define MAC_TX_COLL_EXCESS 0x0010 /* rollover of the excessive
+ collision counter */
+#define MAC_TX_COLL_LATE 0x0020 /* rollover of the late
+ collision counter */
+#define MAC_TX_COLL_FIRST 0x0040 /* rollover of the first
+ collision counter */
+#define MAC_TX_DEFER_TIMER 0x0080 /* rollover of the defer
+ timer */
+#define MAC_TX_PEAK_ATTEMPTS 0x0100 /* rollover of the peak
+ attempts counter */
+
+#define REG_MAC_RX_STATUS 0x6014 /* RX MAC status reg */
+#define MAC_RX_FRAME_RECV 0x0001 /* successful receipt of
+ a frame */
+#define MAC_RX_OVERFLOW 0x0002 /* dropped frame due to
+ RX FIFO overflow */
+#define MAC_RX_FRAME_COUNT 0x0004 /* rollover of receive frame
+ counter */
+#define MAC_RX_ALIGN_ERR 0x0008 /* rollover of alignment
+ error counter */
+#define MAC_RX_CRC_ERR 0x0010 /* rollover of crc error
+ counter */
+#define MAC_RX_LEN_ERR 0x0020 /* rollover of length
+ error counter */
+#define MAC_RX_VIOL_ERR 0x0040 /* rollover of code
+ violation error */
+
+/* DEFAULT: 0xXXXX0000 on reset */
+#define REG_MAC_CTRL_STATUS 0x6018 /* MAC control status reg */
+#define MAC_CTRL_PAUSE_RECEIVED 0x00000001 /* successful
+ reception of a
+ pause control
+ frame */
+#define MAC_CTRL_PAUSE_STATE 0x00000002 /* MAC has made a
+ transition from
+ "not paused" to
+ "paused" */
+#define MAC_CTRL_NOPAUSE_STATE 0x00000004 /* MAC has made a
+ transition from
+ "paused" to "not
+ paused" */
+#define MAC_CTRL_PAUSE_TIME_MASK 0xFFFF0000 /* value of pause time
+ operand that was
+ received in the last
+ pause flow control
+ frame */
+
+/* layout identical to TX MAC[8:0] */
+#define REG_MAC_TX_MASK 0x6020 /* TX MAC mask reg */
+/* layout identical to RX MAC[6:0] */
+#define REG_MAC_RX_MASK 0x6024 /* RX MAC mask reg */
+/* layout identical to CTRL MAC[2:0] */
+#define REG_MAC_CTRL_MASK 0x6028 /* MAC control mask reg */
+
+/* to ensure proper operation, CFG_EN must be cleared to 0 and a delay
+ * imposed before writes to other bits in the TX_MAC_CFG register or any of
+ * the MAC parameters is performed. delay dependent upon time required to
+ * transmit a maximum size frame (= MAC_FRAMESIZE_MAX*8/Mbps). e.g.,
+ * the delay for a 1518-byte frame on a 100Mbps network is 125us.
+ * alternatively, just poll TX_CFG_EN until it reads back as 0.
+ * NOTE: on half-duplex 1Gbps, TX_CFG_CARRIER_EXTEND and
+ * RX_CFG_CARRIER_EXTEND should be set and the SLOT_TIME register should
+ * be 0x200 (slot time of 512 bytes)
+ */
+#define REG_MAC_TX_CFG 0x6030 /* TX MAC config reg */
+#define MAC_TX_CFG_EN 0x0001 /* enable TX MAC. 0 will
+ force TXMAC state
+ machine to remain in
+ idle state or to
+ transition to idle state
+ on completion of an
+ ongoing packet. */
+#define MAC_TX_CFG_IGNORE_CARRIER 0x0002 /* disable CSMA/CD deferral
+ process. set to 1 when
+ full duplex and 0 when
+ half duplex */
+#define MAC_TX_CFG_IGNORE_COLL 0x0004 /* disable CSMA/CD backoff
+ algorithm. set to 1 when
+ full duplex and 0 when
+ half duplex */
+#define MAC_TX_CFG_IPG_EN 0x0008 /* enable extension of the
+ Rx-to-TX IPG. after
+ receiving a frame, TX
+ MAC will reset its
+ deferral process to
+ carrier sense for the
+ amount of time = IPG0 +
+ IPG1 and commit to
+ transmission for time
+ specified in IPG2. when
+ 0 or when xmitting frames
+ back-to-pack (Tx-to-Tx
+ IPG), TX MAC ignores
+ IPG0 and will only use
+ IPG1 for deferral time.
+ IPG2 still used. */
+#define MAC_TX_CFG_NEVER_GIVE_UP_EN 0x0010 /* TX MAC will not easily
+ give up on frame
+ xmission. if backoff
+ algorithm reaches the
+ ATTEMPT_LIMIT, it will
+ clear attempts counter
+ and continue trying to
+ send the frame as
+ specified by
+ GIVE_UP_LIM. when 0,
+ TX MAC will execute
+ standard CSMA/CD prot. */
+#define MAC_TX_CFG_NEVER_GIVE_UP_LIM 0x0020 /* when set, TX MAC will
+ continue to try to xmit
+ until successful. when
+ 0, TX MAC will continue
+ to try xmitting until
+ successful or backoff
+ algorithm reaches
+ ATTEMPT_LIMIT*16 */
+#define MAC_TX_CFG_NO_BACKOFF 0x0040 /* modify CSMA/CD to disable
+ backoff algorithm. TX
+ MAC will not back off
+ after a xmission attempt
+ that resulted in a
+ collision. */
+#define MAC_TX_CFG_SLOW_DOWN 0x0080 /* modify CSMA/CD so that
+ deferral process is reset
+ in response to carrier
+ sense during the entire
+ duration of IPG. TX MAC
+ will only commit to frame
+ xmission after frame
+ xmission has actually
+ begun. */
+#define MAC_TX_CFG_NO_FCS 0x0100 /* TX MAC will not generate
+ CRC for all xmitted
+ packets. when clear, CRC
+ generation is dependent
+ upon NO_CRC bit in the
+ xmit control word from
+ TX DMA */
+#define MAC_TX_CFG_CARRIER_EXTEND 0x0200 /* enables xmit part of the
+ carrier extension
+ feature. this allows for
+ longer collision domains
+ by extending the carrier
+ and collision window
+ from the end of FCS until
+ the end of the slot time
+ if necessary. Required
+ for half-duplex at 1Gbps,
+ clear otherwise. */
+
+/* when CRC is not stripped, reassembly packets will not contain the CRC.
+ * these will be stripped by HRP because it reassembles layer 4 data, and the
+ * CRC is layer 2. however, non-reassembly packets will still contain the CRC
+ * when passed to the host. to ensure proper operation, need to wait 3.2ms
+ * after clearing RX_CFG_EN before writing to any other RX MAC registers
+ * or other MAC parameters. alternatively, poll RX_CFG_EN until it clears
+ * to 0. similary, HASH_FILTER_EN and ADDR_FILTER_EN have the same
+ * restrictions as CFG_EN.
+ */
+#define REG_MAC_RX_CFG 0x6034 /* RX MAC config reg */
+#define MAC_RX_CFG_EN 0x0001 /* enable RX MAC */
+#define MAC_RX_CFG_STRIP_PAD 0x0002 /* always program to 0.
+ feature not supported */
+#define MAC_RX_CFG_STRIP_FCS 0x0004 /* RX MAC will strip the
+ last 4 bytes of a
+ received frame. */
+#define MAC_RX_CFG_PROMISC_EN 0x0008 /* promiscuous mode */
+#define MAC_RX_CFG_PROMISC_GROUP_EN 0x0010 /* accept all valid
+ multicast frames (group
+ bit in DA field set) */
+#define MAC_RX_CFG_HASH_FILTER_EN 0x0020 /* use hash table to filter
+ multicast addresses */
+#define MAC_RX_CFG_ADDR_FILTER_EN 0x0040 /* cause RX MAC to use
+ address filtering regs
+ to filter both unicast
+ and multicast
+ addresses */
+#define MAC_RX_CFG_DISABLE_DISCARD 0x0080 /* pass errored frames to
+ RX DMA by setting BAD
+ bit but not Abort bit
+ in the status. CRC,
+ framing, and length errs
+ will not increment
+ error counters. frames
+ which don't match dest
+ addr will be passed up
+ w/ BAD bit set. */
+#define MAC_RX_CFG_CARRIER_EXTEND 0x0100 /* enable reception of
+ packet bursts generated
+ by carrier extension
+ with packet bursting
+ senders. only applies
+ to half-duplex 1Gbps */
+
+/* DEFAULT: 0x0 */
+#define REG_MAC_CTRL_CFG 0x6038 /* MAC control config reg */
+#define MAC_CTRL_CFG_SEND_PAUSE_EN 0x0001 /* respond to requests for
+ sending pause flow ctrl
+ frames */
+#define MAC_CTRL_CFG_RECV_PAUSE_EN 0x0002 /* respond to received
+ pause flow ctrl frames */
+#define MAC_CTRL_CFG_PASS_CTRL 0x0004 /* pass valid MAC ctrl
+ packets to RX DMA */
+
+/* to ensure proper operation, a global initialization sequence should be
+ * performed when a loopback config is entered or exited. if programmed after
+ * a hw or global sw reset, RX/TX MAC software reset and initialization
+ * should be done to ensure stable clocking.
+ * DEFAULT: 0x0
+ */
+#define REG_MAC_XIF_CFG 0x603C /* XIF config reg */
+#define MAC_XIF_TX_MII_OUTPUT_EN 0x0001 /* enable output drivers
+ on MII xmit bus */
+#define MAC_XIF_MII_INT_LOOPBACK 0x0002 /* loopback GMII xmit data
+ path to GMII recv data
+ path. phy mode register
+ clock selection must be
+ set to GMII mode and
+ GMII_MODE should be set
+ to 1. in loopback mode,
+ REFCLK will drive the
+ entire mac core. 0 for
+ normal operation. */
+#define MAC_XIF_DISABLE_ECHO 0x0004 /* disables receive data
+ path during packet
+ xmission. clear to 0
+ in any full duplex mode,
+ in any loopback mode,
+ or in half-duplex SERDES
+ or SLINK modes. set when
+ in half-duplex when
+ using external phy. */
+#define MAC_XIF_GMII_MODE 0x0008 /* MAC operates with GMII
+ clocks and datapath */
+#define MAC_XIF_MII_BUFFER_OUTPUT_EN 0x0010 /* MII_BUF_EN pin. enable
+ external tristate buffer
+ on the MII receive
+ bus. */
+#define MAC_XIF_LINK_LED 0x0020 /* LINKLED# active (low) */
+#define MAC_XIF_FDPLX_LED 0x0040 /* FDPLXLED# active (low) */
+
+#define REG_MAC_IPG0 0x6040 /* inter-packet gap0 reg.
+ recommended: 0x00 */
+#define REG_MAC_IPG1 0x6044 /* inter-packet gap1 reg
+ recommended: 0x08 */
+#define REG_MAC_IPG2 0x6048 /* inter-packet gap2 reg
+ recommended: 0x04 */
+#define REG_MAC_SLOT_TIME 0x604C /* slot time reg
+ recommended: 0x40 */
+#define REG_MAC_FRAMESIZE_MIN 0x6050 /* min frame size reg
+ recommended: 0x40 */
+
+/* FRAMESIZE_MAX holds both the max frame size as well as the max burst size.
+ * recommended value: 0x2000.05EE
+ */
+#define REG_MAC_FRAMESIZE_MAX 0x6054 /* max frame size reg */
+#define MAC_FRAMESIZE_MAX_BURST_MASK 0x3FFF0000 /* max burst size */
+#define MAC_FRAMESIZE_MAX_BURST_SHIFT 16
+#define MAC_FRAMESIZE_MAX_FRAME_MASK 0x00007FFF /* max frame size */
+#define MAC_FRAMESIZE_MAX_FRAME_SHIFT 0
+#define REG_MAC_PA_SIZE 0x6058 /* PA size reg. number of
+ preamble bytes that the
+ TX MAC will xmit at the
+ beginning of each frame
+ value should be 2 or
+ greater. recommended
+ value: 0x07 */
+#define REG_MAC_JAM_SIZE 0x605C /* jam size reg. duration
+ of jam in units of media
+ byte time. recommended
+ value: 0x04 */
+#define REG_MAC_ATTEMPT_LIMIT 0x6060 /* attempt limit reg. #
+ of attempts TX MAC will
+ make to xmit a frame
+ before it resets its
+ attempts counter. after
+ the limit has been
+ reached, TX MAC may or
+ may not drop the frame
+ dependent upon value
+ in TX_MAC_CFG.
+ recommended
+ value: 0x10 */
+#define REG_MAC_CTRL_TYPE 0x6064 /* MAC control type reg.
+ type field of a MAC
+ ctrl frame. recommended
+ value: 0x8808 */
+
+/* mac address registers: 0 - 44, 0x6080 - 0x6130, 4 8-bit bytes.
+ * register contains comparison
+ * 0 16 MSB of primary MAC addr [47:32] of DA field
+ * 1 16 middle bits "" [31:16] of DA field
+ * 2 16 LSB "" [15:0] of DA field
+ * 3*x 16MSB of alt MAC addr 1-15 [47:32] of DA field
+ * 4*x 16 middle bits "" [31:16]
+ * 5*x 16 LSB "" [15:0]
+ * 42 16 MSB of MAC CTRL addr [47:32] of DA.
+ * 43 16 middle bits "" [31:16]
+ * 44 16 LSB "" [15:0]
+ * MAC CTRL addr must be the reserved multicast addr for MAC CTRL frames.
+ * if there is a match, MAC will set the bit for alternative address
+ * filter pass [15]
+
+ * here is the map of registers given MAC address notation: a:b:c:d:e:f
+ * ab cd ef
+ * primary addr reg 2 reg 1 reg 0
+ * alt addr 1 reg 5 reg 4 reg 3
+ * alt addr x reg 5*x reg 4*x reg 3*x
+ * ctrl addr reg 44 reg 43 reg 42
+ */
+#define REG_MAC_ADDR0 0x6080 /* MAC address 0 reg */
+#define REG_MAC_ADDRN(x) (REG_MAC_ADDR0 + (x)*4)
+#define REG_MAC_ADDR_FILTER0 0x614C /* address filter 0 reg
+ [47:32] */
+#define REG_MAC_ADDR_FILTER1 0x6150 /* address filter 1 reg
+ [31:16] */
+#define REG_MAC_ADDR_FILTER2 0x6154 /* address filter 2 reg
+ [15:0] */
+#define REG_MAC_ADDR_FILTER2_1_MASK 0x6158 /* address filter 2 and 1
+ mask reg. 8-bit reg
+ contains nibble mask for
+ reg 2 and 1. */
+#define REG_MAC_ADDR_FILTER0_MASK 0x615C /* address filter 0 mask
+ reg */
+
+/* hash table registers: 0 - 15, 0x6160 - 0x619C, 4 8-bit bytes
+ * 16-bit registers contain bits of the hash table.
+ * reg x -> [16*(15 - x) + 15 : 16*(15 - x)].
+ * e.g., 15 -> [15:0], 0 -> [255:240]
+ */
+#define REG_MAC_HASH_TABLE0 0x6160 /* hash table 0 reg */
+#define REG_MAC_HASH_TABLEN(x) (REG_MAC_HASH_TABLE0 + (x)*4)
+
+/* statistics registers. these registers generate an interrupt on
+ * overflow. recommended initialization: 0x0000. most are 16-bits except
+ * for PEAK_ATTEMPTS register which is 8 bits.
+ */
+#define REG_MAC_COLL_NORMAL 0x61A0 /* normal collision
+ counter. */
+#define REG_MAC_COLL_FIRST 0x61A4 /* first attempt
+ successful collision
+ counter */
+#define REG_MAC_COLL_EXCESS 0x61A8 /* excessive collision
+ counter */
+#define REG_MAC_COLL_LATE 0x61AC /* late collision counter */
+#define REG_MAC_TIMER_DEFER 0x61B0 /* defer timer. time base
+ is the media byte
+ clock/256 */
+#define REG_MAC_ATTEMPTS_PEAK 0x61B4 /* peak attempts reg */
+#define REG_MAC_RECV_FRAME 0x61B8 /* receive frame counter */
+#define REG_MAC_LEN_ERR 0x61BC /* length error counter */
+#define REG_MAC_ALIGN_ERR 0x61C0 /* alignment error counter */
+#define REG_MAC_FCS_ERR 0x61C4 /* FCS error counter */
+#define REG_MAC_RX_CODE_ERR 0x61C8 /* RX code violation
+ error counter */
+
+/* misc registers */
+#define REG_MAC_RANDOM_SEED 0x61CC /* random number seed reg.
+ 10-bit register used as a
+ seed for the random number
+ generator for the CSMA/CD
+ backoff algorithm. only
+ programmed after power-on
+ reset and should be a
+ random value which has a
+ high likelihood of being
+ unique for each MAC
+ attached to a network
+ segment (e.g., 10 LSB of
+ MAC address) */
+
+/* ASUN: there's a PAUSE_TIMER (ro) described, but it's not in the address
+ * map
+ */
+
+/* 27-bit register has the current state for key state machines in the MAC */
+#define REG_MAC_STATE_MACHINE 0x61D0 /* (ro) state machine reg */
+#define MAC_SM_RLM_MASK 0x07800000
+#define MAC_SM_RLM_SHIFT 23
+#define MAC_SM_RX_FC_MASK 0x00700000
+#define MAC_SM_RX_FC_SHIFT 20
+#define MAC_SM_TLM_MASK 0x000F0000
+#define MAC_SM_TLM_SHIFT 16
+#define MAC_SM_ENCAP_SM_MASK 0x0000F000
+#define MAC_SM_ENCAP_SM_SHIFT 12
+#define MAC_SM_TX_REQ_MASK 0x00000C00
+#define MAC_SM_TX_REQ_SHIFT 10
+#define MAC_SM_TX_FC_MASK 0x000003C0
+#define MAC_SM_TX_FC_SHIFT 6
+#define MAC_SM_FIFO_WRITE_SEL_MASK 0x00000038
+#define MAC_SM_FIFO_WRITE_SEL_SHIFT 3
+#define MAC_SM_TX_FIFO_EMPTY_MASK 0x00000007
+#define MAC_SM_TX_FIFO_EMPTY_SHIFT 0
+
+/** MIF registers. the MIF can be programmed in either bit-bang or
+ * frame mode.
+ **/
+#define REG_MIF_BIT_BANG_CLOCK 0x6200 /* MIF bit-bang clock.
+ 1 -> 0 will generate a
+ rising edge. 0 -> 1 will
+ generate a falling edge. */
+#define REG_MIF_BIT_BANG_DATA 0x6204 /* MIF bit-bang data. 1-bit
+ register generates data */
+#define REG_MIF_BIT_BANG_OUTPUT_EN 0x6208 /* MIF bit-bang output
+ enable. enable when
+ xmitting data from MIF to
+ transceiver. */
+
+/* 32-bit register serves as an instruction register when the MIF is
+ * programmed in frame mode. load this register w/ a valid instruction
+ * (as per IEEE 802.3u MII spec). poll this register to check for instruction
+ * execution completion. during a read operation, this register will also
+ * contain the 16-bit data returned by the tranceiver. unless specified
+ * otherwise, fields are considered "don't care" when polling for
+ * completion.
+ */
+#define REG_MIF_FRAME 0x620C /* MIF frame/output reg */
+#define MIF_FRAME_START_MASK 0xC0000000 /* start of frame.
+ load w/ 01 when
+ issuing an instr */
+#define MIF_FRAME_ST 0x40000000 /* STart of frame */
+#define MIF_FRAME_OPCODE_MASK 0x30000000 /* opcode. 01 for a
+ write. 10 for a
+ read */
+#define MIF_FRAME_OP_READ 0x20000000 /* read OPcode */
+#define MIF_FRAME_OP_WRITE 0x10000000 /* write OPcode */
+#define MIF_FRAME_PHY_ADDR_MASK 0x0F800000 /* phy address. when
+ issuing an instr,
+ this field should be
+ loaded w/ the XCVR
+ addr */
+#define MIF_FRAME_PHY_ADDR_SHIFT 23
+#define MIF_FRAME_REG_ADDR_MASK 0x007C0000 /* register address.
+ when issuing an instr,
+ addr of register
+ to be read/written */
+#define MIF_FRAME_REG_ADDR_SHIFT 18
+#define MIF_FRAME_TURN_AROUND_MSB 0x00020000 /* turn around, MSB.
+ when issuing an instr,
+ set this bit to 1 */
+#define MIF_FRAME_TURN_AROUND_LSB 0x00010000 /* turn around, LSB.
+ when issuing an instr,
+ set this bit to 0.
+ when polling for
+ completion, 1 means
+ that instr execution
+ has been completed */
+#define MIF_FRAME_DATA_MASK 0x0000FFFF /* instruction payload
+ load with 16-bit data
+ to be written in
+ transceiver reg for a
+ write. doesn't matter
+ in a read. when
+ polling for
+ completion, field is
+ "don't care" for write
+ and 16-bit data
+ returned by the
+ transceiver for a
+ read (if valid bit
+ is set) */
+#define REG_MIF_CFG 0x6210 /* MIF config reg */
+#define MIF_CFG_PHY_SELECT 0x0001 /* 1 -> select MDIO_1
+ 0 -> select MDIO_0 */
+#define MIF_CFG_POLL_EN 0x0002 /* enable polling
+ mechanism. if set,
+ BB_MODE should be 0 */
+#define MIF_CFG_BB_MODE 0x0004 /* 1 -> bit-bang mode
+ 0 -> frame mode */
+#define MIF_CFG_POLL_REG_MASK 0x00F8 /* register address to be
+ used by polling mode.
+ only meaningful if POLL_EN
+ is set to 1 */
+#define MIF_CFG_POLL_REG_SHIFT 3
+#define MIF_CFG_MDIO_0 0x0100 /* (ro) dual purpose.
+ when MDIO_0 is idle,
+ 1 -> tranceiver is
+ connected to MDIO_0.
+ when MIF is communicating
+ w/ MDIO_0 in bit-bang
+ mode, this bit indicates
+ the incoming bit stream
+ during a read op */
+#define MIF_CFG_MDIO_1 0x0200 /* (ro) dual purpose.
+ when MDIO_1 is idle,
+ 1 -> transceiver is
+ connected to MDIO_1.
+ when MIF is communicating
+ w/ MDIO_1 in bit-bang
+ mode, this bit indicates
+ the incoming bit stream
+ during a read op */
+#define MIF_CFG_POLL_PHY_MASK 0x7C00 /* tranceiver address to
+ be polled */
+#define MIF_CFG_POLL_PHY_SHIFT 10
+
+/* 16-bit register used to determine which bits in the POLL_STATUS portion of
+ * the MIF_STATUS register will cause an interrupt. if a mask bit is 0,
+ * corresponding bit of the POLL_STATUS will generate a MIF interrupt when
+ * set. DEFAULT: 0xFFFF
+ */
+#define REG_MIF_MASK 0x6214 /* MIF mask reg */
+
+/* 32-bit register used when in poll mode. auto-cleared after being read */
+#define REG_MIF_STATUS 0x6218 /* MIF status reg */
+#define MIF_STATUS_POLL_DATA_MASK 0xFFFF0000 /* poll data contains
+ the "latest image"
+ update of the XCVR
+ reg being read */
+#define MIF_STATUS_POLL_DATA_SHIFT 16
+#define MIF_STATUS_POLL_STATUS_MASK 0x0000FFFF /* poll status indicates
+ which bits in the
+ POLL_DATA field have
+ changed since the
+ MIF_STATUS reg was
+ last read */
+#define MIF_STATUS_POLL_STATUS_SHIFT 0
+
+/* 7-bit register has current state for all state machines in the MIF */
+#define REG_MIF_STATE_MACHINE 0x621C /* MIF state machine reg */
+#define MIF_SM_CONTROL_MASK 0x07 /* control state machine
+ state */
+#define MIF_SM_EXECUTION_MASK 0x60 /* execution state machine
+ state */
+
+/** PCS/Serialink. the following registers are equivalent to the standard
+ * MII management registers except that they're directly mapped in
+ * Cassini's register space.
+ **/
+
+/* the auto-negotiation enable bit should be programmed the same at
+ * the link partner as in the local device to enable auto-negotiation to
+ * complete. when that bit is reprogrammed, auto-neg/manual config is
+ * restarted automatically.
+ * DEFAULT: 0x1040
+ */
+#define REG_PCS_MII_CTRL 0x9000 /* PCS MII control reg */
+#define PCS_MII_CTRL_1000_SEL 0x0040 /* reads 1. ignored on
+ writes */
+#define PCS_MII_CTRL_COLLISION_TEST 0x0080 /* COL signal at the PCS
+ to MAC interface is
+ activated regardless
+ of activity */
+#define PCS_MII_CTRL_DUPLEX 0x0100 /* forced 0x0. PCS
+ behaviour same for
+ half and full dplx */
+#define PCS_MII_RESTART_AUTONEG 0x0200 /* self clearing.
+ restart auto-
+ negotiation */
+#define PCS_MII_ISOLATE 0x0400 /* read as 0. ignored
+ on writes */
+#define PCS_MII_POWER_DOWN 0x0800 /* read as 0. ignored
+ on writes */
+#define PCS_MII_AUTONEG_EN 0x1000 /* default 1. PCS goes
+ through automatic
+ link config before it
+ can be used. when 0,
+ link can be used
+ w/out any link config
+ phase */
+#define PCS_MII_10_100_SEL 0x2000 /* read as 0. ignored on
+ writes */
+#define PCS_MII_RESET 0x8000 /* reset PCS. self-clears
+ when done */
+
+/* DEFAULT: 0x0108 */
+#define REG_PCS_MII_STATUS 0x9004 /* PCS MII status reg */
+#define PCS_MII_STATUS_EXTEND_CAP 0x0001 /* reads 0 */
+#define PCS_MII_STATUS_JABBER_DETECT 0x0002 /* reads 0 */
+#define PCS_MII_STATUS_LINK_STATUS 0x0004 /* 1 -> link up.
+ 0 -> link down. 0 is
+ latched so that 0 is
+ kept until read. read
+ 2x to determine if the
+ link has gone up again */
+#define PCS_MII_STATUS_AUTONEG_ABLE 0x0008 /* reads 1 (able to perform
+ auto-neg) */
+#define PCS_MII_STATUS_REMOTE_FAULT 0x0010 /* 1 -> remote fault detected
+ from received link code
+ word. only valid after
+ auto-neg completed */
+#define PCS_MII_STATUS_AUTONEG_COMP 0x0020 /* 1 -> auto-negotiation
+ completed
+ 0 -> auto-negotiation not
+ completed */
+#define PCS_MII_STATUS_EXTEND_STATUS 0x0100 /* reads as 1. used as an
+ indication that this is
+ a 1000 Base-X PHY. writes
+ to it are ignored */
+
+/* used during auto-negotiation.
+ * DEFAULT: 0x00E0
+ */
+#define REG_PCS_MII_ADVERT 0x9008 /* PCS MII advertisement
+ reg */
+#define PCS_MII_ADVERT_FD 0x0020 /* advertise full duplex
+ 1000 Base-X */
+#define PCS_MII_ADVERT_HD 0x0040 /* advertise half-duplex
+ 1000 Base-X */
+#define PCS_MII_ADVERT_SYM_PAUSE 0x0080 /* advertise PAUSE
+ symmetric capability */
+#define PCS_MII_ADVERT_ASYM_PAUSE 0x0100 /* advertises PAUSE
+ asymmetric capability */
+#define PCS_MII_ADVERT_RF_MASK 0x3000 /* remote fault. write bit13
+ to optionally indicate to
+ link partner that chip is
+ going off-line. bit12 will
+ get set when signal
+ detect == FAIL and will
+ remain set until
+ successful negotiation */
+#define PCS_MII_ADVERT_ACK 0x4000 /* (ro) */
+#define PCS_MII_ADVERT_NEXT_PAGE 0x8000 /* (ro) forced 0x0 */
+
+/* contents updated as a result of autonegotiation. layout and definitions
+ * identical to PCS_MII_ADVERT
+ */
+#define REG_PCS_MII_LPA 0x900C /* PCS MII link partner
+ ability reg */
+#define PCS_MII_LPA_FD PCS_MII_ADVERT_FD
+#define PCS_MII_LPA_HD PCS_MII_ADVERT_HD
+#define PCS_MII_LPA_SYM_PAUSE PCS_MII_ADVERT_SYM_PAUSE
+#define PCS_MII_LPA_ASYM_PAUSE PCS_MII_ADVERT_ASYM_PAUSE
+#define PCS_MII_LPA_RF_MASK PCS_MII_ADVERT_RF_MASK
+#define PCS_MII_LPA_ACK PCS_MII_ADVERT_ACK
+#define PCS_MII_LPA_NEXT_PAGE PCS_MII_ADVERT_NEXT_PAGE
+
+/* DEFAULT: 0x0 */
+#define REG_PCS_CFG 0x9010 /* PCS config reg */
+#define PCS_CFG_EN 0x01 /* enable PCS. must be
+ 0 when modifying
+ PCS_MII_ADVERT */
+#define PCS_CFG_SD_OVERRIDE 0x02 /* sets signal detect to
+ OK. bit is
+ non-resettable */
+#define PCS_CFG_SD_ACTIVE_LOW 0x04 /* changes interpretation
+ of optical signal to make
+ signal detect okay when
+ signal is low */
+#define PCS_CFG_JITTER_STUDY_MASK 0x18 /* used to make jitter
+ measurements. a single
+ code group is xmitted
+ regularly.
+ 0x0 = normal operation
+ 0x1 = high freq test
+ pattern, D21.5
+ 0x2 = low freq test
+ pattern, K28.7
+ 0x3 = reserved */
+#define PCS_CFG_10MS_TIMER_OVERRIDE 0x20 /* shortens 10-20ms auto-
+ negotiation timer to
+ a few cycles for test
+ purposes */
+
+/* used for diagnostic purposes. bits 20-22 autoclear on read */
+#define REG_PCS_STATE_MACHINE 0x9014 /* (ro) PCS state machine
+ and diagnostic reg */
+#define PCS_SM_TX_STATE_MASK 0x0000000F /* 0 and 1 indicate
+ xmission of idle.
+ otherwise, xmission of
+ a packet */
+#define PCS_SM_RX_STATE_MASK 0x000000F0 /* 0 indicates reception
+ of idle. otherwise,
+ reception of packet */
+#define PCS_SM_WORD_SYNC_STATE_MASK 0x00000700 /* 0 indicates loss of
+ sync */
+#define PCS_SM_SEQ_DETECT_STATE_MASK 0x00001800 /* cycling through 0-3
+ indicates reception of
+ Config codes. cycling
+ through 0-1 indicates
+ reception of idles */
+#define PCS_SM_LINK_STATE_MASK 0x0001E000
+#define SM_LINK_STATE_UP 0x00016000 /* link state is up */
+
+#define PCS_SM_LOSS_LINK_C 0x00100000 /* loss of link due to
+ recept of Config
+ codes */
+#define PCS_SM_LOSS_LINK_SYNC 0x00200000 /* loss of link due to
+ loss of sync */
+#define PCS_SM_LOSS_SIGNAL_DETECT 0x00400000 /* signal detect goes
+ from OK to FAIL. bit29
+ will also be set if
+ this is set */
+#define PCS_SM_NO_LINK_BREAKLINK 0x01000000 /* link not up due to
+ receipt of breaklink
+ C codes from partner.
+ C codes w/ 0 content
+ received triggering
+ start/restart of
+ autonegotiation.
+ should be sent for
+ no longer than 20ms */
+#define PCS_SM_NO_LINK_SERDES 0x02000000 /* serdes being
+ initialized. see serdes
+ state reg */
+#define PCS_SM_NO_LINK_C 0x04000000 /* C codes not stable or
+ not received */
+#define PCS_SM_NO_LINK_SYNC 0x08000000 /* word sync not
+ achieved */
+#define PCS_SM_NO_LINK_WAIT_C 0x10000000 /* waiting for C codes
+ w/ ack bit set */
+#define PCS_SM_NO_LINK_NO_IDLE 0x20000000 /* link partner continues
+ to send C codes
+ instead of idle
+ symbols or pkt data */
+
+/* this register indicates interrupt changes in specific PCS MII status bits.
+ * PCS_INT may be masked at the ISR level. only a single bit is implemented
+ * for link status change.
+ */
+#define REG_PCS_INTR_STATUS 0x9018 /* PCS interrupt status */
+#define PCS_INTR_STATUS_LINK_CHANGE 0x04 /* link status has changed
+ since last read */
+
+/* control which network interface is used. no more than one bit should
+ * be set.
+ * DEFAULT: none
+ */
+#define REG_PCS_DATAPATH_MODE 0x9050 /* datapath mode reg */
+#define PCS_DATAPATH_MODE_MII 0x00 /* PCS is not used and
+ MII/GMII is selected.
+ selection between MII and
+ GMII is controlled by
+ XIF_CFG */
+#define PCS_DATAPATH_MODE_SERDES 0x02 /* PCS is used via the
+ 10-bit interface */
+
+/* input to serdes chip or serialink block */
+#define REG_PCS_SERDES_CTRL 0x9054 /* serdes control reg */
+#define PCS_SERDES_CTRL_LOOPBACK 0x01 /* enable loopback on
+ serdes interface */
+#define PCS_SERDES_CTRL_SYNCD_EN 0x02 /* enable sync carrier
+ detection. should be
+ 0x0 for normal
+ operation */
+#define PCS_SERDES_CTRL_LOCKREF 0x04 /* frequency-lock RBC[0:1]
+ to REFCLK when set.
+ when clear, receiver
+ clock locks to incoming
+ serial data */
+
+/* multiplex test outputs into the PROM address (PA_3 through PA_0) pins.
+ * should be 0x0 for normal operations.
+ * 0b000 normal operation, PROM address[3:0] selected
+ * 0b001 rxdma req, rxdma ack, rxdma ready, rxdma read
+ * 0b010 rxmac req, rx ack, rx tag, rx clk shared
+ * 0b011 txmac req, tx ack, tx tag, tx retry req
+ * 0b100 tx tp3, tx tp2, tx tp1, tx tp0
+ * 0b101 R period RX, R period TX, R period HP, R period BIM
+ * DEFAULT: 0x0
+ */
+#define REG_PCS_SHARED_OUTPUT_SEL 0x9058 /* shared output select */
+#define PCS_SOS_PROM_ADDR_MASK 0x0007
+
+/* used for diagnostics. this register indicates progress of the SERDES
+ * boot up.
+ * 0b00 undergoing reset
+ * 0b01 waiting 500us while lockrefn is asserted
+ * 0b10 waiting for comma detect
+ * 0b11 receive data is synchronized
+ * DEFAULT: 0x0
+ */
+#define REG_PCS_SERDES_STATE 0x905C /* (ro) serdes state */
+#define PCS_SERDES_STATE_MASK 0x03
+
+/* used for diagnostics. indicates number of packets transmitted or received.
+ * counters rollover w/out generating an interrupt.
+ * DEFAULT: 0x0
+ */
+#define REG_PCS_PACKET_COUNT 0x9060 /* (ro) PCS packet counter */
+#define PCS_PACKET_COUNT_TX 0x000007FF /* pkts xmitted by PCS */
+#define PCS_PACKET_COUNT_RX 0x07FF0000 /* pkts recvd by PCS
+ whether they
+ encountered an error
+ or not */
+
+/** LocalBus Devices. the following provides run-time access to the
+ * Cassini's PROM
+ ***/
+#define REG_EXPANSION_ROM_RUN_START 0x100000 /* expansion rom run time
+ access */
+#define REG_EXPANSION_ROM_RUN_END 0x17FFFF
+
+#define REG_SECOND_LOCALBUS_START 0x180000 /* secondary local bus
+ device */
+#define REG_SECOND_LOCALBUS_END 0x1FFFFF
+
+/* entropy device */
+#define REG_ENTROPY_START REG_SECOND_LOCALBUS_START
+#define REG_ENTROPY_DATA (REG_ENTROPY_START + 0x00)
+#define REG_ENTROPY_STATUS (REG_ENTROPY_START + 0x04)
+#define ENTROPY_STATUS_DRDY 0x01
+#define ENTROPY_STATUS_BUSY 0x02
+#define ENTROPY_STATUS_CIPHER 0x04
+#define ENTROPY_STATUS_BYPASS_MASK 0x18
+#define REG_ENTROPY_MODE (REG_ENTROPY_START + 0x05)
+#define ENTROPY_MODE_KEY_MASK 0x07
+#define ENTROPY_MODE_ENCRYPT 0x40
+#define REG_ENTROPY_RAND_REG (REG_ENTROPY_START + 0x06)
+#define REG_ENTROPY_RESET (REG_ENTROPY_START + 0x07)
+#define ENTROPY_RESET_DES_IO 0x01
+#define ENTROPY_RESET_STC_MODE 0x02
+#define ENTROPY_RESET_KEY_CACHE 0x04
+#define ENTROPY_RESET_IV 0x08
+#define REG_ENTROPY_IV (REG_ENTROPY_START + 0x08)
+#define REG_ENTROPY_KEY0 (REG_ENTROPY_START + 0x10)
+#define REG_ENTROPY_KEYN(x) (REG_ENTROPY_KEY0 + 4*(x))
+
+/* phys of interest w/ their special mii registers */
+#define PHY_LUCENT_B0 0x00437421
+#define LUCENT_MII_REG 0x1F
+
+#define PHY_NS_DP83065 0x20005c78
+#define DP83065_MII_MEM 0x16
+#define DP83065_MII_REGD 0x1D
+#define DP83065_MII_REGE 0x1E
+
+#define PHY_BROADCOM_5411 0x00206071
+#define PHY_BROADCOM_B0 0x00206050
+#define BROADCOM_MII_REG4 0x14
+#define BROADCOM_MII_REG5 0x15
+#define BROADCOM_MII_REG7 0x17
+#define BROADCOM_MII_REG8 0x18
+
+#define CAS_MII_ANNPTR 0x07
+#define CAS_MII_ANNPRR 0x08
+#define CAS_MII_1000_CTRL 0x09
+#define CAS_MII_1000_STATUS 0x0A
+#define CAS_MII_1000_EXTEND 0x0F
+
+#define CAS_BMSR_1000_EXTEND 0x0100 /* supports 1000Base-T extended status */
+/*
+ * if autoneg is disabled, here's the table:
+ * BMCR_SPEED100 = 100Mbps
+ * BMCR_SPEED1000 = 1000Mbps
+ * ~(BMCR_SPEED100 | BMCR_SPEED1000) = 10Mbps
+ */
+#define CAS_BMCR_SPEED1000 0x0040 /* Select 1000Mbps */
+
+#define CAS_ADVERTISE_1000HALF 0x0100
+#define CAS_ADVERTISE_1000FULL 0x0200
+#define CAS_ADVERTISE_PAUSE 0x0400
+#define CAS_ADVERTISE_ASYM_PAUSE 0x0800
+
+/* regular lpa register */
+#define CAS_LPA_PAUSE CAS_ADVERTISE_PAUSE
+#define CAS_LPA_ASYM_PAUSE CAS_ADVERTISE_ASYM_PAUSE
+
+/* 1000_STATUS register */
+#define CAS_LPA_1000HALF 0x0400
+#define CAS_LPA_1000FULL 0x0800
+
+#define CAS_EXTEND_1000XFULL 0x8000
+#define CAS_EXTEND_1000XHALF 0x4000
+#define CAS_EXTEND_1000TFULL 0x2000
+#define CAS_EXTEND_1000THALF 0x1000
+
+/* cassini header parser firmware */
+typedef struct cas_hp_inst {
+ const char *note;
+
+ u16 mask, val;
+
+ u8 op;
+ u8 soff, snext; /* if match succeeds, new offset and match */
+ u8 foff, fnext; /* if match fails, new offset and match */
+ /* output info */
+ u8 outop; /* output opcode */
+
+ u16 outarg; /* output argument */
+ u8 outenab; /* output enable: 0 = not, 1 = if match
+ 2 = if !match, 3 = always */
+ u8 outshift; /* barrel shift right, 4 bits */
+ u16 outmask;
+} cas_hp_inst_t;
+
+/* comparison */
+#define OP_EQ 0 /* packet == value */
+#define OP_LT 1 /* packet < value */
+#define OP_GT 2 /* packet > value */
+#define OP_NP 3 /* new packet */
+
+/* output opcodes */
+#define CL_REG 0
+#define LD_FID 1
+#define LD_SEQ 2
+#define LD_CTL 3
+#define LD_SAP 4
+#define LD_R1 5
+#define LD_L3 6
+#define LD_SUM 7
+#define LD_HDR 8
+#define IM_FID 9
+#define IM_SEQ 10
+#define IM_SAP 11
+#define IM_R1 12
+#define IM_CTL 13
+#define LD_LEN 14
+#define ST_FLG 15
+
+/* match setp #s for IP4TCP4 */
+#define S1_PCKT 0
+#define S1_VLAN 1
+#define S1_CFI 2
+#define S1_8023 3
+#define S1_LLC 4
+#define S1_LLCc 5
+#define S1_IPV4 6
+#define S1_IPV4c 7
+#define S1_IPV4F 8
+#define S1_TCP44 9
+#define S1_IPV6 10
+#define S1_IPV6L 11
+#define S1_IPV6c 12
+#define S1_TCP64 13
+#define S1_TCPSQ 14
+#define S1_TCPFG 15
+#define S1_TCPHL 16
+#define S1_TCPHc 17
+#define S1_CLNP 18
+#define S1_CLNP2 19
+#define S1_DROP 20
+#define S2_HTTP 21
+#define S1_ESP4 22
+#define S1_AH4 23
+#define S1_ESP6 24
+#define S1_AH6 25
+
+#define CAS_PROG_IP46TCP4_PREAMBLE \
+{ "packet arrival?", 0xffff, 0x0000, OP_NP, 6, S1_VLAN, 0, S1_PCKT, \
+ CL_REG, 0x3ff, 1, 0x0, 0x0000}, \
+{ "VLAN?", 0xffff, 0x8100, OP_EQ, 1, S1_CFI, 0, S1_8023, \
+ IM_CTL, 0x00a, 3, 0x0, 0xffff}, \
+{ "CFI?", 0x1000, 0x1000, OP_EQ, 0, S1_DROP, 1, S1_8023, \
+ CL_REG, 0x000, 0, 0x0, 0x0000}, \
+{ "8023?", 0xffff, 0x0600, OP_LT, 1, S1_LLC, 0, S1_IPV4, \
+ CL_REG, 0x000, 0, 0x0, 0x0000}, \
+{ "LLC?", 0xffff, 0xaaaa, OP_EQ, 1, S1_LLCc, 0, S1_CLNP, \
+ CL_REG, 0x000, 0, 0x0, 0x0000}, \
+{ "LLCc?", 0xff00, 0x0300, OP_EQ, 2, S1_IPV4, 0, S1_CLNP, \
+ CL_REG, 0x000, 0, 0x0, 0x0000}, \
+{ "IPV4?", 0xffff, 0x0800, OP_EQ, 1, S1_IPV4c, 0, S1_IPV6, \
+ LD_SAP, 0x100, 3, 0x0, 0xffff}, \
+{ "IPV4 cont?", 0xff00, 0x4500, OP_EQ, 3, S1_IPV4F, 0, S1_CLNP, \
+ LD_SUM, 0x00a, 1, 0x0, 0x0000}, \
+{ "IPV4 frag?", 0x3fff, 0x0000, OP_EQ, 1, S1_TCP44, 0, S1_CLNP, \
+ LD_LEN, 0x03e, 1, 0x0, 0xffff}, \
+{ "TCP44?", 0x00ff, 0x0006, OP_EQ, 7, S1_TCPSQ, 0, S1_CLNP, \
+ LD_FID, 0x182, 1, 0x0, 0xffff}, /* FID IP4&TCP src+dst */ \
+{ "IPV6?", 0xffff, 0x86dd, OP_EQ, 1, S1_IPV6L, 0, S1_CLNP, \
+ LD_SUM, 0x015, 1, 0x0, 0x0000}, \
+{ "IPV6 len", 0xf000, 0x6000, OP_EQ, 0, S1_IPV6c, 0, S1_CLNP, \
+ IM_R1, 0x128, 1, 0x0, 0xffff}, \
+{ "IPV6 cont?", 0x0000, 0x0000, OP_EQ, 3, S1_TCP64, 0, S1_CLNP, \
+ LD_FID, 0x484, 1, 0x0, 0xffff}, /* FID IP6&TCP src+dst */ \
+{ "TCP64?", 0xff00, 0x0600, OP_EQ, 18, S1_TCPSQ, 0, S1_CLNP, \
+ LD_LEN, 0x03f, 1, 0x0, 0xffff}
+
+#ifdef USE_HP_IP46TCP4
+static cas_hp_inst_t cas_prog_ip46tcp4tab[] = {
+ CAS_PROG_IP46TCP4_PREAMBLE,
+ { "TCP seq", /* DADDR should point to dest port */
+ 0x0000, 0x0000, OP_EQ, 0, S1_TCPFG, 4, S1_TCPFG, LD_SEQ,
+ 0x081, 3, 0x0, 0xffff}, /* Load TCP seq # */
+ { "TCP control flags", 0x0000, 0x0000, OP_EQ, 0, S1_TCPHL, 0,
+ S1_TCPHL, ST_FLG, 0x045, 3, 0x0, 0x002f}, /* Load TCP flags */
+ { "TCP length", 0x0000, 0x0000, OP_EQ, 0, S1_TCPHc, 0,
+ S1_TCPHc, LD_R1, 0x205, 3, 0xB, 0xf000},
+ { "TCP length cont", 0x0000, 0x0000, OP_EQ, 0, S1_PCKT, 0,
+ S1_PCKT, LD_HDR, 0x0ff, 3, 0x0, 0xffff},
+ { "Cleanup", 0x0000, 0x0000, OP_EQ, 0, S1_CLNP2, 0, S1_CLNP2,
+ IM_CTL, 0x001, 3, 0x0, 0x0001},
+ { "Cleanup 2", 0x0000, 0x0000, OP_EQ, 0, S1_PCKT, 0, S1_PCKT,
+ IM_CTL, 0x000, 0, 0x0, 0x0000},
+ { "Drop packet", 0x0000, 0x0000, OP_EQ, 0, S1_PCKT, 0, S1_PCKT,
+ IM_CTL, 0x080, 3, 0x0, 0xffff},
+ { NULL },
+};
+#ifdef HP_IP46TCP4_DEFAULT
+#define CAS_HP_FIRMWARE cas_prog_ip46tcp4tab
+#endif
+#endif
+
+/*
+ * Alternate table load which excludes HTTP server traffic from reassembly.
+ * It is substantially similar to the basic table, with one extra state
+ * and a few extra compares. */
+#ifdef USE_HP_IP46TCP4NOHTTP
+static cas_hp_inst_t cas_prog_ip46tcp4nohttptab[] = {
+ CAS_PROG_IP46TCP4_PREAMBLE,
+ { "TCP seq", /* DADDR should point to dest port */
+ 0xFFFF, 0x0080, OP_EQ, 0, S2_HTTP, 0, S1_TCPFG, LD_SEQ,
+ 0x081, 3, 0x0, 0xffff} , /* Load TCP seq # */
+ { "TCP control flags", 0xFFFF, 0x8080, OP_EQ, 0, S2_HTTP, 0,
+ S1_TCPHL, ST_FLG, 0x145, 2, 0x0, 0x002f, }, /* Load TCP flags */
+ { "TCP length", 0x0000, 0x0000, OP_EQ, 0, S1_TCPHc, 0, S1_TCPHc,
+ LD_R1, 0x205, 3, 0xB, 0xf000},
+ { "TCP length cont", 0x0000, 0x0000, OP_EQ, 0, S1_PCKT, 0, S1_PCKT,
+ LD_HDR, 0x0ff, 3, 0x0, 0xffff},
+ { "Cleanup", 0x0000, 0x0000, OP_EQ, 0, S1_CLNP2, 0, S1_CLNP2,
+ IM_CTL, 0x001, 3, 0x0, 0x0001},
+ { "Cleanup 2", 0x0000, 0x0000, OP_EQ, 0, S1_PCKT, 0, S1_PCKT,
+ CL_REG, 0x002, 3, 0x0, 0x0000},
+ { "Drop packet", 0x0000, 0x0000, OP_EQ, 0, S1_PCKT, 0, S1_PCKT,
+ IM_CTL, 0x080, 3, 0x0, 0xffff},
+ { "No HTTP", 0x0000, 0x0000, OP_EQ, 0, S1_PCKT, 0, S1_PCKT,
+ IM_CTL, 0x044, 3, 0x0, 0xffff},
+ { NULL },
+};
+#ifdef HP_IP46TCP4NOHTTP_DEFAULT
+#define CAS_HP_FIRMWARE cas_prog_ip46tcp4nohttptab
+#endif
+#endif
+
+/* match step #s for IP4FRAG */
+#define S3_IPV6c 11
+#define S3_TCP64 12
+#define S3_TCPSQ 13
+#define S3_TCPFG 14
+#define S3_TCPHL 15
+#define S3_TCPHc 16
+#define S3_FRAG 17
+#define S3_FOFF 18
+#define S3_CLNP 19
+
+#ifdef USE_HP_IP4FRAG
+static cas_hp_inst_t cas_prog_ip4fragtab[] = {
+ { "packet arrival?", 0xffff, 0x0000, OP_NP, 6, S1_VLAN, 0, S1_PCKT,
+ CL_REG, 0x3ff, 1, 0x0, 0x0000},
+ { "VLAN?", 0xffff, 0x8100, OP_EQ, 1, S1_CFI, 0, S1_8023,
+ IM_CTL, 0x00a, 3, 0x0, 0xffff},
+ { "CFI?", 0x1000, 0x1000, OP_EQ, 0, S3_CLNP, 1, S1_8023,
+ CL_REG, 0x000, 0, 0x0, 0x0000},
+ { "8023?", 0xffff, 0x0600, OP_LT, 1, S1_LLC, 0, S1_IPV4,
+ CL_REG, 0x000, 0, 0x0, 0x0000},
+ { "LLC?", 0xffff, 0xaaaa, OP_EQ, 1, S1_LLCc, 0, S3_CLNP,
+ CL_REG, 0x000, 0, 0x0, 0x0000},
+ { "LLCc?",0xff00, 0x0300, OP_EQ, 2, S1_IPV4, 0, S3_CLNP,
+ CL_REG, 0x000, 0, 0x0, 0x0000},
+ { "IPV4?", 0xffff, 0x0800, OP_EQ, 1, S1_IPV4c, 0, S1_IPV6,
+ LD_SAP, 0x100, 3, 0x0, 0xffff},
+ { "IPV4 cont?", 0xff00, 0x4500, OP_EQ, 3, S1_IPV4F, 0, S3_CLNP,
+ LD_SUM, 0x00a, 1, 0x0, 0x0000},
+ { "IPV4 frag?", 0x3fff, 0x0000, OP_EQ, 1, S1_TCP44, 0, S3_FRAG,
+ LD_LEN, 0x03e, 3, 0x0, 0xffff},
+ { "TCP44?", 0x00ff, 0x0006, OP_EQ, 7, S3_TCPSQ, 0, S3_CLNP,
+ LD_FID, 0x182, 3, 0x0, 0xffff}, /* FID IP4&TCP src+dst */
+ { "IPV6?", 0xffff, 0x86dd, OP_EQ, 1, S3_IPV6c, 0, S3_CLNP,
+ LD_SUM, 0x015, 1, 0x0, 0x0000},
+ { "IPV6 cont?", 0xf000, 0x6000, OP_EQ, 3, S3_TCP64, 0, S3_CLNP,
+ LD_FID, 0x484, 1, 0x0, 0xffff}, /* FID IP6&TCP src+dst */
+ { "TCP64?", 0xff00, 0x0600, OP_EQ, 18, S3_TCPSQ, 0, S3_CLNP,
+ LD_LEN, 0x03f, 1, 0x0, 0xffff},
+ { "TCP seq", /* DADDR should point to dest port */
+ 0x0000, 0x0000, OP_EQ, 0, S3_TCPFG, 4, S3_TCPFG, LD_SEQ,
+ 0x081, 3, 0x0, 0xffff}, /* Load TCP seq # */
+ { "TCP control flags", 0x0000, 0x0000, OP_EQ, 0, S3_TCPHL, 0,
+ S3_TCPHL, ST_FLG, 0x045, 3, 0x0, 0x002f}, /* Load TCP flags */
+ { "TCP length", 0x0000, 0x0000, OP_EQ, 0, S3_TCPHc, 0, S3_TCPHc,
+ LD_R1, 0x205, 3, 0xB, 0xf000},
+ { "TCP length cont", 0x0000, 0x0000, OP_EQ, 0, S1_PCKT, 0, S1_PCKT,
+ LD_HDR, 0x0ff, 3, 0x0, 0xffff},
+ { "IP4 Fragment", 0x0000, 0x0000, OP_EQ, 0, S3_FOFF, 0, S3_FOFF,
+ LD_FID, 0x103, 3, 0x0, 0xffff}, /* FID IP4 src+dst */
+ { "IP4 frag offset", 0x0000, 0x0000, OP_EQ, 0, S3_FOFF, 0, S3_FOFF,
+ LD_SEQ, 0x040, 1, 0xD, 0xfff8},
+ { "Cleanup", 0x0000, 0x0000, OP_EQ, 0, S1_PCKT, 0, S1_PCKT,
+ IM_CTL, 0x001, 3, 0x0, 0x0001},
+ { NULL },
+};
+#ifdef HP_IP4FRAG_DEFAULT
+#define CAS_HP_FIRMWARE cas_prog_ip4fragtab
+#endif
+#endif
+
+/*
+ * Alternate table which does batching without reassembly
+ */
+#ifdef USE_HP_IP46TCP4BATCH
+static cas_hp_inst_t cas_prog_ip46tcp4batchtab[] = {
+ CAS_PROG_IP46TCP4_PREAMBLE,
+ { "TCP seq", /* DADDR should point to dest port */
+ 0x0000, 0x0000, OP_EQ, 0, S1_TCPFG, 0, S1_TCPFG, LD_SEQ,
+ 0x081, 3, 0x0, 0xffff}, /* Load TCP seq # */
+ { "TCP control flags", 0x0000, 0x0000, OP_EQ, 0, S1_TCPHL, 0,
+ S1_TCPHL, ST_FLG, 0x000, 3, 0x0, 0x0000}, /* Load TCP flags */
+ { "TCP length", 0x0000, 0x0000, OP_EQ, 0, S1_TCPHc, 0,
+ S1_TCPHc, LD_R1, 0x205, 3, 0xB, 0xf000},
+ { "TCP length cont", 0x0000, 0x0000, OP_EQ, 0, S1_PCKT, 0,
+ S1_PCKT, IM_CTL, 0x040, 3, 0x0, 0xffff}, /* set batch bit */
+ { "Cleanup", 0x0000, 0x0000, OP_EQ, 0, S1_PCKT, 0, S1_PCKT,
+ IM_CTL, 0x001, 3, 0x0, 0x0001},
+ { "Drop packet", 0x0000, 0x0000, OP_EQ, 0, S1_PCKT, 0,
+ S1_PCKT, IM_CTL, 0x080, 3, 0x0, 0xffff},
+ { NULL },
+};
+#ifdef HP_IP46TCP4BATCH_DEFAULT
+#define CAS_HP_FIRMWARE cas_prog_ip46tcp4batchtab
+#endif
+#endif
+
+/* Workaround for Cassini rev2 descriptor corruption problem.
+ * Does batching without reassembly, and sets the SAP to a known
+ * data pattern for all packets.
+ */
+#ifdef USE_HP_WORKAROUND
+static cas_hp_inst_t cas_prog_workaroundtab[] = {
+ { "packet arrival?", 0xffff, 0x0000, OP_NP, 6, S1_VLAN, 0,
+ S1_PCKT, CL_REG, 0x3ff, 1, 0x0, 0x0000} ,
+ { "VLAN?", 0xffff, 0x8100, OP_EQ, 1, S1_CFI, 0, S1_8023,
+ IM_CTL, 0x04a, 3, 0x0, 0xffff},
+ { "CFI?", 0x1000, 0x1000, OP_EQ, 0, S1_CLNP, 1, S1_8023,
+ CL_REG, 0x000, 0, 0x0, 0x0000},
+ { "8023?", 0xffff, 0x0600, OP_LT, 1, S1_LLC, 0, S1_IPV4,
+ CL_REG, 0x000, 0, 0x0, 0x0000},
+ { "LLC?", 0xffff, 0xaaaa, OP_EQ, 1, S1_LLCc, 0, S1_CLNP,
+ CL_REG, 0x000, 0, 0x0, 0x0000},
+ { "LLCc?", 0xff00, 0x0300, OP_EQ, 2, S1_IPV4, 0, S1_CLNP,
+ CL_REG, 0x000, 0, 0x0, 0x0000},
+ { "IPV4?", 0xffff, 0x0800, OP_EQ, 1, S1_IPV4c, 0, S1_IPV6,
+ IM_SAP, 0x6AE, 3, 0x0, 0xffff},
+ { "IPV4 cont?", 0xff00, 0x4500, OP_EQ, 3, S1_IPV4F, 0, S1_CLNP,
+ LD_SUM, 0x00a, 1, 0x0, 0x0000},
+ { "IPV4 frag?", 0x3fff, 0x0000, OP_EQ, 1, S1_TCP44, 0, S1_CLNP,
+ LD_LEN, 0x03e, 1, 0x0, 0xffff},
+ { "TCP44?", 0x00ff, 0x0006, OP_EQ, 7, S1_TCPSQ, 0, S1_CLNP,
+ LD_FID, 0x182, 3, 0x0, 0xffff}, /* FID IP4&TCP src+dst */
+ { "IPV6?", 0xffff, 0x86dd, OP_EQ, 1, S1_IPV6L, 0, S1_CLNP,
+ LD_SUM, 0x015, 1, 0x0, 0x0000},
+ { "IPV6 len", 0xf000, 0x6000, OP_EQ, 0, S1_IPV6c, 0, S1_CLNP,
+ IM_R1, 0x128, 1, 0x0, 0xffff},
+ { "IPV6 cont?", 0x0000, 0x0000, OP_EQ, 3, S1_TCP64, 0, S1_CLNP,
+ LD_FID, 0x484, 1, 0x0, 0xffff}, /* FID IP6&TCP src+dst */
+ { "TCP64?", 0xff00, 0x0600, OP_EQ, 18, S1_TCPSQ, 0, S1_CLNP,
+ LD_LEN, 0x03f, 1, 0x0, 0xffff},
+ { "TCP seq", /* DADDR should point to dest port */
+ 0x0000, 0x0000, OP_EQ, 0, S1_TCPFG, 4, S1_TCPFG, LD_SEQ,
+ 0x081, 3, 0x0, 0xffff}, /* Load TCP seq # */
+ { "TCP control flags", 0x0000, 0x0000, OP_EQ, 0, S1_TCPHL, 0,
+ S1_TCPHL, ST_FLG, 0x045, 3, 0x0, 0x002f}, /* Load TCP flags */
+ { "TCP length", 0x0000, 0x0000, OP_EQ, 0, S1_TCPHc, 0, S1_TCPHc,
+ LD_R1, 0x205, 3, 0xB, 0xf000},
+ { "TCP length cont", 0x0000, 0x0000, OP_EQ, 0, S1_PCKT, 0,
+ S1_PCKT, LD_HDR, 0x0ff, 3, 0x0, 0xffff},
+ { "Cleanup", 0x0000, 0x0000, OP_EQ, 0, S1_CLNP2, 0, S1_CLNP2,
+ IM_SAP, 0x6AE, 3, 0x0, 0xffff} ,
+ { "Cleanup 2", 0x0000, 0x0000, OP_EQ, 0, S1_PCKT, 0, S1_PCKT,
+ IM_CTL, 0x001, 3, 0x0, 0x0001},
+ { NULL },
+};
+#ifdef HP_WORKAROUND_DEFAULT
+#define CAS_HP_FIRMWARE cas_prog_workaroundtab
+#endif
+#endif
+
+#ifdef USE_HP_ENCRYPT
+static cas_hp_inst_t cas_prog_encryptiontab[] = {
+ { "packet arrival?", 0xffff, 0x0000, OP_NP, 6, S1_VLAN, 0,
+ S1_PCKT, CL_REG, 0x3ff, 1, 0x0, 0x0000},
+ { "VLAN?", 0xffff, 0x8100, OP_EQ, 1, S1_CFI, 0, S1_8023,
+ IM_CTL, 0x00a, 3, 0x0, 0xffff},
+#if 0
+//"CFI?", /* 02 FIND CFI and If FIND go to S1_DROP */
+//0x1000, 0x1000, OP_EQ, 0, S1_DROP, 1, S1_8023, CL_REG, 0x000, 0, 0x0, 0x00
+ 00,
+#endif
+ { "CFI?", /* FIND CFI and If FIND go to CleanUP1 (ignore and send to host) */
+ 0x1000, 0x1000, OP_EQ, 0, S1_CLNP, 1, S1_8023,
+ CL_REG, 0x000, 0, 0x0, 0x0000},
+ { "8023?", 0xffff, 0x0600, OP_LT, 1, S1_LLC, 0, S1_IPV4,
+ CL_REG, 0x000, 0, 0x0, 0x0000},
+ { "LLC?", 0xffff, 0xaaaa, OP_EQ, 1, S1_LLCc, 0, S1_CLNP,
+ CL_REG, 0x000, 0, 0x0, 0x0000},
+ { "LLCc?", 0xff00, 0x0300, OP_EQ, 2, S1_IPV4, 0, S1_CLNP,
+ CL_REG, 0x000, 0, 0x0, 0x0000},
+ { "IPV4?", 0xffff, 0x0800, OP_EQ, 1, S1_IPV4c, 0, S1_IPV6,
+ LD_SAP, 0x100, 3, 0x0, 0xffff},
+ { "IPV4 cont?", 0xff00, 0x4500, OP_EQ, 3, S1_IPV4F, 0, S1_CLNP,
+ LD_SUM, 0x00a, 1, 0x0, 0x0000},
+ { "IPV4 frag?", 0x3fff, 0x0000, OP_EQ, 1, S1_TCP44, 0, S1_CLNP,
+ LD_LEN, 0x03e, 1, 0x0, 0xffff},
+ { "TCP44?", 0x00ff, 0x0006, OP_EQ, 7, S1_TCPSQ, 0, S1_ESP4,
+ LD_FID, 0x182, 1, 0x0, 0xffff}, /* FID IP4&TCP src+dst */
+ { "IPV6?", 0xffff, 0x86dd, OP_EQ, 1, S1_IPV6L, 0, S1_CLNP,
+ LD_SUM, 0x015, 1, 0x0, 0x0000},
+ { "IPV6 len", 0xf000, 0x6000, OP_EQ, 0, S1_IPV6c, 0, S1_CLNP,
+ IM_R1, 0x128, 1, 0x0, 0xffff},
+ { "IPV6 cont?", 0x0000, 0x0000, OP_EQ, 3, S1_TCP64, 0, S1_CLNP,
+ LD_FID, 0x484, 1, 0x0, 0xffff}, /* FID IP6&TCP src+dst */
+ { "TCP64?",
+#if 0
+//@@@0xff00, 0x0600, OP_EQ, 18, S1_TCPSQ, 0, S1_ESP6, LD_LEN, 0x03f, 1, 0x0, 0xffff,
+#endif
+ 0xff00, 0x0600, OP_EQ, 12, S1_TCPSQ, 0, S1_ESP6, LD_LEN,
+ 0x03f, 1, 0x0, 0xffff},
+ { "TCP seq", /* 14:DADDR should point to dest port */
+ 0xFFFF, 0x0080, OP_EQ, 0, S2_HTTP, 0, S1_TCPFG, LD_SEQ,
+ 0x081, 3, 0x0, 0xffff}, /* Load TCP seq # */
+ { "TCP control flags", 0xFFFF, 0x8080, OP_EQ, 0, S2_HTTP, 0,
+ S1_TCPHL, ST_FLG, 0x145, 2, 0x0, 0x002f}, /* Load TCP flags */
+ { "TCP length", 0x0000, 0x0000, OP_EQ, 0, S1_TCPHc, 0, S1_TCPHc,
+ LD_R1, 0x205, 3, 0xB, 0xf000} ,
+ { "TCP length cont", 0x0000, 0x0000, OP_EQ, 0, S1_PCKT, 0,
+ S1_PCKT, LD_HDR, 0x0ff, 3, 0x0, 0xffff},
+ { "Cleanup", 0x0000, 0x0000, OP_EQ, 0, S1_CLNP2, 0, S1_CLNP2,
+ IM_CTL, 0x001, 3, 0x0, 0x0001},
+ { "Cleanup 2", 0x0000, 0x0000, OP_EQ, 0, S1_PCKT, 0, S1_PCKT,
+ CL_REG, 0x002, 3, 0x0, 0x0000},
+ { "Drop packet", 0x0000, 0x0000, OP_EQ, 0, S1_PCKT, 0, S1_PCKT,
+ IM_CTL, 0x080, 3, 0x0, 0xffff},
+ { "No HTTP", 0x0000, 0x0000, OP_EQ, 0, S1_PCKT, 0, S1_PCKT,
+ IM_CTL, 0x044, 3, 0x0, 0xffff},
+ { "IPV4 ESP encrypted?", /* S1_ESP4 */
+ 0x00ff, 0x0032, OP_EQ, 0, S1_CLNP2, 0, S1_AH4, IM_CTL,
+ 0x021, 1, 0x0, 0xffff},
+ { "IPV4 AH encrypted?", /* S1_AH4 */
+ 0x00ff, 0x0033, OP_EQ, 0, S1_CLNP2, 0, S1_CLNP, IM_CTL,
+ 0x021, 1, 0x0, 0xffff},
+ { "IPV6 ESP encrypted?", /* S1_ESP6 */
+#if 0
+//@@@0x00ff, 0x0032, OP_EQ, 0, S1_CLNP2, 0, S1_AH6, IM_CTL, 0x021, 1, 0x0, 0xffff,
+#endif
+ 0xff00, 0x3200, OP_EQ, 0, S1_CLNP2, 0, S1_AH6, IM_CTL,
+ 0x021, 1, 0x0, 0xffff},
+ { "IPV6 AH encrypted?", /* S1_AH6 */
+#if 0
+//@@@0x00ff, 0x0033, OP_EQ, 0, S1_CLNP2, 0, S1_CLNP, IM_CTL, 0x021, 1, 0x0, 0xffff,
+#endif
+ 0xff00, 0x3300, OP_EQ, 0, S1_CLNP2, 0, S1_CLNP, IM_CTL,
+ 0x021, 1, 0x0, 0xffff},
+ { NULL },
+};
+#ifdef HP_ENCRYPT_DEFAULT
+#define CAS_HP_FIRMWARE cas_prog_encryptiontab
+#endif
+#endif
+
+static cas_hp_inst_t cas_prog_null[] = { {NULL} };
+#ifdef HP_NULL_DEFAULT
+#define CAS_HP_FIRMWARE cas_prog_null
+#endif
+
+/* firmware patch for NS_DP83065 */
+typedef struct cas_saturn_patch {
+ u16 addr;
+ u16 val;
+} cas_saturn_patch_t;
+
+#if 1
+cas_saturn_patch_t cas_saturn_patch[] = {
+{0x8200, 0x007e}, {0x8201, 0x0082}, {0x8202, 0x0009},
+{0x8203, 0x0000}, {0x8204, 0x0000}, {0x8205, 0x0000},
+{0x8206, 0x0000}, {0x8207, 0x0000}, {0x8208, 0x0000},
+{0x8209, 0x008e}, {0x820a, 0x008e}, {0x820b, 0x00ff},
+{0x820c, 0x00ce}, {0x820d, 0x0082}, {0x820e, 0x0025},
+{0x820f, 0x00ff}, {0x8210, 0x0001}, {0x8211, 0x000f},
+{0x8212, 0x00ce}, {0x8213, 0x0084}, {0x8214, 0x0026},
+{0x8215, 0x00ff}, {0x8216, 0x0001}, {0x8217, 0x0011},
+{0x8218, 0x00ce}, {0x8219, 0x0085}, {0x821a, 0x003d},
+{0x821b, 0x00df}, {0x821c, 0x00e5}, {0x821d, 0x0086},
+{0x821e, 0x0039}, {0x821f, 0x00b7}, {0x8220, 0x008f},
+{0x8221, 0x00f8}, {0x8222, 0x007e}, {0x8223, 0x00c3},
+{0x8224, 0x00c2}, {0x8225, 0x0096}, {0x8226, 0x0047},
+{0x8227, 0x0084}, {0x8228, 0x00f3}, {0x8229, 0x008a},
+{0x822a, 0x0000}, {0x822b, 0x0097}, {0x822c, 0x0047},
+{0x822d, 0x00ce}, {0x822e, 0x0082}, {0x822f, 0x0033},
+{0x8230, 0x00ff}, {0x8231, 0x0001}, {0x8232, 0x000f},
+{0x8233, 0x0096}, {0x8234, 0x0046}, {0x8235, 0x0084},
+{0x8236, 0x000c}, {0x8237, 0x0081}, {0x8238, 0x0004},
+{0x8239, 0x0027}, {0x823a, 0x000b}, {0x823b, 0x0096},
+{0x823c, 0x0046}, {0x823d, 0x0084}, {0x823e, 0x000c},
+{0x823f, 0x0081}, {0x8240, 0x0008}, {0x8241, 0x0027},
+{0x8242, 0x0057}, {0x8243, 0x007e}, {0x8244, 0x0084},
+{0x8245, 0x0025}, {0x8246, 0x0096}, {0x8247, 0x0047},
+{0x8248, 0x0084}, {0x8249, 0x00f3}, {0x824a, 0x008a},
+{0x824b, 0x0004}, {0x824c, 0x0097}, {0x824d, 0x0047},
+{0x824e, 0x00ce}, {0x824f, 0x0082}, {0x8250, 0x0054},
+{0x8251, 0x00ff}, {0x8252, 0x0001}, {0x8253, 0x000f},
+{0x8254, 0x0096}, {0x8255, 0x0046}, {0x8256, 0x0084},
+{0x8257, 0x000c}, {0x8258, 0x0081}, {0x8259, 0x0004},
+{0x825a, 0x0026}, {0x825b, 0x0038}, {0x825c, 0x00b6},
+{0x825d, 0x0012}, {0x825e, 0x0020}, {0x825f, 0x0084},
+{0x8260, 0x0020}, {0x8261, 0x0026}, {0x8262, 0x0003},
+{0x8263, 0x007e}, {0x8264, 0x0084}, {0x8265, 0x0025},
+{0x8266, 0x0096}, {0x8267, 0x007b}, {0x8268, 0x00d6},
+{0x8269, 0x007c}, {0x826a, 0x00fe}, {0x826b, 0x008f},
+{0x826c, 0x0056}, {0x826d, 0x00bd}, {0x826e, 0x00f7},
+{0x826f, 0x00b6}, {0x8270, 0x00fe}, {0x8271, 0x008f},
+{0x8272, 0x004e}, {0x8273, 0x00bd}, {0x8274, 0x00ec},
+{0x8275, 0x008e}, {0x8276, 0x00bd}, {0x8277, 0x00fa},
+{0x8278, 0x00f7}, {0x8279, 0x00bd}, {0x827a, 0x00f7},
+{0x827b, 0x0028}, {0x827c, 0x00ce}, {0x827d, 0x0082},
+{0x827e, 0x0082}, {0x827f, 0x00ff}, {0x8280, 0x0001},
+{0x8281, 0x000f}, {0x8282, 0x0096}, {0x8283, 0x0046},
+{0x8284, 0x0084}, {0x8285, 0x000c}, {0x8286, 0x0081},
+{0x8287, 0x0004}, {0x8288, 0x0026}, {0x8289, 0x000a},
+{0x828a, 0x00b6}, {0x828b, 0x0012}, {0x828c, 0x0020},
+{0x828d, 0x0084}, {0x828e, 0x0020}, {0x828f, 0x0027},
+{0x8290, 0x00b5}, {0x8291, 0x007e}, {0x8292, 0x0084},
+{0x8293, 0x0025}, {0x8294, 0x00bd}, {0x8295, 0x00f7},
+{0x8296, 0x001f}, {0x8297, 0x007e}, {0x8298, 0x0084},
+{0x8299, 0x001f}, {0x829a, 0x0096}, {0x829b, 0x0047},
+{0x829c, 0x0084}, {0x829d, 0x00f3}, {0x829e, 0x008a},
+{0x829f, 0x0008}, {0x82a0, 0x0097}, {0x82a1, 0x0047},
+{0x82a2, 0x00de}, {0x82a3, 0x00e1}, {0x82a4, 0x00ad},
+{0x82a5, 0x0000}, {0x82a6, 0x00ce}, {0x82a7, 0x0082},
+{0x82a8, 0x00af}, {0x82a9, 0x00ff}, {0x82aa, 0x0001},
+{0x82ab, 0x000f}, {0x82ac, 0x007e}, {0x82ad, 0x0084},
+{0x82ae, 0x0025}, {0x82af, 0x0096}, {0x82b0, 0x0041},
+{0x82b1, 0x0085}, {0x82b2, 0x0010}, {0x82b3, 0x0026},
+{0x82b4, 0x0006}, {0x82b5, 0x0096}, {0x82b6, 0x0023},
+{0x82b7, 0x0085}, {0x82b8, 0x0040}, {0x82b9, 0x0027},
+{0x82ba, 0x0006}, {0x82bb, 0x00bd}, {0x82bc, 0x00ed},
+{0x82bd, 0x0000}, {0x82be, 0x007e}, {0x82bf, 0x0083},
+{0x82c0, 0x00a2}, {0x82c1, 0x00de}, {0x82c2, 0x0042},
+{0x82c3, 0x00bd}, {0x82c4, 0x00eb}, {0x82c5, 0x008e},
+{0x82c6, 0x0096}, {0x82c7, 0x0024}, {0x82c8, 0x0084},
+{0x82c9, 0x0008}, {0x82ca, 0x0027}, {0x82cb, 0x0003},
+{0x82cc, 0x007e}, {0x82cd, 0x0083}, {0x82ce, 0x00df},
+{0x82cf, 0x0096}, {0x82d0, 0x007b}, {0x82d1, 0x00d6},
+{0x82d2, 0x007c}, {0x82d3, 0x00fe}, {0x82d4, 0x008f},
+{0x82d5, 0x0056}, {0x82d6, 0x00bd}, {0x82d7, 0x00f7},
+{0x82d8, 0x00b6}, {0x82d9, 0x00fe}, {0x82da, 0x008f},
+{0x82db, 0x0050}, {0x82dc, 0x00bd}, {0x82dd, 0x00ec},
+{0x82de, 0x008e}, {0x82df, 0x00bd}, {0x82e0, 0x00fa},
+{0x82e1, 0x00f7}, {0x82e2, 0x0086}, {0x82e3, 0x0011},
+{0x82e4, 0x00c6}, {0x82e5, 0x0049}, {0x82e6, 0x00bd},
+{0x82e7, 0x00e4}, {0x82e8, 0x0012}, {0x82e9, 0x00ce},
+{0x82ea, 0x0082}, {0x82eb, 0x00ef}, {0x82ec, 0x00ff},
+{0x82ed, 0x0001}, {0x82ee, 0x000f}, {0x82ef, 0x0096},
+{0x82f0, 0x0046}, {0x82f1, 0x0084}, {0x82f2, 0x000c},
+{0x82f3, 0x0081}, {0x82f4, 0x0000}, {0x82f5, 0x0027},
+{0x82f6, 0x0017}, {0x82f7, 0x00c6}, {0x82f8, 0x0049},
+{0x82f9, 0x00bd}, {0x82fa, 0x00e4}, {0x82fb, 0x0091},
+{0x82fc, 0x0024}, {0x82fd, 0x000d}, {0x82fe, 0x00b6},
+{0x82ff, 0x0012}, {0x8300, 0x0020}, {0x8301, 0x0085},
+{0x8302, 0x0020}, {0x8303, 0x0026}, {0x8304, 0x000c},
+{0x8305, 0x00ce}, {0x8306, 0x0082}, {0x8307, 0x00c1},
+{0x8308, 0x00ff}, {0x8309, 0x0001}, {0x830a, 0x000f},
+{0x830b, 0x007e}, {0x830c, 0x0084}, {0x830d, 0x0025},
+{0x830e, 0x007e}, {0x830f, 0x0084}, {0x8310, 0x0016},
+{0x8311, 0x00fe}, {0x8312, 0x008f}, {0x8313, 0x0052},
+{0x8314, 0x00bd}, {0x8315, 0x00ec}, {0x8316, 0x008e},
+{0x8317, 0x00bd}, {0x8318, 0x00fa}, {0x8319, 0x00f7},
+{0x831a, 0x0086}, {0x831b, 0x006a}, {0x831c, 0x00c6},
+{0x831d, 0x0049}, {0x831e, 0x00bd}, {0x831f, 0x00e4},
+{0x8320, 0x0012}, {0x8321, 0x00ce}, {0x8322, 0x0083},
+{0x8323, 0x0027}, {0x8324, 0x00ff}, {0x8325, 0x0001},
+{0x8326, 0x000f}, {0x8327, 0x0096}, {0x8328, 0x0046},
+{0x8329, 0x0084}, {0x832a, 0x000c}, {0x832b, 0x0081},
+{0x832c, 0x0000}, {0x832d, 0x0027}, {0x832e, 0x000a},
+{0x832f, 0x00c6}, {0x8330, 0x0049}, {0x8331, 0x00bd},
+{0x8332, 0x00e4}, {0x8333, 0x0091}, {0x8334, 0x0025},
+{0x8335, 0x0006}, {0x8336, 0x007e}, {0x8337, 0x0084},
+{0x8338, 0x0025}, {0x8339, 0x007e}, {0x833a, 0x0084},
+{0x833b, 0x0016}, {0x833c, 0x00b6}, {0x833d, 0x0018},
+{0x833e, 0x0070}, {0x833f, 0x00bb}, {0x8340, 0x0019},
+{0x8341, 0x0070}, {0x8342, 0x002a}, {0x8343, 0x0004},
+{0x8344, 0x0081}, {0x8345, 0x00af}, {0x8346, 0x002e},
+{0x8347, 0x0019}, {0x8348, 0x0096}, {0x8349, 0x007b},
+{0x834a, 0x00f6}, {0x834b, 0x0020}, {0x834c, 0x0007},
+{0x834d, 0x00fa}, {0x834e, 0x0020}, {0x834f, 0x0027},
+{0x8350, 0x00c4}, {0x8351, 0x0038}, {0x8352, 0x0081},
+{0x8353, 0x0038}, {0x8354, 0x0027}, {0x8355, 0x000b},
+{0x8356, 0x00f6}, {0x8357, 0x0020}, {0x8358, 0x0007},
+{0x8359, 0x00fa}, {0x835a, 0x0020}, {0x835b, 0x0027},
+{0x835c, 0x00cb}, {0x835d, 0x0008}, {0x835e, 0x007e},
+{0x835f, 0x0082}, {0x8360, 0x00d3}, {0x8361, 0x00bd},
+{0x8362, 0x00f7}, {0x8363, 0x0066}, {0x8364, 0x0086},
+{0x8365, 0x0074}, {0x8366, 0x00c6}, {0x8367, 0x0049},
+{0x8368, 0x00bd}, {0x8369, 0x00e4}, {0x836a, 0x0012},
+{0x836b, 0x00ce}, {0x836c, 0x0083}, {0x836d, 0x0071},
+{0x836e, 0x00ff}, {0x836f, 0x0001}, {0x8370, 0x000f},
+{0x8371, 0x0096}, {0x8372, 0x0046}, {0x8373, 0x0084},
+{0x8374, 0x000c}, {0x8375, 0x0081}, {0x8376, 0x0008},
+{0x8377, 0x0026}, {0x8378, 0x000a}, {0x8379, 0x00c6},
+{0x837a, 0x0049}, {0x837b, 0x00bd}, {0x837c, 0x00e4},
+{0x837d, 0x0091}, {0x837e, 0x0025}, {0x837f, 0x0006},
+{0x8380, 0x007e}, {0x8381, 0x0084}, {0x8382, 0x0025},
+{0x8383, 0x007e}, {0x8384, 0x0084}, {0x8385, 0x0016},
+{0x8386, 0x00bd}, {0x8387, 0x00f7}, {0x8388, 0x003e},
+{0x8389, 0x0026}, {0x838a, 0x000e}, {0x838b, 0x00bd},
+{0x838c, 0x00e5}, {0x838d, 0x0009}, {0x838e, 0x0026},
+{0x838f, 0x0006}, {0x8390, 0x00ce}, {0x8391, 0x0082},
+{0x8392, 0x00c1}, {0x8393, 0x00ff}, {0x8394, 0x0001},
+{0x8395, 0x000f}, {0x8396, 0x007e}, {0x8397, 0x0084},
+{0x8398, 0x0025}, {0x8399, 0x00fe}, {0x839a, 0x008f},
+{0x839b, 0x0054}, {0x839c, 0x00bd}, {0x839d, 0x00ec},
+{0x839e, 0x008e}, {0x839f, 0x00bd}, {0x83a0, 0x00fa},
+{0x83a1, 0x00f7}, {0x83a2, 0x00bd}, {0x83a3, 0x00f7},
+{0x83a4, 0x0033}, {0x83a5, 0x0086}, {0x83a6, 0x000f},
+{0x83a7, 0x00c6}, {0x83a8, 0x0051}, {0x83a9, 0x00bd},
+{0x83aa, 0x00e4}, {0x83ab, 0x0012}, {0x83ac, 0x00ce},
+{0x83ad, 0x0083}, {0x83ae, 0x00b2}, {0x83af, 0x00ff},
+{0x83b0, 0x0001}, {0x83b1, 0x000f}, {0x83b2, 0x0096},
+{0x83b3, 0x0046}, {0x83b4, 0x0084}, {0x83b5, 0x000c},
+{0x83b6, 0x0081}, {0x83b7, 0x0008}, {0x83b8, 0x0026},
+{0x83b9, 0x005c}, {0x83ba, 0x00b6}, {0x83bb, 0x0012},
+{0x83bc, 0x0020}, {0x83bd, 0x0084}, {0x83be, 0x003f},
+{0x83bf, 0x0081}, {0x83c0, 0x003a}, {0x83c1, 0x0027},
+{0x83c2, 0x001c}, {0x83c3, 0x0096}, {0x83c4, 0x0023},
+{0x83c5, 0x0085}, {0x83c6, 0x0040}, {0x83c7, 0x0027},
+{0x83c8, 0x0003}, {0x83c9, 0x007e}, {0x83ca, 0x0084},
+{0x83cb, 0x0025}, {0x83cc, 0x00c6}, {0x83cd, 0x0051},
+{0x83ce, 0x00bd}, {0x83cf, 0x00e4}, {0x83d0, 0x0091},
+{0x83d1, 0x0025}, {0x83d2, 0x0003}, {0x83d3, 0x007e},
+{0x83d4, 0x0084}, {0x83d5, 0x0025}, {0x83d6, 0x00ce},
+{0x83d7, 0x0082}, {0x83d8, 0x00c1}, {0x83d9, 0x00ff},
+{0x83da, 0x0001}, {0x83db, 0x000f}, {0x83dc, 0x007e},
+{0x83dd, 0x0084}, {0x83de, 0x0025}, {0x83df, 0x00bd},
+{0x83e0, 0x00f8}, {0x83e1, 0x0037}, {0x83e2, 0x007c},
+{0x83e3, 0x0000}, {0x83e4, 0x007a}, {0x83e5, 0x00ce},
+{0x83e6, 0x0083}, {0x83e7, 0x00ee}, {0x83e8, 0x00ff},
+{0x83e9, 0x0001}, {0x83ea, 0x000f}, {0x83eb, 0x007e},
+{0x83ec, 0x0084}, {0x83ed, 0x0025}, {0x83ee, 0x0096},
+{0x83ef, 0x0046}, {0x83f0, 0x0084}, {0x83f1, 0x000c},
+{0x83f2, 0x0081}, {0x83f3, 0x0008}, {0x83f4, 0x0026},
+{0x83f5, 0x0020}, {0x83f6, 0x0096}, {0x83f7, 0x0024},
+{0x83f8, 0x0084}, {0x83f9, 0x0008}, {0x83fa, 0x0026},
+{0x83fb, 0x0029}, {0x83fc, 0x00b6}, {0x83fd, 0x0018},
+{0x83fe, 0x0082}, {0x83ff, 0x00bb}, {0x8400, 0x0019},
+{0x8401, 0x0082}, {0x8402, 0x00b1}, {0x8403, 0x0001},
+{0x8404, 0x003b}, {0x8405, 0x0022}, {0x8406, 0x0009},
+{0x8407, 0x00b6}, {0x8408, 0x0012}, {0x8409, 0x0020},
+{0x840a, 0x0084}, {0x840b, 0x0037}, {0x840c, 0x0081},
+{0x840d, 0x0032}, {0x840e, 0x0027}, {0x840f, 0x0015},
+{0x8410, 0x00bd}, {0x8411, 0x00f8}, {0x8412, 0x0044},
+{0x8413, 0x007e}, {0x8414, 0x0082}, {0x8415, 0x00c1},
+{0x8416, 0x00bd}, {0x8417, 0x00f7}, {0x8418, 0x001f},
+{0x8419, 0x00bd}, {0x841a, 0x00f8}, {0x841b, 0x0044},
+{0x841c, 0x00bd}, {0x841d, 0x00fc}, {0x841e, 0x0029},
+{0x841f, 0x00ce}, {0x8420, 0x0082}, {0x8421, 0x0025},
+{0x8422, 0x00ff}, {0x8423, 0x0001}, {0x8424, 0x000f},
+{0x8425, 0x0039}, {0x8426, 0x0096}, {0x8427, 0x0047},
+{0x8428, 0x0084}, {0x8429, 0x00fc}, {0x842a, 0x008a},
+{0x842b, 0x0000}, {0x842c, 0x0097}, {0x842d, 0x0047},
+{0x842e, 0x00ce}, {0x842f, 0x0084}, {0x8430, 0x0034},
+{0x8431, 0x00ff}, {0x8432, 0x0001}, {0x8433, 0x0011},
+{0x8434, 0x0096}, {0x8435, 0x0046}, {0x8436, 0x0084},
+{0x8437, 0x0003}, {0x8438, 0x0081}, {0x8439, 0x0002},
+{0x843a, 0x0027}, {0x843b, 0x0003}, {0x843c, 0x007e},
+{0x843d, 0x0085}, {0x843e, 0x001e}, {0x843f, 0x0096},
+{0x8440, 0x0047}, {0x8441, 0x0084}, {0x8442, 0x00fc},
+{0x8443, 0x008a}, {0x8444, 0x0002}, {0x8445, 0x0097},
+{0x8446, 0x0047}, {0x8447, 0x00de}, {0x8448, 0x00e1},
+{0x8449, 0x00ad}, {0x844a, 0x0000}, {0x844b, 0x0086},
+{0x844c, 0x0001}, {0x844d, 0x00b7}, {0x844e, 0x0012},
+{0x844f, 0x0051}, {0x8450, 0x00bd}, {0x8451, 0x00f7},
+{0x8452, 0x0014}, {0x8453, 0x00b6}, {0x8454, 0x0010},
+{0x8455, 0x0031}, {0x8456, 0x0084}, {0x8457, 0x00fd},
+{0x8458, 0x00b7}, {0x8459, 0x0010}, {0x845a, 0x0031},
+{0x845b, 0x00bd}, {0x845c, 0x00f8}, {0x845d, 0x001e},
+{0x845e, 0x0096}, {0x845f, 0x0081}, {0x8460, 0x00d6},
+{0x8461, 0x0082}, {0x8462, 0x00fe}, {0x8463, 0x008f},
+{0x8464, 0x005a}, {0x8465, 0x00bd}, {0x8466, 0x00f7},
+{0x8467, 0x00b6}, {0x8468, 0x00fe}, {0x8469, 0x008f},
+{0x846a, 0x005c}, {0x846b, 0x00bd}, {0x846c, 0x00ec},
+{0x846d, 0x008e}, {0x846e, 0x00bd}, {0x846f, 0x00fa},
+{0x8470, 0x00f7}, {0x8471, 0x0086}, {0x8472, 0x0008},
+{0x8473, 0x00d6}, {0x8474, 0x0000}, {0x8475, 0x00c5},
+{0x8476, 0x0010}, {0x8477, 0x0026}, {0x8478, 0x0002},
+{0x8479, 0x008b}, {0x847a, 0x0020}, {0x847b, 0x00c6},
+{0x847c, 0x0051}, {0x847d, 0x00bd}, {0x847e, 0x00e4},
+{0x847f, 0x0012}, {0x8480, 0x00ce}, {0x8481, 0x0084},
+{0x8482, 0x0086}, {0x8483, 0x00ff}, {0x8484, 0x0001},
+{0x8485, 0x0011}, {0x8486, 0x0096}, {0x8487, 0x0046},
+{0x8488, 0x0084}, {0x8489, 0x0003}, {0x848a, 0x0081},
+{0x848b, 0x0002}, {0x848c, 0x0027}, {0x848d, 0x0003},
+{0x848e, 0x007e}, {0x848f, 0x0085}, {0x8490, 0x000f},
+{0x8491, 0x00c6}, {0x8492, 0x0051}, {0x8493, 0x00bd},
+{0x8494, 0x00e4}, {0x8495, 0x0091}, {0x8496, 0x0025},
+{0x8497, 0x0003}, {0x8498, 0x007e}, {0x8499, 0x0085},
+{0x849a, 0x001e}, {0x849b, 0x0096}, {0x849c, 0x0044},
+{0x849d, 0x0085}, {0x849e, 0x0010}, {0x849f, 0x0026},
+{0x84a0, 0x000a}, {0x84a1, 0x00b6}, {0x84a2, 0x0012},
+{0x84a3, 0x0050}, {0x84a4, 0x00ba}, {0x84a5, 0x0001},
+{0x84a6, 0x003c}, {0x84a7, 0x0085}, {0x84a8, 0x0010},
+{0x84a9, 0x0027}, {0x84aa, 0x00a8}, {0x84ab, 0x00bd},
+{0x84ac, 0x00f7}, {0x84ad, 0x0066}, {0x84ae, 0x00ce},
+{0x84af, 0x0084}, {0x84b0, 0x00b7}, {0x84b1, 0x00ff},
+{0x84b2, 0x0001}, {0x84b3, 0x0011}, {0x84b4, 0x007e},
+{0x84b5, 0x0085}, {0x84b6, 0x001e}, {0x84b7, 0x0096},
+{0x84b8, 0x0046}, {0x84b9, 0x0084}, {0x84ba, 0x0003},
+{0x84bb, 0x0081}, {0x84bc, 0x0002}, {0x84bd, 0x0026},
+{0x84be, 0x0050}, {0x84bf, 0x00b6}, {0x84c0, 0x0012},
+{0x84c1, 0x0030}, {0x84c2, 0x0084}, {0x84c3, 0x0003},
+{0x84c4, 0x0081}, {0x84c5, 0x0001}, {0x84c6, 0x0027},
+{0x84c7, 0x0003}, {0x84c8, 0x007e}, {0x84c9, 0x0085},
+{0x84ca, 0x001e}, {0x84cb, 0x0096}, {0x84cc, 0x0044},
+{0x84cd, 0x0085}, {0x84ce, 0x0010}, {0x84cf, 0x0026},
+{0x84d0, 0x0013}, {0x84d1, 0x00b6}, {0x84d2, 0x0012},
+{0x84d3, 0x0050}, {0x84d4, 0x00ba}, {0x84d5, 0x0001},
+{0x84d6, 0x003c}, {0x84d7, 0x0085}, {0x84d8, 0x0010},
+{0x84d9, 0x0026}, {0x84da, 0x0009}, {0x84db, 0x00ce},
+{0x84dc, 0x0084}, {0x84dd, 0x0053}, {0x84de, 0x00ff},
+{0x84df, 0x0001}, {0x84e0, 0x0011}, {0x84e1, 0x007e},
+{0x84e2, 0x0085}, {0x84e3, 0x001e}, {0x84e4, 0x00b6},
+{0x84e5, 0x0010}, {0x84e6, 0x0031}, {0x84e7, 0x008a},
+{0x84e8, 0x0002}, {0x84e9, 0x00b7}, {0x84ea, 0x0010},
+{0x84eb, 0x0031}, {0x84ec, 0x00bd}, {0x84ed, 0x0085},
+{0x84ee, 0x001f}, {0x84ef, 0x00bd}, {0x84f0, 0x00f8},
+{0x84f1, 0x0037}, {0x84f2, 0x007c}, {0x84f3, 0x0000},
+{0x84f4, 0x0080}, {0x84f5, 0x00ce}, {0x84f6, 0x0084},
+{0x84f7, 0x00fe}, {0x84f8, 0x00ff}, {0x84f9, 0x0001},
+{0x84fa, 0x0011}, {0x84fb, 0x007e}, {0x84fc, 0x0085},
+{0x84fd, 0x001e}, {0x84fe, 0x0096}, {0x84ff, 0x0046},
+{0x8500, 0x0084}, {0x8501, 0x0003}, {0x8502, 0x0081},
+{0x8503, 0x0002}, {0x8504, 0x0026}, {0x8505, 0x0009},
+{0x8506, 0x00b6}, {0x8507, 0x0012}, {0x8508, 0x0030},
+{0x8509, 0x0084}, {0x850a, 0x0003}, {0x850b, 0x0081},
+{0x850c, 0x0001}, {0x850d, 0x0027}, {0x850e, 0x000f},
+{0x850f, 0x00bd}, {0x8510, 0x00f8}, {0x8511, 0x0044},
+{0x8512, 0x00bd}, {0x8513, 0x00f7}, {0x8514, 0x000b},
+{0x8515, 0x00bd}, {0x8516, 0x00fc}, {0x8517, 0x0029},
+{0x8518, 0x00ce}, {0x8519, 0x0084}, {0x851a, 0x0026},
+{0x851b, 0x00ff}, {0x851c, 0x0001}, {0x851d, 0x0011},
+{0x851e, 0x0039}, {0x851f, 0x00d6}, {0x8520, 0x0022},
+{0x8521, 0x00c4}, {0x8522, 0x000f}, {0x8523, 0x00b6},
+{0x8524, 0x0012}, {0x8525, 0x0030}, {0x8526, 0x00ba},
+{0x8527, 0x0012}, {0x8528, 0x0032}, {0x8529, 0x0084},
+{0x852a, 0x0004}, {0x852b, 0x0027}, {0x852c, 0x000d},
+{0x852d, 0x0096}, {0x852e, 0x0022}, {0x852f, 0x0085},
+{0x8530, 0x0004}, {0x8531, 0x0027}, {0x8532, 0x0005},
+{0x8533, 0x00ca}, {0x8534, 0x0010}, {0x8535, 0x007e},
+{0x8536, 0x0085}, {0x8537, 0x003a}, {0x8538, 0x00ca},
+{0x8539, 0x0020}, {0x853a, 0x00d7}, {0x853b, 0x0022},
+{0x853c, 0x0039}, {0x853d, 0x0086}, {0x853e, 0x0000},
+{0x853f, 0x0097}, {0x8540, 0x0083}, {0x8541, 0x0018},
+{0x8542, 0x00ce}, {0x8543, 0x001c}, {0x8544, 0x0000},
+{0x8545, 0x00bd}, {0x8546, 0x00eb}, {0x8547, 0x0046},
+{0x8548, 0x0096}, {0x8549, 0x0057}, {0x854a, 0x0085},
+{0x854b, 0x0001}, {0x854c, 0x0027}, {0x854d, 0x0002},
+{0x854e, 0x004f}, {0x854f, 0x0039}, {0x8550, 0x0085},
+{0x8551, 0x0002}, {0x8552, 0x0027}, {0x8553, 0x0001},
+{0x8554, 0x0039}, {0x8555, 0x007f}, {0x8556, 0x008f},
+{0x8557, 0x007d}, {0x8558, 0x0086}, {0x8559, 0x0004},
+{0x855a, 0x00b7}, {0x855b, 0x0012}, {0x855c, 0x0004},
+{0x855d, 0x0086}, {0x855e, 0x0008}, {0x855f, 0x00b7},
+{0x8560, 0x0012}, {0x8561, 0x0007}, {0x8562, 0x0086},
+{0x8563, 0x0010}, {0x8564, 0x00b7}, {0x8565, 0x0012},
+{0x8566, 0x000c}, {0x8567, 0x0086}, {0x8568, 0x0007},
+{0x8569, 0x00b7}, {0x856a, 0x0012}, {0x856b, 0x0006},
+{0x856c, 0x00b6}, {0x856d, 0x008f}, {0x856e, 0x007d},
+{0x856f, 0x00b7}, {0x8570, 0x0012}, {0x8571, 0x0070},
+{0x8572, 0x0086}, {0x8573, 0x0001}, {0x8574, 0x00ba},
+{0x8575, 0x0012}, {0x8576, 0x0004}, {0x8577, 0x00b7},
+{0x8578, 0x0012}, {0x8579, 0x0004}, {0x857a, 0x0001},
+{0x857b, 0x0001}, {0x857c, 0x0001}, {0x857d, 0x0001},
+{0x857e, 0x0001}, {0x857f, 0x0001}, {0x8580, 0x00b6},
+{0x8581, 0x0012}, {0x8582, 0x0004}, {0x8583, 0x0084},
+{0x8584, 0x00fe}, {0x8585, 0x008a}, {0x8586, 0x0002},
+{0x8587, 0x00b7}, {0x8588, 0x0012}, {0x8589, 0x0004},
+{0x858a, 0x0001}, {0x858b, 0x0001}, {0x858c, 0x0001},
+{0x858d, 0x0001}, {0x858e, 0x0001}, {0x858f, 0x0001},
+{0x8590, 0x0086}, {0x8591, 0x00fd}, {0x8592, 0x00b4},
+{0x8593, 0x0012}, {0x8594, 0x0004}, {0x8595, 0x00b7},
+{0x8596, 0x0012}, {0x8597, 0x0004}, {0x8598, 0x00b6},
+{0x8599, 0x0012}, {0x859a, 0x0000}, {0x859b, 0x0084},
+{0x859c, 0x0008}, {0x859d, 0x0081}, {0x859e, 0x0008},
+{0x859f, 0x0027}, {0x85a0, 0x0016}, {0x85a1, 0x00b6},
+{0x85a2, 0x008f}, {0x85a3, 0x007d}, {0x85a4, 0x0081},
+{0x85a5, 0x000c}, {0x85a6, 0x0027}, {0x85a7, 0x0008},
+{0x85a8, 0x008b}, {0x85a9, 0x0004}, {0x85aa, 0x00b7},
+{0x85ab, 0x008f}, {0x85ac, 0x007d}, {0x85ad, 0x007e},
+{0x85ae, 0x0085}, {0x85af, 0x006c}, {0x85b0, 0x0086},
+{0x85b1, 0x0003}, {0x85b2, 0x0097}, {0x85b3, 0x0040},
+{0x85b4, 0x007e}, {0x85b5, 0x0089}, {0x85b6, 0x006e},
+{0x85b7, 0x0086}, {0x85b8, 0x0007}, {0x85b9, 0x00b7},
+{0x85ba, 0x0012}, {0x85bb, 0x0006}, {0x85bc, 0x005f},
+{0x85bd, 0x00f7}, {0x85be, 0x008f}, {0x85bf, 0x0082},
+{0x85c0, 0x005f}, {0x85c1, 0x00f7}, {0x85c2, 0x008f},
+{0x85c3, 0x007f}, {0x85c4, 0x00f7}, {0x85c5, 0x008f},
+{0x85c6, 0x0070}, {0x85c7, 0x00f7}, {0x85c8, 0x008f},
+{0x85c9, 0x0071}, {0x85ca, 0x00f7}, {0x85cb, 0x008f},
+{0x85cc, 0x0072}, {0x85cd, 0x00f7}, {0x85ce, 0x008f},
+{0x85cf, 0x0073}, {0x85d0, 0x00f7}, {0x85d1, 0x008f},
+{0x85d2, 0x0074}, {0x85d3, 0x00f7}, {0x85d4, 0x008f},
+{0x85d5, 0x0075}, {0x85d6, 0x00f7}, {0x85d7, 0x008f},
+{0x85d8, 0x0076}, {0x85d9, 0x00f7}, {0x85da, 0x008f},
+{0x85db, 0x0077}, {0x85dc, 0x00f7}, {0x85dd, 0x008f},
+{0x85de, 0x0078}, {0x85df, 0x00f7}, {0x85e0, 0x008f},
+{0x85e1, 0x0079}, {0x85e2, 0x00f7}, {0x85e3, 0x008f},
+{0x85e4, 0x007a}, {0x85e5, 0x00f7}, {0x85e6, 0x008f},
+{0x85e7, 0x007b}, {0x85e8, 0x00b6}, {0x85e9, 0x0012},
+{0x85ea, 0x0004}, {0x85eb, 0x008a}, {0x85ec, 0x0010},
+{0x85ed, 0x00b7}, {0x85ee, 0x0012}, {0x85ef, 0x0004},
+{0x85f0, 0x0086}, {0x85f1, 0x00e4}, {0x85f2, 0x00b7},
+{0x85f3, 0x0012}, {0x85f4, 0x0070}, {0x85f5, 0x00b7},
+{0x85f6, 0x0012}, {0x85f7, 0x0007}, {0x85f8, 0x00f7},
+{0x85f9, 0x0012}, {0x85fa, 0x0005}, {0x85fb, 0x00f7},
+{0x85fc, 0x0012}, {0x85fd, 0x0009}, {0x85fe, 0x0086},
+{0x85ff, 0x0008}, {0x8600, 0x00ba}, {0x8601, 0x0012},
+{0x8602, 0x0004}, {0x8603, 0x00b7}, {0x8604, 0x0012},
+{0x8605, 0x0004}, {0x8606, 0x0086}, {0x8607, 0x00f7},
+{0x8608, 0x00b4}, {0x8609, 0x0012}, {0x860a, 0x0004},
+{0x860b, 0x00b7}, {0x860c, 0x0012}, {0x860d, 0x0004},
+{0x860e, 0x0001}, {0x860f, 0x0001}, {0x8610, 0x0001},
+{0x8611, 0x0001}, {0x8612, 0x0001}, {0x8613, 0x0001},
+{0x8614, 0x00b6}, {0x8615, 0x0012}, {0x8616, 0x0008},
+{0x8617, 0x0027}, {0x8618, 0x007f}, {0x8619, 0x0081},
+{0x861a, 0x0080}, {0x861b, 0x0026}, {0x861c, 0x000b},
+{0x861d, 0x0086}, {0x861e, 0x0008}, {0x861f, 0x00ce},
+{0x8620, 0x008f}, {0x8621, 0x0079}, {0x8622, 0x00bd},
+{0x8623, 0x0089}, {0x8624, 0x007b}, {0x8625, 0x007e},
+{0x8626, 0x0086}, {0x8627, 0x008e}, {0x8628, 0x0081},
+{0x8629, 0x0040}, {0x862a, 0x0026}, {0x862b, 0x000b},
+{0x862c, 0x0086}, {0x862d, 0x0004}, {0x862e, 0x00ce},
+{0x862f, 0x008f}, {0x8630, 0x0076}, {0x8631, 0x00bd},
+{0x8632, 0x0089}, {0x8633, 0x007b}, {0x8634, 0x007e},
+{0x8635, 0x0086}, {0x8636, 0x008e}, {0x8637, 0x0081},
+{0x8638, 0x0020}, {0x8639, 0x0026}, {0x863a, 0x000b},
+{0x863b, 0x0086}, {0x863c, 0x0002}, {0x863d, 0x00ce},
+{0x863e, 0x008f}, {0x863f, 0x0073}, {0x8640, 0x00bd},
+{0x8641, 0x0089}, {0x8642, 0x007b}, {0x8643, 0x007e},
+{0x8644, 0x0086}, {0x8645, 0x008e}, {0x8646, 0x0081},
+{0x8647, 0x0010}, {0x8648, 0x0026}, {0x8649, 0x000b},
+{0x864a, 0x0086}, {0x864b, 0x0001}, {0x864c, 0x00ce},
+{0x864d, 0x008f}, {0x864e, 0x0070}, {0x864f, 0x00bd},
+{0x8650, 0x0089}, {0x8651, 0x007b}, {0x8652, 0x007e},
+{0x8653, 0x0086}, {0x8654, 0x008e}, {0x8655, 0x0081},
+{0x8656, 0x0008}, {0x8657, 0x0026}, {0x8658, 0x000b},
+{0x8659, 0x0086}, {0x865a, 0x0008}, {0x865b, 0x00ce},
+{0x865c, 0x008f}, {0x865d, 0x0079}, {0x865e, 0x00bd},
+{0x865f, 0x0089}, {0x8660, 0x007f}, {0x8661, 0x007e},
+{0x8662, 0x0086}, {0x8663, 0x008e}, {0x8664, 0x0081},
+{0x8665, 0x0004}, {0x8666, 0x0026}, {0x8667, 0x000b},
+{0x8668, 0x0086}, {0x8669, 0x0004}, {0x866a, 0x00ce},
+{0x866b, 0x008f}, {0x866c, 0x0076}, {0x866d, 0x00bd},
+{0x866e, 0x0089}, {0x866f, 0x007f}, {0x8670, 0x007e},
+{0x8671, 0x0086}, {0x8672, 0x008e}, {0x8673, 0x0081},
+{0x8674, 0x0002}, {0x8675, 0x0026}, {0x8676, 0x000b},
+{0x8677, 0x008a}, {0x8678, 0x0002}, {0x8679, 0x00ce},
+{0x867a, 0x008f}, {0x867b, 0x0073}, {0x867c, 0x00bd},
+{0x867d, 0x0089}, {0x867e, 0x007f}, {0x867f, 0x007e},
+{0x8680, 0x0086}, {0x8681, 0x008e}, {0x8682, 0x0081},
+{0x8683, 0x0001}, {0x8684, 0x0026}, {0x8685, 0x0008},
+{0x8686, 0x0086}, {0x8687, 0x0001}, {0x8688, 0x00ce},
+{0x8689, 0x008f}, {0x868a, 0x0070}, {0x868b, 0x00bd},
+{0x868c, 0x0089}, {0x868d, 0x007f}, {0x868e, 0x00b6},
+{0x868f, 0x008f}, {0x8690, 0x007f}, {0x8691, 0x0081},
+{0x8692, 0x000f}, {0x8693, 0x0026}, {0x8694, 0x0003},
+{0x8695, 0x007e}, {0x8696, 0x0087}, {0x8697, 0x0047},
+{0x8698, 0x00b6}, {0x8699, 0x0012}, {0x869a, 0x0009},
+{0x869b, 0x0084}, {0x869c, 0x0003}, {0x869d, 0x0081},
+{0x869e, 0x0003}, {0x869f, 0x0027}, {0x86a0, 0x0006},
+{0x86a1, 0x007c}, {0x86a2, 0x0012}, {0x86a3, 0x0009},
+{0x86a4, 0x007e}, {0x86a5, 0x0085}, {0x86a6, 0x00fe},
+{0x86a7, 0x00b6}, {0x86a8, 0x0012}, {0x86a9, 0x0006},
+{0x86aa, 0x0084}, {0x86ab, 0x0007}, {0x86ac, 0x0081},
+{0x86ad, 0x0007}, {0x86ae, 0x0027}, {0x86af, 0x0008},
+{0x86b0, 0x008b}, {0x86b1, 0x0001}, {0x86b2, 0x00b7},
+{0x86b3, 0x0012}, {0x86b4, 0x0006}, {0x86b5, 0x007e},
+{0x86b6, 0x0086}, {0x86b7, 0x00d5}, {0x86b8, 0x00b6},
+{0x86b9, 0x008f}, {0x86ba, 0x0082}, {0x86bb, 0x0026},
+{0x86bc, 0x000a}, {0x86bd, 0x007c}, {0x86be, 0x008f},
+{0x86bf, 0x0082}, {0x86c0, 0x004f}, {0x86c1, 0x00b7},
+{0x86c2, 0x0012}, {0x86c3, 0x0006}, {0x86c4, 0x007e},
+{0x86c5, 0x0085}, {0x86c6, 0x00c0}, {0x86c7, 0x00b6},
+{0x86c8, 0x0012}, {0x86c9, 0x0006}, {0x86ca, 0x0084},
+{0x86cb, 0x003f}, {0x86cc, 0x0081}, {0x86cd, 0x003f},
+{0x86ce, 0x0027}, {0x86cf, 0x0010}, {0x86d0, 0x008b},
+{0x86d1, 0x0008}, {0x86d2, 0x00b7}, {0x86d3, 0x0012},
+{0x86d4, 0x0006}, {0x86d5, 0x00b6}, {0x86d6, 0x0012},
+{0x86d7, 0x0009}, {0x86d8, 0x0084}, {0x86d9, 0x00fc},
+{0x86da, 0x00b7}, {0x86db, 0x0012}, {0x86dc, 0x0009},
+{0x86dd, 0x007e}, {0x86de, 0x0085}, {0x86df, 0x00fe},
+{0x86e0, 0x00ce}, {0x86e1, 0x008f}, {0x86e2, 0x0070},
+{0x86e3, 0x0018}, {0x86e4, 0x00ce}, {0x86e5, 0x008f},
+{0x86e6, 0x0084}, {0x86e7, 0x00c6}, {0x86e8, 0x000c},
+{0x86e9, 0x00bd}, {0x86ea, 0x0089}, {0x86eb, 0x006f},
+{0x86ec, 0x00ce}, {0x86ed, 0x008f}, {0x86ee, 0x0084},
+{0x86ef, 0x0018}, {0x86f0, 0x00ce}, {0x86f1, 0x008f},
+{0x86f2, 0x0070}, {0x86f3, 0x00c6}, {0x86f4, 0x000c},
+{0x86f5, 0x00bd}, {0x86f6, 0x0089}, {0x86f7, 0x006f},
+{0x86f8, 0x00d6}, {0x86f9, 0x0083}, {0x86fa, 0x00c1},
+{0x86fb, 0x004f}, {0x86fc, 0x002d}, {0x86fd, 0x0003},
+{0x86fe, 0x007e}, {0x86ff, 0x0087}, {0x8700, 0x0040},
+{0x8701, 0x00b6}, {0x8702, 0x008f}, {0x8703, 0x007f},
+{0x8704, 0x0081}, {0x8705, 0x0007}, {0x8706, 0x0027},
+{0x8707, 0x000f}, {0x8708, 0x0081}, {0x8709, 0x000b},
+{0x870a, 0x0027}, {0x870b, 0x0015}, {0x870c, 0x0081},
+{0x870d, 0x000d}, {0x870e, 0x0027}, {0x870f, 0x001b},
+{0x8710, 0x0081}, {0x8711, 0x000e}, {0x8712, 0x0027},
+{0x8713, 0x0021}, {0x8714, 0x007e}, {0x8715, 0x0087},
+{0x8716, 0x0040}, {0x8717, 0x00f7}, {0x8718, 0x008f},
+{0x8719, 0x007b}, {0x871a, 0x0086}, {0x871b, 0x0002},
+{0x871c, 0x00b7}, {0x871d, 0x008f}, {0x871e, 0x007a},
+{0x871f, 0x0020}, {0x8720, 0x001c}, {0x8721, 0x00f7},
+{0x8722, 0x008f}, {0x8723, 0x0078}, {0x8724, 0x0086},
+{0x8725, 0x0002}, {0x8726, 0x00b7}, {0x8727, 0x008f},
+{0x8728, 0x0077}, {0x8729, 0x0020}, {0x872a, 0x0012},
+{0x872b, 0x00f7}, {0x872c, 0x008f}, {0x872d, 0x0075},
+{0x872e, 0x0086}, {0x872f, 0x0002}, {0x8730, 0x00b7},
+{0x8731, 0x008f}, {0x8732, 0x0074}, {0x8733, 0x0020},
+{0x8734, 0x0008}, {0x8735, 0x00f7}, {0x8736, 0x008f},
+{0x8737, 0x0072}, {0x8738, 0x0086}, {0x8739, 0x0002},
+{0x873a, 0x00b7}, {0x873b, 0x008f}, {0x873c, 0x0071},
+{0x873d, 0x007e}, {0x873e, 0x0087}, {0x873f, 0x0047},
+{0x8740, 0x0086}, {0x8741, 0x0004}, {0x8742, 0x0097},
+{0x8743, 0x0040}, {0x8744, 0x007e}, {0x8745, 0x0089},
+{0x8746, 0x006e}, {0x8747, 0x00ce}, {0x8748, 0x008f},
+{0x8749, 0x0072}, {0x874a, 0x00bd}, {0x874b, 0x0089},
+{0x874c, 0x00f7}, {0x874d, 0x00ce}, {0x874e, 0x008f},
+{0x874f, 0x0075}, {0x8750, 0x00bd}, {0x8751, 0x0089},
+{0x8752, 0x00f7}, {0x8753, 0x00ce}, {0x8754, 0x008f},
+{0x8755, 0x0078}, {0x8756, 0x00bd}, {0x8757, 0x0089},
+{0x8758, 0x00f7}, {0x8759, 0x00ce}, {0x875a, 0x008f},
+{0x875b, 0x007b}, {0x875c, 0x00bd}, {0x875d, 0x0089},
+{0x875e, 0x00f7}, {0x875f, 0x004f}, {0x8760, 0x00b7},
+{0x8761, 0x008f}, {0x8762, 0x007d}, {0x8763, 0x00b7},
+{0x8764, 0x008f}, {0x8765, 0x0081}, {0x8766, 0x00b6},
+{0x8767, 0x008f}, {0x8768, 0x0072}, {0x8769, 0x0027},
+{0x876a, 0x0047}, {0x876b, 0x007c}, {0x876c, 0x008f},
+{0x876d, 0x007d}, {0x876e, 0x00b6}, {0x876f, 0x008f},
+{0x8770, 0x0075}, {0x8771, 0x0027}, {0x8772, 0x003f},
+{0x8773, 0x007c}, {0x8774, 0x008f}, {0x8775, 0x007d},
+{0x8776, 0x00b6}, {0x8777, 0x008f}, {0x8778, 0x0078},
+{0x8779, 0x0027}, {0x877a, 0x0037}, {0x877b, 0x007c},
+{0x877c, 0x008f}, {0x877d, 0x007d}, {0x877e, 0x00b6},
+{0x877f, 0x008f}, {0x8780, 0x007b}, {0x8781, 0x0027},
+{0x8782, 0x002f}, {0x8783, 0x007f}, {0x8784, 0x008f},
+{0x8785, 0x007d}, {0x8786, 0x007c}, {0x8787, 0x008f},
+{0x8788, 0x0081}, {0x8789, 0x007a}, {0x878a, 0x008f},
+{0x878b, 0x0072}, {0x878c, 0x0027}, {0x878d, 0x001b},
+{0x878e, 0x007c}, {0x878f, 0x008f}, {0x8790, 0x007d},
+{0x8791, 0x007a}, {0x8792, 0x008f}, {0x8793, 0x0075},
+{0x8794, 0x0027}, {0x8795, 0x0016}, {0x8796, 0x007c},
+{0x8797, 0x008f}, {0x8798, 0x007d}, {0x8799, 0x007a},
+{0x879a, 0x008f}, {0x879b, 0x0078}, {0x879c, 0x0027},
+{0x879d, 0x0011}, {0x879e, 0x007c}, {0x879f, 0x008f},
+{0x87a0, 0x007d}, {0x87a1, 0x007a}, {0x87a2, 0x008f},
+{0x87a3, 0x007b}, {0x87a4, 0x0027}, {0x87a5, 0x000c},
+{0x87a6, 0x007e}, {0x87a7, 0x0087}, {0x87a8, 0x0083},
+{0x87a9, 0x007a}, {0x87aa, 0x008f}, {0x87ab, 0x0075},
+{0x87ac, 0x007a}, {0x87ad, 0x008f}, {0x87ae, 0x0078},
+{0x87af, 0x007a}, {0x87b0, 0x008f}, {0x87b1, 0x007b},
+{0x87b2, 0x00ce}, {0x87b3, 0x00c1}, {0x87b4, 0x00fc},
+{0x87b5, 0x00f6}, {0x87b6, 0x008f}, {0x87b7, 0x007d},
+{0x87b8, 0x003a}, {0x87b9, 0x00a6}, {0x87ba, 0x0000},
+{0x87bb, 0x00b7}, {0x87bc, 0x0012}, {0x87bd, 0x0070},
+{0x87be, 0x00b6}, {0x87bf, 0x008f}, {0x87c0, 0x0072},
+{0x87c1, 0x0026}, {0x87c2, 0x0003}, {0x87c3, 0x007e},
+{0x87c4, 0x0087}, {0x87c5, 0x00fa}, {0x87c6, 0x00b6},
+{0x87c7, 0x008f}, {0x87c8, 0x0075}, {0x87c9, 0x0026},
+{0x87ca, 0x000a}, {0x87cb, 0x0018}, {0x87cc, 0x00ce},
+{0x87cd, 0x008f}, {0x87ce, 0x0073}, {0x87cf, 0x00bd},
+{0x87d0, 0x0089}, {0x87d1, 0x00d5}, {0x87d2, 0x007e},
+{0x87d3, 0x0087}, {0x87d4, 0x00fa}, {0x87d5, 0x00b6},
+{0x87d6, 0x008f}, {0x87d7, 0x0078}, {0x87d8, 0x0026},
+{0x87d9, 0x000a}, {0x87da, 0x0018}, {0x87db, 0x00ce},
+{0x87dc, 0x008f}, {0x87dd, 0x0076}, {0x87de, 0x00bd},
+{0x87df, 0x0089}, {0x87e0, 0x00d5}, {0x87e1, 0x007e},
+{0x87e2, 0x0087}, {0x87e3, 0x00fa}, {0x87e4, 0x00b6},
+{0x87e5, 0x008f}, {0x87e6, 0x007b}, {0x87e7, 0x0026},
+{0x87e8, 0x000a}, {0x87e9, 0x0018}, {0x87ea, 0x00ce},
+{0x87eb, 0x008f}, {0x87ec, 0x0079}, {0x87ed, 0x00bd},
+{0x87ee, 0x0089}, {0x87ef, 0x00d5}, {0x87f0, 0x007e},
+{0x87f1, 0x0087}, {0x87f2, 0x00fa}, {0x87f3, 0x0086},
+{0x87f4, 0x0005}, {0x87f5, 0x0097}, {0x87f6, 0x0040},
+{0x87f7, 0x007e}, {0x87f8, 0x0089}, {0x87f9, 0x0000},
+{0x87fa, 0x00b6}, {0x87fb, 0x008f}, {0x87fc, 0x0075},
+{0x87fd, 0x0081}, {0x87fe, 0x0007}, {0x87ff, 0x002e},
+{0x8800, 0x00f2}, {0x8801, 0x00f6}, {0x8802, 0x0012},
+{0x8803, 0x0006}, {0x8804, 0x00c4}, {0x8805, 0x00f8},
+{0x8806, 0x001b}, {0x8807, 0x00b7}, {0x8808, 0x0012},
+{0x8809, 0x0006}, {0x880a, 0x00b6}, {0x880b, 0x008f},
+{0x880c, 0x0078}, {0x880d, 0x0081}, {0x880e, 0x0007},
+{0x880f, 0x002e}, {0x8810, 0x00e2}, {0x8811, 0x0048},
+{0x8812, 0x0048}, {0x8813, 0x0048}, {0x8814, 0x00f6},
+{0x8815, 0x0012}, {0x8816, 0x0006}, {0x8817, 0x00c4},
+{0x8818, 0x00c7}, {0x8819, 0x001b}, {0x881a, 0x00b7},
+{0x881b, 0x0012}, {0x881c, 0x0006}, {0x881d, 0x00b6},
+{0x881e, 0x008f}, {0x881f, 0x007b}, {0x8820, 0x0081},
+{0x8821, 0x0007}, {0x8822, 0x002e}, {0x8823, 0x00cf},
+{0x8824, 0x00f6}, {0x8825, 0x0012}, {0x8826, 0x0005},
+{0x8827, 0x00c4}, {0x8828, 0x00f8}, {0x8829, 0x001b},
+{0x882a, 0x00b7}, {0x882b, 0x0012}, {0x882c, 0x0005},
+{0x882d, 0x0086}, {0x882e, 0x0000}, {0x882f, 0x00f6},
+{0x8830, 0x008f}, {0x8831, 0x0071}, {0x8832, 0x00bd},
+{0x8833, 0x0089}, {0x8834, 0x0094}, {0x8835, 0x0086},
+{0x8836, 0x0001}, {0x8837, 0x00f6}, {0x8838, 0x008f},
+{0x8839, 0x0074}, {0x883a, 0x00bd}, {0x883b, 0x0089},
+{0x883c, 0x0094}, {0x883d, 0x0086}, {0x883e, 0x0002},
+{0x883f, 0x00f6}, {0x8840, 0x008f}, {0x8841, 0x0077},
+{0x8842, 0x00bd}, {0x8843, 0x0089}, {0x8844, 0x0094},
+{0x8845, 0x0086}, {0x8846, 0x0003}, {0x8847, 0x00f6},
+{0x8848, 0x008f}, {0x8849, 0x007a}, {0x884a, 0x00bd},
+{0x884b, 0x0089}, {0x884c, 0x0094}, {0x884d, 0x00ce},
+{0x884e, 0x008f}, {0x884f, 0x0070}, {0x8850, 0x00a6},
+{0x8851, 0x0001}, {0x8852, 0x0081}, {0x8853, 0x0001},
+{0x8854, 0x0027}, {0x8855, 0x0007}, {0x8856, 0x0081},
+{0x8857, 0x0003}, {0x8858, 0x0027}, {0x8859, 0x0003},
+{0x885a, 0x007e}, {0x885b, 0x0088}, {0x885c, 0x0066},
+{0x885d, 0x00a6}, {0x885e, 0x0000}, {0x885f, 0x00b8},
+{0x8860, 0x008f}, {0x8861, 0x0081}, {0x8862, 0x0084},
+{0x8863, 0x0001}, {0x8864, 0x0026}, {0x8865, 0x000b},
+{0x8866, 0x008c}, {0x8867, 0x008f}, {0x8868, 0x0079},
+{0x8869, 0x002c}, {0x886a, 0x000e}, {0x886b, 0x0008},
+{0x886c, 0x0008}, {0x886d, 0x0008}, {0x886e, 0x007e},
+{0x886f, 0x0088}, {0x8870, 0x0050}, {0x8871, 0x00b6},
+{0x8872, 0x0012}, {0x8873, 0x0004}, {0x8874, 0x008a},
+{0x8875, 0x0040}, {0x8876, 0x00b7}, {0x8877, 0x0012},
+{0x8878, 0x0004}, {0x8879, 0x00b6}, {0x887a, 0x0012},
+{0x887b, 0x0004}, {0x887c, 0x0084}, {0x887d, 0x00fb},
+{0x887e, 0x0084}, {0x887f, 0x00ef}, {0x8880, 0x00b7},
+{0x8881, 0x0012}, {0x8882, 0x0004}, {0x8883, 0x00b6},
+{0x8884, 0x0012}, {0x8885, 0x0007}, {0x8886, 0x0036},
+{0x8887, 0x00b6}, {0x8888, 0x008f}, {0x8889, 0x007c},
+{0x888a, 0x0048}, {0x888b, 0x0048}, {0x888c, 0x00b7},
+{0x888d, 0x0012}, {0x888e, 0x0007}, {0x888f, 0x0086},
+{0x8890, 0x0001}, {0x8891, 0x00ba}, {0x8892, 0x0012},
+{0x8893, 0x0004}, {0x8894, 0x00b7}, {0x8895, 0x0012},
+{0x8896, 0x0004}, {0x8897, 0x0001}, {0x8898, 0x0001},
+{0x8899, 0x0001}, {0x889a, 0x0001}, {0x889b, 0x0001},
+{0x889c, 0x0001}, {0x889d, 0x0086}, {0x889e, 0x00fe},
+{0x889f, 0x00b4}, {0x88a0, 0x0012}, {0x88a1, 0x0004},
+{0x88a2, 0x00b7}, {0x88a3, 0x0012}, {0x88a4, 0x0004},
+{0x88a5, 0x0086}, {0x88a6, 0x0002}, {0x88a7, 0x00ba},
+{0x88a8, 0x0012}, {0x88a9, 0x0004}, {0x88aa, 0x00b7},
+{0x88ab, 0x0012}, {0x88ac, 0x0004}, {0x88ad, 0x0086},
+{0x88ae, 0x00fd}, {0x88af, 0x00b4}, {0x88b0, 0x0012},
+{0x88b1, 0x0004}, {0x88b2, 0x00b7}, {0x88b3, 0x0012},
+{0x88b4, 0x0004}, {0x88b5, 0x0032}, {0x88b6, 0x00b7},
+{0x88b7, 0x0012}, {0x88b8, 0x0007}, {0x88b9, 0x00b6},
+{0x88ba, 0x0012}, {0x88bb, 0x0000}, {0x88bc, 0x0084},
+{0x88bd, 0x0008}, {0x88be, 0x0081}, {0x88bf, 0x0008},
+{0x88c0, 0x0027}, {0x88c1, 0x000f}, {0x88c2, 0x007c},
+{0x88c3, 0x0082}, {0x88c4, 0x0008}, {0x88c5, 0x0026},
+{0x88c6, 0x0007}, {0x88c7, 0x0086}, {0x88c8, 0x0076},
+{0x88c9, 0x0097}, {0x88ca, 0x0040}, {0x88cb, 0x007e},
+{0x88cc, 0x0089}, {0x88cd, 0x006e}, {0x88ce, 0x007e},
+{0x88cf, 0x0086}, {0x88d0, 0x00ec}, {0x88d1, 0x00b6},
+{0x88d2, 0x008f}, {0x88d3, 0x007f}, {0x88d4, 0x0081},
+{0x88d5, 0x000f}, {0x88d6, 0x0027}, {0x88d7, 0x003c},
+{0x88d8, 0x00bd}, {0x88d9, 0x00e6}, {0x88da, 0x00c7},
+{0x88db, 0x00b7}, {0x88dc, 0x0012}, {0x88dd, 0x000d},
+{0x88de, 0x00bd}, {0x88df, 0x00e6}, {0x88e0, 0x00cb},
+{0x88e1, 0x00b6}, {0x88e2, 0x0012}, {0x88e3, 0x0004},
+{0x88e4, 0x008a}, {0x88e5, 0x0020}, {0x88e6, 0x00b7},
+{0x88e7, 0x0012}, {0x88e8, 0x0004}, {0x88e9, 0x00ce},
+{0x88ea, 0x00ff}, {0x88eb, 0x00ff}, {0x88ec, 0x00b6},
+{0x88ed, 0x0012}, {0x88ee, 0x0000}, {0x88ef, 0x0081},
+{0x88f0, 0x000c}, {0x88f1, 0x0026}, {0x88f2, 0x0005},
+{0x88f3, 0x0009}, {0x88f4, 0x0026}, {0x88f5, 0x00f6},
+{0x88f6, 0x0027}, {0x88f7, 0x001c}, {0x88f8, 0x00b6},
+{0x88f9, 0x0012}, {0x88fa, 0x0004}, {0x88fb, 0x0084},
+{0x88fc, 0x00df}, {0x88fd, 0x00b7}, {0x88fe, 0x0012},
+{0x88ff, 0x0004}, {0x8900, 0x0096}, {0x8901, 0x0083},
+{0x8902, 0x0081}, {0x8903, 0x0007}, {0x8904, 0x002c},
+{0x8905, 0x0005}, {0x8906, 0x007c}, {0x8907, 0x0000},
+{0x8908, 0x0083}, {0x8909, 0x0020}, {0x890a, 0x0006},
+{0x890b, 0x0096}, {0x890c, 0x0083}, {0x890d, 0x008b},
+{0x890e, 0x0008}, {0x890f, 0x0097}, {0x8910, 0x0083},
+{0x8911, 0x007e}, {0x8912, 0x0085}, {0x8913, 0x0041},
+{0x8914, 0x007f}, {0x8915, 0x008f}, {0x8916, 0x007e},
+{0x8917, 0x0086}, {0x8918, 0x0080}, {0x8919, 0x00b7},
+{0x891a, 0x0012}, {0x891b, 0x000c}, {0x891c, 0x0086},
+{0x891d, 0x0001}, {0x891e, 0x00b7}, {0x891f, 0x008f},
+{0x8920, 0x007d}, {0x8921, 0x00b6}, {0x8922, 0x0012},
+{0x8923, 0x000c}, {0x8924, 0x0084}, {0x8925, 0x007f},
+{0x8926, 0x00b7}, {0x8927, 0x0012}, {0x8928, 0x000c},
+{0x8929, 0x008a}, {0x892a, 0x0080}, {0x892b, 0x00b7},
+{0x892c, 0x0012}, {0x892d, 0x000c}, {0x892e, 0x0086},
+{0x892f, 0x000a}, {0x8930, 0x00bd}, {0x8931, 0x008a},
+{0x8932, 0x0006}, {0x8933, 0x00b6}, {0x8934, 0x0012},
+{0x8935, 0x000a}, {0x8936, 0x002a}, {0x8937, 0x0009},
+{0x8938, 0x00b6}, {0x8939, 0x0012}, {0x893a, 0x000c},
+{0x893b, 0x00ba}, {0x893c, 0x008f}, {0x893d, 0x007d},
+{0x893e, 0x00b7}, {0x893f, 0x0012}, {0x8940, 0x000c},
+{0x8941, 0x00b6}, {0x8942, 0x008f}, {0x8943, 0x007e},
+{0x8944, 0x0081}, {0x8945, 0x0060}, {0x8946, 0x0027},
+{0x8947, 0x001a}, {0x8948, 0x008b}, {0x8949, 0x0020},
+{0x894a, 0x00b7}, {0x894b, 0x008f}, {0x894c, 0x007e},
+{0x894d, 0x00b6}, {0x894e, 0x0012}, {0x894f, 0x000c},
+{0x8950, 0x0084}, {0x8951, 0x009f}, {0x8952, 0x00ba},
+{0x8953, 0x008f}, {0x8954, 0x007e}, {0x8955, 0x00b7},
+{0x8956, 0x0012}, {0x8957, 0x000c}, {0x8958, 0x00b6},
+{0x8959, 0x008f}, {0x895a, 0x007d}, {0x895b, 0x0048},
+{0x895c, 0x00b7}, {0x895d, 0x008f}, {0x895e, 0x007d},
+{0x895f, 0x007e}, {0x8960, 0x0089}, {0x8961, 0x0021},
+{0x8962, 0x00b6}, {0x8963, 0x0012}, {0x8964, 0x0004},
+{0x8965, 0x008a}, {0x8966, 0x0020}, {0x8967, 0x00b7},
+{0x8968, 0x0012}, {0x8969, 0x0004}, {0x896a, 0x00bd},
+{0x896b, 0x008a}, {0x896c, 0x000a}, {0x896d, 0x004f},
+{0x896e, 0x0039}, {0x896f, 0x00a6}, {0x8970, 0x0000},
+{0x8971, 0x0018}, {0x8972, 0x00a7}, {0x8973, 0x0000},
+{0x8974, 0x0008}, {0x8975, 0x0018}, {0x8976, 0x0008},
+{0x8977, 0x005a}, {0x8978, 0x0026}, {0x8979, 0x00f5},
+{0x897a, 0x0039}, {0x897b, 0x0036}, {0x897c, 0x006c},
+{0x897d, 0x0000}, {0x897e, 0x0032}, {0x897f, 0x00ba},
+{0x8980, 0x008f}, {0x8981, 0x007f}, {0x8982, 0x00b7},
+{0x8983, 0x008f}, {0x8984, 0x007f}, {0x8985, 0x00b6},
+{0x8986, 0x0012}, {0x8987, 0x0009}, {0x8988, 0x0084},
+{0x8989, 0x0003}, {0x898a, 0x00a7}, {0x898b, 0x0001},
+{0x898c, 0x00b6}, {0x898d, 0x0012}, {0x898e, 0x0006},
+{0x898f, 0x0084}, {0x8990, 0x003f}, {0x8991, 0x00a7},
+{0x8992, 0x0002}, {0x8993, 0x0039}, {0x8994, 0x0036},
+{0x8995, 0x0086}, {0x8996, 0x0003}, {0x8997, 0x00b7},
+{0x8998, 0x008f}, {0x8999, 0x0080}, {0x899a, 0x0032},
+{0x899b, 0x00c1}, {0x899c, 0x0000}, {0x899d, 0x0026},
+{0x899e, 0x0006}, {0x899f, 0x00b7}, {0x89a0, 0x008f},
+{0x89a1, 0x007c}, {0x89a2, 0x007e}, {0x89a3, 0x0089},
+{0x89a4, 0x00c9}, {0x89a5, 0x00c1}, {0x89a6, 0x0001},
+{0x89a7, 0x0027}, {0x89a8, 0x0018}, {0x89a9, 0x00c1},
+{0x89aa, 0x0002}, {0x89ab, 0x0027}, {0x89ac, 0x000c},
+{0x89ad, 0x00c1}, {0x89ae, 0x0003}, {0x89af, 0x0027},
+{0x89b0, 0x0000}, {0x89b1, 0x00f6}, {0x89b2, 0x008f},
+{0x89b3, 0x0080}, {0x89b4, 0x0005}, {0x89b5, 0x0005},
+{0x89b6, 0x00f7}, {0x89b7, 0x008f}, {0x89b8, 0x0080},
+{0x89b9, 0x00f6}, {0x89ba, 0x008f}, {0x89bb, 0x0080},
+{0x89bc, 0x0005}, {0x89bd, 0x0005}, {0x89be, 0x00f7},
+{0x89bf, 0x008f}, {0x89c0, 0x0080}, {0x89c1, 0x00f6},
+{0x89c2, 0x008f}, {0x89c3, 0x0080}, {0x89c4, 0x0005},
+{0x89c5, 0x0005}, {0x89c6, 0x00f7}, {0x89c7, 0x008f},
+{0x89c8, 0x0080}, {0x89c9, 0x00f6}, {0x89ca, 0x008f},
+{0x89cb, 0x0080}, {0x89cc, 0x0053}, {0x89cd, 0x00f4},
+{0x89ce, 0x0012}, {0x89cf, 0x0007}, {0x89d0, 0x001b},
+{0x89d1, 0x00b7}, {0x89d2, 0x0012}, {0x89d3, 0x0007},
+{0x89d4, 0x0039}, {0x89d5, 0x00ce}, {0x89d6, 0x008f},
+{0x89d7, 0x0070}, {0x89d8, 0x00a6}, {0x89d9, 0x0000},
+{0x89da, 0x0018}, {0x89db, 0x00e6}, {0x89dc, 0x0000},
+{0x89dd, 0x0018}, {0x89de, 0x00a7}, {0x89df, 0x0000},
+{0x89e0, 0x00e7}, {0x89e1, 0x0000}, {0x89e2, 0x00a6},
+{0x89e3, 0x0001}, {0x89e4, 0x0018}, {0x89e5, 0x00e6},
+{0x89e6, 0x0001}, {0x89e7, 0x0018}, {0x89e8, 0x00a7},
+{0x89e9, 0x0001}, {0x89ea, 0x00e7}, {0x89eb, 0x0001},
+{0x89ec, 0x00a6}, {0x89ed, 0x0002}, {0x89ee, 0x0018},
+{0x89ef, 0x00e6}, {0x89f0, 0x0002}, {0x89f1, 0x0018},
+{0x89f2, 0x00a7}, {0x89f3, 0x0002}, {0x89f4, 0x00e7},
+{0x89f5, 0x0002}, {0x89f6, 0x0039}, {0x89f7, 0x00a6},
+{0x89f8, 0x0000}, {0x89f9, 0x0084}, {0x89fa, 0x0007},
+{0x89fb, 0x00e6}, {0x89fc, 0x0000}, {0x89fd, 0x00c4},
+{0x89fe, 0x0038}, {0x89ff, 0x0054}, {0x8a00, 0x0054},
+{0x8a01, 0x0054}, {0x8a02, 0x001b}, {0x8a03, 0x00a7},
+{0x8a04, 0x0000}, {0x8a05, 0x0039}, {0x8a06, 0x004a},
+{0x8a07, 0x0026}, {0x8a08, 0x00fd}, {0x8a09, 0x0039},
+{0x8a0a, 0x0096}, {0x8a0b, 0x0022}, {0x8a0c, 0x0084},
+{0x8a0d, 0x000f}, {0x8a0e, 0x0097}, {0x8a0f, 0x0022},
+{0x8a10, 0x0086}, {0x8a11, 0x0001}, {0x8a12, 0x00b7},
+{0x8a13, 0x008f}, {0x8a14, 0x0070}, {0x8a15, 0x00b6},
+{0x8a16, 0x0012}, {0x8a17, 0x0007}, {0x8a18, 0x00b7},
+{0x8a19, 0x008f}, {0x8a1a, 0x0071}, {0x8a1b, 0x00f6},
+{0x8a1c, 0x0012}, {0x8a1d, 0x000c}, {0x8a1e, 0x00c4},
+{0x8a1f, 0x000f}, {0x8a20, 0x00c8}, {0x8a21, 0x000f},
+{0x8a22, 0x00f7}, {0x8a23, 0x008f}, {0x8a24, 0x0072},
+{0x8a25, 0x00f6}, {0x8a26, 0x008f}, {0x8a27, 0x0072},
+{0x8a28, 0x00b6}, {0x8a29, 0x008f}, {0x8a2a, 0x0071},
+{0x8a2b, 0x0084}, {0x8a2c, 0x0003}, {0x8a2d, 0x0027},
+{0x8a2e, 0x0014}, {0x8a2f, 0x0081}, {0x8a30, 0x0001},
+{0x8a31, 0x0027}, {0x8a32, 0x001c}, {0x8a33, 0x0081},
+{0x8a34, 0x0002}, {0x8a35, 0x0027}, {0x8a36, 0x0024},
+{0x8a37, 0x00f4}, {0x8a38, 0x008f}, {0x8a39, 0x0070},
+{0x8a3a, 0x0027}, {0x8a3b, 0x002a}, {0x8a3c, 0x0096},
+{0x8a3d, 0x0022}, {0x8a3e, 0x008a}, {0x8a3f, 0x0080},
+{0x8a40, 0x007e}, {0x8a41, 0x008a}, {0x8a42, 0x0064},
+{0x8a43, 0x00f4}, {0x8a44, 0x008f}, {0x8a45, 0x0070},
+{0x8a46, 0x0027}, {0x8a47, 0x001e}, {0x8a48, 0x0096},
+{0x8a49, 0x0022}, {0x8a4a, 0x008a}, {0x8a4b, 0x0010},
+{0x8a4c, 0x007e}, {0x8a4d, 0x008a}, {0x8a4e, 0x0064},
+{0x8a4f, 0x00f4}, {0x8a50, 0x008f}, {0x8a51, 0x0070},
+{0x8a52, 0x0027}, {0x8a53, 0x0012}, {0x8a54, 0x0096},
+{0x8a55, 0x0022}, {0x8a56, 0x008a}, {0x8a57, 0x0020},
+{0x8a58, 0x007e}, {0x8a59, 0x008a}, {0x8a5a, 0x0064},
+{0x8a5b, 0x00f4}, {0x8a5c, 0x008f}, {0x8a5d, 0x0070},
+{0x8a5e, 0x0027}, {0x8a5f, 0x0006}, {0x8a60, 0x0096},
+{0x8a61, 0x0022}, {0x8a62, 0x008a}, {0x8a63, 0x0040},
+{0x8a64, 0x0097}, {0x8a65, 0x0022}, {0x8a66, 0x0074},
+{0x8a67, 0x008f}, {0x8a68, 0x0071}, {0x8a69, 0x0074},
+{0x8a6a, 0x008f}, {0x8a6b, 0x0071}, {0x8a6c, 0x0078},
+{0x8a6d, 0x008f}, {0x8a6e, 0x0070}, {0x8a6f, 0x00b6},
+{0x8a70, 0x008f}, {0x8a71, 0x0070}, {0x8a72, 0x0085},
+{0x8a73, 0x0010}, {0x8a74, 0x0027}, {0x8a75, 0x00af},
+{0x8a76, 0x00d6}, {0x8a77, 0x0022}, {0x8a78, 0x00c4},
+{0x8a79, 0x0010}, {0x8a7a, 0x0058}, {0x8a7b, 0x00b6},
+{0x8a7c, 0x0012}, {0x8a7d, 0x0070}, {0x8a7e, 0x0081},
+{0x8a7f, 0x00e4}, {0x8a80, 0x0027}, {0x8a81, 0x0036},
+{0x8a82, 0x0081}, {0x8a83, 0x00e1}, {0x8a84, 0x0026},
+{0x8a85, 0x000c}, {0x8a86, 0x0096}, {0x8a87, 0x0022},
+{0x8a88, 0x0084}, {0x8a89, 0x0020}, {0x8a8a, 0x0044},
+{0x8a8b, 0x001b}, {0x8a8c, 0x00d6}, {0x8a8d, 0x0022},
+{0x8a8e, 0x00c4}, {0x8a8f, 0x00cf}, {0x8a90, 0x0020},
+{0x8a91, 0x0023}, {0x8a92, 0x0058}, {0x8a93, 0x0081},
+{0x8a94, 0x00c6}, {0x8a95, 0x0026}, {0x8a96, 0x000d},
+{0x8a97, 0x0096}, {0x8a98, 0x0022}, {0x8a99, 0x0084},
+{0x8a9a, 0x0040}, {0x8a9b, 0x0044}, {0x8a9c, 0x0044},
+{0x8a9d, 0x001b}, {0x8a9e, 0x00d6}, {0x8a9f, 0x0022},
+{0x8aa0, 0x00c4}, {0x8aa1, 0x00af}, {0x8aa2, 0x0020},
+{0x8aa3, 0x0011}, {0x8aa4, 0x0058}, {0x8aa5, 0x0081},
+{0x8aa6, 0x0027}, {0x8aa7, 0x0026}, {0x8aa8, 0x000f},
+{0x8aa9, 0x0096}, {0x8aaa, 0x0022}, {0x8aab, 0x0084},
+{0x8aac, 0x0080}, {0x8aad, 0x0044}, {0x8aae, 0x0044},
+{0x8aaf, 0x0044}, {0x8ab0, 0x001b}, {0x8ab1, 0x00d6},
+{0x8ab2, 0x0022}, {0x8ab3, 0x00c4}, {0x8ab4, 0x006f},
+{0x8ab5, 0x001b}, {0x8ab6, 0x0097}, {0x8ab7, 0x0022},
+{0x8ab8, 0x0039}, {0x8ab9, 0x0027}, {0x8aba, 0x000c},
+{0x8abb, 0x007c}, {0x8abc, 0x0082}, {0x8abd, 0x0006},
+{0x8abe, 0x00bd}, {0x8abf, 0x00d9}, {0x8ac0, 0x00ed},
+{0x8ac1, 0x00b6}, {0x8ac2, 0x0082}, {0x8ac3, 0x0007},
+{0x8ac4, 0x007e}, {0x8ac5, 0x008a}, {0x8ac6, 0x00b9},
+{0x8ac7, 0x007f}, {0x8ac8, 0x0082}, {0x8ac9, 0x0006},
+{0x8aca, 0x0039}, { 0x0, 0x0 }
+};
+#else
+cas_saturn_patch_t cas_saturn_patch[] = {
+{0x8200, 0x007e}, {0x8201, 0x0082}, {0x8202, 0x0009},
+{0x8203, 0x0000}, {0x8204, 0x0000}, {0x8205, 0x0000},
+{0x8206, 0x0000}, {0x8207, 0x0000}, {0x8208, 0x0000},
+{0x8209, 0x008e}, {0x820a, 0x008e}, {0x820b, 0x00ff},
+{0x820c, 0x00ce}, {0x820d, 0x0082}, {0x820e, 0x0025},
+{0x820f, 0x00ff}, {0x8210, 0x0001}, {0x8211, 0x000f},
+{0x8212, 0x00ce}, {0x8213, 0x0084}, {0x8214, 0x0026},
+{0x8215, 0x00ff}, {0x8216, 0x0001}, {0x8217, 0x0011},
+{0x8218, 0x00ce}, {0x8219, 0x0085}, {0x821a, 0x003d},
+{0x821b, 0x00df}, {0x821c, 0x00e5}, {0x821d, 0x0086},
+{0x821e, 0x0039}, {0x821f, 0x00b7}, {0x8220, 0x008f},
+{0x8221, 0x00f8}, {0x8222, 0x007e}, {0x8223, 0x00c3},
+{0x8224, 0x00c2}, {0x8225, 0x0096}, {0x8226, 0x0047},
+{0x8227, 0x0084}, {0x8228, 0x00f3}, {0x8229, 0x008a},
+{0x822a, 0x0000}, {0x822b, 0x0097}, {0x822c, 0x0047},
+{0x822d, 0x00ce}, {0x822e, 0x0082}, {0x822f, 0x0033},
+{0x8230, 0x00ff}, {0x8231, 0x0001}, {0x8232, 0x000f},
+{0x8233, 0x0096}, {0x8234, 0x0046}, {0x8235, 0x0084},
+{0x8236, 0x000c}, {0x8237, 0x0081}, {0x8238, 0x0004},
+{0x8239, 0x0027}, {0x823a, 0x000b}, {0x823b, 0x0096},
+{0x823c, 0x0046}, {0x823d, 0x0084}, {0x823e, 0x000c},
+{0x823f, 0x0081}, {0x8240, 0x0008}, {0x8241, 0x0027},
+{0x8242, 0x0057}, {0x8243, 0x007e}, {0x8244, 0x0084},
+{0x8245, 0x0025}, {0x8246, 0x0096}, {0x8247, 0x0047},
+{0x8248, 0x0084}, {0x8249, 0x00f3}, {0x824a, 0x008a},
+{0x824b, 0x0004}, {0x824c, 0x0097}, {0x824d, 0x0047},
+{0x824e, 0x00ce}, {0x824f, 0x0082}, {0x8250, 0x0054},
+{0x8251, 0x00ff}, {0x8252, 0x0001}, {0x8253, 0x000f},
+{0x8254, 0x0096}, {0x8255, 0x0046}, {0x8256, 0x0084},
+{0x8257, 0x000c}, {0x8258, 0x0081}, {0x8259, 0x0004},
+{0x825a, 0x0026}, {0x825b, 0x0038}, {0x825c, 0x00b6},
+{0x825d, 0x0012}, {0x825e, 0x0020}, {0x825f, 0x0084},
+{0x8260, 0x0020}, {0x8261, 0x0026}, {0x8262, 0x0003},
+{0x8263, 0x007e}, {0x8264, 0x0084}, {0x8265, 0x0025},
+{0x8266, 0x0096}, {0x8267, 0x007b}, {0x8268, 0x00d6},
+{0x8269, 0x007c}, {0x826a, 0x00fe}, {0x826b, 0x008f},
+{0x826c, 0x0056}, {0x826d, 0x00bd}, {0x826e, 0x00f7},
+{0x826f, 0x00b6}, {0x8270, 0x00fe}, {0x8271, 0x008f},
+{0x8272, 0x004e}, {0x8273, 0x00bd}, {0x8274, 0x00ec},
+{0x8275, 0x008e}, {0x8276, 0x00bd}, {0x8277, 0x00fa},
+{0x8278, 0x00f7}, {0x8279, 0x00bd}, {0x827a, 0x00f7},
+{0x827b, 0x0028}, {0x827c, 0x00ce}, {0x827d, 0x0082},
+{0x827e, 0x0082}, {0x827f, 0x00ff}, {0x8280, 0x0001},
+{0x8281, 0x000f}, {0x8282, 0x0096}, {0x8283, 0x0046},
+{0x8284, 0x0084}, {0x8285, 0x000c}, {0x8286, 0x0081},
+{0x8287, 0x0004}, {0x8288, 0x0026}, {0x8289, 0x000a},
+{0x828a, 0x00b6}, {0x828b, 0x0012}, {0x828c, 0x0020},
+{0x828d, 0x0084}, {0x828e, 0x0020}, {0x828f, 0x0027},
+{0x8290, 0x00b5}, {0x8291, 0x007e}, {0x8292, 0x0084},
+{0x8293, 0x0025}, {0x8294, 0x00bd}, {0x8295, 0x00f7},
+{0x8296, 0x001f}, {0x8297, 0x007e}, {0x8298, 0x0084},
+{0x8299, 0x001f}, {0x829a, 0x0096}, {0x829b, 0x0047},
+{0x829c, 0x0084}, {0x829d, 0x00f3}, {0x829e, 0x008a},
+{0x829f, 0x0008}, {0x82a0, 0x0097}, {0x82a1, 0x0047},
+{0x82a2, 0x00de}, {0x82a3, 0x00e1}, {0x82a4, 0x00ad},
+{0x82a5, 0x0000}, {0x82a6, 0x00ce}, {0x82a7, 0x0082},
+{0x82a8, 0x00af}, {0x82a9, 0x00ff}, {0x82aa, 0x0001},
+{0x82ab, 0x000f}, {0x82ac, 0x007e}, {0x82ad, 0x0084},
+{0x82ae, 0x0025}, {0x82af, 0x0096}, {0x82b0, 0x0041},
+{0x82b1, 0x0085}, {0x82b2, 0x0010}, {0x82b3, 0x0026},
+{0x82b4, 0x0006}, {0x82b5, 0x0096}, {0x82b6, 0x0023},
+{0x82b7, 0x0085}, {0x82b8, 0x0040}, {0x82b9, 0x0027},
+{0x82ba, 0x0006}, {0x82bb, 0x00bd}, {0x82bc, 0x00ed},
+{0x82bd, 0x0000}, {0x82be, 0x007e}, {0x82bf, 0x0083},
+{0x82c0, 0x00a2}, {0x82c1, 0x00de}, {0x82c2, 0x0042},
+{0x82c3, 0x00bd}, {0x82c4, 0x00eb}, {0x82c5, 0x008e},
+{0x82c6, 0x0096}, {0x82c7, 0x0024}, {0x82c8, 0x0084},
+{0x82c9, 0x0008}, {0x82ca, 0x0027}, {0x82cb, 0x0003},
+{0x82cc, 0x007e}, {0x82cd, 0x0083}, {0x82ce, 0x00df},
+{0x82cf, 0x0096}, {0x82d0, 0x007b}, {0x82d1, 0x00d6},
+{0x82d2, 0x007c}, {0x82d3, 0x00fe}, {0x82d4, 0x008f},
+{0x82d5, 0x0056}, {0x82d6, 0x00bd}, {0x82d7, 0x00f7},
+{0x82d8, 0x00b6}, {0x82d9, 0x00fe}, {0x82da, 0x008f},
+{0x82db, 0x0050}, {0x82dc, 0x00bd}, {0x82dd, 0x00ec},
+{0x82de, 0x008e}, {0x82df, 0x00bd}, {0x82e0, 0x00fa},
+{0x82e1, 0x00f7}, {0x82e2, 0x0086}, {0x82e3, 0x0011},
+{0x82e4, 0x00c6}, {0x82e5, 0x0049}, {0x82e6, 0x00bd},
+{0x82e7, 0x00e4}, {0x82e8, 0x0012}, {0x82e9, 0x00ce},
+{0x82ea, 0x0082}, {0x82eb, 0x00ef}, {0x82ec, 0x00ff},
+{0x82ed, 0x0001}, {0x82ee, 0x000f}, {0x82ef, 0x0096},
+{0x82f0, 0x0046}, {0x82f1, 0x0084}, {0x82f2, 0x000c},
+{0x82f3, 0x0081}, {0x82f4, 0x0000}, {0x82f5, 0x0027},
+{0x82f6, 0x0017}, {0x82f7, 0x00c6}, {0x82f8, 0x0049},
+{0x82f9, 0x00bd}, {0x82fa, 0x00e4}, {0x82fb, 0x0091},
+{0x82fc, 0x0024}, {0x82fd, 0x000d}, {0x82fe, 0x00b6},
+{0x82ff, 0x0012}, {0x8300, 0x0020}, {0x8301, 0x0085},
+{0x8302, 0x0020}, {0x8303, 0x0026}, {0x8304, 0x000c},
+{0x8305, 0x00ce}, {0x8306, 0x0082}, {0x8307, 0x00c1},
+{0x8308, 0x00ff}, {0x8309, 0x0001}, {0x830a, 0x000f},
+{0x830b, 0x007e}, {0x830c, 0x0084}, {0x830d, 0x0025},
+{0x830e, 0x007e}, {0x830f, 0x0084}, {0x8310, 0x0016},
+{0x8311, 0x00fe}, {0x8312, 0x008f}, {0x8313, 0x0052},
+{0x8314, 0x00bd}, {0x8315, 0x00ec}, {0x8316, 0x008e},
+{0x8317, 0x00bd}, {0x8318, 0x00fa}, {0x8319, 0x00f7},
+{0x831a, 0x0086}, {0x831b, 0x006a}, {0x831c, 0x00c6},
+{0x831d, 0x0049}, {0x831e, 0x00bd}, {0x831f, 0x00e4},
+{0x8320, 0x0012}, {0x8321, 0x00ce}, {0x8322, 0x0083},
+{0x8323, 0x0027}, {0x8324, 0x00ff}, {0x8325, 0x0001},
+{0x8326, 0x000f}, {0x8327, 0x0096}, {0x8328, 0x0046},
+{0x8329, 0x0084}, {0x832a, 0x000c}, {0x832b, 0x0081},
+{0x832c, 0x0000}, {0x832d, 0x0027}, {0x832e, 0x000a},
+{0x832f, 0x00c6}, {0x8330, 0x0049}, {0x8331, 0x00bd},
+{0x8332, 0x00e4}, {0x8333, 0x0091}, {0x8334, 0x0025},
+{0x8335, 0x0006}, {0x8336, 0x007e}, {0x8337, 0x0084},
+{0x8338, 0x0025}, {0x8339, 0x007e}, {0x833a, 0x0084},
+{0x833b, 0x0016}, {0x833c, 0x00b6}, {0x833d, 0x0018},
+{0x833e, 0x0070}, {0x833f, 0x00bb}, {0x8340, 0x0019},
+{0x8341, 0x0070}, {0x8342, 0x002a}, {0x8343, 0x0004},
+{0x8344, 0x0081}, {0x8345, 0x00af}, {0x8346, 0x002e},
+{0x8347, 0x0019}, {0x8348, 0x0096}, {0x8349, 0x007b},
+{0x834a, 0x00f6}, {0x834b, 0x0020}, {0x834c, 0x0007},
+{0x834d, 0x00fa}, {0x834e, 0x0020}, {0x834f, 0x0027},
+{0x8350, 0x00c4}, {0x8351, 0x0038}, {0x8352, 0x0081},
+{0x8353, 0x0038}, {0x8354, 0x0027}, {0x8355, 0x000b},
+{0x8356, 0x00f6}, {0x8357, 0x0020}, {0x8358, 0x0007},
+{0x8359, 0x00fa}, {0x835a, 0x0020}, {0x835b, 0x0027},
+{0x835c, 0x00cb}, {0x835d, 0x0008}, {0x835e, 0x007e},
+{0x835f, 0x0082}, {0x8360, 0x00d3}, {0x8361, 0x00bd},
+{0x8362, 0x00f7}, {0x8363, 0x0066}, {0x8364, 0x0086},
+{0x8365, 0x0074}, {0x8366, 0x00c6}, {0x8367, 0x0049},
+{0x8368, 0x00bd}, {0x8369, 0x00e4}, {0x836a, 0x0012},
+{0x836b, 0x00ce}, {0x836c, 0x0083}, {0x836d, 0x0071},
+{0x836e, 0x00ff}, {0x836f, 0x0001}, {0x8370, 0x000f},
+{0x8371, 0x0096}, {0x8372, 0x0046}, {0x8373, 0x0084},
+{0x8374, 0x000c}, {0x8375, 0x0081}, {0x8376, 0x0008},
+{0x8377, 0x0026}, {0x8378, 0x000a}, {0x8379, 0x00c6},
+{0x837a, 0x0049}, {0x837b, 0x00bd}, {0x837c, 0x00e4},
+{0x837d, 0x0091}, {0x837e, 0x0025}, {0x837f, 0x0006},
+{0x8380, 0x007e}, {0x8381, 0x0084}, {0x8382, 0x0025},
+{0x8383, 0x007e}, {0x8384, 0x0084}, {0x8385, 0x0016},
+{0x8386, 0x00bd}, {0x8387, 0x00f7}, {0x8388, 0x003e},
+{0x8389, 0x0026}, {0x838a, 0x000e}, {0x838b, 0x00bd},
+{0x838c, 0x00e5}, {0x838d, 0x0009}, {0x838e, 0x0026},
+{0x838f, 0x0006}, {0x8390, 0x00ce}, {0x8391, 0x0082},
+{0x8392, 0x00c1}, {0x8393, 0x00ff}, {0x8394, 0x0001},
+{0x8395, 0x000f}, {0x8396, 0x007e}, {0x8397, 0x0084},
+{0x8398, 0x0025}, {0x8399, 0x00fe}, {0x839a, 0x008f},
+{0x839b, 0x0054}, {0x839c, 0x00bd}, {0x839d, 0x00ec},
+{0x839e, 0x008e}, {0x839f, 0x00bd}, {0x83a0, 0x00fa},
+{0x83a1, 0x00f7}, {0x83a2, 0x00bd}, {0x83a3, 0x00f7},
+{0x83a4, 0x0033}, {0x83a5, 0x0086}, {0x83a6, 0x000f},
+{0x83a7, 0x00c6}, {0x83a8, 0x0051}, {0x83a9, 0x00bd},
+{0x83aa, 0x00e4}, {0x83ab, 0x0012}, {0x83ac, 0x00ce},
+{0x83ad, 0x0083}, {0x83ae, 0x00b2}, {0x83af, 0x00ff},
+{0x83b0, 0x0001}, {0x83b1, 0x000f}, {0x83b2, 0x0096},
+{0x83b3, 0x0046}, {0x83b4, 0x0084}, {0x83b5, 0x000c},
+{0x83b6, 0x0081}, {0x83b7, 0x0008}, {0x83b8, 0x0026},
+{0x83b9, 0x005c}, {0x83ba, 0x00b6}, {0x83bb, 0x0012},
+{0x83bc, 0x0020}, {0x83bd, 0x0084}, {0x83be, 0x003f},
+{0x83bf, 0x0081}, {0x83c0, 0x003a}, {0x83c1, 0x0027},
+{0x83c2, 0x001c}, {0x83c3, 0x0096}, {0x83c4, 0x0023},
+{0x83c5, 0x0085}, {0x83c6, 0x0040}, {0x83c7, 0x0027},
+{0x83c8, 0x0003}, {0x83c9, 0x007e}, {0x83ca, 0x0084},
+{0x83cb, 0x0025}, {0x83cc, 0x00c6}, {0x83cd, 0x0051},
+{0x83ce, 0x00bd}, {0x83cf, 0x00e4}, {0x83d0, 0x0091},
+{0x83d1, 0x0025}, {0x83d2, 0x0003}, {0x83d3, 0x007e},
+{0x83d4, 0x0084}, {0x83d5, 0x0025}, {0x83d6, 0x00ce},
+{0x83d7, 0x0082}, {0x83d8, 0x00c1}, {0x83d9, 0x00ff},
+{0x83da, 0x0001}, {0x83db, 0x000f}, {0x83dc, 0x007e},
+{0x83dd, 0x0084}, {0x83de, 0x0025}, {0x83df, 0x00bd},
+{0x83e0, 0x00f8}, {0x83e1, 0x0037}, {0x83e2, 0x007c},
+{0x83e3, 0x0000}, {0x83e4, 0x007a}, {0x83e5, 0x00ce},
+{0x83e6, 0x0083}, {0x83e7, 0x00ee}, {0x83e8, 0x00ff},
+{0x83e9, 0x0001}, {0x83ea, 0x000f}, {0x83eb, 0x007e},
+{0x83ec, 0x0084}, {0x83ed, 0x0025}, {0x83ee, 0x0096},
+{0x83ef, 0x0046}, {0x83f0, 0x0084}, {0x83f1, 0x000c},
+{0x83f2, 0x0081}, {0x83f3, 0x0008}, {0x83f4, 0x0026},
+{0x83f5, 0x0020}, {0x83f6, 0x0096}, {0x83f7, 0x0024},
+{0x83f8, 0x0084}, {0x83f9, 0x0008}, {0x83fa, 0x0026},
+{0x83fb, 0x0029}, {0x83fc, 0x00b6}, {0x83fd, 0x0018},
+{0x83fe, 0x0082}, {0x83ff, 0x00bb}, {0x8400, 0x0019},
+{0x8401, 0x0082}, {0x8402, 0x00b1}, {0x8403, 0x0001},
+{0x8404, 0x003b}, {0x8405, 0x0022}, {0x8406, 0x0009},
+{0x8407, 0x00b6}, {0x8408, 0x0012}, {0x8409, 0x0020},
+{0x840a, 0x0084}, {0x840b, 0x0037}, {0x840c, 0x0081},
+{0x840d, 0x0032}, {0x840e, 0x0027}, {0x840f, 0x0015},
+{0x8410, 0x00bd}, {0x8411, 0x00f8}, {0x8412, 0x0044},
+{0x8413, 0x007e}, {0x8414, 0x0082}, {0x8415, 0x00c1},
+{0x8416, 0x00bd}, {0x8417, 0x00f7}, {0x8418, 0x001f},
+{0x8419, 0x00bd}, {0x841a, 0x00f8}, {0x841b, 0x0044},
+{0x841c, 0x00bd}, {0x841d, 0x00fc}, {0x841e, 0x0029},
+{0x841f, 0x00ce}, {0x8420, 0x0082}, {0x8421, 0x0025},
+{0x8422, 0x00ff}, {0x8423, 0x0001}, {0x8424, 0x000f},
+{0x8425, 0x0039}, {0x8426, 0x0096}, {0x8427, 0x0047},
+{0x8428, 0x0084}, {0x8429, 0x00fc}, {0x842a, 0x008a},
+{0x842b, 0x0000}, {0x842c, 0x0097}, {0x842d, 0x0047},
+{0x842e, 0x00ce}, {0x842f, 0x0084}, {0x8430, 0x0034},
+{0x8431, 0x00ff}, {0x8432, 0x0001}, {0x8433, 0x0011},
+{0x8434, 0x0096}, {0x8435, 0x0046}, {0x8436, 0x0084},
+{0x8437, 0x0003}, {0x8438, 0x0081}, {0x8439, 0x0002},
+{0x843a, 0x0027}, {0x843b, 0x0003}, {0x843c, 0x007e},
+{0x843d, 0x0085}, {0x843e, 0x001e}, {0x843f, 0x0096},
+{0x8440, 0x0047}, {0x8441, 0x0084}, {0x8442, 0x00fc},
+{0x8443, 0x008a}, {0x8444, 0x0002}, {0x8445, 0x0097},
+{0x8446, 0x0047}, {0x8447, 0x00de}, {0x8448, 0x00e1},
+{0x8449, 0x00ad}, {0x844a, 0x0000}, {0x844b, 0x0086},
+{0x844c, 0x0001}, {0x844d, 0x00b7}, {0x844e, 0x0012},
+{0x844f, 0x0051}, {0x8450, 0x00bd}, {0x8451, 0x00f7},
+{0x8452, 0x0014}, {0x8453, 0x00b6}, {0x8454, 0x0010},
+{0x8455, 0x0031}, {0x8456, 0x0084}, {0x8457, 0x00fd},
+{0x8458, 0x00b7}, {0x8459, 0x0010}, {0x845a, 0x0031},
+{0x845b, 0x00bd}, {0x845c, 0x00f8}, {0x845d, 0x001e},
+{0x845e, 0x0096}, {0x845f, 0x0081}, {0x8460, 0x00d6},
+{0x8461, 0x0082}, {0x8462, 0x00fe}, {0x8463, 0x008f},
+{0x8464, 0x005a}, {0x8465, 0x00bd}, {0x8466, 0x00f7},
+{0x8467, 0x00b6}, {0x8468, 0x00fe}, {0x8469, 0x008f},
+{0x846a, 0x005c}, {0x846b, 0x00bd}, {0x846c, 0x00ec},
+{0x846d, 0x008e}, {0x846e, 0x00bd}, {0x846f, 0x00fa},
+{0x8470, 0x00f7}, {0x8471, 0x0086}, {0x8472, 0x0008},
+{0x8473, 0x00d6}, {0x8474, 0x0000}, {0x8475, 0x00c5},
+{0x8476, 0x0010}, {0x8477, 0x0026}, {0x8478, 0x0002},
+{0x8479, 0x008b}, {0x847a, 0x0020}, {0x847b, 0x00c6},
+{0x847c, 0x0051}, {0x847d, 0x00bd}, {0x847e, 0x00e4},
+{0x847f, 0x0012}, {0x8480, 0x00ce}, {0x8481, 0x0084},
+{0x8482, 0x0086}, {0x8483, 0x00ff}, {0x8484, 0x0001},
+{0x8485, 0x0011}, {0x8486, 0x0096}, {0x8487, 0x0046},
+{0x8488, 0x0084}, {0x8489, 0x0003}, {0x848a, 0x0081},
+{0x848b, 0x0002}, {0x848c, 0x0027}, {0x848d, 0x0003},
+{0x848e, 0x007e}, {0x848f, 0x0085}, {0x8490, 0x000f},
+{0x8491, 0x00c6}, {0x8492, 0x0051}, {0x8493, 0x00bd},
+{0x8494, 0x00e4}, {0x8495, 0x0091}, {0x8496, 0x0025},
+{0x8497, 0x0003}, {0x8498, 0x007e}, {0x8499, 0x0085},
+{0x849a, 0x001e}, {0x849b, 0x0096}, {0x849c, 0x0044},
+{0x849d, 0x0085}, {0x849e, 0x0010}, {0x849f, 0x0026},
+{0x84a0, 0x000a}, {0x84a1, 0x00b6}, {0x84a2, 0x0012},
+{0x84a3, 0x0050}, {0x84a4, 0x00ba}, {0x84a5, 0x0001},
+{0x84a6, 0x003c}, {0x84a7, 0x0085}, {0x84a8, 0x0010},
+{0x84a9, 0x0027}, {0x84aa, 0x00a8}, {0x84ab, 0x00bd},
+{0x84ac, 0x00f7}, {0x84ad, 0x0066}, {0x84ae, 0x00ce},
+{0x84af, 0x0084}, {0x84b0, 0x00b7}, {0x84b1, 0x00ff},
+{0x84b2, 0x0001}, {0x84b3, 0x0011}, {0x84b4, 0x007e},
+{0x84b5, 0x0085}, {0x84b6, 0x001e}, {0x84b7, 0x0096},
+{0x84b8, 0x0046}, {0x84b9, 0x0084}, {0x84ba, 0x0003},
+{0x84bb, 0x0081}, {0x84bc, 0x0002}, {0x84bd, 0x0026},
+{0x84be, 0x0050}, {0x84bf, 0x00b6}, {0x84c0, 0x0012},
+{0x84c1, 0x0030}, {0x84c2, 0x0084}, {0x84c3, 0x0003},
+{0x84c4, 0x0081}, {0x84c5, 0x0001}, {0x84c6, 0x0027},
+{0x84c7, 0x0003}, {0x84c8, 0x007e}, {0x84c9, 0x0085},
+{0x84ca, 0x001e}, {0x84cb, 0x0096}, {0x84cc, 0x0044},
+{0x84cd, 0x0085}, {0x84ce, 0x0010}, {0x84cf, 0x0026},
+{0x84d0, 0x0013}, {0x84d1, 0x00b6}, {0x84d2, 0x0012},
+{0x84d3, 0x0050}, {0x84d4, 0x00ba}, {0x84d5, 0x0001},
+{0x84d6, 0x003c}, {0x84d7, 0x0085}, {0x84d8, 0x0010},
+{0x84d9, 0x0026}, {0x84da, 0x0009}, {0x84db, 0x00ce},
+{0x84dc, 0x0084}, {0x84dd, 0x0053}, {0x84de, 0x00ff},
+{0x84df, 0x0001}, {0x84e0, 0x0011}, {0x84e1, 0x007e},
+{0x84e2, 0x0085}, {0x84e3, 0x001e}, {0x84e4, 0x00b6},
+{0x84e5, 0x0010}, {0x84e6, 0x0031}, {0x84e7, 0x008a},
+{0x84e8, 0x0002}, {0x84e9, 0x00b7}, {0x84ea, 0x0010},
+{0x84eb, 0x0031}, {0x84ec, 0x00bd}, {0x84ed, 0x0085},
+{0x84ee, 0x001f}, {0x84ef, 0x00bd}, {0x84f0, 0x00f8},
+{0x84f1, 0x0037}, {0x84f2, 0x007c}, {0x84f3, 0x0000},
+{0x84f4, 0x0080}, {0x84f5, 0x00ce}, {0x84f6, 0x0084},
+{0x84f7, 0x00fe}, {0x84f8, 0x00ff}, {0x84f9, 0x0001},
+{0x84fa, 0x0011}, {0x84fb, 0x007e}, {0x84fc, 0x0085},
+{0x84fd, 0x001e}, {0x84fe, 0x0096}, {0x84ff, 0x0046},
+{0x8500, 0x0084}, {0x8501, 0x0003}, {0x8502, 0x0081},
+{0x8503, 0x0002}, {0x8504, 0x0026}, {0x8505, 0x0009},
+{0x8506, 0x00b6}, {0x8507, 0x0012}, {0x8508, 0x0030},
+{0x8509, 0x0084}, {0x850a, 0x0003}, {0x850b, 0x0081},
+{0x850c, 0x0001}, {0x850d, 0x0027}, {0x850e, 0x000f},
+{0x850f, 0x00bd}, {0x8510, 0x00f8}, {0x8511, 0x0044},
+{0x8512, 0x00bd}, {0x8513, 0x00f7}, {0x8514, 0x000b},
+{0x8515, 0x00bd}, {0x8516, 0x00fc}, {0x8517, 0x0029},
+{0x8518, 0x00ce}, {0x8519, 0x0084}, {0x851a, 0x0026},
+{0x851b, 0x00ff}, {0x851c, 0x0001}, {0x851d, 0x0011},
+{0x851e, 0x0039}, {0x851f, 0x00d6}, {0x8520, 0x0022},
+{0x8521, 0x00c4}, {0x8522, 0x000f}, {0x8523, 0x00b6},
+{0x8524, 0x0012}, {0x8525, 0x0030}, {0x8526, 0x00ba},
+{0x8527, 0x0012}, {0x8528, 0x0032}, {0x8529, 0x0084},
+{0x852a, 0x0004}, {0x852b, 0x0027}, {0x852c, 0x000d},
+{0x852d, 0x0096}, {0x852e, 0x0022}, {0x852f, 0x0085},
+{0x8530, 0x0004}, {0x8531, 0x0027}, {0x8532, 0x0005},
+{0x8533, 0x00ca}, {0x8534, 0x0010}, {0x8535, 0x007e},
+{0x8536, 0x0085}, {0x8537, 0x003a}, {0x8538, 0x00ca},
+{0x8539, 0x0020}, {0x853a, 0x00d7}, {0x853b, 0x0022},
+{0x853c, 0x0039}, {0x853d, 0x0086}, {0x853e, 0x0000},
+{0x853f, 0x0097}, {0x8540, 0x0083}, {0x8541, 0x0018},
+{0x8542, 0x00ce}, {0x8543, 0x001c}, {0x8544, 0x0000},
+{0x8545, 0x00bd}, {0x8546, 0x00eb}, {0x8547, 0x0046},
+{0x8548, 0x0096}, {0x8549, 0x0057}, {0x854a, 0x0085},
+{0x854b, 0x0001}, {0x854c, 0x0027}, {0x854d, 0x0002},
+{0x854e, 0x004f}, {0x854f, 0x0039}, {0x8550, 0x0085},
+{0x8551, 0x0002}, {0x8552, 0x0027}, {0x8553, 0x0001},
+{0x8554, 0x0039}, {0x8555, 0x007f}, {0x8556, 0x008f},
+{0x8557, 0x007d}, {0x8558, 0x0086}, {0x8559, 0x0004},
+{0x855a, 0x00b7}, {0x855b, 0x0012}, {0x855c, 0x0004},
+{0x855d, 0x0086}, {0x855e, 0x0008}, {0x855f, 0x00b7},
+{0x8560, 0x0012}, {0x8561, 0x0007}, {0x8562, 0x0086},
+{0x8563, 0x0010}, {0x8564, 0x00b7}, {0x8565, 0x0012},
+{0x8566, 0x000c}, {0x8567, 0x0086}, {0x8568, 0x0007},
+{0x8569, 0x00b7}, {0x856a, 0x0012}, {0x856b, 0x0006},
+{0x856c, 0x00b6}, {0x856d, 0x008f}, {0x856e, 0x007d},
+{0x856f, 0x00b7}, {0x8570, 0x0012}, {0x8571, 0x0070},
+{0x8572, 0x0086}, {0x8573, 0x0001}, {0x8574, 0x00ba},
+{0x8575, 0x0012}, {0x8576, 0x0004}, {0x8577, 0x00b7},
+{0x8578, 0x0012}, {0x8579, 0x0004}, {0x857a, 0x0001},
+{0x857b, 0x0001}, {0x857c, 0x0001}, {0x857d, 0x0001},
+{0x857e, 0x0001}, {0x857f, 0x0001}, {0x8580, 0x00b6},
+{0x8581, 0x0012}, {0x8582, 0x0004}, {0x8583, 0x0084},
+{0x8584, 0x00fe}, {0x8585, 0x008a}, {0x8586, 0x0002},
+{0x8587, 0x00b7}, {0x8588, 0x0012}, {0x8589, 0x0004},
+{0x858a, 0x0001}, {0x858b, 0x0001}, {0x858c, 0x0001},
+{0x858d, 0x0001}, {0x858e, 0x0001}, {0x858f, 0x0001},
+{0x8590, 0x0086}, {0x8591, 0x00fd}, {0x8592, 0x00b4},
+{0x8593, 0x0012}, {0x8594, 0x0004}, {0x8595, 0x00b7},
+{0x8596, 0x0012}, {0x8597, 0x0004}, {0x8598, 0x00b6},
+{0x8599, 0x0012}, {0x859a, 0x0000}, {0x859b, 0x0084},
+{0x859c, 0x0008}, {0x859d, 0x0081}, {0x859e, 0x0008},
+{0x859f, 0x0027}, {0x85a0, 0x0016}, {0x85a1, 0x00b6},
+{0x85a2, 0x008f}, {0x85a3, 0x007d}, {0x85a4, 0x0081},
+{0x85a5, 0x000c}, {0x85a6, 0x0027}, {0x85a7, 0x0008},
+{0x85a8, 0x008b}, {0x85a9, 0x0004}, {0x85aa, 0x00b7},
+{0x85ab, 0x008f}, {0x85ac, 0x007d}, {0x85ad, 0x007e},
+{0x85ae, 0x0085}, {0x85af, 0x006c}, {0x85b0, 0x0086},
+{0x85b1, 0x0003}, {0x85b2, 0x0097}, {0x85b3, 0x0040},
+{0x85b4, 0x007e}, {0x85b5, 0x0089}, {0x85b6, 0x006e},
+{0x85b7, 0x0086}, {0x85b8, 0x0007}, {0x85b9, 0x00b7},
+{0x85ba, 0x0012}, {0x85bb, 0x0006}, {0x85bc, 0x005f},
+{0x85bd, 0x00f7}, {0x85be, 0x008f}, {0x85bf, 0x0082},
+{0x85c0, 0x005f}, {0x85c1, 0x00f7}, {0x85c2, 0x008f},
+{0x85c3, 0x007f}, {0x85c4, 0x00f7}, {0x85c5, 0x008f},
+{0x85c6, 0x0070}, {0x85c7, 0x00f7}, {0x85c8, 0x008f},
+{0x85c9, 0x0071}, {0x85ca, 0x00f7}, {0x85cb, 0x008f},
+{0x85cc, 0x0072}, {0x85cd, 0x00f7}, {0x85ce, 0x008f},
+{0x85cf, 0x0073}, {0x85d0, 0x00f7}, {0x85d1, 0x008f},
+{0x85d2, 0x0074}, {0x85d3, 0x00f7}, {0x85d4, 0x008f},
+{0x85d5, 0x0075}, {0x85d6, 0x00f7}, {0x85d7, 0x008f},
+{0x85d8, 0x0076}, {0x85d9, 0x00f7}, {0x85da, 0x008f},
+{0x85db, 0x0077}, {0x85dc, 0x00f7}, {0x85dd, 0x008f},
+{0x85de, 0x0078}, {0x85df, 0x00f7}, {0x85e0, 0x008f},
+{0x85e1, 0x0079}, {0x85e2, 0x00f7}, {0x85e3, 0x008f},
+{0x85e4, 0x007a}, {0x85e5, 0x00f7}, {0x85e6, 0x008f},
+{0x85e7, 0x007b}, {0x85e8, 0x00b6}, {0x85e9, 0x0012},
+{0x85ea, 0x0004}, {0x85eb, 0x008a}, {0x85ec, 0x0010},
+{0x85ed, 0x00b7}, {0x85ee, 0x0012}, {0x85ef, 0x0004},
+{0x85f0, 0x0086}, {0x85f1, 0x00e4}, {0x85f2, 0x00b7},
+{0x85f3, 0x0012}, {0x85f4, 0x0070}, {0x85f5, 0x00b7},
+{0x85f6, 0x0012}, {0x85f7, 0x0007}, {0x85f8, 0x00f7},
+{0x85f9, 0x0012}, {0x85fa, 0x0005}, {0x85fb, 0x00f7},
+{0x85fc, 0x0012}, {0x85fd, 0x0009}, {0x85fe, 0x0086},
+{0x85ff, 0x0008}, {0x8600, 0x00ba}, {0x8601, 0x0012},
+{0x8602, 0x0004}, {0x8603, 0x00b7}, {0x8604, 0x0012},
+{0x8605, 0x0004}, {0x8606, 0x0086}, {0x8607, 0x00f7},
+{0x8608, 0x00b4}, {0x8609, 0x0012}, {0x860a, 0x0004},
+{0x860b, 0x00b7}, {0x860c, 0x0012}, {0x860d, 0x0004},
+{0x860e, 0x0001}, {0x860f, 0x0001}, {0x8610, 0x0001},
+{0x8611, 0x0001}, {0x8612, 0x0001}, {0x8613, 0x0001},
+{0x8614, 0x00b6}, {0x8615, 0x0012}, {0x8616, 0x0008},
+{0x8617, 0x0027}, {0x8618, 0x007f}, {0x8619, 0x0081},
+{0x861a, 0x0080}, {0x861b, 0x0026}, {0x861c, 0x000b},
+{0x861d, 0x0086}, {0x861e, 0x0008}, {0x861f, 0x00ce},
+{0x8620, 0x008f}, {0x8621, 0x0079}, {0x8622, 0x00bd},
+{0x8623, 0x0089}, {0x8624, 0x007b}, {0x8625, 0x007e},
+{0x8626, 0x0086}, {0x8627, 0x008e}, {0x8628, 0x0081},
+{0x8629, 0x0040}, {0x862a, 0x0026}, {0x862b, 0x000b},
+{0x862c, 0x0086}, {0x862d, 0x0004}, {0x862e, 0x00ce},
+{0x862f, 0x008f}, {0x8630, 0x0076}, {0x8631, 0x00bd},
+{0x8632, 0x0089}, {0x8633, 0x007b}, {0x8634, 0x007e},
+{0x8635, 0x0086}, {0x8636, 0x008e}, {0x8637, 0x0081},
+{0x8638, 0x0020}, {0x8639, 0x0026}, {0x863a, 0x000b},
+{0x863b, 0x0086}, {0x863c, 0x0002}, {0x863d, 0x00ce},
+{0x863e, 0x008f}, {0x863f, 0x0073}, {0x8640, 0x00bd},
+{0x8641, 0x0089}, {0x8642, 0x007b}, {0x8643, 0x007e},
+{0x8644, 0x0086}, {0x8645, 0x008e}, {0x8646, 0x0081},
+{0x8647, 0x0010}, {0x8648, 0x0026}, {0x8649, 0x000b},
+{0x864a, 0x0086}, {0x864b, 0x0001}, {0x864c, 0x00ce},
+{0x864d, 0x008f}, {0x864e, 0x0070}, {0x864f, 0x00bd},
+{0x8650, 0x0089}, {0x8651, 0x007b}, {0x8652, 0x007e},
+{0x8653, 0x0086}, {0x8654, 0x008e}, {0x8655, 0x0081},
+{0x8656, 0x0008}, {0x8657, 0x0026}, {0x8658, 0x000b},
+{0x8659, 0x0086}, {0x865a, 0x0008}, {0x865b, 0x00ce},
+{0x865c, 0x008f}, {0x865d, 0x0079}, {0x865e, 0x00bd},
+{0x865f, 0x0089}, {0x8660, 0x007f}, {0x8661, 0x007e},
+{0x8662, 0x0086}, {0x8663, 0x008e}, {0x8664, 0x0081},
+{0x8665, 0x0004}, {0x8666, 0x0026}, {0x8667, 0x000b},
+{0x8668, 0x0086}, {0x8669, 0x0004}, {0x866a, 0x00ce},
+{0x866b, 0x008f}, {0x866c, 0x0076}, {0x866d, 0x00bd},
+{0x866e, 0x0089}, {0x866f, 0x007f}, {0x8670, 0x007e},
+{0x8671, 0x0086}, {0x8672, 0x008e}, {0x8673, 0x0081},
+{0x8674, 0x0002}, {0x8675, 0x0026}, {0x8676, 0x000b},
+{0x8677, 0x008a}, {0x8678, 0x0002}, {0x8679, 0x00ce},
+{0x867a, 0x008f}, {0x867b, 0x0073}, {0x867c, 0x00bd},
+{0x867d, 0x0089}, {0x867e, 0x007f}, {0x867f, 0x007e},
+{0x8680, 0x0086}, {0x8681, 0x008e}, {0x8682, 0x0081},
+{0x8683, 0x0001}, {0x8684, 0x0026}, {0x8685, 0x0008},
+{0x8686, 0x0086}, {0x8687, 0x0001}, {0x8688, 0x00ce},
+{0x8689, 0x008f}, {0x868a, 0x0070}, {0x868b, 0x00bd},
+{0x868c, 0x0089}, {0x868d, 0x007f}, {0x868e, 0x00b6},
+{0x868f, 0x008f}, {0x8690, 0x007f}, {0x8691, 0x0081},
+{0x8692, 0x000f}, {0x8693, 0x0026}, {0x8694, 0x0003},
+{0x8695, 0x007e}, {0x8696, 0x0087}, {0x8697, 0x0047},
+{0x8698, 0x00b6}, {0x8699, 0x0012}, {0x869a, 0x0009},
+{0x869b, 0x0084}, {0x869c, 0x0003}, {0x869d, 0x0081},
+{0x869e, 0x0003}, {0x869f, 0x0027}, {0x86a0, 0x0006},
+{0x86a1, 0x007c}, {0x86a2, 0x0012}, {0x86a3, 0x0009},
+{0x86a4, 0x007e}, {0x86a5, 0x0085}, {0x86a6, 0x00fe},
+{0x86a7, 0x00b6}, {0x86a8, 0x0012}, {0x86a9, 0x0006},
+{0x86aa, 0x0084}, {0x86ab, 0x0007}, {0x86ac, 0x0081},
+{0x86ad, 0x0007}, {0x86ae, 0x0027}, {0x86af, 0x0008},
+{0x86b0, 0x008b}, {0x86b1, 0x0001}, {0x86b2, 0x00b7},
+{0x86b3, 0x0012}, {0x86b4, 0x0006}, {0x86b5, 0x007e},
+{0x86b6, 0x0086}, {0x86b7, 0x00d5}, {0x86b8, 0x00b6},
+{0x86b9, 0x008f}, {0x86ba, 0x0082}, {0x86bb, 0x0026},
+{0x86bc, 0x000a}, {0x86bd, 0x007c}, {0x86be, 0x008f},
+{0x86bf, 0x0082}, {0x86c0, 0x004f}, {0x86c1, 0x00b7},
+{0x86c2, 0x0012}, {0x86c3, 0x0006}, {0x86c4, 0x007e},
+{0x86c5, 0x0085}, {0x86c6, 0x00c0}, {0x86c7, 0x00b6},
+{0x86c8, 0x0012}, {0x86c9, 0x0006}, {0x86ca, 0x0084},
+{0x86cb, 0x003f}, {0x86cc, 0x0081}, {0x86cd, 0x003f},
+{0x86ce, 0x0027}, {0x86cf, 0x0010}, {0x86d0, 0x008b},
+{0x86d1, 0x0008}, {0x86d2, 0x00b7}, {0x86d3, 0x0012},
+{0x86d4, 0x0006}, {0x86d5, 0x00b6}, {0x86d6, 0x0012},
+{0x86d7, 0x0009}, {0x86d8, 0x0084}, {0x86d9, 0x00fc},
+{0x86da, 0x00b7}, {0x86db, 0x0012}, {0x86dc, 0x0009},
+{0x86dd, 0x007e}, {0x86de, 0x0085}, {0x86df, 0x00fe},
+{0x86e0, 0x00ce}, {0x86e1, 0x008f}, {0x86e2, 0x0070},
+{0x86e3, 0x0018}, {0x86e4, 0x00ce}, {0x86e5, 0x008f},
+{0x86e6, 0x0084}, {0x86e7, 0x00c6}, {0x86e8, 0x000c},
+{0x86e9, 0x00bd}, {0x86ea, 0x0089}, {0x86eb, 0x006f},
+{0x86ec, 0x00ce}, {0x86ed, 0x008f}, {0x86ee, 0x0084},
+{0x86ef, 0x0018}, {0x86f0, 0x00ce}, {0x86f1, 0x008f},
+{0x86f2, 0x0070}, {0x86f3, 0x00c6}, {0x86f4, 0x000c},
+{0x86f5, 0x00bd}, {0x86f6, 0x0089}, {0x86f7, 0x006f},
+{0x86f8, 0x00d6}, {0x86f9, 0x0083}, {0x86fa, 0x00c1},
+{0x86fb, 0x004f}, {0x86fc, 0x002d}, {0x86fd, 0x0003},
+{0x86fe, 0x007e}, {0x86ff, 0x0087}, {0x8700, 0x0040},
+{0x8701, 0x00b6}, {0x8702, 0x008f}, {0x8703, 0x007f},
+{0x8704, 0x0081}, {0x8705, 0x0007}, {0x8706, 0x0027},
+{0x8707, 0x000f}, {0x8708, 0x0081}, {0x8709, 0x000b},
+{0x870a, 0x0027}, {0x870b, 0x0015}, {0x870c, 0x0081},
+{0x870d, 0x000d}, {0x870e, 0x0027}, {0x870f, 0x001b},
+{0x8710, 0x0081}, {0x8711, 0x000e}, {0x8712, 0x0027},
+{0x8713, 0x0021}, {0x8714, 0x007e}, {0x8715, 0x0087},
+{0x8716, 0x0040}, {0x8717, 0x00f7}, {0x8718, 0x008f},
+{0x8719, 0x007b}, {0x871a, 0x0086}, {0x871b, 0x0002},
+{0x871c, 0x00b7}, {0x871d, 0x008f}, {0x871e, 0x007a},
+{0x871f, 0x0020}, {0x8720, 0x001c}, {0x8721, 0x00f7},
+{0x8722, 0x008f}, {0x8723, 0x0078}, {0x8724, 0x0086},
+{0x8725, 0x0002}, {0x8726, 0x00b7}, {0x8727, 0x008f},
+{0x8728, 0x0077}, {0x8729, 0x0020}, {0x872a, 0x0012},
+{0x872b, 0x00f7}, {0x872c, 0x008f}, {0x872d, 0x0075},
+{0x872e, 0x0086}, {0x872f, 0x0002}, {0x8730, 0x00b7},
+{0x8731, 0x008f}, {0x8732, 0x0074}, {0x8733, 0x0020},
+{0x8734, 0x0008}, {0x8735, 0x00f7}, {0x8736, 0x008f},
+{0x8737, 0x0072}, {0x8738, 0x0086}, {0x8739, 0x0002},
+{0x873a, 0x00b7}, {0x873b, 0x008f}, {0x873c, 0x0071},
+{0x873d, 0x007e}, {0x873e, 0x0087}, {0x873f, 0x0047},
+{0x8740, 0x0086}, {0x8741, 0x0004}, {0x8742, 0x0097},
+{0x8743, 0x0040}, {0x8744, 0x007e}, {0x8745, 0x0089},
+{0x8746, 0x006e}, {0x8747, 0x00ce}, {0x8748, 0x008f},
+{0x8749, 0x0072}, {0x874a, 0x00bd}, {0x874b, 0x0089},
+{0x874c, 0x00f7}, {0x874d, 0x00ce}, {0x874e, 0x008f},
+{0x874f, 0x0075}, {0x8750, 0x00bd}, {0x8751, 0x0089},
+{0x8752, 0x00f7}, {0x8753, 0x00ce}, {0x8754, 0x008f},
+{0x8755, 0x0078}, {0x8756, 0x00bd}, {0x8757, 0x0089},
+{0x8758, 0x00f7}, {0x8759, 0x00ce}, {0x875a, 0x008f},
+{0x875b, 0x007b}, {0x875c, 0x00bd}, {0x875d, 0x0089},
+{0x875e, 0x00f7}, {0x875f, 0x004f}, {0x8760, 0x00b7},
+{0x8761, 0x008f}, {0x8762, 0x007d}, {0x8763, 0x00b7},
+{0x8764, 0x008f}, {0x8765, 0x0081}, {0x8766, 0x00b6},
+{0x8767, 0x008f}, {0x8768, 0x0072}, {0x8769, 0x0027},
+{0x876a, 0x0047}, {0x876b, 0x007c}, {0x876c, 0x008f},
+{0x876d, 0x007d}, {0x876e, 0x00b6}, {0x876f, 0x008f},
+{0x8770, 0x0075}, {0x8771, 0x0027}, {0x8772, 0x003f},
+{0x8773, 0x007c}, {0x8774, 0x008f}, {0x8775, 0x007d},
+{0x8776, 0x00b6}, {0x8777, 0x008f}, {0x8778, 0x0078},
+{0x8779, 0x0027}, {0x877a, 0x0037}, {0x877b, 0x007c},
+{0x877c, 0x008f}, {0x877d, 0x007d}, {0x877e, 0x00b6},
+{0x877f, 0x008f}, {0x8780, 0x007b}, {0x8781, 0x0027},
+{0x8782, 0x002f}, {0x8783, 0x007f}, {0x8784, 0x008f},
+{0x8785, 0x007d}, {0x8786, 0x007c}, {0x8787, 0x008f},
+{0x8788, 0x0081}, {0x8789, 0x007a}, {0x878a, 0x008f},
+{0x878b, 0x0072}, {0x878c, 0x0027}, {0x878d, 0x001b},
+{0x878e, 0x007c}, {0x878f, 0x008f}, {0x8790, 0x007d},
+{0x8791, 0x007a}, {0x8792, 0x008f}, {0x8793, 0x0075},
+{0x8794, 0x0027}, {0x8795, 0x0016}, {0x8796, 0x007c},
+{0x8797, 0x008f}, {0x8798, 0x007d}, {0x8799, 0x007a},
+{0x879a, 0x008f}, {0x879b, 0x0078}, {0x879c, 0x0027},
+{0x879d, 0x0011}, {0x879e, 0x007c}, {0x879f, 0x008f},
+{0x87a0, 0x007d}, {0x87a1, 0x007a}, {0x87a2, 0x008f},
+{0x87a3, 0x007b}, {0x87a4, 0x0027}, {0x87a5, 0x000c},
+{0x87a6, 0x007e}, {0x87a7, 0x0087}, {0x87a8, 0x0083},
+{0x87a9, 0x007a}, {0x87aa, 0x008f}, {0x87ab, 0x0075},
+{0x87ac, 0x007a}, {0x87ad, 0x008f}, {0x87ae, 0x0078},
+{0x87af, 0x007a}, {0x87b0, 0x008f}, {0x87b1, 0x007b},
+{0x87b2, 0x00ce}, {0x87b3, 0x00c1}, {0x87b4, 0x00fc},
+{0x87b5, 0x00f6}, {0x87b6, 0x008f}, {0x87b7, 0x007d},
+{0x87b8, 0x003a}, {0x87b9, 0x00a6}, {0x87ba, 0x0000},
+{0x87bb, 0x00b7}, {0x87bc, 0x0012}, {0x87bd, 0x0070},
+{0x87be, 0x00b6}, {0x87bf, 0x008f}, {0x87c0, 0x0072},
+{0x87c1, 0x0026}, {0x87c2, 0x0003}, {0x87c3, 0x007e},
+{0x87c4, 0x0087}, {0x87c5, 0x00fa}, {0x87c6, 0x00b6},
+{0x87c7, 0x008f}, {0x87c8, 0x0075}, {0x87c9, 0x0026},
+{0x87ca, 0x000a}, {0x87cb, 0x0018}, {0x87cc, 0x00ce},
+{0x87cd, 0x008f}, {0x87ce, 0x0073}, {0x87cf, 0x00bd},
+{0x87d0, 0x0089}, {0x87d1, 0x00d5}, {0x87d2, 0x007e},
+{0x87d3, 0x0087}, {0x87d4, 0x00fa}, {0x87d5, 0x00b6},
+{0x87d6, 0x008f}, {0x87d7, 0x0078}, {0x87d8, 0x0026},
+{0x87d9, 0x000a}, {0x87da, 0x0018}, {0x87db, 0x00ce},
+{0x87dc, 0x008f}, {0x87dd, 0x0076}, {0x87de, 0x00bd},
+{0x87df, 0x0089}, {0x87e0, 0x00d5}, {0x87e1, 0x007e},
+{0x87e2, 0x0087}, {0x87e3, 0x00fa}, {0x87e4, 0x00b6},
+{0x87e5, 0x008f}, {0x87e6, 0x007b}, {0x87e7, 0x0026},
+{0x87e8, 0x000a}, {0x87e9, 0x0018}, {0x87ea, 0x00ce},
+{0x87eb, 0x008f}, {0x87ec, 0x0079}, {0x87ed, 0x00bd},
+{0x87ee, 0x0089}, {0x87ef, 0x00d5}, {0x87f0, 0x007e},
+{0x87f1, 0x0087}, {0x87f2, 0x00fa}, {0x87f3, 0x0086},
+{0x87f4, 0x0005}, {0x87f5, 0x0097}, {0x87f6, 0x0040},
+{0x87f7, 0x007e}, {0x87f8, 0x0089}, {0x87f9, 0x006e},
+{0x87fa, 0x00b6}, {0x87fb, 0x008f}, {0x87fc, 0x0075},
+{0x87fd, 0x0081}, {0x87fe, 0x0007}, {0x87ff, 0x002e},
+{0x8800, 0x00f2}, {0x8801, 0x00f6}, {0x8802, 0x0012},
+{0x8803, 0x0006}, {0x8804, 0x00c4}, {0x8805, 0x00f8},
+{0x8806, 0x001b}, {0x8807, 0x00b7}, {0x8808, 0x0012},
+{0x8809, 0x0006}, {0x880a, 0x00b6}, {0x880b, 0x008f},
+{0x880c, 0x0078}, {0x880d, 0x0081}, {0x880e, 0x0007},
+{0x880f, 0x002e}, {0x8810, 0x00e2}, {0x8811, 0x0048},
+{0x8812, 0x0048}, {0x8813, 0x0048}, {0x8814, 0x00f6},
+{0x8815, 0x0012}, {0x8816, 0x0006}, {0x8817, 0x00c4},
+{0x8818, 0x00c7}, {0x8819, 0x001b}, {0x881a, 0x00b7},
+{0x881b, 0x0012}, {0x881c, 0x0006}, {0x881d, 0x00b6},
+{0x881e, 0x008f}, {0x881f, 0x007b}, {0x8820, 0x0081},
+{0x8821, 0x0007}, {0x8822, 0x002e}, {0x8823, 0x00cf},
+{0x8824, 0x00f6}, {0x8825, 0x0012}, {0x8826, 0x0005},
+{0x8827, 0x00c4}, {0x8828, 0x00f8}, {0x8829, 0x001b},
+{0x882a, 0x00b7}, {0x882b, 0x0012}, {0x882c, 0x0005},
+{0x882d, 0x0086}, {0x882e, 0x0000}, {0x882f, 0x00f6},
+{0x8830, 0x008f}, {0x8831, 0x0071}, {0x8832, 0x00bd},
+{0x8833, 0x0089}, {0x8834, 0x0094}, {0x8835, 0x0086},
+{0x8836, 0x0001}, {0x8837, 0x00f6}, {0x8838, 0x008f},
+{0x8839, 0x0074}, {0x883a, 0x00bd}, {0x883b, 0x0089},
+{0x883c, 0x0094}, {0x883d, 0x0086}, {0x883e, 0x0002},
+{0x883f, 0x00f6}, {0x8840, 0x008f}, {0x8841, 0x0077},
+{0x8842, 0x00bd}, {0x8843, 0x0089}, {0x8844, 0x0094},
+{0x8845, 0x0086}, {0x8846, 0x0003}, {0x8847, 0x00f6},
+{0x8848, 0x008f}, {0x8849, 0x007a}, {0x884a, 0x00bd},
+{0x884b, 0x0089}, {0x884c, 0x0094}, {0x884d, 0x00ce},
+{0x884e, 0x008f}, {0x884f, 0x0070}, {0x8850, 0x00a6},
+{0x8851, 0x0001}, {0x8852, 0x0081}, {0x8853, 0x0001},
+{0x8854, 0x0027}, {0x8855, 0x0007}, {0x8856, 0x0081},
+{0x8857, 0x0003}, {0x8858, 0x0027}, {0x8859, 0x0003},
+{0x885a, 0x007e}, {0x885b, 0x0088}, {0x885c, 0x0066},
+{0x885d, 0x00a6}, {0x885e, 0x0000}, {0x885f, 0x00b8},
+{0x8860, 0x008f}, {0x8861, 0x0081}, {0x8862, 0x0084},
+{0x8863, 0x0001}, {0x8864, 0x0026}, {0x8865, 0x000b},
+{0x8866, 0x008c}, {0x8867, 0x008f}, {0x8868, 0x0079},
+{0x8869, 0x002c}, {0x886a, 0x000e}, {0x886b, 0x0008},
+{0x886c, 0x0008}, {0x886d, 0x0008}, {0x886e, 0x007e},
+{0x886f, 0x0088}, {0x8870, 0x0050}, {0x8871, 0x00b6},
+{0x8872, 0x0012}, {0x8873, 0x0004}, {0x8874, 0x008a},
+{0x8875, 0x0040}, {0x8876, 0x00b7}, {0x8877, 0x0012},
+{0x8878, 0x0004}, {0x8879, 0x00b6}, {0x887a, 0x0012},
+{0x887b, 0x0004}, {0x887c, 0x0084}, {0x887d, 0x00fb},
+{0x887e, 0x0084}, {0x887f, 0x00ef}, {0x8880, 0x00b7},
+{0x8881, 0x0012}, {0x8882, 0x0004}, {0x8883, 0x00b6},
+{0x8884, 0x0012}, {0x8885, 0x0007}, {0x8886, 0x0036},
+{0x8887, 0x00b6}, {0x8888, 0x008f}, {0x8889, 0x007c},
+{0x888a, 0x0048}, {0x888b, 0x0048}, {0x888c, 0x00b7},
+{0x888d, 0x0012}, {0x888e, 0x0007}, {0x888f, 0x0086},
+{0x8890, 0x0001}, {0x8891, 0x00ba}, {0x8892, 0x0012},
+{0x8893, 0x0004}, {0x8894, 0x00b7}, {0x8895, 0x0012},
+{0x8896, 0x0004}, {0x8897, 0x0001}, {0x8898, 0x0001},
+{0x8899, 0x0001}, {0x889a, 0x0001}, {0x889b, 0x0001},
+{0x889c, 0x0001}, {0x889d, 0x0086}, {0x889e, 0x00fe},
+{0x889f, 0x00b4}, {0x88a0, 0x0012}, {0x88a1, 0x0004},
+{0x88a2, 0x00b7}, {0x88a3, 0x0012}, {0x88a4, 0x0004},
+{0x88a5, 0x0086}, {0x88a6, 0x0002}, {0x88a7, 0x00ba},
+{0x88a8, 0x0012}, {0x88a9, 0x0004}, {0x88aa, 0x00b7},
+{0x88ab, 0x0012}, {0x88ac, 0x0004}, {0x88ad, 0x0086},
+{0x88ae, 0x00fd}, {0x88af, 0x00b4}, {0x88b0, 0x0012},
+{0x88b1, 0x0004}, {0x88b2, 0x00b7}, {0x88b3, 0x0012},
+{0x88b4, 0x0004}, {0x88b5, 0x0032}, {0x88b6, 0x00b7},
+{0x88b7, 0x0012}, {0x88b8, 0x0007}, {0x88b9, 0x00b6},
+{0x88ba, 0x0012}, {0x88bb, 0x0000}, {0x88bc, 0x0084},
+{0x88bd, 0x0008}, {0x88be, 0x0081}, {0x88bf, 0x0008},
+{0x88c0, 0x0027}, {0x88c1, 0x000f}, {0x88c2, 0x007c},
+{0x88c3, 0x0082}, {0x88c4, 0x0008}, {0x88c5, 0x0026},
+{0x88c6, 0x0007}, {0x88c7, 0x0086}, {0x88c8, 0x0076},
+{0x88c9, 0x0097}, {0x88ca, 0x0040}, {0x88cb, 0x007e},
+{0x88cc, 0x0089}, {0x88cd, 0x006e}, {0x88ce, 0x007e},
+{0x88cf, 0x0086}, {0x88d0, 0x00ec}, {0x88d1, 0x00b6},
+{0x88d2, 0x008f}, {0x88d3, 0x007f}, {0x88d4, 0x0081},
+{0x88d5, 0x000f}, {0x88d6, 0x0027}, {0x88d7, 0x003c},
+{0x88d8, 0x00bd}, {0x88d9, 0x00e6}, {0x88da, 0x00c7},
+{0x88db, 0x00b7}, {0x88dc, 0x0012}, {0x88dd, 0x000d},
+{0x88de, 0x00bd}, {0x88df, 0x00e6}, {0x88e0, 0x00cb},
+{0x88e1, 0x00b6}, {0x88e2, 0x0012}, {0x88e3, 0x0004},
+{0x88e4, 0x008a}, {0x88e5, 0x0020}, {0x88e6, 0x00b7},
+{0x88e7, 0x0012}, {0x88e8, 0x0004}, {0x88e9, 0x00ce},
+{0x88ea, 0x00ff}, {0x88eb, 0x00ff}, {0x88ec, 0x00b6},
+{0x88ed, 0x0012}, {0x88ee, 0x0000}, {0x88ef, 0x0081},
+{0x88f0, 0x000c}, {0x88f1, 0x0026}, {0x88f2, 0x0005},
+{0x88f3, 0x0009}, {0x88f4, 0x0026}, {0x88f5, 0x00f6},
+{0x88f6, 0x0027}, {0x88f7, 0x001c}, {0x88f8, 0x00b6},
+{0x88f9, 0x0012}, {0x88fa, 0x0004}, {0x88fb, 0x0084},
+{0x88fc, 0x00df}, {0x88fd, 0x00b7}, {0x88fe, 0x0012},
+{0x88ff, 0x0004}, {0x8900, 0x0096}, {0x8901, 0x0083},
+{0x8902, 0x0081}, {0x8903, 0x0007}, {0x8904, 0x002c},
+{0x8905, 0x0005}, {0x8906, 0x007c}, {0x8907, 0x0000},
+{0x8908, 0x0083}, {0x8909, 0x0020}, {0x890a, 0x0006},
+{0x890b, 0x0096}, {0x890c, 0x0083}, {0x890d, 0x008b},
+{0x890e, 0x0008}, {0x890f, 0x0097}, {0x8910, 0x0083},
+{0x8911, 0x007e}, {0x8912, 0x0085}, {0x8913, 0x0041},
+{0x8914, 0x007f}, {0x8915, 0x008f}, {0x8916, 0x007e},
+{0x8917, 0x0086}, {0x8918, 0x0080}, {0x8919, 0x00b7},
+{0x891a, 0x0012}, {0x891b, 0x000c}, {0x891c, 0x0086},
+{0x891d, 0x0001}, {0x891e, 0x00b7}, {0x891f, 0x008f},
+{0x8920, 0x007d}, {0x8921, 0x00b6}, {0x8922, 0x0012},
+{0x8923, 0x000c}, {0x8924, 0x0084}, {0x8925, 0x007f},
+{0x8926, 0x00b7}, {0x8927, 0x0012}, {0x8928, 0x000c},
+{0x8929, 0x008a}, {0x892a, 0x0080}, {0x892b, 0x00b7},
+{0x892c, 0x0012}, {0x892d, 0x000c}, {0x892e, 0x0086},
+{0x892f, 0x000a}, {0x8930, 0x00bd}, {0x8931, 0x008a},
+{0x8932, 0x0006}, {0x8933, 0x00b6}, {0x8934, 0x0012},
+{0x8935, 0x000a}, {0x8936, 0x002a}, {0x8937, 0x0009},
+{0x8938, 0x00b6}, {0x8939, 0x0012}, {0x893a, 0x000c},
+{0x893b, 0x00ba}, {0x893c, 0x008f}, {0x893d, 0x007d},
+{0x893e, 0x00b7}, {0x893f, 0x0012}, {0x8940, 0x000c},
+{0x8941, 0x00b6}, {0x8942, 0x008f}, {0x8943, 0x007e},
+{0x8944, 0x0081}, {0x8945, 0x0060}, {0x8946, 0x0027},
+{0x8947, 0x001a}, {0x8948, 0x008b}, {0x8949, 0x0020},
+{0x894a, 0x00b7}, {0x894b, 0x008f}, {0x894c, 0x007e},
+{0x894d, 0x00b6}, {0x894e, 0x0012}, {0x894f, 0x000c},
+{0x8950, 0x0084}, {0x8951, 0x009f}, {0x8952, 0x00ba},
+{0x8953, 0x008f}, {0x8954, 0x007e}, {0x8955, 0x00b7},
+{0x8956, 0x0012}, {0x8957, 0x000c}, {0x8958, 0x00b6},
+{0x8959, 0x008f}, {0x895a, 0x007d}, {0x895b, 0x0048},
+{0x895c, 0x00b7}, {0x895d, 0x008f}, {0x895e, 0x007d},
+{0x895f, 0x007e}, {0x8960, 0x0089}, {0x8961, 0x0021},
+{0x8962, 0x00b6}, {0x8963, 0x0012}, {0x8964, 0x0004},
+{0x8965, 0x008a}, {0x8966, 0x0020}, {0x8967, 0x00b7},
+{0x8968, 0x0012}, {0x8969, 0x0004}, {0x896a, 0x00bd},
+{0x896b, 0x008a}, {0x896c, 0x000a}, {0x896d, 0x004f},
+{0x896e, 0x0039}, {0x896f, 0x00a6}, {0x8970, 0x0000},
+{0x8971, 0x0018}, {0x8972, 0x00a7}, {0x8973, 0x0000},
+{0x8974, 0x0008}, {0x8975, 0x0018}, {0x8976, 0x0008},
+{0x8977, 0x005a}, {0x8978, 0x0026}, {0x8979, 0x00f5},
+{0x897a, 0x0039}, {0x897b, 0x0036}, {0x897c, 0x006c},
+{0x897d, 0x0000}, {0x897e, 0x0032}, {0x897f, 0x00ba},
+{0x8980, 0x008f}, {0x8981, 0x007f}, {0x8982, 0x00b7},
+{0x8983, 0x008f}, {0x8984, 0x007f}, {0x8985, 0x00b6},
+{0x8986, 0x0012}, {0x8987, 0x0009}, {0x8988, 0x0084},
+{0x8989, 0x0003}, {0x898a, 0x00a7}, {0x898b, 0x0001},
+{0x898c, 0x00b6}, {0x898d, 0x0012}, {0x898e, 0x0006},
+{0x898f, 0x0084}, {0x8990, 0x003f}, {0x8991, 0x00a7},
+{0x8992, 0x0002}, {0x8993, 0x0039}, {0x8994, 0x0036},
+{0x8995, 0x0086}, {0x8996, 0x0003}, {0x8997, 0x00b7},
+{0x8998, 0x008f}, {0x8999, 0x0080}, {0x899a, 0x0032},
+{0x899b, 0x00c1}, {0x899c, 0x0000}, {0x899d, 0x0026},
+{0x899e, 0x0006}, {0x899f, 0x00b7}, {0x89a0, 0x008f},
+{0x89a1, 0x007c}, {0x89a2, 0x007e}, {0x89a3, 0x0089},
+{0x89a4, 0x00c9}, {0x89a5, 0x00c1}, {0x89a6, 0x0001},
+{0x89a7, 0x0027}, {0x89a8, 0x0018}, {0x89a9, 0x00c1},
+{0x89aa, 0x0002}, {0x89ab, 0x0027}, {0x89ac, 0x000c},
+{0x89ad, 0x00c1}, {0x89ae, 0x0003}, {0x89af, 0x0027},
+{0x89b0, 0x0000}, {0x89b1, 0x00f6}, {0x89b2, 0x008f},
+{0x89b3, 0x0080}, {0x89b4, 0x0005}, {0x89b5, 0x0005},
+{0x89b6, 0x00f7}, {0x89b7, 0x008f}, {0x89b8, 0x0080},
+{0x89b9, 0x00f6}, {0x89ba, 0x008f}, {0x89bb, 0x0080},
+{0x89bc, 0x0005}, {0x89bd, 0x0005}, {0x89be, 0x00f7},
+{0x89bf, 0x008f}, {0x89c0, 0x0080}, {0x89c1, 0x00f6},
+{0x89c2, 0x008f}, {0x89c3, 0x0080}, {0x89c4, 0x0005},
+{0x89c5, 0x0005}, {0x89c6, 0x00f7}, {0x89c7, 0x008f},
+{0x89c8, 0x0080}, {0x89c9, 0x00f6}, {0x89ca, 0x008f},
+{0x89cb, 0x0080}, {0x89cc, 0x0053}, {0x89cd, 0x00f4},
+{0x89ce, 0x0012}, {0x89cf, 0x0007}, {0x89d0, 0x001b},
+{0x89d1, 0x00b7}, {0x89d2, 0x0012}, {0x89d3, 0x0007},
+{0x89d4, 0x0039}, {0x89d5, 0x00ce}, {0x89d6, 0x008f},
+{0x89d7, 0x0070}, {0x89d8, 0x00a6}, {0x89d9, 0x0000},
+{0x89da, 0x0018}, {0x89db, 0x00e6}, {0x89dc, 0x0000},
+{0x89dd, 0x0018}, {0x89de, 0x00a7}, {0x89df, 0x0000},
+{0x89e0, 0x00e7}, {0x89e1, 0x0000}, {0x89e2, 0x00a6},
+{0x89e3, 0x0001}, {0x89e4, 0x0018}, {0x89e5, 0x00e6},
+{0x89e6, 0x0001}, {0x89e7, 0x0018}, {0x89e8, 0x00a7},
+{0x89e9, 0x0001}, {0x89ea, 0x00e7}, {0x89eb, 0x0001},
+{0x89ec, 0x00a6}, {0x89ed, 0x0002}, {0x89ee, 0x0018},
+{0x89ef, 0x00e6}, {0x89f0, 0x0002}, {0x89f1, 0x0018},
+{0x89f2, 0x00a7}, {0x89f3, 0x0002}, {0x89f4, 0x00e7},
+{0x89f5, 0x0002}, {0x89f6, 0x0039}, {0x89f7, 0x00a6},
+{0x89f8, 0x0000}, {0x89f9, 0x0084}, {0x89fa, 0x0007},
+{0x89fb, 0x00e6}, {0x89fc, 0x0000}, {0x89fd, 0x00c4},
+{0x89fe, 0x0038}, {0x89ff, 0x0054}, {0x8a00, 0x0054},
+{0x8a01, 0x0054}, {0x8a02, 0x001b}, {0x8a03, 0x00a7},
+{0x8a04, 0x0000}, {0x8a05, 0x0039}, {0x8a06, 0x004a},
+{0x8a07, 0x0026}, {0x8a08, 0x00fd}, {0x8a09, 0x0039},
+{0x8a0a, 0x0096}, {0x8a0b, 0x0022}, {0x8a0c, 0x0084},
+{0x8a0d, 0x000f}, {0x8a0e, 0x0097}, {0x8a0f, 0x0022},
+{0x8a10, 0x0086}, {0x8a11, 0x0001}, {0x8a12, 0x00b7},
+{0x8a13, 0x008f}, {0x8a14, 0x0070}, {0x8a15, 0x00b6},
+{0x8a16, 0x0012}, {0x8a17, 0x0007}, {0x8a18, 0x00b7},
+{0x8a19, 0x008f}, {0x8a1a, 0x0071}, {0x8a1b, 0x00f6},
+{0x8a1c, 0x0012}, {0x8a1d, 0x000c}, {0x8a1e, 0x00c4},
+{0x8a1f, 0x000f}, {0x8a20, 0x00c8}, {0x8a21, 0x000f},
+{0x8a22, 0x00f7}, {0x8a23, 0x008f}, {0x8a24, 0x0072},
+{0x8a25, 0x00f6}, {0x8a26, 0x008f}, {0x8a27, 0x0072},
+{0x8a28, 0x00b6}, {0x8a29, 0x008f}, {0x8a2a, 0x0071},
+{0x8a2b, 0x0084}, {0x8a2c, 0x0003}, {0x8a2d, 0x0027},
+{0x8a2e, 0x0014}, {0x8a2f, 0x0081}, {0x8a30, 0x0001},
+{0x8a31, 0x0027}, {0x8a32, 0x001c}, {0x8a33, 0x0081},
+{0x8a34, 0x0002}, {0x8a35, 0x0027}, {0x8a36, 0x0024},
+{0x8a37, 0x00f4}, {0x8a38, 0x008f}, {0x8a39, 0x0070},
+{0x8a3a, 0x0027}, {0x8a3b, 0x002a}, {0x8a3c, 0x0096},
+{0x8a3d, 0x0022}, {0x8a3e, 0x008a}, {0x8a3f, 0x0080},
+{0x8a40, 0x007e}, {0x8a41, 0x008a}, {0x8a42, 0x0064},
+{0x8a43, 0x00f4}, {0x8a44, 0x008f}, {0x8a45, 0x0070},
+{0x8a46, 0x0027}, {0x8a47, 0x001e}, {0x8a48, 0x0096},
+{0x8a49, 0x0022}, {0x8a4a, 0x008a}, {0x8a4b, 0x0010},
+{0x8a4c, 0x007e}, {0x8a4d, 0x008a}, {0x8a4e, 0x0064},
+{0x8a4f, 0x00f4}, {0x8a50, 0x008f}, {0x8a51, 0x0070},
+{0x8a52, 0x0027}, {0x8a53, 0x0012}, {0x8a54, 0x0096},
+{0x8a55, 0x0022}, {0x8a56, 0x008a}, {0x8a57, 0x0020},
+{0x8a58, 0x007e}, {0x8a59, 0x008a}, {0x8a5a, 0x0064},
+{0x8a5b, 0x00f4}, {0x8a5c, 0x008f}, {0x8a5d, 0x0070},
+{0x8a5e, 0x0027}, {0x8a5f, 0x0006}, {0x8a60, 0x0096},
+{0x8a61, 0x0022}, {0x8a62, 0x008a}, {0x8a63, 0x0040},
+{0x8a64, 0x0097}, {0x8a65, 0x0022}, {0x8a66, 0x0074},
+{0x8a67, 0x008f}, {0x8a68, 0x0071}, {0x8a69, 0x0074},
+{0x8a6a, 0x008f}, {0x8a6b, 0x0071}, {0x8a6c, 0x0078},
+{0x8a6d, 0x008f}, {0x8a6e, 0x0070}, {0x8a6f, 0x00b6},
+{0x8a70, 0x008f}, {0x8a71, 0x0070}, {0x8a72, 0x0085},
+{0x8a73, 0x0010}, {0x8a74, 0x0027}, {0x8a75, 0x00af},
+{0x8a76, 0x00d6}, {0x8a77, 0x0022}, {0x8a78, 0x00c4},
+{0x8a79, 0x0010}, {0x8a7a, 0x0058}, {0x8a7b, 0x00b6},
+{0x8a7c, 0x0012}, {0x8a7d, 0x0070}, {0x8a7e, 0x0081},
+{0x8a7f, 0x00e4}, {0x8a80, 0x0027}, {0x8a81, 0x0036},
+{0x8a82, 0x0081}, {0x8a83, 0x00e1}, {0x8a84, 0x0026},
+{0x8a85, 0x000c}, {0x8a86, 0x0096}, {0x8a87, 0x0022},
+{0x8a88, 0x0084}, {0x8a89, 0x0020}, {0x8a8a, 0x0044},
+{0x8a8b, 0x001b}, {0x8a8c, 0x00d6}, {0x8a8d, 0x0022},
+{0x8a8e, 0x00c4}, {0x8a8f, 0x00cf}, {0x8a90, 0x0020},
+{0x8a91, 0x0023}, {0x8a92, 0x0058}, {0x8a93, 0x0081},
+{0x8a94, 0x00c6}, {0x8a95, 0x0026}, {0x8a96, 0x000d},
+{0x8a97, 0x0096}, {0x8a98, 0x0022}, {0x8a99, 0x0084},
+{0x8a9a, 0x0040}, {0x8a9b, 0x0044}, {0x8a9c, 0x0044},
+{0x8a9d, 0x001b}, {0x8a9e, 0x00d6}, {0x8a9f, 0x0022},
+{0x8aa0, 0x00c4}, {0x8aa1, 0x00af}, {0x8aa2, 0x0020},
+{0x8aa3, 0x0011}, {0x8aa4, 0x0058}, {0x8aa5, 0x0081},
+{0x8aa6, 0x0027}, {0x8aa7, 0x0026}, {0x8aa8, 0x000f},
+{0x8aa9, 0x0096}, {0x8aaa, 0x0022}, {0x8aab, 0x0084},
+{0x8aac, 0x0080}, {0x8aad, 0x0044}, {0x8aae, 0x0044},
+{0x8aaf, 0x0044}, {0x8ab0, 0x001b}, {0x8ab1, 0x00d6},
+{0x8ab2, 0x0022}, {0x8ab3, 0x00c4}, {0x8ab4, 0x006f},
+{0x8ab5, 0x001b}, {0x8ab6, 0x0097}, {0x8ab7, 0x0022},
+{0x8ab8, 0x0039}, {0x8ab9, 0x0027}, {0x8aba, 0x000c},
+{0x8abb, 0x007c}, {0x8abc, 0x0082}, {0x8abd, 0x0006},
+{0x8abe, 0x00bd}, {0x8abf, 0x00d9}, {0x8ac0, 0x00ed},
+{0x8ac1, 0x00b6}, {0x8ac2, 0x0082}, {0x8ac3, 0x0007},
+{0x8ac4, 0x007e}, {0x8ac5, 0x008a}, {0x8ac6, 0x00b9},
+{0x8ac7, 0x007f}, {0x8ac8, 0x0082}, {0x8ac9, 0x0006},
+{0x8aca, 0x0039}, { 0x0, 0x0 }
+};
+#endif
+
+
+/* phy types */
+#define CAS_PHY_UNKNOWN 0x00
+#define CAS_PHY_SERDES 0x01
+#define CAS_PHY_MII_MDIO0 0x02
+#define CAS_PHY_MII_MDIO1 0x04
+#define CAS_PHY_MII(x) ((x) & (CAS_PHY_MII_MDIO0 | CAS_PHY_MII_MDIO1))
+
+/* _RING_INDEX is the index for the ring sizes to be used. _RING_SIZE
+ * is the actual size. the default index for the various rings is
+ * 8. NOTE: there a bunch of alignment constraints for the rings. to
+ * deal with that, i just allocate rings to create the desired
+ * alignment. here are the constraints:
+ * RX DESC and COMP rings must be 8KB aligned
+ * TX DESC must be 2KB aligned.
+ * if you change the numbers, be cognizant of how the alignment will change
+ * in INIT_BLOCK as well.
+ */
+
+#define DESC_RING_I_TO_S(x) (32*(1 << (x)))
+#define COMP_RING_I_TO_S(x) (128*(1 << (x)))
+#define TX_DESC_RING_INDEX 4 /* 512 = 8k */
+#define RX_DESC_RING_INDEX 4 /* 512 = 8k */
+#define RX_COMP_RING_INDEX 4 /* 2048 = 64k: should be 4x rx ring size */
+
+#if (TX_DESC_RING_INDEX > 8) || (TX_DESC_RING_INDEX < 0)
+#error TX_DESC_RING_INDEX must be between 0 and 8
+#endif
+
+#if (RX_DESC_RING_INDEX > 8) || (RX_DESC_RING_INDEX < 0)
+#error RX_DESC_RING_INDEX must be between 0 and 8
+#endif
+
+#if (RX_COMP_RING_INDEX > 8) || (RX_COMP_RING_INDEX < 0)
+#error RX_COMP_RING_INDEX must be between 0 and 8
+#endif
+
+#define N_TX_RINGS MAX_TX_RINGS /* for QoS */
+#define N_TX_RINGS_MASK MAX_TX_RINGS_MASK
+#define N_RX_DESC_RINGS MAX_RX_DESC_RINGS /* 1 for ipsec */
+#define N_RX_COMP_RINGS 0x1 /* for mult. PCI interrupts */
+
+/* number of flows that can go through re-assembly */
+#define N_RX_FLOWS 64
+
+#define TX_DESC_RING_SIZE DESC_RING_I_TO_S(TX_DESC_RING_INDEX)
+#define RX_DESC_RING_SIZE DESC_RING_I_TO_S(RX_DESC_RING_INDEX)
+#define RX_COMP_RING_SIZE COMP_RING_I_TO_S(RX_COMP_RING_INDEX)
+#define TX_DESC_RINGN_INDEX(x) TX_DESC_RING_INDEX
+#define RX_DESC_RINGN_INDEX(x) RX_DESC_RING_INDEX
+#define RX_COMP_RINGN_INDEX(x) RX_COMP_RING_INDEX
+#define TX_DESC_RINGN_SIZE(x) TX_DESC_RING_SIZE
+#define RX_DESC_RINGN_SIZE(x) RX_DESC_RING_SIZE
+#define RX_COMP_RINGN_SIZE(x) RX_COMP_RING_SIZE
+
+/* convert values */
+#define CAS_BASE(x, y) (((y) << (x ## _SHIFT)) & (x ## _MASK))
+#define CAS_VAL(x, y) (((y) & (x ## _MASK)) >> (x ## _SHIFT))
+#define CAS_TX_RINGN_BASE(y) ((TX_DESC_RINGN_INDEX(y) << \
+ TX_CFG_DESC_RINGN_SHIFT(y)) & \
+ TX_CFG_DESC_RINGN_MASK(y))
+
+/* min is 2k, but we can't do jumbo frames unless it's at least 8k */
+#define CAS_MIN_PAGE_SHIFT 11 /* 2048 */
+#define CAS_JUMBO_PAGE_SHIFT 13 /* 8192 */
+#define CAS_MAX_PAGE_SHIFT 14 /* 16384 */
+
+#define TX_DESC_BUFLEN_MASK 0x0000000000003FFFULL /* buffer length in
+ bytes. 0 - 9256 */
+#define TX_DESC_BUFLEN_SHIFT 0
+#define TX_DESC_CSUM_START_MASK 0x00000000001F8000ULL /* checksum start. #
+ of bytes to be
+ skipped before
+ csum calc begins.
+ value must be
+ even */
+#define TX_DESC_CSUM_START_SHIFT 15
+#define TX_DESC_CSUM_STUFF_MASK 0x000000001FE00000ULL /* checksum stuff.
+ byte offset w/in
+ the pkt for the
+ 1st csum byte.
+ must be > 8 */
+#define TX_DESC_CSUM_STUFF_SHIFT 21
+#define TX_DESC_CSUM_EN 0x0000000020000000ULL /* enable checksum */
+#define TX_DESC_EOF 0x0000000040000000ULL /* end of frame */
+#define TX_DESC_SOF 0x0000000080000000ULL /* start of frame */
+#define TX_DESC_INTME 0x0000000100000000ULL /* interrupt me */
+#define TX_DESC_NO_CRC 0x0000000200000000ULL /* debugging only.
+ CRC will not be
+ inserted into
+ outgoing frame. */
+struct cas_tx_desc {
+ u64 control;
+ u64 buffer;
+};
+
+/* descriptor ring for free buffers contains page-sized buffers. the index
+ * value is not used by the hw in any way. it's just stored and returned in
+ * the completion ring.
+ */
+struct cas_rx_desc {
+ u64 index;
+ u64 buffer;
+};
+
+/* received packets are put on the completion ring. */
+/* word 1 */
+#define RX_COMP1_DATA_SIZE_MASK 0x0000000007FFE000ULL
+#define RX_COMP1_DATA_SIZE_SHIFT 13
+#define RX_COMP1_DATA_OFF_MASK 0x000001FFF8000000ULL
+#define RX_COMP1_DATA_OFF_SHIFT 27
+#define RX_COMP1_DATA_INDEX_MASK 0x007FFE0000000000ULL
+#define RX_COMP1_DATA_INDEX_SHIFT 41
+#define RX_COMP1_SKIP_MASK 0x0180000000000000ULL
+#define RX_COMP1_SKIP_SHIFT 55
+#define RX_COMP1_RELEASE_NEXT 0x0200000000000000ULL
+#define RX_COMP1_SPLIT_PKT 0x0400000000000000ULL
+#define RX_COMP1_RELEASE_FLOW 0x0800000000000000ULL
+#define RX_COMP1_RELEASE_DATA 0x1000000000000000ULL
+#define RX_COMP1_RELEASE_HDR 0x2000000000000000ULL
+#define RX_COMP1_TYPE_MASK 0xC000000000000000ULL
+#define RX_COMP1_TYPE_SHIFT 62
+
+/* word 2 */
+#define RX_COMP2_NEXT_INDEX_MASK 0x00000007FFE00000ULL
+#define RX_COMP2_NEXT_INDEX_SHIFT 21
+#define RX_COMP2_HDR_SIZE_MASK 0x00000FF800000000ULL
+#define RX_COMP2_HDR_SIZE_SHIFT 35
+#define RX_COMP2_HDR_OFF_MASK 0x0003F00000000000ULL
+#define RX_COMP2_HDR_OFF_SHIFT 44
+#define RX_COMP2_HDR_INDEX_MASK 0xFFFC000000000000ULL
+#define RX_COMP2_HDR_INDEX_SHIFT 50
+
+/* word 3 */
+#define RX_COMP3_SMALL_PKT 0x0000000000000001ULL
+#define RX_COMP3_JUMBO_PKT 0x0000000000000002ULL
+#define RX_COMP3_JUMBO_HDR_SPLIT_EN 0x0000000000000004ULL
+#define RX_COMP3_CSUM_START_MASK 0x000000000007F000ULL
+#define RX_COMP3_CSUM_START_SHIFT 12
+#define RX_COMP3_FLOWID_MASK 0x0000000001F80000ULL
+#define RX_COMP3_FLOWID_SHIFT 19
+#define RX_COMP3_OPCODE_MASK 0x000000000E000000ULL
+#define RX_COMP3_OPCODE_SHIFT 25
+#define RX_COMP3_FORCE_FLAG 0x0000000010000000ULL
+#define RX_COMP3_NO_ASSIST 0x0000000020000000ULL
+#define RX_COMP3_LOAD_BAL_MASK 0x000001F800000000ULL
+#define RX_COMP3_LOAD_BAL_SHIFT 35
+#define RX_PLUS_COMP3_ENC_PKT 0x0000020000000000ULL /* cas+ */
+#define RX_COMP3_L3_HEAD_OFF_MASK 0x0000FE0000000000ULL /* cas */
+#define RX_COMP3_L3_HEAD_OFF_SHIFT 41
+#define RX_PLUS_COMP_L3_HEAD_OFF_MASK 0x0000FC0000000000ULL /* cas+ */
+#define RX_PLUS_COMP_L3_HEAD_OFF_SHIFT 42
+#define RX_COMP3_SAP_MASK 0xFFFF000000000000ULL
+#define RX_COMP3_SAP_SHIFT 48
+
+/* word 4 */
+#define RX_COMP4_TCP_CSUM_MASK 0x000000000000FFFFULL
+#define RX_COMP4_TCP_CSUM_SHIFT 0
+#define RX_COMP4_PKT_LEN_MASK 0x000000003FFF0000ULL
+#define RX_COMP4_PKT_LEN_SHIFT 16
+#define RX_COMP4_PERFECT_MATCH_MASK 0x00000003C0000000ULL
+#define RX_COMP4_PERFECT_MATCH_SHIFT 30
+#define RX_COMP4_ZERO 0x0000080000000000ULL
+#define RX_COMP4_HASH_VAL_MASK 0x0FFFF00000000000ULL
+#define RX_COMP4_HASH_VAL_SHIFT 44
+#define RX_COMP4_HASH_PASS 0x1000000000000000ULL
+#define RX_COMP4_BAD 0x4000000000000000ULL
+#define RX_COMP4_LEN_MISMATCH 0x8000000000000000ULL
+
+/* we encode the following: ring/index/release. only 14 bits
+ * are usable.
+ * NOTE: the encoding is dependent upon RX_DESC_RING_SIZE and
+ * MAX_RX_DESC_RINGS. */
+#define RX_INDEX_NUM_MASK 0x0000000000000FFFULL
+#define RX_INDEX_NUM_SHIFT 0
+#define RX_INDEX_RING_MASK 0x0000000000001000ULL
+#define RX_INDEX_RING_SHIFT 12
+#define RX_INDEX_RELEASE 0x0000000000002000ULL
+
+struct cas_rx_comp {
+ u64 word1;
+ u64 word2;
+ u64 word3;
+ u64 word4;
+};
+
+enum link_state {
+ link_down = 0, /* No link, will retry */
+ link_aneg, /* Autoneg in progress */
+ link_force_try, /* Try Forced link speed */
+ link_force_ret, /* Forced mode worked, retrying autoneg */
+ link_force_ok, /* Stay in forced mode */
+ link_up /* Link is up */
+};
+
+typedef struct cas_page {
+ struct list_head list;
+ struct page *buffer;
+ dma_addr_t dma_addr;
+ int used;
+} cas_page_t;
+
+
+/* some alignment constraints:
+ * TX DESC, RX DESC, and RX COMP must each be 8K aligned.
+ * TX COMPWB must be 8-byte aligned.
+ * to accomplish this, here's what we do:
+ *
+ * INIT_BLOCK_RX_COMP = 64k (already aligned)
+ * INIT_BLOCK_RX_DESC = 8k
+ * INIT_BLOCK_TX = 8k
+ * INIT_BLOCK_RX1_DESC = 8k
+ * TX COMPWB
+ */
+#define INIT_BLOCK_TX (TX_DESC_RING_SIZE)
+#define INIT_BLOCK_RX_DESC (RX_DESC_RING_SIZE)
+#define INIT_BLOCK_RX_COMP (RX_COMP_RING_SIZE)
+
+struct cas_init_block {
+ struct cas_rx_comp rxcs[N_RX_COMP_RINGS][INIT_BLOCK_RX_COMP];
+ struct cas_rx_desc rxds[N_RX_DESC_RINGS][INIT_BLOCK_RX_DESC];
+ struct cas_tx_desc txds[N_TX_RINGS][INIT_BLOCK_TX];
+ u64 tx_compwb;
+};
+
+/* tiny buffers to deal with target abort issue. we allocate a bit
+ * over so that we don't have target abort issues with these buffers
+ * as well.
+ */
+#define TX_TINY_BUF_LEN 0x100
+#define TX_TINY_BUF_BLOCK ((INIT_BLOCK_TX + 1)*TX_TINY_BUF_LEN)
+
+struct cas_tiny_count {
+ int nbufs;
+ int used;
+};
+
+struct cas {
+ spinlock_t lock; /* for most bits */
+ spinlock_t tx_lock[N_TX_RINGS]; /* tx bits */
+ spinlock_t stat_lock[N_TX_RINGS + 1]; /* for stat gathering */
+ spinlock_t rx_inuse_lock; /* rx inuse list */
+ spinlock_t rx_spare_lock; /* rx spare list */
+
+ void __iomem *regs;
+ int tx_new[N_TX_RINGS], tx_old[N_TX_RINGS];
+ int rx_old[N_RX_DESC_RINGS];
+ int rx_cur[N_RX_COMP_RINGS], rx_new[N_RX_COMP_RINGS];
+ int rx_last[N_RX_DESC_RINGS];
+
+ /* Set when chip is actually in operational state
+ * (ie. not power managed) */
+ int hw_running;
+ int opened;
+ struct semaphore pm_sem; /* open/close/suspend/resume */
+
+ struct cas_init_block *init_block;
+ struct cas_tx_desc *init_txds[MAX_TX_RINGS];
+ struct cas_rx_desc *init_rxds[MAX_RX_DESC_RINGS];
+ struct cas_rx_comp *init_rxcs[MAX_RX_COMP_RINGS];
+
+ /* we use sk_buffs for tx and pages for rx. the rx skbuffs
+ * are there for flow re-assembly. */
+ struct sk_buff *tx_skbs[N_TX_RINGS][TX_DESC_RING_SIZE];
+ struct sk_buff_head rx_flows[N_RX_FLOWS];
+ cas_page_t *rx_pages[N_RX_DESC_RINGS][RX_DESC_RING_SIZE];
+ struct list_head rx_spare_list, rx_inuse_list;
+ int rx_spares_needed;
+
+ /* for small packets when copying would be quicker than
+ mapping */
+ struct cas_tiny_count tx_tiny_use[N_TX_RINGS][TX_DESC_RING_SIZE];
+ u8 *tx_tiny_bufs[N_TX_RINGS];
+
+ u32 msg_enable;
+
+ /* N_TX_RINGS must be >= N_RX_DESC_RINGS */
+ struct net_device_stats net_stats[N_TX_RINGS + 1];
+
+ u32 pci_cfg[64 >> 2];
+ u8 pci_revision;
+
+ int phy_type;
+ int phy_addr;
+ u32 phy_id;
+#define CAS_FLAG_1000MB_CAP 0x00000001
+#define CAS_FLAG_REG_PLUS 0x00000002
+#define CAS_FLAG_TARGET_ABORT 0x00000004
+#define CAS_FLAG_SATURN 0x00000008
+#define CAS_FLAG_RXD_POST_MASK 0x000000F0
+#define CAS_FLAG_RXD_POST_SHIFT 4
+#define CAS_FLAG_RXD_POST(x) ((1 << (CAS_FLAG_RXD_POST_SHIFT + (x))) & \
+ CAS_FLAG_RXD_POST_MASK)
+#define CAS_FLAG_ENTROPY_DEV 0x00000100
+#define CAS_FLAG_NO_HW_CSUM 0x00000200
+ u32 cas_flags;
+ int packet_min; /* minimum packet size */
+ int tx_fifo_size;
+ int rx_fifo_size;
+ int rx_pause_off;
+ int rx_pause_on;
+ int crc_size; /* 4 if half-duplex */
+
+ int pci_irq_INTC;
+ int min_frame_size; /* for tx fifo workaround */
+
+ /* page size allocation */
+ int page_size;
+ int page_order;
+ int mtu_stride;
+
+ u32 mac_rx_cfg;
+
+ /* Autoneg & PHY control */
+ int link_cntl;
+ int link_fcntl;
+ enum link_state lstate;
+ struct timer_list link_timer;
+ int timer_ticks;
+ struct work_struct reset_task;
+#if 0
+ atomic_t reset_task_pending;
+#else
+ atomic_t reset_task_pending;
+ atomic_t reset_task_pending_mtu;
+ atomic_t reset_task_pending_spare;
+ atomic_t reset_task_pending_all;
+#endif
+
+#ifdef CONFIG_CASSINI_QGE_DEBUG
+ atomic_t interrupt_seen; /* 1 if any interrupts are getting through */
+#endif
+
+ /* Link-down problem workaround */
+#define LINK_TRANSITION_UNKNOWN 0
+#define LINK_TRANSITION_ON_FAILURE 1
+#define LINK_TRANSITION_STILL_FAILED 2
+#define LINK_TRANSITION_LINK_UP 3
+#define LINK_TRANSITION_LINK_CONFIG 4
+#define LINK_TRANSITION_LINK_DOWN 5
+#define LINK_TRANSITION_REQUESTED_RESET 6
+ int link_transition;
+ int link_transition_jiffies_valid;
+ unsigned long link_transition_jiffies;
+
+ /* Tuning */
+ u8 orig_cacheline_size; /* value when loaded */
+#define CAS_PREF_CACHELINE_SIZE 0x20 /* Minimum desired */
+
+ /* Diagnostic counters and state. */
+ int casreg_len; /* reg-space size for dumping */
+ u64 pause_entered;
+ u16 pause_last_time_recvd;
+
+ dma_addr_t block_dvma, tx_tiny_dvma[N_TX_RINGS];
+ struct pci_dev *pdev;
+ struct net_device *dev;
+};
+
+#define TX_DESC_NEXT(r, x) (((x) + 1) & (TX_DESC_RINGN_SIZE(r) - 1))
+#define RX_DESC_ENTRY(r, x) ((x) & (RX_DESC_RINGN_SIZE(r) - 1))
+#define RX_COMP_ENTRY(r, x) ((x) & (RX_COMP_RINGN_SIZE(r) - 1))
+
+#define TX_BUFF_COUNT(r, x, y) ((x) <= (y) ? ((y) - (x)) : \
+ (TX_DESC_RINGN_SIZE(r) - (x) + (y)))
+
+#define TX_BUFFS_AVAIL(cp, i) ((cp)->tx_old[(i)] <= (cp)->tx_new[(i)] ? \
+ (cp)->tx_old[(i)] + (TX_DESC_RINGN_SIZE(i) - 1) - (cp)->tx_new[(i)] : \
+ (cp)->tx_old[(i)] - (cp)->tx_new[(i)] - 1)
+
+#define CAS_ALIGN(addr, align) \
+ (((unsigned long) (addr) + ((align) - 1UL)) & ~((align) - 1))
+
+#define RX_FIFO_SIZE 16384
+#define EXPANSION_ROM_SIZE 65536
+
+#define CAS_MC_EXACT_MATCH_SIZE 15
+#define CAS_MC_HASH_SIZE 256
+#define CAS_MC_HASH_MAX (CAS_MC_EXACT_MATCH_SIZE + \
+ CAS_MC_HASH_SIZE)
+
+#define TX_TARGET_ABORT_LEN 0x20
+#define RX_SWIVEL_OFF_VAL 0x2
+#define RX_AE_FREEN_VAL(x) (RX_DESC_RINGN_SIZE(x) >> 1)
+#define RX_AE_COMP_VAL (RX_COMP_RING_SIZE >> 1)
+#define RX_BLANK_INTR_PKT_VAL 0x05
+#define RX_BLANK_INTR_TIME_VAL 0x0F
+#define HP_TCP_THRESH_VAL 1530 /* reduce to enable reassembly */
+
+#define RX_SPARE_COUNT (RX_DESC_RING_SIZE >> 1)
+#define RX_SPARE_RECOVER_VAL (RX_SPARE_COUNT >> 2)
+
+#endif /* _CASSINI_H */
diff --git a/drivers/net/cs89x0.c b/drivers/net/cs89x0.c
index cdc07ccd733..a6078ad9b65 100644
--- a/drivers/net/cs89x0.c
+++ b/drivers/net/cs89x0.c
@@ -140,6 +140,7 @@
#include <asm/system.h>
#include <asm/io.h>
+#include <asm/irq.h>
#if ALLOW_DMA
#include <asm/dma.h>
#endif
diff --git a/drivers/net/e100.c b/drivers/net/e100.c
index 25cc20e415d..fbf1c06ec5c 100644
--- a/drivers/net/e100.c
+++ b/drivers/net/e100.c
@@ -1387,13 +1387,13 @@ static void e100_update_stats(struct nic *nic)
ns->collisions += nic->tx_collisions;
ns->tx_errors += le32_to_cpu(s->tx_max_collisions) +
le32_to_cpu(s->tx_lost_crs);
- ns->rx_dropped += le32_to_cpu(s->rx_resource_errors);
ns->rx_length_errors += le32_to_cpu(s->rx_short_frame_errors) +
nic->rx_over_length_errors;
ns->rx_crc_errors += le32_to_cpu(s->rx_crc_errors);
ns->rx_frame_errors += le32_to_cpu(s->rx_alignment_errors);
ns->rx_over_errors += le32_to_cpu(s->rx_overrun_errors);
ns->rx_fifo_errors += le32_to_cpu(s->rx_overrun_errors);
+ ns->rx_missed_errors += le32_to_cpu(s->rx_resource_errors);
ns->rx_errors += le32_to_cpu(s->rx_crc_errors) +
le32_to_cpu(s->rx_alignment_errors) +
le32_to_cpu(s->rx_short_frame_errors) +
@@ -1727,12 +1727,10 @@ static inline int e100_rx_indicate(struct nic *nic, struct rx *rx,
if(unlikely(!(rfd_status & cb_ok))) {
/* Don't indicate if hardware indicates errors */
- nic->net_stats.rx_dropped++;
dev_kfree_skb_any(skb);
} else if(actual_size > ETH_DATA_LEN + VLAN_ETH_HLEN) {
/* Don't indicate oversized frames */
nic->rx_over_length_errors++;
- nic->net_stats.rx_dropped++;
dev_kfree_skb_any(skb);
} else {
nic->net_stats.rx_packets++;
diff --git a/drivers/net/e1000/e1000_main.c b/drivers/net/e1000/e1000_main.c
index 7c8a0a22dcd..ee687c902a2 100644
--- a/drivers/net/e1000/e1000_main.c
+++ b/drivers/net/e1000/e1000_main.c
@@ -2544,7 +2544,6 @@ e1000_update_stats(struct e1000_adapter *adapter)
adapter->stats.crcerrs + adapter->stats.algnerrc +
adapter->stats.rlec + adapter->stats.mpc +
adapter->stats.cexterr;
- adapter->net_stats.rx_dropped = adapter->stats.mpc;
adapter->net_stats.rx_length_errors = adapter->stats.rlec;
adapter->net_stats.rx_crc_errors = adapter->stats.crcerrs;
adapter->net_stats.rx_frame_errors = adapter->stats.algnerrc;
diff --git a/drivers/net/ibmveth.c b/drivers/net/ibmveth.c
index 32d5fabd4b1..a2c4dd4fb22 100644
--- a/drivers/net/ibmveth.c
+++ b/drivers/net/ibmveth.c
@@ -99,7 +99,7 @@ static irqreturn_t ibmveth_interrupt(int irq, void *dev_instance, struct pt_regs
static inline void ibmveth_schedule_replenishing(struct ibmveth_adapter*);
#ifdef CONFIG_PROC_FS
-#define IBMVETH_PROC_DIR "ibmveth"
+#define IBMVETH_PROC_DIR "net/ibmveth"
static struct proc_dir_entry *ibmveth_proc_dir;
#endif
@@ -1010,7 +1010,7 @@ static int __devexit ibmveth_remove(struct vio_dev *dev)
#ifdef CONFIG_PROC_FS
static void ibmveth_proc_register_driver(void)
{
- ibmveth_proc_dir = create_proc_entry(IBMVETH_PROC_DIR, S_IFDIR, proc_net);
+ ibmveth_proc_dir = proc_mkdir(IBMVETH_PROC_DIR, NULL);
if (ibmveth_proc_dir) {
SET_MODULE_OWNER(ibmveth_proc_dir);
}
@@ -1018,7 +1018,7 @@ static void ibmveth_proc_register_driver(void)
static void ibmveth_proc_unregister_driver(void)
{
- remove_proc_entry(IBMVETH_PROC_DIR, proc_net);
+ remove_proc_entry(IBMVETH_PROC_DIR, NULL);
}
static void *ibmveth_seq_start(struct seq_file *seq, loff_t *pos)
diff --git a/drivers/net/irda/vlsi_ir.c b/drivers/net/irda/vlsi_ir.c
index 6d9de626c96..651c5a6578f 100644
--- a/drivers/net/irda/vlsi_ir.c
+++ b/drivers/net/irda/vlsi_ir.c
@@ -1875,11 +1875,11 @@ static int __init vlsi_mod_init(void)
sirpulse = !!sirpulse;
- /* create_proc_entry returns NULL if !CONFIG_PROC_FS.
+ /* proc_mkdir returns NULL if !CONFIG_PROC_FS.
* Failure to create the procfs entry is handled like running
* without procfs - it's not required for the driver to work.
*/
- vlsi_proc_root = create_proc_entry(PROC_DIR, S_IFDIR, NULL);
+ vlsi_proc_root = proc_mkdir(PROC_DIR, NULL);
if (vlsi_proc_root) {
/* protect registered procdir against module removal.
* Because we are in the module init path there's no race
diff --git a/drivers/net/ixgb/ixgb_main.c b/drivers/net/ixgb/ixgb_main.c
index 5c555373adb..89d6d69be38 100644
--- a/drivers/net/ixgb/ixgb_main.c
+++ b/drivers/net/ixgb/ixgb_main.c
@@ -1616,8 +1616,6 @@ ixgb_update_stats(struct ixgb_adapter *adapter)
adapter->stats.icbc +
adapter->stats.ecbc + adapter->stats.mpc;
- adapter->net_stats.rx_dropped = adapter->stats.mpc;
-
/* see above
* adapter->net_stats.rx_length_errors = adapter->stats.rlec;
*/
diff --git a/drivers/net/pppoe.c b/drivers/net/pppoe.c
index 82f236cc3b9..a842ecc60a3 100644
--- a/drivers/net/pppoe.c
+++ b/drivers/net/pppoe.c
@@ -1070,7 +1070,7 @@ static int __init pppoe_proc_init(void)
{
struct proc_dir_entry *p;
- p = create_proc_entry("pppoe", S_IRUGO, proc_net);
+ p = create_proc_entry("net/pppoe", S_IRUGO, NULL);
if (!p)
return -ENOMEM;
@@ -1142,7 +1142,7 @@ static void __exit pppoe_exit(void)
dev_remove_pack(&pppoes_ptype);
dev_remove_pack(&pppoed_ptype);
unregister_netdevice_notifier(&pppoe_notifier);
- remove_proc_entry("pppoe", proc_net);
+ remove_proc_entry("net/pppoe", NULL);
proto_unregister(&pppoe_sk_proto);
}
diff --git a/drivers/net/r8169.c b/drivers/net/r8169.c
index f0471d102e3..afb3f186b88 100644
--- a/drivers/net/r8169.c
+++ b/drivers/net/r8169.c
@@ -92,19 +92,18 @@ VERSION 2.2LK <2005/01/25>
#endif /* RTL8169_DEBUG */
#define R8169_MSG_DEFAULT \
- (NETIF_MSG_DRV | NETIF_MSG_PROBE | NETIF_MSG_LINK | NETIF_MSG_IFUP | \
- NETIF_MSG_IFDOWN)
+ (NETIF_MSG_DRV | NETIF_MSG_PROBE | NETIF_MSG_IFUP | NETIF_MSG_IFDOWN)
#define TX_BUFFS_AVAIL(tp) \
(tp->dirty_tx + NUM_TX_DESC - tp->cur_tx - 1)
#ifdef CONFIG_R8169_NAPI
#define rtl8169_rx_skb netif_receive_skb
-#define rtl8169_rx_hwaccel_skb vlan_hwaccel_rx
+#define rtl8169_rx_hwaccel_skb vlan_hwaccel_receive_skb
#define rtl8169_rx_quota(count, quota) min(count, quota)
#else
#define rtl8169_rx_skb netif_rx
-#define rtl8169_rx_hwaccel_skb vlan_hwaccel_receive_skb
+#define rtl8169_rx_hwaccel_skb vlan_hwaccel_rx
#define rtl8169_rx_quota(count, quota) count
#endif
diff --git a/drivers/net/s2io.c b/drivers/net/s2io.c
index c829e6a2e8a..dd451e099a4 100644
--- a/drivers/net/s2io.c
+++ b/drivers/net/s2io.c
@@ -428,7 +428,7 @@ static int init_shared_mem(struct s2io_nic *nic)
DBG_PRINT(INIT_DBG,
"%s: Zero DMA address for TxDL. ", dev->name);
DBG_PRINT(INIT_DBG,
- "Virtual address %llx\n", (u64)tmp_v);
+ "Virtual address %p\n", tmp_v);
tmp_v = pci_alloc_consistent(nic->pdev,
PAGE_SIZE, &tmp_p);
if (!tmp_v) {
@@ -657,9 +657,10 @@ static void free_shared_mem(struct s2io_nic *nic)
mac_control->zerodma_virt_addr,
(dma_addr_t)0);
DBG_PRINT(INIT_DBG,
- "%s: Freeing TxDL with zero DMA addr. ", dev->name);
- DBG_PRINT(INIT_DBG, "Virtual address %llx\n",
- (u64)(mac_control->zerodma_virt_addr));
+ "%s: Freeing TxDL with zero DMA addr. ",
+ dev->name);
+ DBG_PRINT(INIT_DBG, "Virtual address %p\n",
+ mac_control->zerodma_virt_addr);
}
kfree(mac_control->fifos[i].list_info);
}
diff --git a/drivers/net/sk98lin/skge.c b/drivers/net/sk98lin/skge.c
index 6ee4771addf..b18c92cb629 100644
--- a/drivers/net/sk98lin/skge.c
+++ b/drivers/net/sk98lin/skge.c
@@ -235,7 +235,7 @@ static int SkDrvDeInitAdapter(SK_AC *pAC, int devNbr);
* Extern Function Prototypes
*
******************************************************************************/
-static const char SKRootName[] = "sk98lin";
+static const char SKRootName[] = "net/sk98lin";
static struct proc_dir_entry *pSkRootDir;
extern struct file_operations sk_proc_fops;
@@ -5216,17 +5216,15 @@ static struct pci_device_id skge_pci_tbl[] = {
{ PCI_VENDOR_ID_3COM, 0x80eb, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0 },
{ PCI_VENDOR_ID_SYSKONNECT, 0x4300, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0 },
{ PCI_VENDOR_ID_SYSKONNECT, 0x4320, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0 },
- { PCI_VENDOR_ID_DLINK, 0x4c00, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0 },
+/* DLink card does not have valid VPD so this driver gags
+ * { PCI_VENDOR_ID_DLINK, 0x4c00, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0 },
+ */
{ PCI_VENDOR_ID_MARVELL, 0x4320, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0 },
-#if 0 /* don't handle Yukon2 cards at the moment -- mlindner@syskonnect.de */
- { PCI_VENDOR_ID_MARVELL, 0x4360, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0 },
- { PCI_VENDOR_ID_MARVELL, 0x4361, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0 },
-#endif
{ PCI_VENDOR_ID_MARVELL, 0x5005, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0 },
{ PCI_VENDOR_ID_CNET, 0x434e, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0 },
- { PCI_VENDOR_ID_LINKSYS, 0x1032, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0 },
+ { PCI_VENDOR_ID_LINKSYS, 0x1032, PCI_ANY_ID, 0x0015, },
{ PCI_VENDOR_ID_LINKSYS, 0x1064, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0 },
- { 0, }
+ { 0 }
};
MODULE_DEVICE_TABLE(pci, skge_pci_tbl);
@@ -5244,20 +5242,20 @@ static int __init skge_init(void)
{
int error;
- pSkRootDir = proc_mkdir(SKRootName, proc_net);
+ pSkRootDir = proc_mkdir(SKRootName, NULL);
if (pSkRootDir)
pSkRootDir->owner = THIS_MODULE;
error = pci_register_driver(&skge_driver);
if (error)
- proc_net_remove(SKRootName);
+ remove_proc_entry(SKRootName, NULL);
return error;
}
static void __exit skge_exit(void)
{
pci_unregister_driver(&skge_driver);
- proc_net_remove(SKRootName);
+ remove_proc_entry(SKRootName, NULL);
}
diff --git a/drivers/net/skge.c b/drivers/net/skge.c
index d7c98515fdf..fd398da4993 100644
--- a/drivers/net/skge.c
+++ b/drivers/net/skge.c
@@ -42,7 +42,7 @@
#include "skge.h"
#define DRV_NAME "skge"
-#define DRV_VERSION "0.9"
+#define DRV_VERSION "1.1"
#define PFX DRV_NAME " "
#define DEFAULT_TX_RING_SIZE 128
@@ -105,41 +105,28 @@ static const u32 rxirqmask[] = { IS_R1_F, IS_R2_F };
static const u32 txirqmask[] = { IS_XA1_F, IS_XA2_F };
static const u32 portirqmask[] = { IS_PORT_1, IS_PORT_2 };
-/* Don't need to look at whole 16K.
- * last interesting register is descriptor poll timer.
- */
-#define SKGE_REGS_LEN (29*128)
-
static int skge_get_regs_len(struct net_device *dev)
{
- return SKGE_REGS_LEN;
+ return 0x4000;
}
/*
- * Returns copy of control register region
- * I/O region is divided into banks and certain regions are unreadable
+ * Returns copy of whole control register region
+ * Note: skip RAM address register because accessing it will
+ * cause bus hangs!
*/
static void skge_get_regs(struct net_device *dev, struct ethtool_regs *regs,
void *p)
{
const struct skge_port *skge = netdev_priv(dev);
- unsigned long offs;
const void __iomem *io = skge->hw->regs;
- static const unsigned long bankmap
- = (1<<0) | (1<<2) | (1<<8) | (1<<9)
- | (1<<12) | (1<<13) | (1<<14) | (1<<15) | (1<<16)
- | (1<<17) | (1<<20) | (1<<21) | (1<<22) | (1<<23)
- | (1<<24) | (1<<25) | (1<<26) | (1<<27) | (1<<28);
regs->version = 1;
- for (offs = 0; offs < regs->len; offs += 128) {
- u32 len = min_t(u32, 128, regs->len - offs);
+ memset(p, 0, regs->len);
+ memcpy_fromio(p, io, B3_RAM_ADDR);
- if (bankmap & (1<<(offs/128)))
- memcpy_fromio(p + offs, io + offs, len);
- else
- memset(p + offs, 0, len);
- }
+ memcpy_fromio(p + B3_RI_WTO_R1, io + B3_RI_WTO_R1,
+ regs->len - B3_RI_WTO_R1);
}
/* Wake on Lan only supported on Yukon chps with rev 1 or above */
@@ -669,7 +656,7 @@ static void skge_led(struct skge_port *skge, enum led_mode mode)
PHY_M_LED_BLINK_RT(BLINK_84MS) |
PHY_M_LEDC_TX_CTRL |
PHY_M_LEDC_DP_CTRL);
-
+
gm_phy_write(hw, port, PHY_MARV_LED_OVER,
PHY_M_LED_MO_RX(MO_LED_OFF) |
(skge->speed == SPEED_100 ?
@@ -775,17 +762,6 @@ static int skge_ring_alloc(struct skge_ring *ring, void *vaddr, u64 base)
return 0;
}
-static struct sk_buff *skge_rx_alloc(struct net_device *dev, unsigned int size)
-{
- struct sk_buff *skb = dev_alloc_skb(size);
-
- if (likely(skb)) {
- skb->dev = dev;
- skb_reserve(skb, NET_IP_ALIGN);
- }
- return skb;
-}
-
/* Allocate and setup a new buffer for receiving */
static void skge_rx_setup(struct skge_port *skge, struct skge_element *e,
struct sk_buff *skb, unsigned int bufsize)
@@ -858,16 +834,17 @@ static int skge_rx_fill(struct skge_port *skge)
{
struct skge_ring *ring = &skge->rx_ring;
struct skge_element *e;
- unsigned int bufsize = skge->rx_buf_size;
e = ring->start;
do {
- struct sk_buff *skb = skge_rx_alloc(skge->netdev, bufsize);
+ struct sk_buff *skb;
+ skb = dev_alloc_skb(skge->rx_buf_size + NET_IP_ALIGN);
if (!skb)
return -ENOMEM;
- skge_rx_setup(skge, e, skb, bufsize);
+ skb_reserve(skb, NET_IP_ALIGN);
+ skge_rx_setup(skge, e, skb, skge->rx_buf_size);
} while ( (e = e->next) != ring->start);
ring->to_clean = ring->start;
@@ -876,7 +853,7 @@ static int skge_rx_fill(struct skge_port *skge)
static void skge_link_up(struct skge_port *skge)
{
- skge_write8(skge->hw, SK_REG(skge->port, LNK_LED_REG),
+ skge_write8(skge->hw, SK_REG(skge->port, LNK_LED_REG),
LED_BLK_OFF|LED_SYNC_OFF|LED_ON);
netif_carrier_on(skge->netdev);
@@ -987,6 +964,8 @@ static void genesis_reset(struct skge_hw *hw, int port)
{
const u8 zero[8] = { 0 };
+ skge_write8(hw, SK_REG(port, GMAC_IRQ_MSK), 0);
+
/* reset the statistics module */
xm_write32(hw, port, XM_GP_PORT, XM_GP_RES_STAT);
xm_write16(hw, port, XM_IMSK, 0xffff); /* disable XMAC IRQs */
@@ -1021,8 +1000,6 @@ static void bcom_check_link(struct skge_hw *hw, int port)
(void) xm_phy_read(hw, port, PHY_BCOM_STAT);
status = xm_phy_read(hw, port, PHY_BCOM_STAT);
- pr_debug("bcom_check_link status=0x%x\n", status);
-
if ((status & PHY_ST_LSYNC) == 0) {
u16 cmd = xm_read16(hw, port, XM_MMU_CMD);
cmd &= ~(XM_MMU_ENA_RX | XM_MMU_ENA_TX);
@@ -1106,8 +1083,6 @@ static void bcom_phy_init(struct skge_port *skge, int jumbo)
{ 0x17, 0x0013 }, { 0x15, 0x0A04 }, { 0x18, 0x0420 },
};
- pr_debug("bcom_phy_init\n");
-
/* read Id from external PHY (all have the same address) */
id1 = xm_phy_read(hw, port, PHY_XMAC_ID1);
@@ -1340,6 +1315,8 @@ static void genesis_stop(struct skge_port *skge)
int port = skge->port;
u32 reg;
+ genesis_reset(hw, port);
+
/* Clear Tx packet arbiter timeout IRQ */
skge_write16(hw, B3_PA_CTRL,
port == 0 ? PA_CLR_TO_TX1 : PA_CLR_TO_TX2);
@@ -1465,7 +1442,6 @@ static void genesis_link_up(struct skge_port *skge)
u16 cmd;
u32 mode, msk;
- pr_debug("genesis_link_up\n");
cmd = xm_read16(hw, port, XM_MMU_CMD);
/*
@@ -1578,7 +1554,6 @@ static void yukon_init(struct skge_hw *hw, int port)
struct skge_port *skge = netdev_priv(hw->dev[port]);
u16 ctrl, ct1000, adv;
- pr_debug("yukon_init\n");
if (skge->autoneg == AUTONEG_ENABLE) {
u16 ectrl = gm_phy_read(hw, port, PHY_MARV_EXT_CTRL);
@@ -1668,6 +1643,22 @@ static void yukon_reset(struct skge_hw *hw, int port)
| GM_RXCR_UCF_ENA | GM_RXCR_MCF_ENA);
}
+/* Apparently, early versions of Yukon-Lite had wrong chip_id? */
+static int is_yukon_lite_a0(struct skge_hw *hw)
+{
+ u32 reg;
+ int ret;
+
+ if (hw->chip_id != CHIP_ID_YUKON)
+ return 0;
+
+ reg = skge_read32(hw, B2_FAR);
+ skge_write8(hw, B2_FAR + 3, 0xff);
+ ret = (skge_read8(hw, B2_FAR + 3) != 0);
+ skge_write32(hw, B2_FAR, reg);
+ return ret;
+}
+
static void yukon_mac_init(struct skge_hw *hw, int port)
{
struct skge_port *skge = netdev_priv(hw->dev[port]);
@@ -1677,9 +1668,11 @@ static void yukon_mac_init(struct skge_hw *hw, int port)
/* WA code for COMA mode -- set PHY reset */
if (hw->chip_id == CHIP_ID_YUKON_LITE &&
- hw->chip_rev >= CHIP_REV_YU_LITE_A3)
- skge_write32(hw, B2_GP_IO,
- (skge_read32(hw, B2_GP_IO) | GP_DIR_9 | GP_IO_9));
+ hw->chip_rev >= CHIP_REV_YU_LITE_A3) {
+ reg = skge_read32(hw, B2_GP_IO);
+ reg |= GP_DIR_9 | GP_IO_9;
+ skge_write32(hw, B2_GP_IO, reg);
+ }
/* hard reset */
skge_write32(hw, SK_REG(port, GPHY_CTRL), GPC_RST_SET);
@@ -1687,10 +1680,12 @@ static void yukon_mac_init(struct skge_hw *hw, int port)
/* WA code for COMA mode -- clear PHY reset */
if (hw->chip_id == CHIP_ID_YUKON_LITE &&
- hw->chip_rev >= CHIP_REV_YU_LITE_A3)
- skge_write32(hw, B2_GP_IO,
- (skge_read32(hw, B2_GP_IO) | GP_DIR_9)
- & ~GP_IO_9);
+ hw->chip_rev >= CHIP_REV_YU_LITE_A3) {
+ reg = skge_read32(hw, B2_GP_IO);
+ reg |= GP_DIR_9;
+ reg &= ~GP_IO_9;
+ skge_write32(hw, B2_GP_IO, reg);
+ }
/* Set hardware config mode */
reg = GPC_INT_POL_HI | GPC_DIS_FC | GPC_DIS_SLEEP |
@@ -1729,7 +1724,7 @@ static void yukon_mac_init(struct skge_hw *hw, int port)
}
gma_write16(hw, port, GM_GP_CTRL, reg);
- skge_read16(hw, GMAC_IRQ_SRC);
+ skge_read16(hw, SK_REG(port, GMAC_IRQ_SRC));
yukon_init(hw, port);
@@ -1779,9 +1774,11 @@ static void yukon_mac_init(struct skge_hw *hw, int port)
/* Configure Rx MAC FIFO */
skge_write16(hw, SK_REG(port, RX_GMF_FL_MSK), RX_FF_FL_DEF_MSK);
reg = GMF_OPER_ON | GMF_RX_F_FL_ON;
- if (hw->chip_id == CHIP_ID_YUKON_LITE &&
- hw->chip_rev >= CHIP_REV_YU_LITE_A3)
+
+ /* disable Rx GMAC FIFO Flush for YUKON-Lite Rev. A0 only */
+ if (is_yukon_lite_a0(hw))
reg &= ~GMF_RX_F_FL_ON;
+
skge_write8(hw, SK_REG(port, RX_GMF_CTRL_T), GMF_RST_CLR);
skge_write16(hw, SK_REG(port, RX_GMF_CTRL_T), reg);
/*
@@ -1801,20 +1798,26 @@ static void yukon_stop(struct skge_port *skge)
struct skge_hw *hw = skge->hw;
int port = skge->port;
- if (hw->chip_id == CHIP_ID_YUKON_LITE &&
- hw->chip_rev >= CHIP_REV_YU_LITE_A3) {
- skge_write32(hw, B2_GP_IO,
- skge_read32(hw, B2_GP_IO) | GP_DIR_9 | GP_IO_9);
- }
+ skge_write8(hw, SK_REG(port, GMAC_IRQ_MSK), 0);
+ yukon_reset(hw, port);
gma_write16(hw, port, GM_GP_CTRL,
gma_read16(hw, port, GM_GP_CTRL)
& ~(GM_GPCR_TX_ENA|GM_GPCR_RX_ENA));
gma_read16(hw, port, GM_GP_CTRL);
+ if (hw->chip_id == CHIP_ID_YUKON_LITE &&
+ hw->chip_rev >= CHIP_REV_YU_LITE_A3) {
+ u32 io = skge_read32(hw, B2_GP_IO);
+
+ io |= GP_DIR_9 | GP_IO_9;
+ skge_write32(hw, B2_GP_IO, io);
+ skge_read32(hw, B2_GP_IO);
+ }
+
/* set GPHY Control reset */
- skge_write32(hw, SK_REG(port, GPHY_CTRL), GPC_RST_SET);
- skge_write32(hw, SK_REG(port, GMAC_CTRL), GMC_RST_SET);
+ skge_write8(hw, SK_REG(port, GPHY_CTRL), GPC_RST_SET);
+ skge_write8(hw, SK_REG(port, GMAC_CTRL), GMC_RST_SET);
}
static void yukon_get_stats(struct skge_port *skge, u64 *data)
@@ -1873,10 +1876,8 @@ static void yukon_link_up(struct skge_port *skge)
int port = skge->port;
u16 reg;
- pr_debug("yukon_link_up\n");
-
/* Enable Transmit FIFO Underrun */
- skge_write8(hw, GMAC_IRQ_MSK, GMAC_DEF_MSK);
+ skge_write8(hw, SK_REG(port, GMAC_IRQ_MSK), GMAC_DEF_MSK);
reg = gma_read16(hw, port, GM_GP_CTRL);
if (skge->duplex == DUPLEX_FULL || skge->autoneg == AUTONEG_ENABLE)
@@ -1896,7 +1897,6 @@ static void yukon_link_down(struct skge_port *skge)
int port = skge->port;
u16 ctrl;
- pr_debug("yukon_link_down\n");
gm_phy_write(hw, port, PHY_MARV_INT_MASK, 0);
ctrl = gma_read16(hw, port, GM_GP_CTRL);
@@ -2112,7 +2112,6 @@ static int skge_up(struct net_device *dev)
skge_write8(hw, Q_ADDR(rxqaddr[port], Q_CSR), CSR_START | CSR_IRQ_CL_F);
skge_led(skge, LED_MODE_ON);
- pr_debug("skge_up completed\n");
return 0;
free_rx_ring:
@@ -2135,15 +2134,20 @@ static int skge_down(struct net_device *dev)
netif_stop_queue(dev);
+ skge_write8(skge->hw, SK_REG(skge->port, LNK_LED_REG), LED_OFF);
+ if (hw->chip_id == CHIP_ID_GENESIS)
+ genesis_stop(skge);
+ else
+ yukon_stop(skge);
+
+ hw->intr_mask &= ~portirqmask[skge->port];
+ skge_write32(hw, B0_IMSK, hw->intr_mask);
+
/* Stop transmitter */
skge_write8(hw, Q_ADDR(txqaddr[port], Q_CSR), CSR_STOP);
skge_write32(hw, RB_ADDR(txqaddr[port], RB_CTRL),
RB_RST_SET|RB_DIS_OP_MD);
- if (hw->chip_id == CHIP_ID_GENESIS)
- genesis_stop(skge);
- else
- yukon_stop(skge);
/* Disable Force Sync bit and Enable Alloc bit */
skge_write8(hw, SK_REG(port, TXA_CTRL),
@@ -2367,8 +2371,6 @@ static void genesis_set_multicast(struct net_device *dev)
u32 mode;
u8 filter[8];
- pr_debug("genesis_set_multicast flags=%x count=%d\n", dev->flags, dev->mc_count);
-
mode = xm_read32(hw, port, XM_MODE);
mode |= XM_MD_ENA_HASH;
if (dev->flags & IFF_PROMISC)
@@ -2435,6 +2437,14 @@ static void yukon_set_multicast(struct net_device *dev)
gma_write16(hw, port, GM_RX_CTRL, reg);
}
+static inline u16 phy_length(const struct skge_hw *hw, u32 status)
+{
+ if (hw->chip_id == CHIP_ID_GENESIS)
+ return status >> XMR_FS_LEN_SHIFT;
+ else
+ return status >> GMR_FS_LEN_SHIFT;
+}
+
static inline int bad_phy_status(const struct skge_hw *hw, u32 status)
{
if (hw->chip_id == CHIP_ID_GENESIS)
@@ -2444,80 +2454,99 @@ static inline int bad_phy_status(const struct skge_hw *hw, u32 status)
(status & GMR_FS_RX_OK) == 0;
}
-static void skge_rx_error(struct skge_port *skge, int slot,
- u32 control, u32 status)
-{
- if (netif_msg_rx_err(skge))
- printk(KERN_DEBUG PFX "%s: rx err, slot %d control 0x%x status 0x%x\n",
- skge->netdev->name, slot, control, status);
-
- if ((control & (BMU_EOF|BMU_STF)) != (BMU_STF|BMU_EOF))
- skge->net_stats.rx_length_errors++;
- else if (skge->hw->chip_id == CHIP_ID_GENESIS) {
- if (status & (XMR_FS_RUNT|XMR_FS_LNG_ERR))
- skge->net_stats.rx_length_errors++;
- if (status & XMR_FS_FRA_ERR)
- skge->net_stats.rx_frame_errors++;
- if (status & XMR_FS_FCS_ERR)
- skge->net_stats.rx_crc_errors++;
- } else {
- if (status & (GMR_FS_LONG_ERR|GMR_FS_UN_SIZE))
- skge->net_stats.rx_length_errors++;
- if (status & GMR_FS_FRAGMENT)
- skge->net_stats.rx_frame_errors++;
- if (status & GMR_FS_CRC_ERR)
- skge->net_stats.rx_crc_errors++;
- }
-}
/* Get receive buffer from descriptor.
* Handles copy of small buffers and reallocation failures
*/
static inline struct sk_buff *skge_rx_get(struct skge_port *skge,
struct skge_element *e,
- unsigned int len)
+ u32 control, u32 status, u16 csum)
{
- struct sk_buff *nskb, *skb;
+ struct sk_buff *skb;
+ u16 len = control & BMU_BBC;
+
+ if (unlikely(netif_msg_rx_status(skge)))
+ printk(KERN_DEBUG PFX "%s: rx slot %td status 0x%x len %d\n",
+ skge->netdev->name, e - skge->rx_ring.start,
+ status, len);
+
+ if (len > skge->rx_buf_size)
+ goto error;
+
+ if ((control & (BMU_EOF|BMU_STF)) != (BMU_STF|BMU_EOF))
+ goto error;
+
+ if (bad_phy_status(skge->hw, status))
+ goto error;
+
+ if (phy_length(skge->hw, status) != len)
+ goto error;
if (len < RX_COPY_THRESHOLD) {
- nskb = skge_rx_alloc(skge->netdev, len + NET_IP_ALIGN);
- if (unlikely(!nskb))
- return NULL;
+ skb = dev_alloc_skb(len + 2);
+ if (!skb)
+ goto resubmit;
+ skb_reserve(skb, 2);
pci_dma_sync_single_for_cpu(skge->hw->pdev,
pci_unmap_addr(e, mapaddr),
len, PCI_DMA_FROMDEVICE);
- memcpy(nskb->data, e->skb->data, len);
+ memcpy(skb->data, e->skb->data, len);
pci_dma_sync_single_for_device(skge->hw->pdev,
pci_unmap_addr(e, mapaddr),
len, PCI_DMA_FROMDEVICE);
-
- if (skge->rx_csum) {
- struct skge_rx_desc *rd = e->desc;
- nskb->csum = le16_to_cpu(rd->csum2);
- nskb->ip_summed = CHECKSUM_HW;
- }
skge_rx_reuse(e, skge->rx_buf_size);
- return nskb;
} else {
- nskb = skge_rx_alloc(skge->netdev, skge->rx_buf_size);
- if (unlikely(!nskb))
- return NULL;
+ struct sk_buff *nskb;
+ nskb = dev_alloc_skb(skge->rx_buf_size + NET_IP_ALIGN);
+ if (!nskb)
+ goto resubmit;
pci_unmap_single(skge->hw->pdev,
pci_unmap_addr(e, mapaddr),
pci_unmap_len(e, maplen),
PCI_DMA_FROMDEVICE);
skb = e->skb;
- if (skge->rx_csum) {
- struct skge_rx_desc *rd = e->desc;
- skb->csum = le16_to_cpu(rd->csum2);
- skb->ip_summed = CHECKSUM_HW;
- }
-
+ prefetch(skb->data);
skge_rx_setup(skge, e, nskb, skge->rx_buf_size);
- return skb;
}
+
+ skb_put(skb, len);
+ skb->dev = skge->netdev;
+ if (skge->rx_csum) {
+ skb->csum = csum;
+ skb->ip_summed = CHECKSUM_HW;
+ }
+
+ skb->protocol = eth_type_trans(skb, skge->netdev);
+
+ return skb;
+error:
+
+ if (netif_msg_rx_err(skge))
+ printk(KERN_DEBUG PFX "%s: rx err, slot %td control 0x%x status 0x%x\n",
+ skge->netdev->name, e - skge->rx_ring.start,
+ control, status);
+
+ if (skge->hw->chip_id == CHIP_ID_GENESIS) {
+ if (status & (XMR_FS_RUNT|XMR_FS_LNG_ERR))
+ skge->net_stats.rx_length_errors++;
+ if (status & XMR_FS_FRA_ERR)
+ skge->net_stats.rx_frame_errors++;
+ if (status & XMR_FS_FCS_ERR)
+ skge->net_stats.rx_crc_errors++;
+ } else {
+ if (status & (GMR_FS_LONG_ERR|GMR_FS_UN_SIZE))
+ skge->net_stats.rx_length_errors++;
+ if (status & GMR_FS_FRAGMENT)
+ skge->net_stats.rx_frame_errors++;
+ if (status & GMR_FS_CRC_ERR)
+ skge->net_stats.rx_crc_errors++;
+ }
+
+resubmit:
+ skge_rx_reuse(e, skge->rx_buf_size);
+ return NULL;
}
@@ -2530,37 +2559,19 @@ static int skge_poll(struct net_device *dev, int *budget)
unsigned int to_do = min(dev->quota, *budget);
unsigned int work_done = 0;
- pr_debug("skge_poll\n");
-
for (e = ring->to_clean; work_done < to_do; e = e->next) {
struct skge_rx_desc *rd = e->desc;
struct sk_buff *skb;
- u32 control, len, status;
+ u32 control;
rmb();
control = rd->control;
if (control & BMU_OWN)
break;
- len = control & BMU_BBC;
- status = rd->status;
-
- if (unlikely((control & (BMU_EOF|BMU_STF)) != (BMU_STF|BMU_EOF)
- || bad_phy_status(hw, status))) {
- skge_rx_error(skge, e - ring->start, control, status);
- skge_rx_reuse(e, skge->rx_buf_size);
- continue;
- }
-
- if (netif_msg_rx_status(skge))
- printk(KERN_DEBUG PFX "%s: rx slot %td status 0x%x len %d\n",
- dev->name, e - ring->start, rd->status, len);
-
- skb = skge_rx_get(skge, e, len);
+ skb = skge_rx_get(skge, e, control, rd->status,
+ le16_to_cpu(rd->csum2));
if (likely(skb)) {
- skb_put(skb, len);
- skb->protocol = eth_type_trans(skb, dev);
-
dev->last_rx = jiffies;
netif_receive_skb(skb);
@@ -2672,9 +2683,9 @@ static void skge_error_irq(struct skge_hw *hw)
if (hw->chip_id == CHIP_ID_GENESIS) {
/* clear xmac errors */
if (hwstatus & (IS_NO_STAT_M1|IS_NO_TIST_M1))
- skge_write16(hw, SK_REG(0, RX_MFF_CTRL1), MFF_CLR_INSTAT);
+ skge_write16(hw, RX_MFF_CTRL1, MFF_CLR_INSTAT);
if (hwstatus & (IS_NO_STAT_M2|IS_NO_TIST_M2))
- skge_write16(hw, SK_REG(0, RX_MFF_CTRL2), MFF_CLR_INSTAT);
+ skge_write16(hw, RX_MFF_CTRL2, MFF_CLR_INSTAT);
} else {
/* Timestamp (unused) overflow */
if (hwstatus & IS_IRQ_TIST_OV)
@@ -3000,9 +3011,6 @@ static int skge_reset(struct skge_hw *hw)
skge_write32(hw, B0_IMSK, hw->intr_mask);
- if (hw->chip_id != CHIP_ID_GENESIS)
- skge_write8(hw, GMAC_IRQ_MSK, 0);
-
spin_lock_bh(&hw->phy_lock);
for (i = 0; i < hw->ports; i++) {
if (hw->chip_id == CHIP_ID_GENESIS)
@@ -3230,6 +3238,11 @@ static void __devexit skge_remove(struct pci_dev *pdev)
dev0 = hw->dev[0];
unregister_netdev(dev0);
+ skge_write32(hw, B0_IMSK, 0);
+ skge_write16(hw, B0_LED, LED_STAT_OFF);
+ skge_pci_clear(hw);
+ skge_write8(hw, B0_CTST, CS_RST_SET);
+
tasklet_kill(&hw->ext_tasklet);
free_irq(pdev->irq, hw);
@@ -3238,7 +3251,7 @@ static void __devexit skge_remove(struct pci_dev *pdev)
if (dev1)
free_netdev(dev1);
free_netdev(dev0);
- skge_write16(hw, B0_LED, LED_STAT_OFF);
+
iounmap(hw->regs);
kfree(hw);
pci_set_drvdata(pdev, NULL);
@@ -3257,7 +3270,10 @@ static int skge_suspend(struct pci_dev *pdev, pm_message_t state)
struct skge_port *skge = netdev_priv(dev);
if (netif_running(dev)) {
netif_carrier_off(dev);
- skge_down(dev);
+ if (skge->wol)
+ netif_stop_queue(dev);
+ else
+ skge_down(dev);
}
netif_device_detach(dev);
wol |= skge->wol;
diff --git a/drivers/net/skge.h b/drivers/net/skge.h
index f1680beb8e6..72c175b87a5 100644
--- a/drivers/net/skge.h
+++ b/drivers/net/skge.h
@@ -953,6 +953,7 @@ enum {
*/
enum {
XMR_FS_LEN = 0x3fff<<18, /* Bit 31..18: Rx Frame Length */
+ XMR_FS_LEN_SHIFT = 18,
XMR_FS_2L_VLAN = 1<<17, /* Bit 17: tagged wh 2Lev VLAN ID*/
XMR_FS_1_VLAN = 1<<16, /* Bit 16: tagged wh 1ev VLAN ID*/
XMR_FS_BC = 1<<15, /* Bit 15: Broadcast Frame */
@@ -1868,6 +1869,7 @@ enum {
/* Receive Frame Status Encoding */
enum {
GMR_FS_LEN = 0xffff<<16, /* Bit 31..16: Rx Frame Length */
+ GMR_FS_LEN_SHIFT = 16,
GMR_FS_VLAN = 1<<13, /* Bit 13: VLAN Packet */
GMR_FS_JABBER = 1<<12, /* Bit 12: Jabber Packet */
GMR_FS_UN_SIZE = 1<<11, /* Bit 11: Undersize Packet */
@@ -2008,7 +2010,7 @@ enum {
GM_IS_RX_FF_OR = 1<<1, /* Receive FIFO Overrun */
GM_IS_RX_COMPL = 1<<0, /* Frame Reception Complete */
-#define GMAC_DEF_MSK (GM_IS_TX_CO_OV | GM_IS_RX_CO_OV | GM_IS_TX_FF_UR)
+#define GMAC_DEF_MSK (GM_IS_RX_FF_OR | GM_IS_TX_FF_UR)
/* GMAC_LINK_CTRL 16 bit GMAC Link Control Reg (YUKON only) */
/* Bits 15.. 2: reserved */
diff --git a/drivers/net/spider_net.c b/drivers/net/spider_net.c
index 4e19220473d..c796f41b4a5 100644
--- a/drivers/net/spider_net.c
+++ b/drivers/net/spider_net.c
@@ -1817,6 +1817,10 @@ spider_net_setup_phy(struct spider_net_card *card)
/* LEDs active in both modes, autosense prio = fiber */
spider_net_write_phy(card->netdev, 1, MII_NCONFIG, 0x945f);
+ /* switch off fibre autoneg */
+ spider_net_write_phy(card->netdev, 1, MII_NCONFIG, 0xfc01);
+ spider_net_write_phy(card->netdev, 1, 0x0b, 0x0004);
+
phy->def->ops->read_link(phy);
pr_info("Found %s with %i Mbps, %s-duplex.\n", phy->def->name,
phy->speed, phy->duplex==1 ? "Full" : "Half");
diff --git a/drivers/net/tg3.c b/drivers/net/tg3.c
index 7599f52e15b..1802c3b4879 100644
--- a/drivers/net/tg3.c
+++ b/drivers/net/tg3.c
@@ -67,8 +67,8 @@
#define DRV_MODULE_NAME "tg3"
#define PFX DRV_MODULE_NAME ": "
-#define DRV_MODULE_VERSION "3.39"
-#define DRV_MODULE_RELDATE "September 5, 2005"
+#define DRV_MODULE_VERSION "3.42"
+#define DRV_MODULE_RELDATE "Oct 3, 2005"
#define TG3_DEF_MAC_MODE 0
#define TG3_DEF_RX_MODE 0
@@ -3389,7 +3389,8 @@ static irqreturn_t tg3_test_isr(int irq, void *dev_id,
struct tg3 *tp = netdev_priv(dev);
struct tg3_hw_status *sblk = tp->hw_status;
- if (sblk->status & SD_STATUS_UPDATED) {
+ if ((sblk->status & SD_STATUS_UPDATED) ||
+ !(tr32(TG3PCI_PCISTATE) & PCISTATE_INT_NOT_ACTIVE)) {
tw32_mailbox(MAILBOX_INTERRUPT_0 + TG3_64BIT_REG_LOW,
0x00000001);
return IRQ_RETVAL(1);
@@ -3442,31 +3443,47 @@ static void tg3_tx_timeout(struct net_device *dev)
schedule_work(&tp->reset_task);
}
+/* Test for DMA buffers crossing any 4GB boundaries: 4G, 8G, etc */
+static inline int tg3_4g_overflow_test(dma_addr_t mapping, int len)
+{
+ u32 base = (u32) mapping & 0xffffffff;
+
+ return ((base > 0xffffdcc0) &&
+ (base + len + 8 < base));
+}
+
static void tg3_set_txd(struct tg3 *, int, dma_addr_t, int, u32, u32);
static int tigon3_4gb_hwbug_workaround(struct tg3 *tp, struct sk_buff *skb,
- u32 guilty_entry, int guilty_len,
- u32 last_plus_one, u32 *start, u32 mss)
+ u32 last_plus_one, u32 *start,
+ u32 base_flags, u32 mss)
{
struct sk_buff *new_skb = skb_copy(skb, GFP_ATOMIC);
- dma_addr_t new_addr;
+ dma_addr_t new_addr = 0;
u32 entry = *start;
- int i;
+ int i, ret = 0;
if (!new_skb) {
- dev_kfree_skb(skb);
- return -1;
+ ret = -1;
+ } else {
+ /* New SKB is guaranteed to be linear. */
+ entry = *start;
+ new_addr = pci_map_single(tp->pdev, new_skb->data, new_skb->len,
+ PCI_DMA_TODEVICE);
+ /* Make sure new skb does not cross any 4G boundaries.
+ * Drop the packet if it does.
+ */
+ if (tg3_4g_overflow_test(new_addr, new_skb->len)) {
+ ret = -1;
+ dev_kfree_skb(new_skb);
+ new_skb = NULL;
+ } else {
+ tg3_set_txd(tp, entry, new_addr, new_skb->len,
+ base_flags, 1 | (mss << 1));
+ *start = NEXT_TX(entry);
+ }
}
- /* New SKB is guaranteed to be linear. */
- entry = *start;
- new_addr = pci_map_single(tp->pdev, new_skb->data, new_skb->len,
- PCI_DMA_TODEVICE);
- tg3_set_txd(tp, entry, new_addr, new_skb->len,
- (skb->ip_summed == CHECKSUM_HW) ?
- TXD_FLAG_TCPUDP_CSUM : 0, 1 | (mss << 1));
- *start = NEXT_TX(entry);
-
/* Now clean up the sw ring entries. */
i = 0;
while (entry != last_plus_one) {
@@ -3491,7 +3508,7 @@ static int tigon3_4gb_hwbug_workaround(struct tg3 *tp, struct sk_buff *skb,
dev_kfree_skb(skb);
- return 0;
+ return ret;
}
static void tg3_set_txd(struct tg3 *tp, int entry,
@@ -3517,19 +3534,10 @@ static void tg3_set_txd(struct tg3 *tp, int entry,
txd->vlan_tag = vlan_tag << TXD_VLAN_TAG_SHIFT;
}
-static inline int tg3_4g_overflow_test(dma_addr_t mapping, int len)
-{
- u32 base = (u32) mapping & 0xffffffff;
-
- return ((base > 0xffffdcc0) &&
- (base + len + 8 < base));
-}
-
static int tg3_start_xmit(struct sk_buff *skb, struct net_device *dev)
{
struct tg3 *tp = netdev_priv(dev);
dma_addr_t mapping;
- unsigned int i;
u32 len, entry, base_flags, mss;
int would_hit_hwbug;
@@ -3624,7 +3632,7 @@ static int tg3_start_xmit(struct sk_buff *skb, struct net_device *dev)
would_hit_hwbug = 0;
if (tg3_4g_overflow_test(mapping, len))
- would_hit_hwbug = entry + 1;
+ would_hit_hwbug = 1;
tg3_set_txd(tp, entry, mapping, len, base_flags,
(skb_shinfo(skb)->nr_frags == 0) | (mss << 1));
@@ -3648,12 +3656,8 @@ static int tg3_start_xmit(struct sk_buff *skb, struct net_device *dev)
tp->tx_buffers[entry].skb = NULL;
pci_unmap_addr_set(&tp->tx_buffers[entry], mapping, mapping);
- if (tg3_4g_overflow_test(mapping, len)) {
- /* Only one should match. */
- if (would_hit_hwbug)
- BUG();
- would_hit_hwbug = entry + 1;
- }
+ if (tg3_4g_overflow_test(mapping, len))
+ would_hit_hwbug = 1;
if (tp->tg3_flags2 & TG3_FLG2_HW_TSO)
tg3_set_txd(tp, entry, mapping, len,
@@ -3669,34 +3673,15 @@ static int tg3_start_xmit(struct sk_buff *skb, struct net_device *dev)
if (would_hit_hwbug) {
u32 last_plus_one = entry;
u32 start;
- unsigned int len = 0;
-
- would_hit_hwbug -= 1;
- entry = entry - 1 - skb_shinfo(skb)->nr_frags;
- entry &= (TG3_TX_RING_SIZE - 1);
- start = entry;
- i = 0;
- while (entry != last_plus_one) {
- if (i == 0)
- len = skb_headlen(skb);
- else
- len = skb_shinfo(skb)->frags[i-1].size;
- if (entry == would_hit_hwbug)
- break;
-
- i++;
- entry = NEXT_TX(entry);
-
- }
+ start = entry - 1 - skb_shinfo(skb)->nr_frags;
+ start &= (TG3_TX_RING_SIZE - 1);
/* If the workaround fails due to memory/mapping
* failure, silently drop this packet.
*/
- if (tigon3_4gb_hwbug_workaround(tp, skb,
- entry, len,
- last_plus_one,
- &start, mss))
+ if (tigon3_4gb_hwbug_workaround(tp, skb, last_plus_one,
+ &start, base_flags, mss))
goto out_unlock;
entry = start;
@@ -5411,6 +5396,9 @@ static int tg3_set_mac_addr(struct net_device *dev, void *p)
struct tg3 *tp = netdev_priv(dev);
struct sockaddr *addr = p;
+ if (!is_valid_ether_addr(addr->sa_data))
+ return -EINVAL;
+
memcpy(dev->dev_addr, addr->sa_data, dev->addr_len);
spin_lock_bh(&tp->lock);
@@ -5822,6 +5810,13 @@ static int tg3_reset_hw(struct tg3 *tp)
}
memset(tp->hw_status, 0, TG3_HW_STATUS_SIZE);
+ if (tp->tg3_flags2 & TG3_FLG2_MII_SERDES) {
+ tp->tg3_flags2 &= ~TG3_FLG2_PARALLEL_DETECT;
+ /* reset to prevent losing 1st rx packet intermittently */
+ tw32_f(MAC_RX_MODE, RX_MODE_RESET);
+ udelay(10);
+ }
+
tp->mac_mode = MAC_MODE_TXSTAT_ENABLE | MAC_MODE_RXSTAT_ENABLE |
MAC_MODE_TDE_ENABLE | MAC_MODE_RDE_ENABLE | MAC_MODE_FHDE_ENABLE;
tw32_f(MAC_MODE, tp->mac_mode | MAC_MODE_RXSTAT_CLEAR | MAC_MODE_TXSTAT_CLEAR);
@@ -5953,7 +5948,7 @@ static int tg3_reset_hw(struct tg3 *tp)
tw32(MAC_LED_CTRL, tp->led_ctrl);
tw32(MAC_MI_STAT, MAC_MI_STAT_LNKSTAT_ATTN_ENAB);
- if (tp->tg3_flags2 & TG3_FLG2_ANY_SERDES) {
+ if (tp->tg3_flags2 & TG3_FLG2_PHY_SERDES) {
tw32_f(MAC_RX_MODE, RX_MODE_RESET);
udelay(10);
}
@@ -7376,12 +7371,17 @@ static int tg3_nway_reset(struct net_device *dev)
if (!netif_running(dev))
return -EAGAIN;
+ if (tp->tg3_flags2 & TG3_FLG2_PHY_SERDES)
+ return -EINVAL;
+
spin_lock_bh(&tp->lock);
r = -EINVAL;
tg3_readphy(tp, MII_BMCR, &bmcr);
if (!tg3_readphy(tp, MII_BMCR, &bmcr) &&
- (bmcr & BMCR_ANENABLE)) {
- tg3_writephy(tp, MII_BMCR, bmcr | BMCR_ANRESTART);
+ ((bmcr & BMCR_ANENABLE) ||
+ (tp->tg3_flags2 & TG3_FLG2_PARALLEL_DETECT))) {
+ tg3_writephy(tp, MII_BMCR, bmcr | BMCR_ANRESTART |
+ BMCR_ANENABLE);
r = 0;
}
spin_unlock_bh(&tp->lock);
@@ -7943,19 +7943,32 @@ static int tg3_run_loopback(struct tg3 *tp, int loopback_mode)
struct tg3_rx_buffer_desc *desc;
if (loopback_mode == TG3_MAC_LOOPBACK) {
+ /* HW errata - mac loopback fails in some cases on 5780.
+ * Normal traffic and PHY loopback are not affected by
+ * errata.
+ */
+ if (GET_ASIC_REV(tp->pci_chip_rev_id) == ASIC_REV_5780)
+ return 0;
+
mac_mode = (tp->mac_mode & ~MAC_MODE_PORT_MODE_MASK) |
MAC_MODE_PORT_INT_LPBACK | MAC_MODE_LINK_POLARITY |
MAC_MODE_PORT_MODE_GMII;
tw32(MAC_MODE, mac_mode);
} else if (loopback_mode == TG3_PHY_LOOPBACK) {
+ tg3_writephy(tp, MII_BMCR, BMCR_LOOPBACK | BMCR_FULLDPLX |
+ BMCR_SPEED1000);
+ udelay(40);
+ /* reset to prevent losing 1st rx packet intermittently */
+ if (tp->tg3_flags2 & TG3_FLG2_MII_SERDES) {
+ tw32_f(MAC_RX_MODE, RX_MODE_RESET);
+ udelay(10);
+ tw32_f(MAC_RX_MODE, tp->rx_mode);
+ }
mac_mode = (tp->mac_mode & ~MAC_MODE_PORT_MODE_MASK) |
MAC_MODE_LINK_POLARITY | MAC_MODE_PORT_MODE_GMII;
if ((tp->phy_id & PHY_ID_MASK) == PHY_ID_BCM5401)
mac_mode &= ~MAC_MODE_LINK_POLARITY;
tw32(MAC_MODE, mac_mode);
-
- tg3_writephy(tp, MII_BMCR, BMCR_LOOPBACK | BMCR_FULLDPLX |
- BMCR_SPEED1000);
}
else
return -EINVAL;
@@ -9271,6 +9284,8 @@ static int __devinit tg3_get_invariants(struct tg3 *tp)
static struct pci_device_id write_reorder_chipsets[] = {
{ PCI_DEVICE(PCI_VENDOR_ID_AMD,
PCI_DEVICE_ID_AMD_FE_GATE_700C) },
+ { PCI_DEVICE(PCI_VENDOR_ID_VIA,
+ PCI_DEVICE_ID_VIA_8385_0) },
{ },
};
u32 misc_ctrl_reg;
@@ -9285,15 +9300,6 @@ static int __devinit tg3_get_invariants(struct tg3 *tp)
tp->tg3_flags2 |= TG3_FLG2_SUN_570X;
#endif
- /* If we have an AMD 762 chipset, write
- * reordering to the mailbox registers done by the host
- * controller can cause major troubles. We read back from
- * every mailbox register write to force the writes to be
- * posted to the chip in order.
- */
- if (pci_dev_present(write_reorder_chipsets))
- tp->tg3_flags |= TG3_FLAG_MBOX_WRITE_REORDER;
-
/* Force memory write invalidate off. If we leave it on,
* then on 5700_BX chips we have to enable a workaround.
* The workaround is to set the TG3PCI_DMA_RW_CTRL boundary
@@ -9424,6 +9430,16 @@ static int __devinit tg3_get_invariants(struct tg3 *tp)
if (pci_find_capability(tp->pdev, PCI_CAP_ID_EXP) != 0)
tp->tg3_flags2 |= TG3_FLG2_PCI_EXPRESS;
+ /* If we have an AMD 762 or VIA K8T800 chipset, write
+ * reordering to the mailbox registers done by the host
+ * controller can cause major troubles. We read back from
+ * every mailbox register write to force the writes to be
+ * posted to the chip in order.
+ */
+ if (pci_dev_present(write_reorder_chipsets) &&
+ !(tp->tg3_flags2 & TG3_FLG2_PCI_EXPRESS))
+ tp->tg3_flags |= TG3_FLAG_MBOX_WRITE_REORDER;
+
if (GET_ASIC_REV(tp->pci_chip_rev_id) == ASIC_REV_5703 &&
tp->pci_lat_timer < 64) {
tp->pci_lat_timer = 64;
@@ -9532,7 +9548,7 @@ static int __devinit tg3_get_invariants(struct tg3 *tp)
tp->write32_rx_mbox = tg3_write_indirect_mbox;
iounmap(tp->regs);
- tp->regs = 0;
+ tp->regs = NULL;
pci_read_config_word(tp->pdev, PCI_COMMAND, &pci_cmd);
pci_cmd &= ~PCI_COMMAND_MEMORY;
@@ -10338,6 +10354,44 @@ static char * __devinit tg3_phy_string(struct tg3 *tp)
};
}
+static char * __devinit tg3_bus_string(struct tg3 *tp, char *str)
+{
+ if (tp->tg3_flags2 & TG3_FLG2_PCI_EXPRESS) {
+ strcpy(str, "PCI Express");
+ return str;
+ } else if (tp->tg3_flags & TG3_FLAG_PCIX_MODE) {
+ u32 clock_ctrl = tr32(TG3PCI_CLOCK_CTRL) & 0x1f;
+
+ strcpy(str, "PCIX:");
+
+ if ((clock_ctrl == 7) ||
+ ((tr32(GRC_MISC_CFG) & GRC_MISC_CFG_BOARD_ID_MASK) ==
+ GRC_MISC_CFG_BOARD_ID_5704CIOBE))
+ strcat(str, "133MHz");
+ else if (clock_ctrl == 0)
+ strcat(str, "33MHz");
+ else if (clock_ctrl == 2)
+ strcat(str, "50MHz");
+ else if (clock_ctrl == 4)
+ strcat(str, "66MHz");
+ else if (clock_ctrl == 6)
+ strcat(str, "100MHz");
+ else if (clock_ctrl == 7)
+ strcat(str, "133MHz");
+ } else {
+ strcpy(str, "PCI:");
+ if (tp->tg3_flags & TG3_FLAG_PCI_HIGH_SPEED)
+ strcat(str, "66MHz");
+ else
+ strcat(str, "33MHz");
+ }
+ if (tp->tg3_flags & TG3_FLAG_PCI_32BIT)
+ strcat(str, ":32-bit");
+ else
+ strcat(str, ":64-bit");
+ return str;
+}
+
static struct pci_dev * __devinit tg3_find_5704_peer(struct tg3 *tp)
{
struct pci_dev *peer;
@@ -10400,6 +10454,7 @@ static int __devinit tg3_init_one(struct pci_dev *pdev,
struct net_device *dev;
struct tg3 *tp;
int i, err, pci_using_dac, pm_cap;
+ char str[40];
if (tg3_version_printed++ == 0)
printk(KERN_INFO "%s", version);
@@ -10645,16 +10700,12 @@ static int __devinit tg3_init_one(struct pci_dev *pdev,
pci_set_drvdata(pdev, dev);
- printk(KERN_INFO "%s: Tigon3 [partno(%s) rev %04x PHY(%s)] (PCI%s:%s:%s) %sBaseT Ethernet ",
+ printk(KERN_INFO "%s: Tigon3 [partno(%s) rev %04x PHY(%s)] (%s) %sBaseT Ethernet ",
dev->name,
tp->board_part_number,
tp->pci_chip_rev_id,
tg3_phy_string(tp),
- ((tp->tg3_flags & TG3_FLAG_PCIX_MODE) ? "X" : ""),
- ((tp->tg3_flags & TG3_FLAG_PCI_HIGH_SPEED) ?
- ((tp->tg3_flags & TG3_FLAG_PCIX_MODE) ? "133MHz" : "66MHz") :
- ((tp->tg3_flags & TG3_FLAG_PCIX_MODE) ? "100MHz" : "33MHz")),
- ((tp->tg3_flags & TG3_FLAG_PCI_32BIT) ? "32-bit" : "64-bit"),
+ tg3_bus_string(tp, str),
(tp->tg3_flags & TG3_FLAG_10_100_ONLY) ? "10/100" : "10/100/1000");
for (i = 0; i < 6; i++)
@@ -10680,7 +10731,7 @@ static int __devinit tg3_init_one(struct pci_dev *pdev,
err_out_iounmap:
if (tp->regs) {
iounmap(tp->regs);
- tp->regs = 0;
+ tp->regs = NULL;
}
err_out_free_dev:
@@ -10705,7 +10756,7 @@ static void __devexit tg3_remove_one(struct pci_dev *pdev)
unregister_netdev(dev);
if (tp->regs) {
iounmap(tp->regs);
- tp->regs = 0;
+ tp->regs = NULL;
}
free_netdev(dev);
pci_release_regions(pdev);
diff --git a/drivers/net/tg3.h b/drivers/net/tg3.h
index c184b773e58..2e733c60bfa 100644
--- a/drivers/net/tg3.h
+++ b/drivers/net/tg3.h
@@ -2246,6 +2246,7 @@ struct tg3 {
(X) == PHY_ID_BCM5411 || (X) == PHY_ID_BCM5701 || \
(X) == PHY_ID_BCM5703 || (X) == PHY_ID_BCM5704 || \
(X) == PHY_ID_BCM5705 || (X) == PHY_ID_BCM5750 || \
+ (X) == PHY_ID_BCM5752 || (X) == PHY_ID_BCM5780 || \
(X) == PHY_ID_BCM8002)
struct tg3_hw_stats *hw_stats;
diff --git a/drivers/net/tulip/xircom_cb.c b/drivers/net/tulip/xircom_cb.c
index 26cc4f6378c..60d1e05ab73 100644
--- a/drivers/net/tulip/xircom_cb.c
+++ b/drivers/net/tulip/xircom_cb.c
@@ -117,7 +117,7 @@ static int xircom_open(struct net_device *dev);
static int xircom_close(struct net_device *dev);
static void xircom_up(struct xircom_private *card);
static struct net_device_stats *xircom_get_stats(struct net_device *dev);
-#if CONFIG_NET_POLL_CONTROLLER
+#ifdef CONFIG_NET_POLL_CONTROLLER
static void xircom_poll_controller(struct net_device *dev);
#endif
diff --git a/drivers/net/wan/hdlc_cisco.c b/drivers/net/wan/hdlc_cisco.c
index 48c03c11cd9..a01efa6d5c6 100644
--- a/drivers/net/wan/hdlc_cisco.c
+++ b/drivers/net/wan/hdlc_cisco.c
@@ -72,7 +72,7 @@ static void cisco_keepalive_send(struct net_device *dev, u32 type,
}
skb_reserve(skb, 4);
cisco_hard_header(skb, dev, CISCO_KEEPALIVE, NULL, NULL, 0);
- data = (cisco_packet*)skb->data;
+ data = (cisco_packet*)(skb->data + 4);
data->type = htonl(type);
data->par1 = htonl(par1);
diff --git a/drivers/net/wan/sdlamain.c b/drivers/net/wan/sdlamain.c
index 74e151acef3..7a8b22a7ea3 100644
--- a/drivers/net/wan/sdlamain.c
+++ b/drivers/net/wan/sdlamain.c
@@ -57,6 +57,7 @@
#include <linux/ioport.h> /* request_region(), release_region() */
#include <linux/wanrouter.h> /* WAN router definitions */
#include <linux/wanpipe.h> /* WANPIPE common user API definitions */
+#include <linux/rcupdate.h>
#include <linux/in.h>
#include <asm/io.h> /* phys_to_virt() */
@@ -1268,37 +1269,41 @@ unsigned long get_ip_address(struct net_device *dev, int option)
struct in_ifaddr *ifaddr;
struct in_device *in_dev;
+ unsigned long addr = 0;
- if ((in_dev = __in_dev_get(dev)) == NULL){
- return 0;
+ rcu_read_lock();
+ if ((in_dev = __in_dev_get_rcu(dev)) == NULL){
+ goto out;
}
if ((ifaddr = in_dev->ifa_list)== NULL ){
- return 0;
+ goto out;
}
switch (option){
case WAN_LOCAL_IP:
- return ifaddr->ifa_local;
+ addr = ifaddr->ifa_local;
break;
case WAN_POINTOPOINT_IP:
- return ifaddr->ifa_address;
+ addr = ifaddr->ifa_address;
break;
case WAN_NETMASK_IP:
- return ifaddr->ifa_mask;
+ addr = ifaddr->ifa_mask;
break;
case WAN_BROADCAST_IP:
- return ifaddr->ifa_broadcast;
+ addr = ifaddr->ifa_broadcast;
break;
default:
- return 0;
+ break;
}
- return 0;
+out:
+ rcu_read_unlock();
+ return addr;
}
void add_gateway(sdla_t *card, struct net_device *dev)
diff --git a/drivers/net/wan/syncppp.c b/drivers/net/wan/syncppp.c
index b56a7b516d2..a6d3b55013a 100644
--- a/drivers/net/wan/syncppp.c
+++ b/drivers/net/wan/syncppp.c
@@ -769,7 +769,7 @@ static void sppp_cisco_input (struct sppp *sp, struct sk_buff *skb)
u32 addr = 0, mask = ~0; /* FIXME: is the mask correct? */
#ifdef CONFIG_INET
rcu_read_lock();
- if ((in_dev = __in_dev_get(dev)) != NULL)
+ if ((in_dev = __in_dev_get_rcu(dev)) != NULL)
{
for (ifa=in_dev->ifa_list; ifa != NULL;
ifa=ifa->ifa_next) {
diff --git a/drivers/net/wireless/airo.c b/drivers/net/wireless/airo.c
index 2be65d308fb..06998c2240d 100644
--- a/drivers/net/wireless/airo.c
+++ b/drivers/net/wireless/airo.c
@@ -6852,7 +6852,10 @@ static inline char *airo_translate_scan(struct net_device *dev,
/* Add frequency */
iwe.cmd = SIOCGIWFREQ;
iwe.u.freq.m = le16_to_cpu(bss->dsChannel);
- iwe.u.freq.m = frequency_list[iwe.u.freq.m] * 100000;
+ /* iwe.u.freq.m containt the channel (starting 1), our
+ * frequency_list array start at index 0...
+ */
+ iwe.u.freq.m = frequency_list[iwe.u.freq.m - 1] * 100000;
iwe.u.freq.e = 1;
current_ev = iwe_stream_add_event(current_ev, end_buf, &iwe, IW_EV_FREQ_LEN);
diff --git a/drivers/net/wireless/orinoco.c b/drivers/net/wireless/orinoco.c
index 8de49fe5723..6deb7cc810c 100644
--- a/drivers/net/wireless/orinoco.c
+++ b/drivers/net/wireless/orinoco.c
@@ -2458,7 +2458,6 @@ struct net_device *alloc_orinocodev(int sizeof_card,
dev->watchdog_timeo = HZ; /* 1 second timeout */
dev->get_stats = orinoco_get_stats;
dev->ethtool_ops = &orinoco_ethtool_ops;
- dev->get_wireless_stats = orinoco_get_wireless_stats;
dev->wireless_handlers = (struct iw_handler_def *)&orinoco_handler_def;
dev->change_mtu = orinoco_change_mtu;
dev->set_multicast_list = orinoco_set_multicast_list;
@@ -4399,6 +4398,7 @@ static const struct iw_handler_def orinoco_handler_def = {
.standard = orinoco_handler,
.private = orinoco_private_handler,
.private_args = orinoco_privtab,
+ .get_wireless_stats = orinoco_get_wireless_stats,
};
static void orinoco_get_drvinfo(struct net_device *dev,
diff --git a/drivers/net/wireless/orinoco_cs.c b/drivers/net/wireless/orinoco_cs.c
index d1fb1bab8aa..bedd7f9f23e 100644
--- a/drivers/net/wireless/orinoco_cs.c
+++ b/drivers/net/wireless/orinoco_cs.c
@@ -629,6 +629,7 @@ static struct pcmcia_device_id orinoco_cs_ids[] = {
PCMCIA_DEVICE_PROD_ID12("Cabletron", "RoamAbout 802.11 DS", 0x32d445f5, 0xedeffd90),
PCMCIA_DEVICE_PROD_ID12("corega K.K.", "Wireless LAN PCC-11", 0x5261440f, 0xa6405584),
PCMCIA_DEVICE_PROD_ID12("corega K.K.", "Wireless LAN PCCA-11", 0x5261440f, 0xdf6115f9),
+ PCMCIA_DEVICE_PROD_ID12("corega_K.K.", "Wireless_LAN_PCCB-11", 0x29e33311, 0xee7a27ae),
PCMCIA_DEVICE_PROD_ID12("D", "Link DRC-650 11Mbps WLAN Card", 0x71b18589, 0xf144e3ac),
PCMCIA_DEVICE_PROD_ID12("D", "Link DWL-650 11Mbps WLAN Card", 0x71b18589, 0xb6f1b0ab),
PCMCIA_DEVICE_PROD_ID12("ELSA", "AirLancer MC-11", 0x4507a33a, 0xef54f0e3),
diff --git a/drivers/net/wireless/strip.c b/drivers/net/wireless/strip.c
index 4b0acae22b0..7bc7fc82312 100644
--- a/drivers/net/wireless/strip.c
+++ b/drivers/net/wireless/strip.c
@@ -1352,7 +1352,7 @@ static unsigned char *strip_make_packet(unsigned char *buffer,
struct in_device *in_dev;
rcu_read_lock();
- in_dev = __in_dev_get(strip_info->dev);
+ in_dev = __in_dev_get_rcu(strip_info->dev);
if (in_dev == NULL) {
rcu_read_unlock();
return NULL;
@@ -1508,7 +1508,7 @@ static void strip_send(struct strip *strip_info, struct sk_buff *skb)
brd = addr = 0;
rcu_read_lock();
- in_dev = __in_dev_get(strip_info->dev);
+ in_dev = __in_dev_get_rcu(strip_info->dev);
if (in_dev) {
if (in_dev->ifa_list) {
brd = in_dev->ifa_list->ifa_broadcast;