diff options
author | Jeff Garzik <jeff@garzik.org> | 2006-06-22 22:11:56 -0400 |
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committer | Jeff Garzik <jeff@garzik.org> | 2006-06-22 22:11:56 -0400 |
commit | 71d530cd1b6d97094481002a04c77fea1c8e1c22 (patch) | |
tree | e786da7145d83c19a594adf76ed90d52c51058b1 /Documentation | |
parent | d7a80dad2fe19a2b8c119c8e9cba605474a75a2b (diff) | |
parent | d588fcbe5a7ba8bba2cebf7799ab2d573717a806 (diff) |
Merge branch 'master' into upstream
Conflicts:
drivers/scsi/libata-core.c
drivers/scsi/libata-scsi.c
include/linux/pci_ids.h
Diffstat (limited to 'Documentation')
45 files changed, 1982 insertions, 670 deletions
diff --git a/Documentation/ABI/README b/Documentation/ABI/README new file mode 100644 index 00000000000..9feaf16f161 --- /dev/null +++ b/Documentation/ABI/README @@ -0,0 +1,77 @@ +This directory attempts to document the ABI between the Linux kernel and +userspace, and the relative stability of these interfaces. Due to the +everchanging nature of Linux, and the differing maturity levels, these +interfaces should be used by userspace programs in different ways. + +We have four different levels of ABI stability, as shown by the four +different subdirectories in this location. Interfaces may change levels +of stability according to the rules described below. + +The different levels of stability are: + + stable/ + This directory documents the interfaces that the developer has + defined to be stable. Userspace programs are free to use these + interfaces with no restrictions, and backward compatibility for + them will be guaranteed for at least 2 years. Most interfaces + (like syscalls) are expected to never change and always be + available. + + testing/ + This directory documents interfaces that are felt to be stable, + as the main development of this interface has been completed. + The interface can be changed to add new features, but the + current interface will not break by doing this, unless grave + errors or security problems are found in them. Userspace + programs can start to rely on these interfaces, but they must be + aware of changes that can occur before these interfaces move to + be marked stable. Programs that use these interfaces are + strongly encouraged to add their name to the description of + these interfaces, so that the kernel developers can easily + notify them if any changes occur (see the description of the + layout of the files below for details on how to do this.) + + obsolete/ + This directory documents interfaces that are still remaining in + the kernel, but are marked to be removed at some later point in + time. The description of the interface will document the reason + why it is obsolete and when it can be expected to be removed. + The file Documentation/feature-removal-schedule.txt may describe + some of these interfaces, giving a schedule for when they will + be removed. + + removed/ + This directory contains a list of the old interfaces that have + been removed from the kernel. + +Every file in these directories will contain the following information: + +What: Short description of the interface +Date: Date created +KernelVersion: Kernel version this feature first showed up in. +Contact: Primary contact for this interface (may be a mailing list) +Description: Long description of the interface and how to use it. +Users: All users of this interface who wish to be notified when + it changes. This is very important for interfaces in + the "testing" stage, so that kernel developers can work + with userspace developers to ensure that things do not + break in ways that are unacceptable. It is also + important to get feedback for these interfaces to make + sure they are working in a proper way and do not need to + be changed further. + + +How things move between levels: + +Interfaces in stable may move to obsolete, as long as the proper +notification is given. + +Interfaces may be removed from obsolete and the kernel as long as the +documented amount of time has gone by. + +Interfaces in the testing state can move to the stable state when the +developers feel they are finished. They cannot be removed from the +kernel tree without going through the obsolete state first. + +It's up to the developer to place their interfaces in the category they +wish for it to start out in. diff --git a/Documentation/ABI/obsolete/devfs b/Documentation/ABI/obsolete/devfs new file mode 100644 index 00000000000..b8b87399bc8 --- /dev/null +++ b/Documentation/ABI/obsolete/devfs @@ -0,0 +1,13 @@ +What: devfs +Date: July 2005 +Contact: Greg Kroah-Hartman <gregkh@suse.de> +Description: + devfs has been unmaintained for a number of years, has unfixable + races, contains a naming policy within the kernel that is + against the LSB, and can be replaced by using udev. + The files fs/devfs/*, include/linux/devfs_fs*.h will be removed, + along with the the assorted devfs function calls throughout the + kernel tree. + +Users: + diff --git a/Documentation/ABI/stable/syscalls b/Documentation/ABI/stable/syscalls new file mode 100644 index 00000000000..c3ae3e7d6a0 --- /dev/null +++ b/Documentation/ABI/stable/syscalls @@ -0,0 +1,10 @@ +What: The kernel syscall interface +Description: + This interface matches much of the POSIX interface and is based + on it and other Unix based interfaces. It will only be added to + over time, and not have things removed from it. + + Note that this interface is different for every architecture + that Linux supports. Please see the architecture-specific + documentation for details on the syscall numbers that are to be + mapped to each syscall. diff --git a/Documentation/ABI/stable/sysfs-module b/Documentation/ABI/stable/sysfs-module new file mode 100644 index 00000000000..75be4311833 --- /dev/null +++ b/Documentation/ABI/stable/sysfs-module @@ -0,0 +1,30 @@ +What: /sys/module +Description: + The /sys/module tree consists of the following structure: + + /sys/module/MODULENAME + The name of the module that is in the kernel. This + module name will show up either if the module is built + directly into the kernel, or if it is loaded as a + dyanmic module. + + /sys/module/MODULENAME/parameters + This directory contains individual files that are each + individual parameters of the module that are able to be + changed at runtime. See the individual module + documentation as to the contents of these parameters and + what they accomplish. + + Note: The individual parameter names and values are not + considered stable, only the fact that they will be + placed in this location within sysfs. See the + individual driver documentation for details as to the + stability of the different parameters. + + /sys/module/MODULENAME/refcnt + If the module is able to be unloaded from the kernel, this file + will contain the current reference count of the module. + + Note: If the module is built into the kernel, or if the + CONFIG_MODULE_UNLOAD kernel configuration value is not enabled, + this file will not be present. diff --git a/Documentation/ABI/testing/sysfs-class b/Documentation/ABI/testing/sysfs-class new file mode 100644 index 00000000000..4b0cb891e46 --- /dev/null +++ b/Documentation/ABI/testing/sysfs-class @@ -0,0 +1,16 @@ +What: /sys/class/ +Date: Febuary 2006 +Contact: Greg Kroah-Hartman <gregkh@suse.de> +Description: + The /sys/class directory will consist of a group of + subdirectories describing individual classes of devices + in the kernel. The individual directories will consist + of either subdirectories, or symlinks to other + directories. + + All programs that use this directory tree must be able + to handle both subdirectories or symlinks in order to + work properly. + +Users: + udev <linux-hotplug-devel@lists.sourceforge.net> diff --git a/Documentation/ABI/testing/sysfs-devices b/Documentation/ABI/testing/sysfs-devices new file mode 100644 index 00000000000..6a25671ee5f --- /dev/null +++ b/Documentation/ABI/testing/sysfs-devices @@ -0,0 +1,25 @@ +What: /sys/devices +Date: February 2006 +Contact: Greg Kroah-Hartman <gregkh@suse.de> +Description: + The /sys/devices tree contains a snapshot of the + internal state of the kernel device tree. Devices will + be added and removed dynamically as the machine runs, + and between different kernel versions, the layout of the + devices within this tree will change. + + Please do not rely on the format of this tree because of + this. If a program wishes to find different things in + the tree, please use the /sys/class structure and rely + on the symlinks there to point to the proper location + within the /sys/devices tree of the individual devices. + Or rely on the uevent messages to notify programs of + devices being added and removed from this tree to find + the location of those devices. + + Note that sometimes not all devices along the directory + chain will have emitted uevent messages, so userspace + programs must be able to handle such occurrences. + +Users: + udev <linux-hotplug-devel@lists.sourceforge.net> diff --git a/Documentation/arm/Sharp-LH/ADC-LH7-Touchscreen b/Documentation/arm/Sharp-LH/ADC-LH7-Touchscreen new file mode 100644 index 00000000000..1e6a23fdf2f --- /dev/null +++ b/Documentation/arm/Sharp-LH/ADC-LH7-Touchscreen @@ -0,0 +1,61 @@ +README on the ADC/Touchscreen Controller +======================================== + +The LH79524 and LH7A404 include a built-in Analog to Digital +controller (ADC) that is used to process input from a touchscreen. +The driver only implements a four-wire touch panel protocol. + +The touchscreen driver is maintenance free except for the pen-down or +touch threshold. Some resistive displays and board combinations may +require tuning of this threshold. The driver exposes some of it's +internal state in the sys filesystem. If the kernel is configured +with it, CONFIG_SYSFS, and sysfs is mounted at /sys, there will be a +directory + + /sys/devices/platform/adc-lh7.0 + +containing these files. + + -r--r--r-- 1 root root 4096 Jan 1 00:00 samples + -rw-r--r-- 1 root root 4096 Jan 1 00:00 threshold + -r--r--r-- 1 root root 4096 Jan 1 00:00 threshold_range + +The threshold is the current touch threshold. It defaults to 750 on +most targets. + + # cat threshold + 750 + +The threshold_range contains the range of valid values for the +threshold. Values outside of this range will be silently ignored. + + # cat threshold_range + 0 1023 + +To change the threshold, write a value to the threshold file. + + # echo 500 > threshold + # cat threshold + 500 + +The samples file contains the most recently sampled values from the +ADC. There are 12. Below are typical of the last sampled values when +the pen has been released. The first two and last two samples are for +detecting whether or not the pen is down. The third through sixth are +X coordinate samples. The seventh through tenth are Y coordinate +samples. + + # cat samples + 1023 1023 0 0 0 0 530 529 530 529 1023 1023 + +To determine a reasonable threshold, press on the touch panel with an +appropriate stylus and read the values from samples. + + # cat samples + 1023 676 92 103 101 102 855 919 922 922 1023 679 + +The first and eleventh samples are discarded. Thus, the important +values are the second and twelfth which are used to determine if the +pen is down. When both are below the threshold, the driver registers +that the pen is down. When either is above the threshold, it +registers then pen is up. diff --git a/Documentation/arm/Sharp-LH/LCDPanels b/Documentation/arm/Sharp-LH/LCDPanels new file mode 100644 index 00000000000..fb1b21c2f2f --- /dev/null +++ b/Documentation/arm/Sharp-LH/LCDPanels @@ -0,0 +1,59 @@ +README on the LCD Panels +======================== + +Configuration options for several LCD panels, available from Logic PD, +are included in the kernel source. This README will help you +understand the configuration data and give you some guidance for +adding support for other panels if you wish. + + +lcd-panels.h +------------ + +There is no way, at present, to detect which panel is attached to the +system at runtime. Thus the kernel configuration is static. The file +arch/arm/mach-ld7a40x/lcd-panels.h (or similar) defines all of the +panel specific parameters. + +It should be possible for this data to be shared among several device +families. The current layout may be insufficiently general, but it is +amenable to improvement. + + +PIXEL_CLOCK +----------- + +The panel data sheets will give a range of acceptable pixel clocks. +The fundamental LCDCLK input frequency is divided down by a PCD +constant in field '.tim2'. It may happen that it is impossible to set +the pixel clock within this range. A clock which is too slow will +tend to flicker. For the highest quality image, set the clock as high +as possible. + + +MARGINS +------- + +These values may be difficult to glean from the panel data sheet. In +the case of the Sharp panels, the upper margin is explicitly called +out as a specific number of lines from the top of the frame. The +other values may not matter as much as the panels tend to +automatically center the image. + + +Sync Sense +---------- + +The sense of the hsync and vsync pulses may be called out in the data +sheet. On one panel, the sense of these pulses determine the height +of the visible region on the panel. Most of the Sharp panels use +negative sense sync pulses set by the TIM2_IHS and TIM2_IVS bits in +'.tim2'. + + +Pel Layout +---------- + +The Sharp color TFT panels are all configured for 16 bit direct color +modes. The amba-lcd driver sets the pel mode to 565 for 5 bits of +each red and blue and 6 bits of green. diff --git a/Documentation/feature-removal-schedule.txt b/Documentation/feature-removal-schedule.txt index 43ab119963d..f7293297f32 100644 --- a/Documentation/feature-removal-schedule.txt +++ b/Documentation/feature-removal-schedule.txt @@ -49,11 +49,11 @@ Who: Paul E. McKenney <paulmck@us.ibm.com> --------------------------- What: raw1394: requests of type RAW1394_REQ_ISO_SEND, RAW1394_REQ_ISO_LISTEN -When: November 2005 +When: November 2006 Why: Deprecated in favour of the new ioctl-based rawiso interface, which is more efficient. You should really be using libraw1394 for raw1394 access anyway. -Who: Jody McIntyre <scjody@steamballoon.com> +Who: Jody McIntyre <scjody@modernduck.com> --------------------------- @@ -212,15 +212,6 @@ Who: Greg Kroah-Hartman <gregkh@suse.de> --------------------------- -What: Support for NEC DDB5074 and DDB5476 evaluation boards. -When: June 2006 -Why: Board specific code doesn't build anymore since ~2.6.0 and no - users have complained indicating there is no more need for these - boards. This should really be considered a last call. -Who: Ralf Baechle <ralf@linux-mips.org> - ---------------------------- - What: USB driver API moves to EXPORT_SYMBOL_GPL When: Febuary 2008 Files: include/linux/usb.h, drivers/usb/core/driver.c diff --git a/Documentation/filesystems/inotify.txt b/Documentation/filesystems/inotify.txt index 6d501903f68..59a919f1614 100644 --- a/Documentation/filesystems/inotify.txt +++ b/Documentation/filesystems/inotify.txt @@ -69,17 +69,135 @@ Prototypes: int inotify_rm_watch (int fd, __u32 mask); -(iii) Internal Kernel Implementation +(iii) Kernel Interface -Each inotify instance is associated with an inotify_device structure. +Inotify's kernel API consists a set of functions for managing watches and an +event callback. + +To use the kernel API, you must first initialize an inotify instance with a set +of inotify_operations. You are given an opaque inotify_handle, which you use +for any further calls to inotify. + + struct inotify_handle *ih = inotify_init(my_event_handler); + +You must provide a function for processing events and a function for destroying +the inotify watch. + + void handle_event(struct inotify_watch *watch, u32 wd, u32 mask, + u32 cookie, const char *name, struct inode *inode) + + watch - the pointer to the inotify_watch that triggered this call + wd - the watch descriptor + mask - describes the event that occurred + cookie - an identifier for synchronizing events + name - the dentry name for affected files in a directory-based event + inode - the affected inode in a directory-based event + + void destroy_watch(struct inotify_watch *watch) + +You may add watches by providing a pre-allocated and initialized inotify_watch +structure and specifying the inode to watch along with an inotify event mask. +You must pin the inode during the call. You will likely wish to embed the +inotify_watch structure in a structure of your own which contains other +information about the watch. Once you add an inotify watch, it is immediately +subject to removal depending on filesystem events. You must grab a reference if +you depend on the watch hanging around after the call. + + inotify_init_watch(&my_watch->iwatch); + inotify_get_watch(&my_watch->iwatch); // optional + s32 wd = inotify_add_watch(ih, &my_watch->iwatch, inode, mask); + inotify_put_watch(&my_watch->iwatch); // optional + +You may use the watch descriptor (wd) or the address of the inotify_watch for +other inotify operations. You must not directly read or manipulate data in the +inotify_watch. Additionally, you must not call inotify_add_watch() more than +once for a given inotify_watch structure, unless you have first called either +inotify_rm_watch() or inotify_rm_wd(). + +To determine if you have already registered a watch for a given inode, you may +call inotify_find_watch(), which gives you both the wd and the watch pointer for +the inotify_watch, or an error if the watch does not exist. + + wd = inotify_find_watch(ih, inode, &watchp); + +You may use container_of() on the watch pointer to access your own data +associated with a given watch. When an existing watch is found, +inotify_find_watch() bumps the refcount before releasing its locks. You must +put that reference with: + + put_inotify_watch(watchp); + +Call inotify_find_update_watch() to update the event mask for an existing watch. +inotify_find_update_watch() returns the wd of the updated watch, or an error if +the watch does not exist. + + wd = inotify_find_update_watch(ih, inode, mask); + +An existing watch may be removed by calling either inotify_rm_watch() or +inotify_rm_wd(). + + int ret = inotify_rm_watch(ih, &my_watch->iwatch); + int ret = inotify_rm_wd(ih, wd); + +A watch may be removed while executing your event handler with the following: + + inotify_remove_watch_locked(ih, iwatch); + +Call inotify_destroy() to remove all watches from your inotify instance and +release it. If there are no outstanding references, inotify_destroy() will call +your destroy_watch op for each watch. + + inotify_destroy(ih); + +When inotify removes a watch, it sends an IN_IGNORED event to your callback. +You may use this event as an indication to free the watch memory. Note that +inotify may remove a watch due to filesystem events, as well as by your request. +If you use IN_ONESHOT, inotify will remove the watch after the first event, at +which point you may call the final inotify_put_watch. + +(iv) Kernel Interface Prototypes + + struct inotify_handle *inotify_init(struct inotify_operations *ops); + + inotify_init_watch(struct inotify_watch *watch); + + s32 inotify_add_watch(struct inotify_handle *ih, + struct inotify_watch *watch, + struct inode *inode, u32 mask); + + s32 inotify_find_watch(struct inotify_handle *ih, struct inode *inode, + struct inotify_watch **watchp); + + s32 inotify_find_update_watch(struct inotify_handle *ih, + struct inode *inode, u32 mask); + + int inotify_rm_wd(struct inotify_handle *ih, u32 wd); + + int inotify_rm_watch(struct inotify_handle *ih, + struct inotify_watch *watch); + + void inotify_remove_watch_locked(struct inotify_handle *ih, + struct inotify_watch *watch); + + void inotify_destroy(struct inotify_handle *ih); + + void get_inotify_watch(struct inotify_watch *watch); + void put_inotify_watch(struct inotify_watch *watch); + + +(v) Internal Kernel Implementation + +Each inotify instance is represented by an inotify_handle structure. +Inotify's userspace consumers also have an inotify_device which is +associated with the inotify_handle, and on which events are queued. Each watch is associated with an inotify_watch structure. Watches are chained -off of each associated device and each associated inode. +off of each associated inotify_handle and each associated inode. -See fs/inotify.c for the locking and lifetime rules. +See fs/inotify.c and fs/inotify_user.c for the locking and lifetime rules. -(iv) Rationale +(vi) Rationale Q: What is the design decision behind not tying the watch to the open fd of the watched object? @@ -145,7 +263,7 @@ A: The poor user-space interface is the second biggest problem with dnotify. file descriptor-based one that allows basic file I/O and poll/select. Obtaining the fd and managing the watches could have been done either via a device file or a family of new system calls. We decided to implement a - family of system calls because that is the preffered approach for new kernel + family of system calls because that is the preferred approach for new kernel interfaces. The only real difference was whether we wanted to use open(2) and ioctl(2) or a couple of new system calls. System calls beat ioctls. diff --git a/Documentation/hwmon/abituguru b/Documentation/hwmon/abituguru new file mode 100644 index 00000000000..69cdb527d58 --- /dev/null +++ b/Documentation/hwmon/abituguru @@ -0,0 +1,59 @@ +Kernel driver abituguru +======================= + +Supported chips: + * Abit uGuru (Hardware Monitor part only) + Prefix: 'abituguru' + Addresses scanned: ISA 0x0E0 + Datasheet: Not available, this driver is based on reverse engineering. + A "Datasheet" has been written based on the reverse engineering it + should be available in the same dir as this file under the name + abituguru-datasheet. + +Authors: + Hans de Goede <j.w.r.degoede@hhs.nl>, + (Initial reverse engineering done by Olle Sandberg + <ollebull@gmail.com>) + + +Module Parameters +----------------- + +* force: bool Force detection. Note this parameter only causes the + detection to be skipped, if the uGuru can't be read + the module initialization (insmod) will still fail. +* fan_sensors: int Tell the driver how many fan speed sensors there are + on your motherboard. Default: 0 (autodetect). +* pwms: int Tell the driver how many fan speed controls (fan + pwms) your motherboard has. Default: 0 (autodetect). +* verbose: int How verbose should the driver be? (0-3): + 0 normal output + 1 + verbose error reporting + 2 + sensors type probing info\n" + 3 + retryable error reporting + Default: 2 (the driver is still in the testing phase) + +Notice if you need any of the first three options above please insmod the +driver with verbose set to 3 and mail me <j.w.r.degoede@hhs.nl> the output of: +dmesg | grep abituguru + + +Description +----------- + +This driver supports the hardware monitoring features of the Abit uGuru chip +found on Abit uGuru featuring motherboards (most modern Abit motherboards). + +The uGuru chip in reality is a Winbond W83L950D in disguise (despite Abit +claiming it is "a new microprocessor designed by the ABIT Engineers"). +Unfortunatly this doesn't help since the W83L950D is a generic +microcontroller with a custom Abit application running on it. + +Despite Abit not releasing any information regarding the uGuru, Olle +Sandberg <ollebull@gmail.com> has managed to reverse engineer the sensor part +of the uGuru. Without his work this driver would not have been possible. + +Known Issues +------------ + +The voltage and frequency control parts of the Abit uGuru are not supported. diff --git a/Documentation/hwmon/abituguru-datasheet b/Documentation/hwmon/abituguru-datasheet new file mode 100644 index 00000000000..aef5a9b3684 --- /dev/null +++ b/Documentation/hwmon/abituguru-datasheet @@ -0,0 +1,312 @@ +uGuru datasheet +=============== + +First of all, what I know about uGuru is no fact based on any help, hints or +datasheet from Abit. The data I have got on uGuru have I assembled through +my weak knowledge in "backwards engineering". +And just for the record, you may have noticed uGuru isn't a chip developed by +Abit, as they claim it to be. It's realy just an microprocessor (uC) created by +Winbond (W83L950D). And no, reading the manual for this specific uC or +mailing Windbond for help won't give any usefull data about uGuru, as it is +the program inside the uC that is responding to calls. + +Olle Sandberg <ollebull@gmail.com>, 2005-05-25 + + +Original version by Olle Sandberg who did the heavy lifting of the initial +reverse engineering. This version has been almost fully rewritten for clarity +and extended with write support and info on more databanks, the write support +is once again reverse engineered by Olle the additional databanks have been +reverse engineered by me. I would like to express my thanks to Olle, this +document and the Linux driver could not have been written without his efforts. + +Note: because of the lack of specs only the sensors part of the uGuru is +described here and not the CPU / RAM / etc voltage & frequency control. + +Hans de Goede <j.w.r.degoede@hhs.nl>, 28-01-2006 + + +Detection +========= + +As far as known the uGuru is always placed at and using the (ISA) I/O-ports +0xE0 and 0xE4, so we don't have to scan any port-range, just check what the two +ports are holding for detection. We will refer to 0xE0 as CMD (command-port) +and 0xE4 as DATA because Abit refers to them with these names. + +If DATA holds 0x00 or 0x08 and CMD holds 0x00 or 0xAC an uGuru could be +present. We have to check for two different values at data-port, because +after a reboot uGuru will hold 0x00 here, but if the driver is removed and +later on attached again data-port will hold 0x08, more about this later. + +After wider testing of the Linux kernel driver some variants of the uGuru have +turned up which will hold 0x00 instead of 0xAC at the CMD port, thus we also +have to test CMD for two different values. On these uGuru's DATA will initally +hold 0x09 and will only hold 0x08 after reading CMD first, so CMD must be read +first! + +To be really sure an uGuru is present a test read of one or more register +sets should be done. + + +Reading / Writing +================= + +Addressing +---------- + +The uGuru has a number of different addressing levels. The first addressing +level we will call banks. A bank holds data for one or more sensors. The data +in a bank for a sensor is one or more bytes large. + +The number of bytes is fixed for a given bank, you should always read or write +that many bytes, reading / writing more will fail, the results when writing +less then the number of bytes for a given bank are undetermined. + +See below for all known bank addresses, numbers of sensors in that bank, +number of bytes data per sensor and contents/meaning of those bytes. + +Although both this document and the kernel driver have kept the sensor +terminoligy for the addressing within a bank this is not 100% correct, in +bank 0x24 for example the addressing within the bank selects a PWM output not +a sensor. + +Notice that some banks have both a read and a write address this is how the +uGuru determines if a read from or a write to the bank is taking place, thus +when reading you should always use the read address and when writing the +write address. The write address is always one (1) more then the read address. + + +uGuru ready +----------- + +Before you can read from or write to the uGuru you must first put the uGuru +in "ready" mode. + +To put the uGuru in ready mode first write 0x00 to DATA and then wait for DATA +to hold 0x09, DATA should read 0x09 within 250 read cycles. + +Next CMD _must_ be read and should hold 0xAC, usually CMD will hold 0xAC the +first read but sometimes it takes a while before CMD holds 0xAC and thus it +has to be read a number of times (max 50). + +After reading CMD, DATA should hold 0x08 which means that the uGuru is ready +for input. As above DATA will usually hold 0x08 the first read but not always. +This step can be skipped, but it is undetermined what happens if the uGuru has +not yet reported 0x08 at DATA and you proceed with writing a bank address. + + +Sending bank and sensor addresses to the uGuru +---------------------------------------------- + +First the uGuru must be in "ready" mode as described above, DATA should hold +0x08 indicating that the uGuru wants input, in this case the bank address. + +Next write the bank address to DATA. After the bank address has been written +wait for to DATA to hold 0x08 again indicating that it wants / is ready for +more input (max 250 reads). + +Once DATA holds 0x08 again write the sensor address to CMD. + + +Reading +------- + +First send the bank and sensor addresses as described above. +Then for each byte of data you want to read wait for DATA to hold 0x01 +which indicates that the uGuru is ready to be read (max 250 reads) and once +DATA holds 0x01 read the byte from CMD. + +Once all bytes have been read data will hold 0x09, but there is no reason to +test for this. Notice that the number of bytes is bank address dependent see +above and below. + +After completing a successfull read it is advised to put the uGuru back in +ready mode, so that it is ready for the next read / write cycle. This way +if your program / driver is unloaded and later loaded again the detection +algorithm described above will still work. + + + +Writing +------- + +First send the bank and sensor addresses as described above. +Then for each byte of data you want to write wait for DATA to hold 0x00 +which indicates that the uGuru is ready to be written (max 250 reads) and +once DATA holds 0x00 write the byte to CMD. + +Once all bytes have been written wait for DATA to hold 0x01 (max 250 reads) +don't ask why this is the way it is. + +Once DATA holds 0x01 read CMD it should hold 0xAC now. + +After completing a successfull write it is advised to put the uGuru back in +ready mode, so that it is ready for the next read / write cycle. This way +if your program / driver is unloaded and later loaded again the detection +algorithm described above will still work. + + +Gotchas +------- + +After wider testing of the Linux kernel driver some variants of the uGuru have +turned up which do not hold 0x08 at DATA within 250 reads after writing the +bank address. With these versions this happens quite frequent, using larger +timeouts doesn't help, they just go offline for a second or 2, doing some +internal callibration or whatever. Your code should be prepared to handle +this and in case of no response in this specific case just goto sleep for a +while and then retry. + + +Address Map +=========== + +Bank 0x20 Alarms (R) +-------------------- +This bank contains 0 sensors, iow the sensor address is ignored (but must be +written) just use 0. Bank 0x20 contains 3 bytes: + +Byte 0: +This byte holds the alarm flags for sensor 0-7 of Sensor Bank1, with bit 0 +corresponding to sensor 0, 1 to 1, etc. + +Byte 1: +This byte holds the alarm flags for sensor 8-15 of Sensor Bank1, with bit 0 +corresponding to sensor 8, 1 to 9, etc. + +Byte 2: +This byte holds the alarm flags for sensor 0-5 of Sensor Bank2, with bit 0 +corresponding to sensor 0, 1 to 1, etc. + + +Bank 0x21 Sensor Bank1 Values / Readings (R) +-------------------------------------------- +This bank contains 16 sensors, for each sensor it contains 1 byte. +So far the following sensors are known to be available on all motherboards: +Sensor 0 CPU temp +Sensor 1 SYS temp +Sensor 3 CPU core volt +Sensor 4 DDR volt +Sensor 10 DDR Vtt volt +Sensor 15 PWM temp + +Byte 0: +This byte holds the reading from the sensor. Sensors in Bank1 can be both +volt and temp sensors, this is motherboard specific. The uGuru however does +seem to know (be programmed with) what kindoff sensor is attached see Sensor +Bank1 Settings description. + +Volt sensors use a linear scale, a reading 0 corresponds with 0 volt and a +reading of 255 with 3494 mV. The sensors for higher voltages however are +connected through a division circuit. The currently known division circuits +in use result in ranges of: 0-4361mV, 0-6248mV or 0-14510mV. 3.3 volt sources +use the 0-4361mV range, 5 volt the 0-6248mV and 12 volt the 0-14510mV . + +Temp sensors also use a linear scale, a reading of 0 corresponds with 0 degree +Celsius and a reading of 255 with a reading of 255 degrees Celsius. + + +Bank 0x22 Sensor Bank1 Settings (R) +Bank 0x23 Sensor Bank1 Settings (W) +----------------------------------- + +This bank contains 16 sensors, for each sensor it contains 3 bytes. Each +set of 3 bytes contains the settings for the sensor with the same sensor +address in Bank 0x21 . + +Byte 0: +Alarm behaviour for the selected sensor. A 1 enables the described behaviour. +Bit 0: Give an alarm if measured temp is over the warning threshold (RW) * +Bit 1: Give an alarm if measured volt is over the max threshold (RW) ** +Bit 2: Give an alarm if measured volt is under the min threshold (RW) ** +Bit 3: Beep if alarm (RW) +Bit 4: 1 if alarm cause measured temp is over the warning threshold (R) +Bit 5: 1 if alarm cause measured volt is over the max threshold (R) +Bit 6: 1 if alarm cause measured volt is under the min threshold (R) +Bit 7: Volt sensor: Shutdown if alarm persist for more then 4 seconds (RW) + Temp sensor: Shutdown if temp is over the shutdown threshold (RW) + +* This bit is only honored/used by the uGuru if a temp sensor is connected +** This bit is only honored/used by the uGuru if a volt sensor is connected +Note with some trickery this can be used to find out what kinda sensor is +detected see the Linux kernel driver for an example with many comments on +how todo this. + +Byte 1: +Temp sensor: warning threshold (scale as bank 0x21) +Volt sensor: min threshold (scale as bank 0x21) + +Byte 2: +Temp sensor: shutdown threshold (scale as bank 0x21) +Volt sensor: max threshold (scale as bank 0x21) + + +Bank 0x24 PWM outputs for FAN's (R) +Bank 0x25 PWM outputs for FAN's (W) +----------------------------------- + +This bank contains 3 "sensors", for each sensor it contains 5 bytes. +Sensor 0 usually controls the CPU fan +Sensor 1 usually controls the NB (or chipset for single chip) fan +Sensor 2 usually controls the System fan + +Byte 0: +Flag 0x80 to enable control, Fan runs at 100% when disabled. +low nibble (temp)sensor address at bank 0x21 used for control. + +Byte 1: +0-255 = 0-12v (linear), specify voltage at which fan will rotate when under +low threshold temp (specified in byte 3) + +Byte 2: +0-255 = 0-12v (linear), specify voltage at which fan will rotate when above +high threshold temp (specified in byte 4) + +Byte 3: +Low threshold temp (scale as bank 0x21) + +byte 4: +High threshold temp (scale as bank 0x21) + + +Bank 0x26 Sensors Bank2 Values / Readings (R) +--------------------------------------------- + +This bank contains 6 sensors (AFAIK), for each sensor it contains 1 byte. +So far the following sensors are known to be available on all motherboards: +Sensor 0: CPU fan speed +Sensor 1: NB (or chipset for single chip) fan speed +Sensor 2: SYS fan speed + +Byte 0: +This byte holds the reading from the sensor. 0-255 = 0-15300 (linear) + + +Bank 0x27 Sensors Bank2 Settings (R) +Bank 0x28 Sensors Bank2 Settings (W) +------------------------------------ + +This bank contains 6 sensors (AFAIK), for each sensor it contains 2 bytes. + +Byte 0: +Alarm behaviour for the selected sensor. A 1 enables the described behaviour. +Bit 0: Give an alarm if measured rpm is under the min threshold (RW) +Bit 3: Beep if alarm (RW) +Bit 7: Shutdown if alarm persist for more then 4 seconds (RW) + +Byte 1: +min threshold (scale as bank 0x26) + + +Warning for the adventerous +=========================== + +A word of caution to those who want to experiment and see if they can figure +the voltage / clock programming out, I tried reading and only reading banks +0-0x30 with the reading code used for the sensor banks (0x20-0x28) and this +resulted in a _permanent_ reprogramming of the voltages, luckily I had the +sensors part configured so that it would shutdown my system on any out of spec +voltages which proprably safed my computer (after a reboot I managed to +immediatly enter the bios and reload the defaults). This probably means that +the read/write cycle for the non sensor part is different from the sensor part. diff --git a/Documentation/hwmon/lm70 b/Documentation/hwmon/lm70 new file mode 100644 index 00000000000..2bdd3feebf5 --- /dev/null +++ b/Documentation/hwmon/lm70 @@ -0,0 +1,31 @@ +Kernel driver lm70 +================== + +Supported chip: + * National Semiconductor LM70 + Datasheet: http://www.national.com/pf/LM/LM70.html + +Author: + Kaiwan N Billimoria <kaiwan@designergraphix.com> + +Description +----------- + +This driver implements support for the National Semiconductor LM70 +temperature sensor. + +The LM70 temperature sensor chip supports a single temperature sensor. +It communicates with a host processor (or microcontroller) via an +SPI/Microwire Bus interface. + +Communication with the LM70 is simple: when the temperature is to be sensed, +the driver accesses the LM70 using SPI communication: 16 SCLK cycles +comprise the MOSI/MISO loop. At the end of the transfer, the 11-bit 2's +complement digital temperature (sent via the SIO line), is available in the +driver for interpretation. This driver makes use of the kernel's in-core +SPI support. + +Thanks to +--------- +Jean Delvare <khali@linux-fr.org> for mentoring the hwmon-side driver +development. diff --git a/Documentation/hwmon/lm83 b/Documentation/hwmon/lm83 index 061d9ed8ff4..f7aad1489cb 100644 --- a/Documentation/hwmon/lm83 +++ b/Documentation/hwmon/lm83 @@ -7,6 +7,10 @@ Supported chips: Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e Datasheet: Publicly available at the National Semiconductor website http://www.national.com/pf/LM/LM83.html + * National Semiconductor LM82 + Addresses scanned: I2C 0x18 - 0x1a, 0x29 - 0x2b, 0x4c - 0x4e + Datasheet: Publicly available at the National Semiconductor website + http://www.national.com/pf/LM/LM82.html Author: Jean Delvare <khali@linux-fr.org> @@ -15,10 +19,11 @@ Description ----------- The LM83 is a digital temperature sensor. It senses its own temperature as -well as the temperature of up to three external diodes. It is compatible -with many other devices such as the LM84 and all other ADM1021 clones. -The main difference between the LM83 and the LM84 in that the later can -only sense the temperature of one external diode. +well as the temperature of up to three external diodes. The LM82 is +a stripped down version of the LM83 that only supports one external diode. +Both are compatible with many other devices such as the LM84 and all +other ADM1021 clones. The main difference between the LM83 and the LM84 +in that the later can only sense the temperature of one external diode. Using the adm1021 driver for a LM83 should work, but only two temperatures will be reported instead of four. @@ -30,12 +35,16 @@ contact us. Note that the LM90 can easily be misdetected as a LM83. Confirmed motherboards: SBS P014 + SBS PSL09 Unconfirmed motherboards: Gigabyte GA-8IK1100 Iwill MPX2 Soltek SL-75DRV5 +The LM82 is confirmed to have been found on most AMD Geode reference +designs and test platforms. + The driver has been successfully tested by Magnus Forsström, who I'd like to thank here. More testers will be of course welcome. diff --git a/Documentation/hwmon/smsc47m192 b/Documentation/hwmon/smsc47m192 new file mode 100644 index 00000000000..45d6453cd43 --- /dev/null +++ b/Documentation/hwmon/smsc47m192 @@ -0,0 +1,102 @@ +Kernel driver smsc47m192 +======================== + +Supported chips: + * SMSC LPC47M192 and LPC47M997 + Prefix: 'smsc47m192' + Addresses scanned: I2C 0x2c - 0x2d + Datasheet: The datasheet for LPC47M192 is publicly available from + http://www.smsc.com/ + The LPC47M997 is compatible for hardware monitoring. + +Author: Hartmut Rick <linux@rick.claranet.de> + Special thanks to Jean Delvare for careful checking + of the code and many helpful comments and suggestions. + + +Description +----------- + +This driver implements support for the hardware sensor capabilities +of the SMSC LPC47M192 and LPC47M997 Super-I/O chips. + +These chips support 3 temperature channels and 8 voltage inputs +as well as CPU voltage VID input. + +They do also have fan monitoring and control capabilities, but the +these features are accessed via ISA bus and are not supported by this +driver. Use the 'smsc47m1' driver for fan monitoring and control. + +Voltages and temperatures are measured by an 8-bit ADC, the resolution +of the temperatures is 1 bit per degree C. +Voltages are scaled such that the nominal voltage corresponds to +192 counts, i.e. 3/4 of the full range. Thus the available range for +each voltage channel is 0V ... 255/192*(nominal voltage), the resolution +is 1 bit per (nominal voltage)/192. +Both voltage and temperature values are scaled by 1000, the sys files +show voltages in mV and temperatures in units of 0.001 degC. + +The +12V analog voltage input channel (in4_input) is multiplexed with +bit 4 of the encoded CPU voltage. This means that you either get +a +12V voltage measurement or a 5 bit CPU VID, but not both. +The default setting is to use the pin as 12V input, and use only 4 bit VID. +This driver assumes that the information in the configuration register +is correct, i.e. that the BIOS has updated the configuration if +the motherboard has this input wired to VID4. + +The temperature and voltage readings are updated once every 1.5 seconds. +Reading them more often repeats the same values. + + +sysfs interface +--------------- + +in0_input - +2.5V voltage input +in1_input - CPU voltage input (nominal 2.25V) +in2_input - +3.3V voltage input +in3_input - +5V voltage input +in4_input - +12V voltage input (may be missing if used as VID4) +in5_input - Vcc voltage input (nominal 3.3V) + This is the supply voltage of the sensor chip itself. +in6_input - +1.5V voltage input +in7_input - +1.8V voltage input + +in[0-7]_min, +in[0-7]_max - lower and upper alarm thresholds for in[0-7]_input reading + + All voltages are read and written in mV. + +in[0-7]_alarm - alarm flags for voltage inputs + These files read '1' in case of alarm, '0' otherwise. + +temp1_input - chip temperature measured by on-chip diode +temp[2-3]_input - temperature measured by external diodes (one of these would + typically be wired to the diode inside the CPU) + +temp[1-3]_min, +temp[1-3]_max - lower and upper alarm thresholds for temperatures + +temp[1-3]_offset - temperature offset registers + The chip adds the offsets stored in these registers to + the corresponding temperature readings. + Note that temp1 and temp2 offsets share the same register, + they cannot both be different from zero at the same time. + Writing a non-zero number to one of them will reset the other + offset to zero. + + All temperatures and offsets are read and written in + units of 0.001 degC. + +temp[1-3]_alarm - alarm flags for temperature inputs, '1' in case of alarm, + '0' otherwise. +temp[2-3]_input_fault - diode fault flags for temperature inputs 2 and 3. + A fault is detected if the two pins for the corresponding + sensor are open or shorted, or any of the two is shorted + to ground or Vcc. '1' indicates a diode fault. + +cpu0_vid - CPU voltage as received from the CPU + +vrm - CPU VID standard used for decoding CPU voltage + + The *_min, *_max, *_offset and vrm files can be read and + written, all others are read-only. diff --git a/Documentation/hwmon/sysfs-interface b/Documentation/hwmon/sysfs-interface index a0d0ab24288..d1d390aaf62 100644 --- a/Documentation/hwmon/sysfs-interface +++ b/Documentation/hwmon/sysfs-interface @@ -3,15 +3,15 @@ Naming and data format standards for sysfs files The libsensors library offers an interface to the raw sensors data through the sysfs interface. See libsensors documentation and source for -more further information. As of writing this document, libsensors -(from lm_sensors 2.8.3) is heavily chip-dependant. Adding or updating +further information. As of writing this document, libsensors +(from lm_sensors 2.8.3) is heavily chip-dependent. Adding or updating support for any given chip requires modifying the library's code. This is because libsensors was written for the procfs interface older kernel modules were using, which wasn't standardized enough. Recent versions of libsensors (from lm_sensors 2.8.2 and later) have support for the sysfs interface, though. -The new sysfs interface was designed to be as chip-independant as +The new sysfs interface was designed to be as chip-independent as possible. Note that motherboards vary widely in the connections to sensor chips. @@ -24,7 +24,7 @@ range using external resistors. Since the values of these resistors can change from motherboard to motherboard, the conversions cannot be hard coded into the driver and have to be done in user space. -For this reason, even if we aim at a chip-independant libsensors, it will +For this reason, even if we aim at a chip-independent libsensors, it will still require a configuration file (e.g. /etc/sensors.conf) for proper values conversion, labeling of inputs and hiding of unused inputs. @@ -39,15 +39,16 @@ If you are developing a userspace application please send us feedback on this standard. Note that this standard isn't completely established yet, so it is subject -to changes, even important ones. One more reason to use the library instead -of accessing sysfs files directly. +to changes. If you are writing a new hardware monitoring driver those +features can't seem to fit in this interface, please contact us with your +extension proposal. Keep in mind that backward compatibility must be +preserved. Each chip gets its own directory in the sysfs /sys/devices tree. To -find all sensor chips, it is easier to follow the symlinks from -/sys/i2c/devices/ +find all sensor chips, it is easier to follow the device symlinks from +/sys/class/hwmon/hwmon*. -All sysfs values are fixed point numbers. To get the true value of some -of the values, you should divide by the specified value. +All sysfs values are fixed point numbers. There is only one value per file, unlike the older /proc specification. The common scheme for files naming is: <type><number>_<item>. Usual @@ -69,28 +70,40 @@ to cause an alarm) is chip-dependent. ------------------------------------------------------------------------- +[0-*] denotes any positive number starting from 0 +[1-*] denotes any positive number starting from 1 +RO read only value +RW read/write value + +Read/write values may be read-only for some chips, depending on the +hardware implementation. + +All entries are optional, and should only be created in a given driver +if the chip has the feature. + ************ * Voltages * ************ -in[0-8]_min Voltage min value. +in[0-*]_min Voltage min value. Unit: millivolt - Read/Write + RW -in[0-8]_max Voltage max value. +in[0-*]_max Voltage max value. Unit: millivolt - Read/Write + RW -in[0-8]_input Voltage input value. +in[0-*]_input Voltage input value. Unit: millivolt - Read only + RO + Voltage measured on the chip pin. Actual voltage depends on the scaling resistors on the motherboard, as recommended in the chip datasheet. This varies by chip and by motherboard. Because of this variation, values are generally NOT scaled by the chip driver, and must be done by the application. However, some drivers (notably lm87 and via686a) - do scale, with various degrees of success. + do scale, because of internal resistors built into a chip. These drivers will output the actual voltage. Typical usage: @@ -104,58 +117,72 @@ in[0-8]_input Voltage input value. in7_* varies in8_* varies -cpu[0-1]_vid CPU core reference voltage. +cpu[0-*]_vid CPU core reference voltage. Unit: millivolt - Read only. + RO Not always correct. vrm Voltage Regulator Module version number. - Read only. - Two digit number, first is major version, second is - minor version. + RW (but changing it should no more be necessary) + Originally the VRM standard version multiplied by 10, but now + an arbitrary number, as not all standards have a version + number. Affects the way the driver calculates the CPU core reference voltage from the vid pins. +Also see the Alarms section for status flags associated with voltages. + ******** * Fans * ******** -fan[1-3]_min Fan minimum value +fan[1-*]_min Fan minimum value Unit: revolution/min (RPM) - Read/Write. + RW -fan[1-3]_input Fan input value. +fan[1-*]_input Fan input value. Unit: revolution/min (RPM) - Read only. + RO -fan[1-3]_div Fan divisor. +fan[1-*]_div Fan divisor. Integer value in powers of two (1, 2, 4, 8, 16, 32, 64, 128). + RW Some chips only support values 1, 2, 4 and 8. Note that this is actually an internal clock divisor, which affects the measurable speed range, not the read value. +Also see the Alarms section for status flags associated with fans. + + ******* * PWM * ******* -pwm[1-3] Pulse width modulation fan control. +pwm[1-*] Pulse width modulation fan control. Integer value in the range 0 to 255 - Read/Write + RW 255 is max or 100%. -pwm[1-3]_enable +pwm[1-*]_enable Switch PWM on and off. Not always present even if fan*_pwm is. - 0 to turn off - 1 to turn on in manual mode - 2 to turn on in automatic mode - Read/Write + 0: turn off + 1: turn on in manual mode + 2+: turn on in automatic mode + Check individual chip documentation files for automatic mode details. + RW + +pwm[1-*]_mode + 0: DC mode + 1: PWM mode + RW pwm[1-*]_auto_channels_temp Select which temperature channels affect this PWM output in auto mode. Bitfield, 1 is temp1, 2 is temp2, 4 is temp3 etc... Which values are possible depend on the chip used. + RW pwm[1-*]_auto_point[1-*]_pwm pwm[1-*]_auto_point[1-*]_temp @@ -163,6 +190,7 @@ pwm[1-*]_auto_point[1-*]_temp_hyst Define the PWM vs temperature curve. Number of trip points is chip-dependent. Use this for chips which associate trip points to PWM output channels. + RW OR @@ -172,50 +200,57 @@ temp[1-*]_auto_point[1-*]_temp_hyst Define the PWM vs temperature curve. Number of trip points is chip-dependent. Use this for chips which associate trip points to temperature channels. + RW **************** * Temperatures * **************** -temp[1-3]_type Sensor type selection. +temp[1-*]_type Sensor type selection. Integers 1 to 4 or thermistor Beta value (typically 3435) - Read/Write. + RW 1: PII/Celeron Diode 2: 3904 transistor 3: thermal diode 4: thermistor (default/unknown Beta) Not all types are supported by all chips -temp[1-4]_max Temperature max value. - Unit: millidegree Celcius - Read/Write value. +temp[1-*]_max Temperature max value. + Unit: millidegree Celsius (or millivolt, see below) + RW -temp[1-3]_min Temperature min value. - Unit: millidegree Celcius - Read/Write value. +temp[1-*]_min Temperature min value. + Unit: millidegree Celsius + RW -temp[1-3]_max_hyst +temp[1-*]_max_hyst Temperature hysteresis value for max limit. - Unit: millidegree Celcius + Unit: millidegree Celsius Must be reported as an absolute temperature, NOT a delta from the max value. - Read/Write value. + RW -temp[1-4]_input Temperature input value. - Unit: millidegree Celcius - Read only value. +temp[1-*]_input Temperature input value. + Unit: millidegree Celsius + RO -temp[1-4]_crit Temperature critical value, typically greater than +temp[1-*]_crit Temperature critical value, typically greater than corresponding temp_max values. - Unit: millidegree Celcius - Read/Write value. + Unit: millidegree Celsius + RW -temp[1-2]_crit_hyst +temp[1-*]_crit_hyst Temperature hysteresis value for critical limit. - Unit: millidegree Celcius + Unit: millidegree Celsius Must be reported as an absolute temperature, NOT a delta from the critical value. + RW + +temp[1-4]_offset + Temperature offset which is added to the temperature reading + by the chip. + Unit: millidegree Celsius Read/Write value. If there are multiple temperature sensors, temp1_* is @@ -225,6 +260,17 @@ temp[1-2]_crit_hyst itself, for example the thermal diode inside the CPU or a thermistor nearby. +Some chips measure temperature using external thermistors and an ADC, and +report the temperature measurement as a voltage. Converting this voltage +back to a temperature (or the other way around for limits) requires +mathematical functions not available in the kernel, so the conversion +must occur in user space. For these chips, all temp* files described +above should contain values expressed in millivolt instead of millidegree +Celsius. In other words, such temperature channels are handled as voltage +channels by the driver. + +Also see the Alarms section for status flags associated with temperatures. + ************ * Currents * @@ -233,25 +279,88 @@ temp[1-2]_crit_hyst Note that no known chip provides current measurements as of writing, so this part is theoretical, so to say. -curr[1-n]_max Current max value +curr[1-*]_max Current max value Unit: milliampere - Read/Write. + RW -curr[1-n]_min Current min value. +curr[1-*]_min Current min value. Unit: milliampere - Read/Write. + RW -curr[1-n]_input Current input value +curr[1-*]_input Current input value Unit: milliampere - Read only. + RO -********* -* Other * -********* +********** +* Alarms * +********** + +Each channel or limit may have an associated alarm file, containing a +boolean value. 1 means than an alarm condition exists, 0 means no alarm. + +Usually a given chip will either use channel-related alarms, or +limit-related alarms, not both. The driver should just reflect the hardware +implementation. + +in[0-*]_alarm +fan[1-*]_alarm +temp[1-*]_alarm + Channel alarm + 0: no alarm + 1: alarm + RO + +OR + +in[0-*]_min_alarm +in[0-*]_max_alarm +fan[1-*]_min_alarm +temp[1-*]_min_alarm +temp[1-*]_max_alarm +temp[1-*]_crit_alarm + Limit alarm + 0: no alarm + 1: alarm + RO + +Each input channel may have an associated fault file. This can be used +to notify open diodes, unconnected fans etc. where the hardware +supports it. When this boolean has value 1, the measurement for that +channel should not be trusted. + +in[0-*]_input_fault +fan[1-*]_input_fault +temp[1-*]_input_fault + Input fault condition + 0: no fault occured + 1: fault condition + RO + +Some chips also offer the possibility to get beeped when an alarm occurs: + +beep_enable Master beep enable + 0: no beeps + 1: beeps + RW + +in[0-*]_beep +fan[1-*]_beep +temp[1-*]_beep + Channel beep + 0: disable + 1: enable + RW + +In theory, a chip could provide per-limit beep masking, but no such chip +was seen so far. + +Old drivers provided a different, non-standard interface to alarms and +beeps. These interface files are deprecated, but will be kept around +for compatibility reasons: alarms Alarm bitmask. - Read only. + RO Integer representation of one to four bytes. A '1' bit means an alarm. Chips should be programmed for 'comparator' mode so that @@ -259,35 +368,26 @@ alarms Alarm bitmask. if it is still valid. Generally a direct representation of a chip's internal alarm registers; there is no standard for the position - of individual bits. + of individual bits. For this reason, the use of this + interface file for new drivers is discouraged. Use + individual *_alarm and *_fault files instead. Bits are defined in kernel/include/sensors.h. -alarms_in Alarm bitmask relative to in (voltage) channels - Read only - A '1' bit means an alarm, LSB corresponds to in0 and so on - Prefered to 'alarms' for newer chips - -alarms_fan Alarm bitmask relative to fan channels - Read only - A '1' bit means an alarm, LSB corresponds to fan1 and so on - Prefered to 'alarms' for newer chips - -alarms_temp Alarm bitmask relative to temp (temperature) channels - Read only - A '1' bit means an alarm, LSB corresponds to temp1 and so on - Prefered to 'alarms' for newer chips +beep_mask Bitmask for beep. + Same format as 'alarms' with the same bit locations, + use discouraged for the same reason. Use individual + *_beep files instead. + RW -beep_enable Beep/interrupt enable - 0 to disable. - 1 to enable. - Read/Write -beep_mask Bitmask for beep. - Same format as 'alarms' with the same bit locations. - Read/Write +********* +* Other * +********* eeprom Raw EEPROM data in binary form. - Read only. + RO pec Enable or disable PEC (SMBus only) - Read/Write + 0: disable + 1: enable + RW diff --git a/Documentation/hwmon/userspace-tools b/Documentation/hwmon/userspace-tools index 2622aac6542..19900a8fe67 100644 --- a/Documentation/hwmon/userspace-tools +++ b/Documentation/hwmon/userspace-tools @@ -6,31 +6,32 @@ voltages, fans speed). They are often connected through an I2C bus, but some are also connected directly through the ISA bus. The kernel drivers make the data from the sensor chips available in the /sys -virtual filesystem. Userspace tools are then used to display or set or the -data in a more friendly manner. +virtual filesystem. Userspace tools are then used to display the measured +values or configure the chips in a more friendly manner. Lm-sensors ---------- -Core set of utilites that will allow you to obtain health information, +Core set of utilities that will allow you to obtain health information, setup monitoring limits etc. You can get them on their homepage http://www.lm-sensors.nu/ or as a package from your Linux distribution. If from website: -Get lmsensors from project web site. Please note, you need only userspace -part, so compile with "make user_install" target. +Get lm-sensors from project web site. Please note, you need only userspace +part, so compile with "make user" and install with "make user_install". General hints to get things working: 0) get lm-sensors userspace utils -1) compile all drivers in I2C section as modules in your kernel +1) compile all drivers in I2C and Hardware Monitoring sections as modules + in your kernel 2) run sensors-detect script, it will tell you what modules you need to load. 3) load them and run "sensors" command, you should see some results. 4) fix sensors.conf, labels, limits, fan divisors 5) if any more problems consult FAQ, or documentation -Other utilites --------------- +Other utilities +--------------- If you want some graphical indicators of system health look for applications like: gkrellm, ksensors, xsensors, wmtemp, wmsensors, wmgtemp, ksysguardd, diff --git a/Documentation/hwmon/w83791d b/Documentation/hwmon/w83791d new file mode 100644 index 00000000000..83a3836289c --- /dev/null +++ b/Documentation/hwmon/w83791d @@ -0,0 +1,113 @@ +Kernel driver w83791d +===================== + +Supported chips: + * Winbond W83791D + Prefix: 'w83791d' + Addresses scanned: I2C 0x2c - 0x2f + Datasheet: http://www.winbond-usa.com/products/winbond_products/pdfs/PCIC/W83791Da.pdf + +Author: Charles Spirakis <bezaur@gmail.com> + +This driver was derived from the w83781d.c and w83792d.c source files. + +Credits: + w83781d.c: + Frodo Looijaard <frodol@dds.nl>, + Philip Edelbrock <phil@netroedge.com>, + and Mark Studebaker <mdsxyz123@yahoo.com> + w83792d.c: + Chunhao Huang <DZShen@Winbond.com.tw>, + Rudolf Marek <r.marek@sh.cvut.cz> + +Module Parameters +----------------- + +* init boolean + (default 0) + Use 'init=1' to have the driver do extra software initializations. + The default behavior is to do the minimum initialization possible + and depend on the BIOS to properly setup the chip. If you know you + have a w83791d and you're having problems, try init=1 before trying + reset=1. + +* reset boolean + (default 0) + Use 'reset=1' to reset the chip (via index 0x40, bit 7). The default + behavior is no chip reset to preserve BIOS settings. + +* force_subclients=bus,caddr,saddr,saddr + This is used to force the i2c addresses for subclients of + a certain chip. Example usage is `force_subclients=0,0x2f,0x4a,0x4b' + to force the subclients of chip 0x2f on bus 0 to i2c addresses + 0x4a and 0x4b. + + +Description +----------- + +This driver implements support for the Winbond W83791D chip. + +Detection of the chip can sometimes be foiled because it can be in an +internal state that allows no clean access (Bank with ID register is not +currently selected). If you know the address of the chip, use a 'force' +parameter; this will put it into a more well-behaved state first. + +The driver implements three temperature sensors, five fan rotation speed +sensors, and ten voltage sensors. + +Temperatures are measured in degrees Celsius and measurement resolution is 1 +degC for temp1 and 0.5 degC for temp2 and temp3. An alarm is triggered when +the temperature gets higher than the Overtemperature Shutdown value; it stays +on until the temperature falls below the Hysteresis value. + +Fan rotation speeds are reported in RPM (rotations per minute). An alarm is +triggered if the rotation speed has dropped below a programmable limit. Fan +readings can be divided by a programmable divider (1, 2, 4, 8 for fan 1/2/3 +and 1, 2, 4, 8, 16, 32, 64 or 128 for fan 4/5) to give the readings more +range or accuracy. + +Voltage sensors (also known as IN sensors) report their values in millivolts. +An alarm is triggered if the voltage has crossed a programmable minimum +or maximum limit. + +Alarms are provided as output from a "realtime status register". The +following bits are defined: + +bit - alarm on: +0 - Vcore +1 - VINR0 +2 - +3.3VIN +3 - 5VDD +4 - temp1 +5 - temp2 +6 - fan1 +7 - fan2 +8 - +12VIN +9 - -12VIN +10 - -5VIN +11 - fan3 +12 - chassis +13 - temp3 +14 - VINR1 +15 - reserved +16 - tart1 +17 - tart2 +18 - tart3 +19 - VSB +20 - VBAT +21 - fan4 +22 - fan5 +23 - reserved + +When an alarm goes off, you can be warned by a beeping signal through your +computer speaker. It is possible to enable all beeping globally, or only +the beeping for some alarms. + +The driver only reads the chip values each 3 seconds; reading them more +often will do no harm, but will return 'old' values. + +W83791D TODO: +--------------- +Provide a patch for per-file alarms as discussed on the mailing list +Provide a patch for smart-fan control (still need appropriate motherboard/fans) diff --git a/Documentation/i2c/busses/i2c-i801 b/Documentation/i2c/busses/i2c-i801 index fd4b2712d57..e46c2345824 100644 --- a/Documentation/i2c/busses/i2c-i801 +++ b/Documentation/i2c/busses/i2c-i801 @@ -21,8 +21,7 @@ Authors: Module Parameters ----------------- -* force_addr: int - Forcibly enable the ICH at the given address. EXTREMELY DANGEROUS! +None. Description diff --git a/Documentation/i2c/busses/i2c-nforce2 b/Documentation/i2c/busses/i2c-nforce2 index d751282d9b2..cd49c428a3a 100644 --- a/Documentation/i2c/busses/i2c-nforce2 +++ b/Documentation/i2c/busses/i2c-nforce2 @@ -7,6 +7,8 @@ Supported adapters: * nForce3 250Gb MCP 10de:00E4 * nForce4 MCP 10de:0052 * nForce4 MCP-04 10de:0034 + * nForce4 MCP51 10de:0264 + * nForce4 MCP55 10de:0368 Datasheet: not publically available, but seems to be similar to the AMD-8111 SMBus 2.0 adapter. diff --git a/Documentation/i2c/busses/i2c-ocores b/Documentation/i2c/busses/i2c-ocores new file mode 100644 index 00000000000..cfcebb10d14 --- /dev/null +++ b/Documentation/i2c/busses/i2c-ocores @@ -0,0 +1,51 @@ +Kernel driver i2c-ocores + +Supported adapters: + * OpenCores.org I2C controller by Richard Herveille (see datasheet link) + Datasheet: http://www.opencores.org/projects.cgi/web/i2c/overview + +Author: Peter Korsgaard <jacmet@sunsite.dk> + +Description +----------- + +i2c-ocores is an i2c bus driver for the OpenCores.org I2C controller +IP core by Richard Herveille. + +Usage +----- + +i2c-ocores uses the platform bus, so you need to provide a struct +platform_device with the base address and interrupt number. The +dev.platform_data of the device should also point to a struct +ocores_i2c_platform_data (see linux/i2c-ocores.h) describing the +distance between registers and the input clock speed. + +E.G. something like: + +static struct resource ocores_resources[] = { + [0] = { + .start = MYI2C_BASEADDR, + .end = MYI2C_BASEADDR + 8, + .flags = IORESOURCE_MEM, + }, + [1] = { + .start = MYI2C_IRQ, + .end = MYI2C_IRQ, + .flags = IORESOURCE_IRQ, + }, +}; + +static struct ocores_i2c_platform_data myi2c_data = { + .regstep = 2, /* two bytes between registers */ + .clock_khz = 50000, /* input clock of 50MHz */ +}; + +static struct platform_device myi2c = { + .name = "ocores-i2c", + .dev = { + .platform_data = &myi2c_data, + }, + .num_resources = ARRAY_SIZE(ocores_resources), + .resource = ocores_resources, +}; diff --git a/Documentation/i2c/busses/i2c-piix4 b/Documentation/i2c/busses/i2c-piix4 index a1c8f581afe..92147633323 100644 --- a/Documentation/i2c/busses/i2c-piix4 +++ b/Documentation/i2c/busses/i2c-piix4 @@ -6,6 +6,8 @@ Supported adapters: Datasheet: Publicly available at the Intel website * ServerWorks OSB4, CSB5, CSB6 and HT-1000 southbridges Datasheet: Only available via NDA from ServerWorks + * ATI IXP southbridges IXP200, IXP300, IXP400 + Datasheet: Not publicly available * Standard Microsystems (SMSC) SLC90E66 (Victory66) southbridge Datasheet: Publicly available at the SMSC website http://www.smsc.com @@ -21,8 +23,6 @@ Module Parameters Forcibly enable the PIIX4. DANGEROUS! * force_addr: int Forcibly enable the PIIX4 at the given address. EXTREMELY DANGEROUS! -* fix_hstcfg: int - Fix config register. Needed on some boards (Force CPCI735). Description @@ -63,10 +63,36 @@ The PIIX4E is just an new version of the PIIX4; it is supported as well. The PIIX/PIIX3 does not implement an SMBus or I2C bus, so you can't use this driver on those mainboards. -The ServerWorks Southbridges, the Intel 440MX, and the Victory766 are +The ServerWorks Southbridges, the Intel 440MX, and the Victory66 are identical to the PIIX4 in I2C/SMBus support. -A few OSB4 southbridges are known to be misconfigured by the BIOS. In this -case, you have you use the fix_hstcfg module parameter. Do not use it -unless you know you have to, because in some cases it also breaks -configuration on southbridges that don't need it. +If you own Force CPCI735 motherboard or other OSB4 based systems you may need +to change the SMBus Interrupt Select register so the SMBus controller uses +the SMI mode. + +1) Use lspci command and locate the PCI device with the SMBus controller: + 00:0f.0 ISA bridge: ServerWorks OSB4 South Bridge (rev 4f) + The line may vary for different chipsets. Please consult the driver source + for all possible PCI ids (and lspci -n to match them). Lets assume the + device is located at 00:0f.0. +2) Now you just need to change the value in 0xD2 register. Get it first with + command: lspci -xxx -s 00:0f.0 + If the value is 0x3 then you need to change it to 0x1 + setpci -s 00:0f.0 d2.b=1 + +Please note that you don't need to do that in all cases, just when the SMBus is +not working properly. + + +Hardware-specific issues +------------------------ + +This driver will refuse to load on IBM systems with an Intel PIIX4 SMBus. +Some of these machines have an RFID EEPROM (24RF08) connected to the SMBus, +which can easily get corrupted due to a state machine bug. These are mostly +Thinkpad laptops, but desktop systems may also be affected. We have no list +of all affected systems, so the only safe solution was to prevent access to +the SMBus on all IBM systems (detected using DMI data.) + +For additional information, read: +http://www2.lm-sensors.nu/~lm78/cvs/lm_sensors2/README.thinkpad diff --git a/Documentation/i2c/busses/scx200_acb b/Documentation/i2c/busses/scx200_acb index f50e69981ec..7c07883d4df 100644 --- a/Documentation/i2c/busses/scx200_acb +++ b/Documentation/i2c/busses/scx200_acb @@ -2,14 +2,31 @@ Kernel driver scx200_acb Author: Christer Weinigel <wingel@nano-system.com> +The driver supersedes the older, never merged driver named i2c-nscacb. + Module Parameters ----------------- -* base: int +* base: up to 4 ints Base addresses for the ACCESS.bus controllers on SCx200 and SC1100 devices + By default the driver uses two base addresses 0x820 and 0x840. + If you want only one base address, specify the second as 0 so as to + override this default. + Description ----------- Enable the use of the ACCESS.bus controller on the Geode SCx200 and SC1100 processors and the CS5535 and CS5536 Geode companion devices. + +Device-specific notes +--------------------- + +The SC1100 WRAP boards are known to use base addresses 0x810 and 0x820. +If the scx200_acb driver is built into the kernel, add the following +parameter to your boot command line: + scx200_acb.base=0x810,0x820 +If the scx200_acb driver is built as a module, add the following line to +the file /etc/modprobe.conf instead: + options scx200_acb base=0x810,0x820 diff --git a/Documentation/infiniband/ipoib.txt b/Documentation/infiniband/ipoib.txt index 5c5a4ccce76..187035560d7 100644 --- a/Documentation/infiniband/ipoib.txt +++ b/Documentation/infiniband/ipoib.txt @@ -1,10 +1,10 @@ IP OVER INFINIBAND The ib_ipoib driver is an implementation of the IP over InfiniBand - protocol as specified by the latest Internet-Drafts issued by the - IETF ipoib working group. It is a "native" implementation in the - sense of setting the interface type to ARPHRD_INFINIBAND and the - hardware address length to 20 (earlier proprietary implementations + protocol as specified by RFC 4391 and 4392, issued by the IETF ipoib + working group. It is a "native" implementation in the sense of + setting the interface type to ARPHRD_INFINIBAND and the hardware + address length to 20 (earlier proprietary implementations masqueraded to the kernel as ethernet interfaces). Partitions and P_Keys @@ -53,3 +53,7 @@ References IETF IP over InfiniBand (ipoib) Working Group http://ietf.org/html.charters/ipoib-charter.html + Transmission of IP over InfiniBand (IPoIB) (RFC 4391) + http://ietf.org/rfc/rfc4391.txt + IP over InfiniBand (IPoIB) Architecture (RFC 4392) + http://ietf.org/rfc/rfc4392.txt diff --git a/Documentation/isdn/README.gigaset b/Documentation/isdn/README.gigaset index 85a64defd38..fa0d4cca964 100644 --- a/Documentation/isdn/README.gigaset +++ b/Documentation/isdn/README.gigaset @@ -124,7 +124,8 @@ GigaSet 307x Device Driver You can use some configuration tool of your distribution to configure this "modem" or configure pppd/wvdial manually. There are some example ppp - configuration files and chat scripts in the gigaset-VERSION/ppp directory. + configuration files and chat scripts in the gigaset-VERSION/ppp directory + in the driver packages from http://sourceforge.net/projects/gigaset307x/. Please note that the USB drivers are not able to change the state of the control lines (the M105 driver can be configured to use some undocumented control requests, if you really need the control lines, though). This means @@ -164,8 +165,8 @@ GigaSet 307x Device Driver If you want both of these at once, you are out of luck. - You can also use /sys/module/<name>/parameters/cidmode for changing - the CID mode setting (<name> is usb_gigaset or bas_gigaset). + You can also use /sys/class/tty/ttyGxy/cidmode for changing the CID mode + setting (ttyGxy is ttyGU0 or ttyGB0). 3. Troubleshooting diff --git a/Documentation/kernel-parameters.txt b/Documentation/kernel-parameters.txt index b3a6187e530..a9d3a1794b2 100644 --- a/Documentation/kernel-parameters.txt +++ b/Documentation/kernel-parameters.txt @@ -1402,6 +1402,15 @@ running once the system is up. If enabled at boot time, /selinux/disable can be used later to disable prior to initial policy load. + selinux_compat_net = + [SELINUX] Set initial selinux_compat_net flag value. + Format: { "0" | "1" } + 0 -- use new secmark-based packet controls + 1 -- use legacy packet controls + Default value is 0 (preferred). + Value can be changed at runtime via + /selinux/compat_net. + serialnumber [BUGS=IA-32] sg_def_reserved_size= [SCSI] diff --git a/Documentation/keys.txt b/Documentation/keys.txt index aaa01b0e3ee..3bbe157b45e 100644 --- a/Documentation/keys.txt +++ b/Documentation/keys.txt @@ -19,6 +19,7 @@ This document has the following sections: - Key overview - Key service overview - Key access permissions + - SELinux support - New procfs files - Userspace system call interface - Kernel services @@ -232,6 +233,34 @@ For changing the ownership, group ID or permissions mask, being the owner of the key or having the sysadmin capability is sufficient. +=============== +SELINUX SUPPORT +=============== + +The security class "key" has been added to SELinux so that mandatory access +controls can be applied to keys created within various contexts. This support +is preliminary, and is likely to change quite significantly in the near future. +Currently, all of the basic permissions explained above are provided in SELinux +as well; SE Linux is simply invoked after all basic permission checks have been +performed. + +Each key is labeled with the same context as the task to which it belongs. +Typically, this is the same task that was running when the key was created. +The default keyrings are handled differently, but in a way that is very +intuitive: + + (*) The user and user session keyrings that are created when the user logs in + are currently labeled with the context of the login manager. + + (*) The keyrings associated with new threads are each labeled with the context + of their associated thread, and both session and process keyrings are + handled similarly. + +Note, however, that the default keyrings associated with the root user are +labeled with the default kernel context, since they are created early in the +boot process, before root has a chance to log in. + + ================ NEW PROCFS FILES ================ @@ -935,6 +964,16 @@ The structure has a number of fields, some of which are mandatory: It is not safe to sleep in this method; the caller may hold spinlocks. + (*) void (*revoke)(struct key *key); + + This method is optional. It is called to discard part of the payload + data upon a key being revoked. The caller will have the key semaphore + write-locked. + + It is safe to sleep in this method, though care should be taken to avoid + a deadlock against the key semaphore. + + (*) void (*destroy)(struct key *key); This method is optional. It is called to discard the payload data on a key diff --git a/Documentation/networking/README.ipw2200 b/Documentation/networking/README.ipw2200 index acb30c5dcff..4f2a40f1dbc 100644 --- a/Documentation/networking/README.ipw2200 +++ b/Documentation/networking/README.ipw2200 @@ -14,8 +14,8 @@ Copyright (C) 2004-2006, Intel Corporation README.ipw2200 -Version: 1.0.8 -Date : October 20, 2005 +Version: 1.1.2 +Date : March 30, 2006 Index @@ -103,7 +103,7 @@ file. 1.1. Overview of Features ----------------------------------------------- -The current release (1.0.8) supports the following features: +The current release (1.1.2) supports the following features: + BSS mode (Infrastructure, Managed) + IBSS mode (Ad-Hoc) @@ -247,8 +247,8 @@ and can set the contents via echo. For example: % cat /sys/bus/pci/drivers/ipw2200/debug_level Will report the current debug level of the driver's logging subsystem -(only available if CONFIG_IPW_DEBUG was configured when the driver was -built). +(only available if CONFIG_IPW2200_DEBUG was configured when the driver +was built). You can set the debug level via: diff --git a/Documentation/networking/bonding.txt b/Documentation/networking/bonding.txt index 8d8b4e5ea18..afac780445c 100644 --- a/Documentation/networking/bonding.txt +++ b/Documentation/networking/bonding.txt @@ -1,7 +1,7 @@ Linux Ethernet Bonding Driver HOWTO - Latest update: 21 June 2005 + Latest update: 24 April 2006 Initial release : Thomas Davis <tadavis at lbl.gov> Corrections, HA extensions : 2000/10/03-15 : @@ -12,6 +12,8 @@ Corrections, HA extensions : 2000/10/03-15 : - Jay Vosburgh <fubar at us dot ibm dot com> Reorganized and updated Feb 2005 by Jay Vosburgh +Added Sysfs information: 2006/04/24 + - Mitch Williams <mitch.a.williams at intel.com> Introduction ============ @@ -38,61 +40,62 @@ Table of Contents 2. Bonding Driver Options 3. Configuring Bonding Devices -3.1 Configuration with sysconfig support -3.1.1 Using DHCP with sysconfig -3.1.2 Configuring Multiple Bonds with sysconfig -3.2 Configuration with initscripts support -3.2.1 Using DHCP with initscripts -3.2.2 Configuring Multiple Bonds with initscripts -3.3 Configuring Bonding Manually +3.1 Configuration with Sysconfig Support +3.1.1 Using DHCP with Sysconfig +3.1.2 Configuring Multiple Bonds with Sysconfig +3.2 Configuration with Initscripts Support +3.2.1 Using DHCP with Initscripts +3.2.2 Configuring Multiple Bonds with Initscripts +3.3 Configuring Bonding Manually with Ifenslave 3.3.1 Configuring Multiple Bonds Manually +3.4 Configuring Bonding Manually via Sysfs -5. Querying Bonding Configuration -5.1 Bonding Configuration -5.2 Network Configuration +4. Querying Bonding Configuration +4.1 Bonding Configuration +4.2 Network Configuration -6. Switch Configuration +5. Switch Configuration -7. 802.1q VLAN Support +6. 802.1q VLAN Support -8. Link Monitoring -8.1 ARP Monitor Operation -8.2 Configuring Multiple ARP Targets -8.3 MII Monitor Operation +7. Link Monitoring +7.1 ARP Monitor Operation +7.2 Configuring Multiple ARP Targets +7.3 MII Monitor Operation -9. Potential Trouble Sources -9.1 Adventures in Routing -9.2 Ethernet Device Renaming -9.3 Painfully Slow Or No Failed Link Detection By Miimon +8. Potential Trouble Sources +8.1 Adventures in Routing +8.2 Ethernet Device Renaming +8.3 Painfully Slow Or No Failed Link Detection By Miimon -10. SNMP agents +9. SNMP agents -11. Promiscuous mode +10. Promiscuous mode -12. Configuring Bonding for High Availability -12.1 High Availability in a Single Switch Topology -12.2 High Availability in a Multiple Switch Topology -12.2.1 HA Bonding Mode Selection for Multiple Switch Topology -12.2.2 HA Link Monitoring for Multiple Switch Topology +11. Configuring Bonding for High Availability +11.1 High Availability in a Single Switch Topology +11.2 High Availability in a Multiple Switch Topology +11.2.1 HA Bonding Mode Selection for Multiple Switch Topology +11.2.2 HA Link Monitoring for Multiple Switch Topology -13. Configuring Bonding for Maximum Throughput -13.1 Maximum Throughput in a Single Switch Topology -13.1.1 MT Bonding Mode Selection for Single Switch Topology -13.1.2 MT Link Monitoring for Single Switch Topology -13.2 Maximum Throughput in a Multiple Switch Topology -13.2.1 MT Bonding Mode Selection for Multiple Switch Topology -13.2.2 MT Link Monitoring for Multiple Switch Topology +12. Configuring Bonding for Maximum Throughput +12.1 Maximum Throughput in a Single Switch Topology +12.1.1 MT Bonding Mode Selection for Single Switch Topology +12.1.2 MT Link Monitoring for Single Switch Topology +12.2 Maximum Throughput in a Multiple Switch Topology +12.2.1 MT Bonding Mode Selection for Multiple Switch Topology +12.2.2 MT Link Monitoring for Multiple Switch Topology -14. Switch Behavior Issues -14.1 Link Establishment and Failover Delays -14.2 Duplicated Incoming Packets +13. Switch Behavior Issues +13.1 Link Establishment and Failover Delays +13.2 Duplicated Incoming Packets -15. Hardware Specific Considerations -15.1 IBM BladeCenter +14. Hardware Specific Considerations +14.1 IBM BladeCenter -16. Frequently Asked Questions +15. Frequently Asked Questions -17. Resources and Links +16. Resources and Links 1. Bonding Driver Installation @@ -156,6 +159,9 @@ you're trying to build it for. Some distros (e.g., Red Hat from 7.1 onwards) do not have /usr/include/linux symbolically linked to the default kernel source include directory. +SECOND IMPORTANT NOTE: + If you plan to configure bonding using sysfs, you do not need +to use ifenslave. 2. Bonding Driver Options ========================= @@ -270,7 +276,7 @@ mode In bonding version 2.6.2 or later, when a failover occurs in active-backup mode, bonding will issue one or more gratuitous ARPs on the newly active slave. - One gratutious ARP is issued for the bonding master + One gratuitous ARP is issued for the bonding master interface and each VLAN interfaces configured above it, provided that the interface has at least one IP address configured. Gratuitous ARPs issued for VLAN @@ -377,7 +383,7 @@ mode When a link is reconnected or a new slave joins the bond the receive traffic is redistributed among all active slaves in the bond by initiating ARP Replies - with the selected mac address to each of the + with the selected MAC address to each of the clients. The updelay parameter (detailed below) must be set to a value equal or greater than the switch's forwarding delay so that the ARP Replies sent to the @@ -498,11 +504,12 @@ not exist, and the layer2 policy is the only policy. 3. Configuring Bonding Devices ============================== - There are, essentially, two methods for configuring bonding: -with support from the distro's network initialization scripts, and -without. Distros generally use one of two packages for the network -initialization scripts: initscripts or sysconfig. Recent versions of -these packages have support for bonding, while older versions do not. + You can configure bonding using either your distro's network +initialization scripts, or manually using either ifenslave or the +sysfs interface. Distros generally use one of two packages for the +network initialization scripts: initscripts or sysconfig. Recent +versions of these packages have support for bonding, while older +versions do not. We will first describe the options for configuring bonding for distros using versions of initscripts and sysconfig with full or @@ -530,7 +537,7 @@ $ grep ifenslave /sbin/ifup If this returns any matches, then your initscripts or sysconfig has support for bonding. -3.1 Configuration with sysconfig support +3.1 Configuration with Sysconfig Support ---------------------------------------- This section applies to distros using a version of sysconfig @@ -538,7 +545,7 @@ with bonding support, for example, SuSE Linux Enterprise Server 9. SuSE SLES 9's networking configuration system does support bonding, however, at this writing, the YaST system configuration -frontend does not provide any means to work with bonding devices. +front end does not provide any means to work with bonding devices. Bonding devices can be managed by hand, however, as follows. First, if they have not already been configured, configure the @@ -660,7 +667,7 @@ format can be found in an example ifcfg template file: Note that the template does not document the various BONDING_ settings described above, but does describe many of the other options. -3.1.1 Using DHCP with sysconfig +3.1.1 Using DHCP with Sysconfig ------------------------------- Under sysconfig, configuring a device with BOOTPROTO='dhcp' @@ -670,7 +677,7 @@ attempt to obtain the device address from DHCP prior to adding any of the slave devices. Without active slaves, the DHCP requests are not sent to the network. -3.1.2 Configuring Multiple Bonds with sysconfig +3.1.2 Configuring Multiple Bonds with Sysconfig ----------------------------------------------- The sysconfig network initialization system is capable of @@ -685,7 +692,7 @@ ifcfg-bondX files. options in the ifcfg-bondX file, it is not necessary to add them to the system /etc/modules.conf or /etc/modprobe.conf configuration file. -3.2 Configuration with initscripts support +3.2 Configuration with Initscripts Support ------------------------------------------ This section applies to distros using a version of initscripts @@ -756,7 +763,7 @@ options for your configuration. will restart the networking subsystem and your bond link should be now up and running. -3.2.1 Using DHCP with initscripts +3.2.1 Using DHCP with Initscripts --------------------------------- Recent versions of initscripts (the version supplied with @@ -768,7 +775,7 @@ above, except replace the line "BOOTPROTO=none" with "BOOTPROTO=dhcp" and add a line consisting of "TYPE=Bonding". Note that the TYPE value is case sensitive. -3.2.2 Configuring Multiple Bonds with initscripts +3.2.2 Configuring Multiple Bonds with Initscripts ------------------------------------------------- At this writing, the initscripts package does not directly @@ -784,8 +791,8 @@ Fedora Core kernels, and has been seen on RHEL 4 as well. On kernels exhibiting this problem, it will be impossible to configure multiple bonds with differing parameters. -3.3 Configuring Bonding Manually --------------------------------- +3.3 Configuring Bonding Manually with Ifenslave +----------------------------------------------- This section applies to distros whose network initialization scripts (the sysconfig or initscripts package) do not have specific @@ -889,11 +896,139 @@ install bond1 /sbin/modprobe --ignore-install bonding -o bond1 \ This may be repeated any number of times, specifying a new and unique name in place of bond1 for each subsequent instance. +3.4 Configuring Bonding Manually via Sysfs +------------------------------------------ + + Starting with version 3.0, Channel Bonding may be configured +via the sysfs interface. This interface allows dynamic configuration +of all bonds in the system without unloading the module. It also +allows for adding and removing bonds at runtime. Ifenslave is no +longer required, though it is still supported. + + Use of the sysfs interface allows you to use multiple bonds +with different configurations without having to reload the module. +It also allows you to use multiple, differently configured bonds when +bonding is compiled into the kernel. + + You must have the sysfs filesystem mounted to configure +bonding this way. The examples in this document assume that you +are using the standard mount point for sysfs, e.g. /sys. If your +sysfs filesystem is mounted elsewhere, you will need to adjust the +example paths accordingly. + +Creating and Destroying Bonds +----------------------------- +To add a new bond foo: +# echo +foo > /sys/class/net/bonding_masters + +To remove an existing bond bar: +# echo -bar > /sys/class/net/bonding_masters + +To show all existing bonds: +# cat /sys/class/net/bonding_masters + +NOTE: due to 4K size limitation of sysfs files, this list may be +truncated if you have more than a few hundred bonds. This is unlikely +to occur under normal operating conditions. + +Adding and Removing Slaves +-------------------------- + Interfaces may be enslaved to a bond using the file +/sys/class/net/<bond>/bonding/slaves. The semantics for this file +are the same as for the bonding_masters file. + +To enslave interface eth0 to bond bond0: +# ifconfig bond0 up +# echo +eth0 > /sys/class/net/bond0/bonding/slaves + +To free slave eth0 from bond bond0: +# echo -eth0 > /sys/class/net/bond0/bonding/slaves + + NOTE: The bond must be up before slaves can be added. All +slaves are freed when the interface is brought down. + + When an interface is enslaved to a bond, symlinks between the +two are created in the sysfs filesystem. In this case, you would get +/sys/class/net/bond0/slave_eth0 pointing to /sys/class/net/eth0, and +/sys/class/net/eth0/master pointing to /sys/class/net/bond0. + + This means that you can tell quickly whether or not an +interface is enslaved by looking for the master symlink. Thus: +# echo -eth0 > /sys/class/net/eth0/master/bonding/slaves +will free eth0 from whatever bond it is enslaved to, regardless of +the name of the bond interface. + +Changing a Bond's Configuration +------------------------------- + Each bond may be configured individually by manipulating the +files located in /sys/class/net/<bond name>/bonding + + The names of these files correspond directly with the command- +line parameters described elsewhere in in this file, and, with the +exception of arp_ip_target, they accept the same values. To see the +current setting, simply cat the appropriate file. + + A few examples will be given here; for specific usage +guidelines for each parameter, see the appropriate section in this +document. + +To configure bond0 for balance-alb mode: +# ifconfig bond0 down +# echo 6 > /sys/class/net/bond0/bonding/mode + - or - +# echo balance-alb > /sys/class/net/bond0/bonding/mode + NOTE: The bond interface must be down before the mode can be +changed. + +To enable MII monitoring on bond0 with a 1 second interval: +# echo 1000 > /sys/class/net/bond0/bonding/miimon + NOTE: If ARP monitoring is enabled, it will disabled when MII +monitoring is enabled, and vice-versa. + +To add ARP targets: +# echo +192.168.0.100 > /sys/class/net/bond0/bonding/arp_ip_target +# echo +192.168.0.101 > /sys/class/net/bond0/bonding/arp_ip_target + NOTE: up to 10 target addresses may be specified. + +To remove an ARP target: +# echo -192.168.0.100 > /sys/class/net/bond0/bonding/arp_ip_target + +Example Configuration +--------------------- + We begin with the same example that is shown in section 3.3, +executed with sysfs, and without using ifenslave. + + To make a simple bond of two e100 devices (presumed to be eth0 +and eth1), and have it persist across reboots, edit the appropriate +file (/etc/init.d/boot.local or /etc/rc.d/rc.local), and add the +following: + +modprobe bonding +modprobe e100 +echo balance-alb > /sys/class/net/bond0/bonding/mode +ifconfig bond0 192.168.1.1 netmask 255.255.255.0 up +echo 100 > /sys/class/net/bond0/bonding/miimon +echo +eth0 > /sys/class/net/bond0/bonding/slaves +echo +eth1 > /sys/class/net/bond0/bonding/slaves + + To add a second bond, with two e1000 interfaces in +active-backup mode, using ARP monitoring, add the following lines to +your init script: + +modprobe e1000 +echo +bond1 > /sys/class/net/bonding_masters +echo active-backup > /sys/class/net/bond1/bonding/mode +ifconfig bond1 192.168.2.1 netmask 255.255.255.0 up +echo +192.168.2.100 /sys/class/net/bond1/bonding/arp_ip_target +echo 2000 > /sys/class/net/bond1/bonding/arp_interval +echo +eth2 > /sys/class/net/bond1/bonding/slaves +echo +eth3 > /sys/class/net/bond1/bonding/slaves + -5. Querying Bonding Configuration +4. Querying Bonding Configuration ================================= -5.1 Bonding Configuration +4.1 Bonding Configuration ------------------------- Each bonding device has a read-only file residing in the @@ -923,7 +1058,7 @@ generally as follows: The precise format and contents will change depending upon the bonding configuration, state, and version of the bonding driver. -5.2 Network configuration +4.2 Network configuration ------------------------- The network configuration can be inspected using the ifconfig @@ -958,7 +1093,7 @@ eth1 Link encap:Ethernet HWaddr 00:C0:F0:1F:37:B4 collisions:0 txqueuelen:100 Interrupt:9 Base address:0x1400 -6. Switch Configuration +5. Switch Configuration ======================= For this section, "switch" refers to whatever system the @@ -991,7 +1126,7 @@ transmit policy for an EtherChannel group; all three will interoperate with another EtherChannel group. -7. 802.1q VLAN Support +6. 802.1q VLAN Support ====================== It is possible to configure VLAN devices over a bond interface @@ -1042,7 +1177,7 @@ underlying device -- i.e. the bonding interface -- to promiscuous mode, which might not be what you want. -8. Link Monitoring +7. Link Monitoring ================== The bonding driver at present supports two schemes for @@ -1053,7 +1188,7 @@ monitor. bonding driver itself, it is not possible to enable both ARP and MII monitoring simultaneously. -8.1 ARP Monitor Operation +7.1 ARP Monitor Operation ------------------------- The ARP monitor operates as its name suggests: it sends ARP @@ -1071,7 +1206,7 @@ those slaves will stay down. If networking monitoring (tcpdump, etc) shows the ARP requests and replies on the network, then it may be that your device driver is not updating last_rx and trans_start. -8.2 Configuring Multiple ARP Targets +7.2 Configuring Multiple ARP Targets ------------------------------------ While ARP monitoring can be done with just one target, it can @@ -1094,7 +1229,7 @@ alias bond0 bonding options bond0 arp_interval=60 arp_ip_target=192.168.0.100 -8.3 MII Monitor Operation +7.3 MII Monitor Operation ------------------------- The MII monitor monitors only the carrier state of the local @@ -1120,14 +1255,14 @@ does not support or had some error in processing both the MII register and ethtool requests), then the MII monitor will assume the link is up. -9. Potential Sources of Trouble +8. Potential Sources of Trouble =============================== -9.1 Adventures in Routing +8.1 Adventures in Routing ------------------------- When bonding is configured, it is important that the slave -devices not have routes that supercede routes of the master (or, +devices not have routes that supersede routes of the master (or, generally, not have routes at all). For example, suppose the bonding device bond0 has two slaves, eth0 and eth1, and the routing table is as follows: @@ -1154,11 +1289,11 @@ by the state of the routing table. The solution here is simply to insure that slaves do not have routes of their own, and if for some reason they must, those routes do -not supercede routes of their master. This should generally be the +not supersede routes of their master. This should generally be the case, but unusual configurations or errant manual or automatic static route additions may cause trouble. -9.2 Ethernet Device Renaming +8.2 Ethernet Device Renaming ---------------------------- On systems with network configuration scripts that do not @@ -1207,7 +1342,7 @@ modprobe with --ignore-install to cause the normal action to then take place. Full documentation on this can be found in the modprobe.conf and modprobe manual pages. -9.3. Painfully Slow Or No Failed Link Detection By Miimon +8.3. Painfully Slow Or No Failed Link Detection By Miimon --------------------------------------------------------- By default, bonding enables the use_carrier option, which @@ -1235,7 +1370,7 @@ carrier state. It has no way to determine the state of devices on or beyond other ports of a switch, or if a switch is refusing to pass traffic while still maintaining carrier on. -10. SNMP agents +9. SNMP agents =============== If running SNMP agents, the bonding driver should be loaded @@ -1281,7 +1416,7 @@ ifDescr, the association between the IP address and IfIndex remains and SNMP functions such as Interface_Scan_Next will report that association. -11. Promiscuous mode +10. Promiscuous mode ==================== When running network monitoring tools, e.g., tcpdump, it is @@ -1308,7 +1443,7 @@ sending to peers that are unassigned or if the load is unbalanced. the active slave changes (e.g., due to a link failure), the promiscuous setting will be propagated to the new active slave. -12. Configuring Bonding for High Availability +11. Configuring Bonding for High Availability ============================================= High Availability refers to configurations that provide @@ -1318,7 +1453,7 @@ goal is to provide the maximum availability of network connectivity (i.e., the network always works), even though other configurations could provide higher throughput. -12.1 High Availability in a Single Switch Topology +11.1 High Availability in a Single Switch Topology -------------------------------------------------- If two hosts (or a host and a single switch) are directly @@ -1332,7 +1467,7 @@ the load will be rebalanced across the remaining devices. See Section 13, "Configuring Bonding for Maximum Throughput" for information on configuring bonding with one peer device. -12.2 High Availability in a Multiple Switch Topology +11.2 High Availability in a Multiple Switch Topology ---------------------------------------------------- With multiple switches, the configuration of bonding and the @@ -1359,7 +1494,7 @@ switches (ISL, or inter switch link), and multiple ports connecting to the outside world ("port3" on each switch). There is no technical reason that this could not be extended to a third switch. -12.2.1 HA Bonding Mode Selection for Multiple Switch Topology +11.2.1 HA Bonding Mode Selection for Multiple Switch Topology ------------------------------------------------------------- In a topology such as the example above, the active-backup and @@ -1381,7 +1516,7 @@ broadcast: This mode is really a special purpose mode, and is suitable necessary for some specific one-way traffic to reach both independent networks, then the broadcast mode may be suitable. -12.2.2 HA Link Monitoring Selection for Multiple Switch Topology +11.2.2 HA Link Monitoring Selection for Multiple Switch Topology ---------------------------------------------------------------- The choice of link monitoring ultimately depends upon your @@ -1402,10 +1537,10 @@ regardless of which switch is active, the ARP monitor has a suitable target to query. -13. Configuring Bonding for Maximum Throughput +12. Configuring Bonding for Maximum Throughput ============================================== -13.1 Maximizing Throughput in a Single Switch Topology +12.1 Maximizing Throughput in a Single Switch Topology ------------------------------------------------------ In a single switch configuration, the best method to maximize @@ -1476,7 +1611,7 @@ destination to make load balancing decisions. The behavior of each mode is described below. -13.1.1 MT Bonding Mode Selection for Single Switch Topology +12.1.1 MT Bonding Mode Selection for Single Switch Topology ----------------------------------------------------------- This configuration is the easiest to set up and to understand, @@ -1607,7 +1742,7 @@ balance-alb: This mode is everything that balance-tlb is, and more. device driver must support changing the hardware address while the device is open. -13.1.2 MT Link Monitoring for Single Switch Topology +12.1.2 MT Link Monitoring for Single Switch Topology ---------------------------------------------------- The choice of link monitoring may largely depend upon which @@ -1616,7 +1751,7 @@ support the use of the ARP monitor, and are thus restricted to using the MII monitor (which does not provide as high a level of end to end assurance as the ARP monitor). -13.2 Maximum Throughput in a Multiple Switch Topology +12.2 Maximum Throughput in a Multiple Switch Topology ----------------------------------------------------- Multiple switches may be utilized to optimize for throughput @@ -1651,7 +1786,7 @@ a single 72 port switch. can be equipped with an additional network device connected to an external network; this host then additionally acts as a gateway. -13.2.1 MT Bonding Mode Selection for Multiple Switch Topology +12.2.1 MT Bonding Mode Selection for Multiple Switch Topology ------------------------------------------------------------- In actual practice, the bonding mode typically employed in @@ -1664,7 +1799,7 @@ packets has arrived). When employed in this fashion, the balance-rr mode allows individual connections between two hosts to effectively utilize greater than one interface's bandwidth. -13.2.2 MT Link Monitoring for Multiple Switch Topology +12.2.2 MT Link Monitoring for Multiple Switch Topology ------------------------------------------------------ Again, in actual practice, the MII monitor is most often used @@ -1674,10 +1809,10 @@ advantages over the MII monitor are mitigated by the volume of probes needed as the number of systems involved grows (remember that each host in the network is configured with bonding). -14. Switch Behavior Issues +13. Switch Behavior Issues ========================== -14.1 Link Establishment and Failover Delays +13.1 Link Establishment and Failover Delays ------------------------------------------- Some switches exhibit undesirable behavior with regard to the @@ -1712,7 +1847,7 @@ switches take a long time to go into backup mode, it may be desirable to not activate a backup interface immediately after a link goes down. Failover may be delayed via the downdelay bonding module option. -14.2 Duplicated Incoming Packets +13.2 Duplicated Incoming Packets -------------------------------- It is not uncommon to observe a short burst of duplicated @@ -1751,14 +1886,14 @@ behavior, it can be induced by clearing the MAC forwarding table (on most Cisco switches, the privileged command "clear mac address-table dynamic" will accomplish this). -15. Hardware Specific Considerations +14. Hardware Specific Considerations ==================================== This section contains additional information for configuring bonding on specific hardware platforms, or for interfacing bonding with particular switches or other devices. -15.1 IBM BladeCenter +14.1 IBM BladeCenter -------------------- This applies to the JS20 and similar systems. @@ -1861,7 +1996,7 @@ bonding driver. avoid fail-over delay issues when using bonding. -16. Frequently Asked Questions +15. Frequently Asked Questions ============================== 1. Is it SMP safe? @@ -1925,7 +2060,7 @@ not have special switch requirements, but do need device drivers that support specific features (described in the appropriate section under module parameters, above). - In 802.3ad mode, it works with with systems that support IEEE + In 802.3ad mode, it works with systems that support IEEE 802.3ad Dynamic Link Aggregation. Most managed and many unmanaged switches currently available support 802.3ad. diff --git a/Documentation/networking/ip-sysctl.txt b/Documentation/networking/ip-sysctl.txt index f12007b80a4..d46338af600 100644 --- a/Documentation/networking/ip-sysctl.txt +++ b/Documentation/networking/ip-sysctl.txt @@ -362,6 +362,13 @@ tcp_workaround_signed_windows - BOOLEAN not receive a window scaling option from them. Default: 0 +tcp_slow_start_after_idle - BOOLEAN + If set, provide RFC2861 behavior and time out the congestion + window after an idle period. An idle period is defined at + the current RTO. If unset, the congestion window will not + be timed out after an idle period. + Default: 1 + IP Variables: ip_local_port_range - 2 INTEGERS diff --git a/Documentation/networking/netdevices.txt b/Documentation/networking/netdevices.txt index 3c0a5ba614d..847cedb238f 100644 --- a/Documentation/networking/netdevices.txt +++ b/Documentation/networking/netdevices.txt @@ -42,9 +42,9 @@ dev->get_stats: Context: nominally process, but don't sleep inside an rwlock dev->hard_start_xmit: - Synchronization: dev->xmit_lock spinlock. + Synchronization: netif_tx_lock spinlock. When the driver sets NETIF_F_LLTX in dev->features this will be - called without holding xmit_lock. In this case the driver + called without holding netif_tx_lock. In this case the driver has to lock by itself when needed. It is recommended to use a try lock for this and return -1 when the spin lock fails. The locking there should also properly protect against @@ -62,12 +62,12 @@ dev->hard_start_xmit: Only valid when NETIF_F_LLTX is set. dev->tx_timeout: - Synchronization: dev->xmit_lock spinlock. + Synchronization: netif_tx_lock spinlock. Context: BHs disabled Notes: netif_queue_stopped() is guaranteed true dev->set_multicast_list: - Synchronization: dev->xmit_lock spinlock. + Synchronization: netif_tx_lock spinlock. Context: BHs disabled dev->poll: diff --git a/Documentation/pci.txt b/Documentation/pci.txt index 66bbbf1d1ef..3242e5c1ee9 100644 --- a/Documentation/pci.txt +++ b/Documentation/pci.txt @@ -213,9 +213,17 @@ have been remapped by the kernel. See Documentation/IO-mapping.txt for how to access device memory. - You still need to call request_region() for I/O regions and -request_mem_region() for memory regions to make sure nobody else is using the -same device. + The device driver needs to call pci_request_region() to make sure +no other device is already using the same resource. The driver is expected +to determine MMIO and IO Port resource availability _before_ calling +pci_enable_device(). Conversely, drivers should call pci_release_region() +_after_ calling pci_disable_device(). The idea is to prevent two devices +colliding on the same address range. + +Generic flavors of pci_request_region() are request_mem_region() +(for MMIO ranges) and request_region() (for IO Port ranges). +Use these for address resources that are not described by "normal" PCI +interfaces (e.g. BAR). All interrupt handlers should be registered with SA_SHIRQ and use the devid to map IRQs to devices (remember that all PCI interrupts are shared). diff --git a/Documentation/power/devices.txt b/Documentation/power/devices.txt index f987afe43e2..fba1e05c47c 100644 --- a/Documentation/power/devices.txt +++ b/Documentation/power/devices.txt @@ -135,96 +135,6 @@ HW. FREEZE -- stop DMA and interrupts, and be prepared to reinit HW from scratch. That probably means stop accepting upstream requests, the -actual policy of what to do with them beeing specific to a given -driver. It's acceptable for a network driver to just drop packets -while a block driver is expected to block the queue so no request is -lost. (Use IDE as an example on how to do that). FREEZE requires no -power state change, and it's expected for drivers to be able to -quickly transition back to operating state. - -SUSPEND -- like FREEZE, but also put hardware into low-power state. If -there's need to distinguish several levels of sleep, additional flag -is probably best way to do that. - -Transitions are only from a resumed state to a suspended state, never -between 2 suspended states. (ON -> FREEZE or ON -> SUSPEND can happen, -FREEZE -> SUSPEND or SUSPEND -> FREEZE can not). - -All events are: - -[NOTE NOTE NOTE: If you are driver author, you should not care; you -should only look at event, and ignore flags.] - -#Prepare for suspend -- userland is still running but we are going to -#enter suspend state. This gives drivers chance to load firmware from -#disk and store it in memory, or do other activities taht require -#operating userland, ability to kmalloc GFP_KERNEL, etc... All of these -#are forbiden once the suspend dance is started.. event = ON, flags = -#PREPARE_TO_SUSPEND - -Apm standby -- prepare for APM event. Quiesce devices to make life -easier for APM BIOS. event = FREEZE, flags = APM_STANDBY - -Apm suspend -- same as APM_STANDBY, but it we should probably avoid -spinning down disks. event = FREEZE, flags = APM_SUSPEND - -System halt, reboot -- quiesce devices to make life easier for BIOS. event -= FREEZE, flags = SYSTEM_HALT or SYSTEM_REBOOT - -System shutdown -- at least disks need to be spun down, or data may be -lost. Quiesce devices, just to make life easier for BIOS. event = -FREEZE, flags = SYSTEM_SHUTDOWN - -Kexec -- turn off DMAs and put hardware into some state where new -kernel can take over. event = FREEZE, flags = KEXEC - -Powerdown at end of swsusp -- very similar to SYSTEM_SHUTDOWN, except wake -may need to be enabled on some devices. This actually has at least 3 -subtypes, system can reboot, enter S4 and enter S5 at the end of -swsusp. event = FREEZE, flags = SWSUSP and one of SYSTEM_REBOOT, -SYSTEM_SHUTDOWN, SYSTEM_S4 - -Suspend to ram -- put devices into low power state. event = SUSPEND, -flags = SUSPEND_TO_RAM - -Freeze for swsusp snapshot -- stop DMA and interrupts. No need to put -devices into low power mode, but you must be able to reinitialize -device from scratch in resume method. This has two flavors, its done -once on suspending kernel, once on resuming kernel. event = FREEZE, -flags = DURING_SUSPEND or DURING_RESUME - -Device detach requested from /sys -- deinitialize device; proably same as -SYSTEM_SHUTDOWN, I do not understand this one too much. probably event -= FREEZE, flags = DEV_DETACH. - -#These are not really events sent: -# -#System fully on -- device is working normally; this is probably never -#passed to suspend() method... event = ON, flags = 0 -# -#Ready after resume -- userland is now running, again. Time to free any -#memory you ate during prepare to suspend... event = ON, flags = -#READY_AFTER_RESUME -# - - -pm_message_t meaning - -pm_message_t has two fields. event ("major"), and flags. If driver -does not know event code, it aborts the request, returning error. Some -drivers may need to deal with special cases based on the actual type -of suspend operation being done at the system level. This is why -there are flags. - -Event codes are: - -ON -- no need to do anything except special cases like broken -HW. - -# NOTIFICATION -- pretty much same as ON? - -FREEZE -- stop DMA and interrupts, and be prepared to reinit HW from -scratch. That probably means stop accepting upstream requests, the actual policy of what to do with them being specific to a given driver. It's acceptable for a network driver to just drop packets while a block driver is expected to block the queue so no request is diff --git a/Documentation/power/swsusp.txt b/Documentation/power/swsusp.txt index d7814a113ee..516c5019013 100644 --- a/Documentation/power/swsusp.txt +++ b/Documentation/power/swsusp.txt @@ -18,10 +18,11 @@ Some warnings, first. * * (*) suspend/resume support is needed to make it safe. * - * If you have any filesystems on USB devices mounted before suspend, + * If you have any filesystems on USB devices mounted before software suspend, * they won't be accessible after resume and you may lose data, as though - * you have unplugged the USB devices with mounted filesystems on them - * (see the FAQ below for details). + * you have unplugged the USB devices with mounted filesystems on them; + * see the FAQ below for details. (This is not true for more traditional + * power states like "standby", which normally don't turn USB off.) You need to append resume=/dev/your_swap_partition to kernel command line. Then you suspend by @@ -204,7 +205,7 @@ Q: There don't seem to be any generally useful behavioral distinctions between SUSPEND and FREEZE. A: Doing SUSPEND when you are asked to do FREEZE is always correct, -but it may be unneccessarily slow. If you want USB to stay simple, +but it may be unneccessarily slow. If you want your driver to stay simple, slowness may not matter to you. It can always be fixed later. For devices like disk it does matter, you do not want to spindown for @@ -357,17 +358,25 @@ Q: Is this true that if I have a mounted filesystem on a USB device and I suspend to disk, I can lose data unless the filesystem has been mounted with "sync"? -A: That's right. It depends on your hardware, and it could be true even for -suspend-to-RAM. In fact, even with "-o sync" you can lose data if your -programs have information in buffers they haven't written out to disk. +A: That's right ... if you disconnect that device, you may lose data. +In fact, even with "-o sync" you can lose data if your programs have +information in buffers they haven't written out to a disk you disconnect, +or if you disconnect before the device finished saving data you wrote. -If you're lucky, your hardware will support low-power modes for USB -controllers while the system is asleep. Lots of hardware doesn't, -however. Shutting off the power to a USB controller is equivalent to -unplugging all the attached devices. +Software suspend normally powers down USB controllers, which is equivalent +to disconnecting all USB devices attached to your system. + +Your system might well support low-power modes for its USB controllers +while the system is asleep, maintaining the connection, using true sleep +modes like "suspend-to-RAM" or "standby". (Don't write "disk" to the +/sys/power/state file; write "standby" or "mem".) We've not seen any +hardware that can use these modes through software suspend, although in +theory some systems might support "platform" or "firmware" modes that +won't break the USB connections. Remember that it's always a bad idea to unplug a disk drive containing a -mounted filesystem. With USB that's true even when your system is asleep! -The safest thing is to unmount all USB-based filesystems before suspending -and remount them after resuming. +mounted filesystem. That's true even when your system is asleep! The +safest thing is to unmount all filesystems on removable media (such USB, +Firewire, CompactFlash, MMC, external SATA, or even IDE hotplug bays) +before suspending; then remount them after resuming. diff --git a/Documentation/scsi/00-INDEX b/Documentation/scsi/00-INDEX index e7da8c3a255..12354830c6b 100644 --- a/Documentation/scsi/00-INDEX +++ b/Documentation/scsi/00-INDEX @@ -30,8 +30,6 @@ aic7xxx.txt - info on driver for Adaptec controllers aic7xxx_old.txt - info on driver for Adaptec controllers, old generation -cpqfc.txt - - info on driver for Compaq Tachyon TS adapters dpti.txt - info on driver for DPT SmartRAID and Adaptec I2O RAID based adapters dtc3x80.txt diff --git a/Documentation/scsi/ChangeLog.megaraid_sas b/Documentation/scsi/ChangeLog.megaraid_sas index 2dafa63bd37..0a85a7e8120 100644 --- a/Documentation/scsi/ChangeLog.megaraid_sas +++ b/Documentation/scsi/ChangeLog.megaraid_sas @@ -1,3 +1,16 @@ + +1 Release Date : Wed Feb 03 14:31:44 PST 2006 - Sumant Patro <Sumant.Patro@lsil.com> +2 Current Version : 00.00.02.04 +3 Older Version : 00.00.02.04 + +i. Remove superflous instance_lock + + gets rid of the otherwise superflous instance_lock and avoids an unsave + unsynchronized access in the error handler. + + - Christoph Hellwig <hch@lst.de> + + 1 Release Date : Wed Feb 03 14:31:44 PST 2006 - Sumant Patro <Sumant.Patro@lsil.com> 2 Current Version : 00.00.02.04 3 Older Version : 00.00.02.04 diff --git a/Documentation/scsi/aacraid.txt b/Documentation/scsi/aacraid.txt index 820fd079350..be55670851a 100644 --- a/Documentation/scsi/aacraid.txt +++ b/Documentation/scsi/aacraid.txt @@ -24,10 +24,10 @@ Supported Cards/Chipsets 9005:0285:9005:0296 Adaptec 2240S (SabreExpress) 9005:0285:9005:0290 Adaptec 2410SA (Jaguar) 9005:0285:9005:0293 Adaptec 21610SA (Corsair-16) - 9005:0285:103c:3227 Adaptec 2610SA (Bearcat) + 9005:0285:103c:3227 Adaptec 2610SA (Bearcat HP release) 9005:0285:9005:0292 Adaptec 2810SA (Corsair-8) 9005:0285:9005:0294 Adaptec Prowler - 9005:0286:9005:029d Adaptec 2420SA (Intruder) + 9005:0286:9005:029d Adaptec 2420SA (Intruder HP release) 9005:0286:9005:029c Adaptec 2620SA (Intruder) 9005:0286:9005:029b Adaptec 2820SA (Intruder) 9005:0286:9005:02a7 Adaptec 2830SA (Skyray) @@ -38,7 +38,7 @@ Supported Cards/Chipsets 9005:0285:9005:0297 Adaptec 4005SAS (AvonPark) 9005:0285:9005:0299 Adaptec 4800SAS (Marauder-X) 9005:0285:9005:029a Adaptec 4805SAS (Marauder-E) - 9005:0286:9005:02a2 Adaptec 4810SAS (Hurricane) + 9005:0286:9005:02a2 Adaptec 3800SAS (Hurricane44) 1011:0046:9005:0364 Adaptec 5400S (Mustang) 1011:0046:9005:0365 Adaptec 5400S (Mustang) 9005:0283:9005:0283 Adaptec Catapult (3210S with arc firmware) @@ -72,7 +72,7 @@ Supported Cards/Chipsets 9005:0286:9005:02a1 ICP ICP9087MA (Lancer) 9005:0286:9005:02a4 ICP ICP9085LI (Marauder-X) 9005:0286:9005:02a5 ICP ICP5085BR (Marauder-E) - 9005:0286:9005:02a3 ICP ICP5085AU (Hurricane) + 9005:0286:9005:02a3 ICP ICP5445AU (Hurricane44) 9005:0286:9005:02a6 ICP ICP9067MA (Intruder-6) 9005:0286:9005:02a9 ICP ICP5087AU (Skyray) 9005:0286:9005:02aa ICP ICP5047AU (Skyray) diff --git a/Documentation/scsi/cpqfc.txt b/Documentation/scsi/cpqfc.txt deleted file mode 100644 index dd33e61c064..00000000000 --- a/Documentation/scsi/cpqfc.txt +++ /dev/null @@ -1,272 +0,0 @@ -Notes for CPQFCTS driver for Compaq Tachyon TS -Fibre Channel Host Bus Adapter, PCI 64-bit, 66MHz -for Linux (RH 6.1, 6.2 kernel 2.2.12-32, 2.2.14-5) -SMP tested -Tested in single and dual HBA configuration, 32 and 64bit busses, -33 and 66MHz. Only supports FC-AL. -SEST size 512 Exchanges (simultaneous I/Os) limited by module kmalloc() - max of 128k bytes contiguous. - -Ver 2.5.4 Oct 03, 2002 - * fixed memcpy of sense buffer in ioctl to copy the smaller defined size -Ver 2.5.3 Aug 01, 2002 - * fix the passthru ioctl to handle the Scsi_Cmnd->request being a pointer -Ver 2.5.1 Jul 30, 2002 - * fix ioctl to pay attention to the specified LUN. -Ver 2.5.0 Nov 29, 2001 - * eliminated io_request_lock. This change makes the driver specific - to the 2.5.x kernels. - * silenced excessively noisy printks. - -Ver 2.1.2 July 23, 2002 - * initialize DumCmnd->lun in cpqfcTS_ioctl (used in fcFindLoggedInPorts as LUN index) - -Ver 2.1.1 Oct 18, 2001 - * reinitialize Cmnd->SCp.sent_command (used to identify commands as - passthrus) on calling scsi_done, since the scsi mid layer does not - use (or reinitialize) this field to prevent subsequent comands from - having it set incorrectly. - -Ver 2.1.0 Aug 27, 2001 - * Revise driver to use new kernel 2.4.x PCI DMA API, instead of - virt_to_bus(). (enables driver to work w/ ia64 systems with >2Gb RAM.) - Rework main scatter-gather code to handle cases where SG element - lengths are larger than 0x7FFFF bytes and use as many scatter - gather pages as necessary. (Steve Cameron) - * Makefile changes to bring cpqfc into line w/ rest of SCSI drivers - (thanks to Keith Owens) - -Ver 2.0.5 Aug 06, 2001 - * Reject non-existent luns in the driver rather than letting the - hardware do it. (some HW behaves differently than others in this area.) - * Changed Makefile to rely on "make dep" instead of explicit dependencies - * ifdef'ed out fibre channel analyzer triggering debug code - * fixed a jiffies wrapping issue - -Ver 2.0.4 Aug 01, 2001 - * Incorporated fix for target device reset from Steeleye - * Fixed passthrough ioctl so it doesn't hang. - * Fixed hang in launch_FCworker_thread() that occurred on some machines. - * Avoid problem when number of volumes in a single cabinet > 8 - -Ver 2.0.2 July 23, 2001 - Changed the semiphore changes so the driver would compile in 2.4.7. - This version is for 2.4.7 and beyond. - -Ver 2.0.1 May 7, 2001 - Merged version 1.3.6 fixes into version 2.0.0. - -Ver 2.0.0 May 7, 2001 - Fixed problem so spinlock is being initialized to UNLOCKED. - Fixed updated driver so it compiles in the 2.4 tree. - - Ver 1.3.6 Feb 27, 2001 - Added Target_Device_Reset function for SCSI error handling - Fixed problem with not reseting addressing mode after implicit logout - - -Ver 1.3.4 Sep 7, 2000 - Added Modinfo information - Fixed problem with statically linking the driver - -Ver 1.3.3, Aug 23, 2000 - Fixed device/function number in ioctl - -Ver 1.3.2, July 27, 2000 - Add include for Alpha compile on 2.2.14 kernel (cpq*i2c.c) - Change logic for different FCP-RSP sense_buffer location for HSG80 target - And search for Agilent Tachyon XL2 HBAs (not finished! - in test) - -Tested with -(storage): - Compaq RA-4x000, RAID firmware ver 2.40 - 2.54 - Seagate FC drives model ST39102FC, rev 0006 - Hitachi DK31CJ-72FC rev J8A8 - IBM DDYF-T18350R rev F60K - Compaq FC-SCSI bridge w/ DLT 35/70 Gb DLT (tape) -(servers): - Compaq PL-1850R - Compaq PL-6500 Xeon (400MHz) - Compaq PL-8500 (500MHz, 66MHz, 64bit PCI) - Compaq Alpha DS20 (RH 6.1) -(hubs): - Vixel Rapport 1000 (7-port "dumb") - Gadzoox Gibralter (12-port "dumb") - Gadzoox Capellix 2000, 3000 -(switches): - Brocade 2010, 2400, 2800, rev 2.0.3a (& later) - Gadzoox 3210 (Fabric blade beta) - Vixel 7100 (Fabric beta firmare - known hot plug issues) -using "qa_test" (esp. io_test script) suite modified from Unix tests. - -Installation: -make menuconfig - (select SCSI low-level, Compaq FC HBA) -make modules -make modules_install - -e.g. insmod -f cpqfc - -Due to Fabric/switch delays, driver requires 4 seconds -to initialize. If adapters are found, there will be a entries at -/proc/scsi/cpqfcTS/* - -sample contents of startup messages - -************************* - scsi_register allocating 3596 bytes for CPQFCHBA - ioremap'd Membase: c887e600 - HBA Tachyon RevId 1.2 -Allocating 119808 for 576 Exchanges @ c0dc0000 -Allocating 112904 for LinkQ @ c0c20000 (576 elements) -Allocating 110600 for TachSEST for 512 Exchanges - cpqfcTS: writing IMQ BASE 7C0000h PI 7C4000h - cpqfcTS: SEST c0e40000(virt): Wrote base E40000h @ c887e740 -cpqfcTS: New FC port 0000E8h WWN: 500507650642499D SCSI Chan/Trgt 0/0 -cpqfcTS: New FC port 0000EFh WWN: 50000E100000D5A6 SCSI Chan/Trgt 0/1 -cpqfcTS: New FC port 0000E4h WWN: 21000020370097BB SCSI Chan/Trgt 0/2 -cpqfcTS: New FC port 0000E2h WWN: 2100002037009946 SCSI Chan/Trgt 0/3 -cpqfcTS: New FC port 0000E1h WWN: 21000020370098FE SCSI Chan/Trgt 0/4 -cpqfcTS: New FC port 0000E0h WWN: 21000020370097B2 SCSI Chan/Trgt 0/5 -cpqfcTS: New FC port 0000DCh WWN: 2100002037006CC1 SCSI Chan/Trgt 0/6 -cpqfcTS: New FC port 0000DAh WWN: 21000020370059F6 SCSI Chan/Trgt 0/7 -cpqfcTS: New FC port 00000Fh WWN: 500805F1FADB0E20 SCSI Chan/Trgt 0/8 -cpqfcTS: New FC port 000008h WWN: 500805F1FADB0EBA SCSI Chan/Trgt 0/9 -cpqfcTS: New FC port 000004h WWN: 500805F1FADB1EB9 SCSI Chan/Trgt 0/10 -cpqfcTS: New FC port 000002h WWN: 500805F1FADB1ADE SCSI Chan/Trgt 0/11 -cpqfcTS: New FC port 000001h WWN: 500805F1FADBA2CA SCSI Chan/Trgt 0/12 -scsi4 : Compaq FibreChannel HBA Tachyon TS HPFC-5166A/1.2: WWN 500508B200193F50 - on PCI bus 0 device 0xa0fc irq 5 IObaseL 0x3400, MEMBASE 0xc6ef8600 -PCI bus width 32 bits, bus speed 33 MHz -FCP-SCSI Driver v1.3.0 -GBIC detected: Short-wave. LPSM 0h Monitor -scsi : 5 hosts. - Vendor: IBM Model: DDYF-T18350R Rev: F60K - Type: Direct-Access ANSI SCSI revision: 03 -Detected scsi disk sdb at scsi4, channel 0, id 0, lun 0 - Vendor: HITACHI Model: DK31CJ-72FC Rev: J8A8 - Type: Direct-Access ANSI SCSI revision: 02 -Detected scsi disk sdc at scsi4, channel 0, id 1, lun 0 - Vendor: SEAGATE Model: ST39102FC Rev: 0006 - Type: Direct-Access ANSI SCSI revision: 02 -Detected scsi disk sdd at scsi4, channel 0, id 2, lun 0 - Vendor: SEAGATE Model: ST39102FC Rev: 0006 - Type: Direct-Access ANSI SCSI revision: 02 -Detected scsi disk sde at scsi4, channel 0, id 3, lun 0 - Vendor: SEAGATE Model: ST39102FC Rev: 0006 - Type: Direct-Access ANSI SCSI revision: 02 -Detected scsi disk sdf at scsi4, channel 0, id 4, lun 0 - Vendor: SEAGATE Model: ST39102FC Rev: 0006 - Type: Direct-Access ANSI SCSI revision: 02 -Detected scsi disk sdg at scsi4, channel 0, id 5, lun 0 - Vendor: SEAGATE Model: ST39102FC Rev: 0006 - Type: Direct-Access ANSI SCSI revision: 02 -Detected scsi disk sdh at scsi4, channel 0, id 6, lun 0 - Vendor: SEAGATE Model: ST39102FC Rev: 0006 - Type: Direct-Access ANSI SCSI revision: 02 -Detected scsi disk sdi at scsi4, channel 0, id 7, lun 0 - Vendor: COMPAQ Model: LOGICAL VOLUME Rev: 2.48 - Type: Direct-Access ANSI SCSI revision: 02 -Detected scsi disk sdj at scsi4, channel 0, id 8, lun 0 - Vendor: COMPAQ Model: LOGICAL VOLUME Rev: 2.48 - Type: Direct-Access ANSI SCSI revision: 02 -Detected scsi disk sdk at scsi4, channel 0, id 8, lun 1 - Vendor: COMPAQ Model: LOGICAL VOLUME Rev: 2.40 - Type: Direct-Access ANSI SCSI revision: 02 -Detected scsi disk sdl at scsi4, channel 0, id 9, lun 0 - Vendor: COMPAQ Model: LOGICAL VOLUME Rev: 2.40 - Type: Direct-Access ANSI SCSI revision: 02 -Detected scsi disk sdm at scsi4, channel 0, id 9, lun 1 - Vendor: COMPAQ Model: LOGICAL VOLUME Rev: 2.54 - Type: Direct-Access ANSI SCSI revision: 02 -Detected scsi disk sdn at scsi4, channel 0, id 10, lun 0 - Vendor: COMPAQ Model: LOGICAL VOLUME Rev: 2.54 - Type: Direct-Access ANSI SCSI revision: 02 -Detected scsi disk sdo at scsi4, channel 0, id 11, lun 0 - Vendor: COMPAQ Model: LOGICAL VOLUME Rev: 2.54 - Type: Direct-Access ANSI SCSI revision: 02 -Detected scsi disk sdp at scsi4, channel 0, id 11, lun 1 - Vendor: COMPAQ Model: LOGICAL VOLUME Rev: 2.54 - Type: Direct-Access ANSI SCSI revision: 02 -Detected scsi disk sdq at scsi4, channel 0, id 12, lun 0 - Vendor: COMPAQ Model: LOGICAL VOLUME Rev: 2.54 - Type: Direct-Access ANSI SCSI revision: 02 -Detected scsi disk sdr at scsi4, channel 0, id 12, lun 1 -resize_dma_pool: unknown device type 12 -resize_dma_pool: unknown device type 12 -SCSI device sdb: hdwr sector= 512 bytes. Sectors= 35843670 [17501 MB] [17.5 GB] - sdb: sdb1 -SCSI device sdc: hdwr sector= 512 bytes. Sectors= 144410880 [70513 MB] [70.5 GB] - sdc: sdc1 -SCSI device sdd: hdwr sector= 512 bytes. Sectors= 17783240 [8683 MB] [8.7 GB] - sdd: sdd1 -SCSI device sde: hdwr sector= 512 bytes. Sectors= 17783240 [8683 MB] [8.7 GB] - sde: sde1 -SCSI device sdf: hdwr sector= 512 bytes. Sectors= 17783240 [8683 MB] [8.7 GB] - sdf: sdf1 -SCSI device sdg: hdwr sector= 512 bytes. Sectors= 17783240 [8683 MB] [8.7 GB] - sdg: sdg1 -SCSI device sdh: hdwr sector= 512 bytes. Sectors= 17783240 [8683 MB] [8.7 GB] - sdh: sdh1 -SCSI device sdi: hdwr sector= 512 bytes. Sectors= 17783240 [8683 MB] [8.7 GB] - sdi: sdi1 -SCSI device sdj: hdwr sector= 512 bytes. Sectors= 2056160 [1003 MB] [1.0 GB] - sdj: sdj1 -SCSI device sdk: hdwr sector= 512 bytes. Sectors= 2052736 [1002 MB] [1.0 GB] - sdk: sdk1 -SCSI device sdl: hdwr sector= 512 bytes. Sectors= 17764320 [8673 MB] [8.7 GB] - sdl: sdl1 -SCSI device sdm: hdwr sector= 512 bytes. Sectors= 8380320 [4091 MB] [4.1 GB] - sdm: sdm1 -SCSI device sdn: hdwr sector= 512 bytes. Sectors= 17764320 [8673 MB] [8.7 GB] - sdn: sdn1 -SCSI device sdo: hdwr sector= 512 bytes. Sectors= 17764320 [8673 MB] [8.7 GB] - sdo: sdo1 -SCSI device sdp: hdwr sector= 512 bytes. Sectors= 17764320 [8673 MB] [8.7 GB] - sdp: sdp1 -SCSI device sdq: hdwr sector= 512 bytes. Sectors= 2056160 [1003 MB] [1.0 GB] - sdq: sdq1 -SCSI device sdr: hdwr sector= 512 bytes. Sectors= 2052736 [1002 MB] [1.0 GB] - sdr: sdr1 - -************************* - -If a GBIC of type Short-wave, Long-wave, or Copper is detected, it will -print out; otherwise, "none" is displayed. If the cabling is correct -and a loop circuit is completed, you should see "Monitor"; otherwise, -"LoopFail" (on open circuit) or some LPSM number/state with bit 3 set. - - -ERRATA: -1. Normally, Linux Scsi queries FC devices with INQUIRY strings. All LUNs -found according to INQUIRY should get READ commands at sector 0 to find -partition table, etc. Older kernels only query the first 4 devices. Some -Linux kernels only look for one LUN per target (i.e. FC device). - -2. Physically removing a device, or a malfunctioning system which hides a -device, leads to a 30-second timeout and subsequent _abort call. -In some process contexts, this will hang the kernel (crashing the system). -Single bit errors in frames and virtually all hot plugging events are -gracefully handled with internal driver timer and Abort processing. - -3. Some SCSI drives with error conditions will not handle the 7 second timeout -in this software driver, leading to infinite retries on timed out SCSI commands. -The 7 secs balances the need to quickly recover from lost frames (esp. on sequence -initiatives) and time needed by older/slower/error-state drives in responding. -This can be easily changed in "Exchanges[].timeOut". - -4. Due to the nature of FC soft addressing, there is no assurance that the -same LUNs (drives) will have the same path (e.g. /dev/sdb1) from one boot to -next. Dynamic soft address changes (i.e. 24-bit FC port_id) are -supported during run time (e.g. due to hot plug event) by the use of WWN to -SCSI Nexus (channel/target/LUN) mapping. - -5. Compaq RA4x00 firmware version 2.54 and later supports SSP (Selective -Storage Presentation), which maps LUNs to a WWN. If RA4x00 firmware prior -2.54 (e.g. older controller) is used, or the FC HBA is replaced (another WWN -is used), logical volumes on the RA4x00 will no longer be visible. - - -Send questions/comments to: -Amy Vanzant-Hodge (fibrechannel@compaq.com) - diff --git a/Documentation/scsi/hptiop.txt b/Documentation/scsi/hptiop.txt new file mode 100644 index 00000000000..d28a31247d4 --- /dev/null +++ b/Documentation/scsi/hptiop.txt @@ -0,0 +1,92 @@ +HIGHPOINT ROCKETRAID 3xxx RAID DRIVER (hptiop) + +Controller Register Map +------------------------- + +The controller IOP is accessed via PCI BAR0. + + BAR0 offset Register + 0x10 Inbound Message Register 0 + 0x14 Inbound Message Register 1 + 0x18 Outbound Message Register 0 + 0x1C Outbound Message Register 1 + 0x20 Inbound Doorbell Register + 0x24 Inbound Interrupt Status Register + 0x28 Inbound Interrupt Mask Register + 0x30 Outbound Interrupt Status Register + 0x34 Outbound Interrupt Mask Register + 0x40 Inbound Queue Port + 0x44 Outbound Queue Port + + +I/O Request Workflow +---------------------- + +All queued requests are handled via inbound/outbound queue port. +A request packet can be allocated in either IOP or host memory. + +To send a request to the controller: + + - Get a free request packet by reading the inbound queue port or + allocate a free request in host DMA coherent memory. + + The value returned from the inbound queue port is an offset + relative to the IOP BAR0. + + Requests allocated in host memory must be aligned on 32-bytes boundary. + + - Fill the packet. + + - Post the packet to IOP by writing it to inbound queue. For requests + allocated in IOP memory, write the offset to inbound queue port. For + requests allocated in host memory, write (0x80000000|(bus_addr>>5)) + to the inbound queue port. + + - The IOP process the request. When the request is completed, it + will be put into outbound queue. An outbound interrupt will be + generated. + + For requests allocated in IOP memory, the request offset is posted to + outbound queue. + + For requests allocated in host memory, (0x80000000|(bus_addr>>5)) + is posted to the outbound queue. If IOP_REQUEST_FLAG_OUTPUT_CONTEXT + flag is set in the request, the low 32-bit context value will be + posted instead. + + - The host read the outbound queue and complete the request. + + For requests allocated in IOP memory, the host driver free the request + by writing it to the outbound queue. + +Non-queued requests (reset/flush etc) can be sent via inbound message +register 0. An outbound message with the same value indicates the completion +of an inbound message. + + +User-level Interface +--------------------- + +The driver exposes following sysfs attributes: + + NAME R/W Description + driver-version R driver version string + firmware-version R firmware version string + +The driver registers char device "hptiop" to communicate with HighPoint RAID +management software. Its ioctl routine acts as a general binary interface +between the IOP firmware and HighPoint RAID management software. New management +functions can be implemented in application/firmware without modification +in driver code. + + +----------------------------------------------------------------------------- +Copyright (C) 2006 HighPoint Technologies, Inc. All Rights Reserved. + + This file 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. + + linux@highpoint-tech.com + http://www.highpoint-tech.com diff --git a/Documentation/sound/alsa/ALSA-Configuration.txt b/Documentation/sound/alsa/ALSA-Configuration.txt index 0ee2c7dfc48..87d76a5c73d 100644 --- a/Documentation/sound/alsa/ALSA-Configuration.txt +++ b/Documentation/sound/alsa/ALSA-Configuration.txt @@ -366,7 +366,9 @@ Prior to version 0.9.0rc4 options had a 'snd_' prefix. This was removed. Module for C-Media CMI8338 and 8738 PCI sound cards. - mpu_port - 0x300,0x310,0x320,0x330, 0 = disable (default) + mpu_port - 0x300,0x310,0x320,0x330 = legacy port, + 1 = integrated PCI port, + 0 = disable (default) fm_port - 0x388 (default), 0 = disable (default) soft_ac3 - Software-conversion of raw SPDIF packets (model 033 only) (default = 1) @@ -468,7 +470,7 @@ Prior to version 0.9.0rc4 options had a 'snd_' prefix. This was removed. Module for multifunction CS5535 companion PCI device - This module supports multiple cards. + The power-management is supported. Module snd-dt019x ----------------- @@ -707,8 +709,10 @@ Prior to version 0.9.0rc4 options had a 'snd_' prefix. This was removed. Module snd-hda-intel -------------------- - Module for Intel HD Audio (ICH6, ICH6M, ICH7), ATI SB450, - VIA VT8251/VT8237A + Module for Intel HD Audio (ICH6, ICH6M, ESB2, ICH7, ICH8), + ATI SB450, SB600, RS600, + VIA VT8251/VT8237A, + SIS966, ULI M5461 model - force the model name position_fix - Fix DMA pointer (0 = auto, 1 = none, 2 = POSBUF, 3 = FIFO size) @@ -778,6 +782,7 @@ Prior to version 0.9.0rc4 options had a 'snd_' prefix. This was removed. AD1981 basic 3-jack (default) hp HP nx6320 + thinkpad Lenovo Thinkpad T60/X60/Z60 AD1986A 6stack 6-jack, separate surrounds (default) @@ -1633,9 +1638,7 @@ Prior to version 0.9.0rc4 options had a 'snd_' prefix. This was removed. About capture IBL, see the description of snd-vx222 module. - Note: the driver is build only when CONFIG_ISA is set. - - Note2: snd-vxp440 driver is merged to snd-vxpocket driver since + Note: snd-vxp440 driver is merged to snd-vxpocket driver since ALSA 1.0.10. The power-management is supported. @@ -1662,8 +1665,6 @@ Prior to version 0.9.0rc4 options had a 'snd_' prefix. This was removed. Module for Sound Core PDAudioCF sound card. - Note: the driver is build only when CONFIG_ISA is set. - The power-management is supported. diff --git a/Documentation/sound/alsa/DocBook/writing-an-alsa-driver.tmpl b/Documentation/sound/alsa/DocBook/writing-an-alsa-driver.tmpl index 1faf76383ba..635cbb94357 100644 --- a/Documentation/sound/alsa/DocBook/writing-an-alsa-driver.tmpl +++ b/Documentation/sound/alsa/DocBook/writing-an-alsa-driver.tmpl @@ -4215,7 +4215,7 @@ struct _snd_pcm_runtime { <programlisting> <![CDATA[ struct snd_rawmidi *rmidi; - snd_mpu401_uart_new(card, 0, MPU401_HW_MPU401, port, integrated, + snd_mpu401_uart_new(card, 0, MPU401_HW_MPU401, port, info_flags, irq, irq_flags, &rmidi); ]]> </programlisting> @@ -4242,15 +4242,36 @@ struct _snd_pcm_runtime { </para> <para> + The 5th argument is bitflags for additional information. When the i/o port address above is a part of the PCI i/o region, the MPU401 i/o port might have been already allocated - (reserved) by the driver itself. In such a case, pass non-zero - to the 5th argument - (<parameter>integrated</parameter>). Otherwise, pass 0 to it, + (reserved) by the driver itself. In such a case, pass a bit flag + <constant>MPU401_INFO_INTEGRATED</constant>, and the mpu401-uart layer will allocate the i/o ports by itself. </para> + <para> + When the controller supports only the input or output MIDI stream, + pass <constant>MPU401_INFO_INPUT</constant> or + <constant>MPU401_INFO_OUTPUT</constant> bitflag, respectively. + Then the rawmidi instance is created as a single stream. + </para> + + <para> + <constant>MPU401_INFO_MMIO</constant> bitflag is used to change + the access method to MMIO (via readb and writeb) instead of + iob and outb. In this case, you have to pass the iomapped address + to <function>snd_mpu401_uart_new()</function>. + </para> + + <para> + When <constant>MPU401_INFO_TX_IRQ</constant> is set, the output + stream isn't checked in the default interrupt handler. The driver + needs to call <function>snd_mpu401_uart_interrupt_tx()</function> + by itself to start processing the output stream in irq handler. + </para> + <para> Usually, the port address corresponds to the command port and port + 1 corresponds to the data port. If not, you may change @@ -5333,7 +5354,7 @@ struct _snd_pcm_runtime { <informalexample> <programlisting> <![CDATA[ - snd_info_set_text_ops(entry, chip, read_size, my_proc_read); + snd_info_set_text_ops(entry, chip, my_proc_read); ]]> </programlisting> </informalexample> @@ -5394,7 +5415,6 @@ struct _snd_pcm_runtime { <informalexample> <programlisting> <![CDATA[ - entry->c.text.write_size = 256; entry->c.text.write = my_proc_write; ]]> </programlisting> @@ -5402,22 +5422,6 @@ struct _snd_pcm_runtime { </para> <para> - The buffer size for read is set to 1024 implicitly by - <function>snd_info_set_text_ops()</function>. It should suffice - in most cases (the size will be aligned to - <constant>PAGE_SIZE</constant> anyway), but if you need to handle - very large text files, you can set it explicitly, too. - - <informalexample> - <programlisting> -<![CDATA[ - entry->c.text.read_size = 65536; -]]> - </programlisting> - </informalexample> - </para> - - <para> For the write callback, you can use <function>snd_info_get_line()</function> to get a text line, and <function>snd_info_get_str()</function> to retrieve a string from @@ -5562,7 +5566,7 @@ struct _snd_pcm_runtime { power status.</para></listitem> <listitem><para>Call <function>snd_pcm_suspend_all()</function> to suspend the running PCM streams.</para></listitem> <listitem><para>If AC97 codecs are used, call - <function>snd_ac97_resume()</function> for each codec.</para></listitem> + <function>snd_ac97_suspend()</function> for each codec.</para></listitem> <listitem><para>Save the register values if necessary.</para></listitem> <listitem><para>Stop the hardware if necessary.</para></listitem> <listitem><para>Disable the PCI device by calling diff --git a/Documentation/usb/usbmon.txt b/Documentation/usb/usbmon.txt index 63cb7edd177..e65ec828d7a 100644 --- a/Documentation/usb/usbmon.txt +++ b/Documentation/usb/usbmon.txt @@ -29,14 +29,13 @@ if usbmon is built into the kernel. # mount -t debugfs none_debugs /sys/kernel/debug # modprobe usbmon +# Verify that bus sockets are present. -[root@lembas zaitcev]# ls /sys/kernel/debug/usbmon +# ls /sys/kernel/debug/usbmon 1s 1t 2s 2t 3s 3t 4s 4t -[root@lembas zaitcev]# - -# ls /sys/kernel +# 2. Find which bus connects to the desired device @@ -76,7 +75,7 @@ that the file size is not excessive for your favourite editor. * Raw text data format -The '0t' type data consists of a stream of events, such as URB submission, +The '1t' type data consists of a stream of events, such as URB submission, URB callback, submission error. Every event is a text line, which consists of whitespace separated words. The number of position of words may depend on the event type, but there is a set of words, common for all types. @@ -97,20 +96,25 @@ Here is the list of words, from left to right: Zi Zo Isochronous input and output Ii Io Interrupt input and output Bi Bo Bulk input and output - Device address and Endpoint number are decimal numbers with leading zeroes - or 3 and 2 positions, correspondingly. -- URB Status. This field makes no sense for submissions, but is present - to help scripts with parsing. In error case, it contains the error code. - In case of a setup packet, it contains a Setup Tag. If scripts read a number - in this field, they proceed to read Data Length. Otherwise, they read - the setup packet before reading the Data Length. + Device address and Endpoint number are 3-digit and 2-digit (respectively) + decimal numbers, with leading zeroes. +- URB Status. In most cases, this field contains a number, sometimes negative, + which represents a "status" field of the URB. This field makes no sense for + submissions, but is present anyway to help scripts with parsing. When an + error occurs, the field contains the error code. In case of a submission of + a Control packet, this field contains a Setup Tag instead of an error code. + It is easy to tell whether the Setup Tag is present because it is never a + number. Thus if scripts find a number in this field, they proceed to read + Data Length. If they find something else, like a letter, they read the setup + packet before reading the Data Length. - Setup packet, if present, consists of 5 words: one of each for bmRequestType, bRequest, wValue, wIndex, wLength, as specified by the USB Specification 2.0. These words are safe to decode if Setup Tag was 's'. Otherwise, the setup packet was present, but not captured, and the fields contain filler. -- Data Length. This is the actual length in the URB. +- Data Length. For submissions, this is the requested length. For callbacks, + this is the actual length. - Data tag. The usbmon may not always capture data, even if length is nonzero. - Only if tag is '=', the data words are present. + The data words are present only if this tag is '='. - Data words follow, in big endian hexadecimal format. Notice that they are not machine words, but really just a byte stream split into words to make it easier to read. Thus, the last word may contain from one to four bytes. diff --git a/Documentation/w1/masters/ds2490 b/Documentation/w1/masters/ds2490 new file mode 100644 index 00000000000..44a4918bd7f --- /dev/null +++ b/Documentation/w1/masters/ds2490 @@ -0,0 +1,18 @@ +Kernel driver ds2490 +==================== + +Supported chips: + * Maxim DS2490 based + +Author: Evgeniy Polyakov <johnpol@2ka.mipt.ru> + + +Description +----------- + +The Maixm/Dallas Semiconductor DS2490 is a chip +which allows to build USB <-> W1 bridges. + +DS9490(R) is a USB <-> W1 bus master device +which has 0x81 family ID integrated chip and DS2490 +low-level operational chip. diff --git a/Documentation/w1/w1.generic b/Documentation/w1/w1.generic index f937fbe1cac..4c6509dd478 100644 --- a/Documentation/w1/w1.generic +++ b/Documentation/w1/w1.generic @@ -27,8 +27,19 @@ When a w1 master driver registers with the w1 subsystem, the following occurs: When a device is found on the bus, w1 core checks if driver for it's family is loaded. If so, the family driver is attached to the slave. -If there is no driver for the family, a simple sysfs entry is created -for the slave device. +If there is no driver for the family, default one is assigned, which allows to perform +almost any kind of operations. Each logical operation is a transaction +in nature, which can contain several (two or one) low-level operations. +Let's see how one can read EEPROM context: +1. one must write control buffer, i.e. buffer containing command byte +and two byte address. At this step bus is reset and appropriate device +is selected using either W1_SKIP_ROM or W1_MATCH_ROM command. +Then provided control buffer is being written to the wire. +2. reading. This will issue reading eeprom response. + +It is possible that between 1. and 2. w1 master thread will reset bus for searching +and slave device will be even removed, but in this case 0xff will +be read, since no device was selected. W1 device families @@ -89,4 +100,5 @@ driver - (standard) symlink to the w1 driver name - the device name, usually the same as the directory name w1_slave - (optional) a binary file whose meaning depends on the family driver - +rw - (optional) created for slave devices which do not have + appropriate family driver. Allows to read/write binary data. diff --git a/Documentation/w1/w1.netlink b/Documentation/w1/w1.netlink new file mode 100644 index 00000000000..3640c7c87d4 --- /dev/null +++ b/Documentation/w1/w1.netlink @@ -0,0 +1,98 @@ +Userspace communication protocol over connector [1]. + + +Message types. +============= + +There are three types of messages between w1 core and userspace: +1. Events. They are generated each time new master or slave device found + either due to automatic or requested search. +2. Userspace commands. Includes read/write and search/alarm search comamnds. +3. Replies to userspace commands. + + +Protocol. +======== + +[struct cn_msg] - connector header. It's length field is equal to size of the attached data. +[struct w1_netlink_msg] - w1 netlink header. + __u8 type - message type. + W1_SLAVE_ADD/W1_SLAVE_REMOVE - slave add/remove events. + W1_MASTER_ADD/W1_MASTER_REMOVE - master add/remove events. + W1_MASTER_CMD - userspace command for bus master device (search/alarm search). + W1_SLAVE_CMD - userspace command for slave device (read/write/ search/alarm search + for bus master device where given slave device found). + __u8 res - reserved + __u16 len - size of attached to this header data. + union { + __u8 id; - slave unique device id + struct w1_mst { + __u32 id; - master's id. + __u32 res; - reserved + } mst; + } id; + +[strucrt w1_netlink_cmd] - command for gived master or slave device. + __u8 cmd - command opcode. + W1_CMD_READ - read command. + W1_CMD_WRITE - write command. + W1_CMD_SEARCH - search command. + W1_CMD_ALARM_SEARCH - alarm search command. + __u8 res - reserved + __u16 len - length of data for this command. + For read command data must be allocated like for write command. + __u8 data[0] - data for this command. + + +Each connector message can include one or more w1_netlink_msg with zero of more attached w1_netlink_cmd messages. + +For event messages there are no w1_netlink_cmd embedded structures, only connector header +and w1_netlink_msg strucutre with "len" field being zero and filled type (one of event types) +and id - either 8 bytes of slave unique id in host order, or master's id, which is assigned +to bus master device when it is added to w1 core. + +Currently replies to userspace commands are only generated for read command request. +One reply is generated exactly for one w1_netlink_cmd read request. +Replies are not combined when sent - i.e. typical reply messages looks like the following: +[cn_msg][w1_netlink_msg][w1_netlink_cmd] +cn_msg.len = sizeof(struct w1_netlink_msg) + sizeof(struct w1_netlink_cmd) + cmd->len; +w1_netlink_msg.len = sizeof(struct w1_netlink_cmd) + cmd->len; +w1_netlink_cmd.len = cmd->len; + + +Operation steps in w1 core when new command is received. +======================================================= + +When new message (w1_netlink_msg) is received w1 core detects if it is master of slave request, +according to w1_netlink_msg.type field. +Then master or slave device is searched for. +When found, master device (requested or those one on where slave device is found) is locked. +If slave command is requested, then reset/select procedure is started to select given device. + +Then all requested in w1_netlink_msg operations are performed one by one. +If command requires reply (like read command) it is sent on command completion. + +When all commands (w1_netlink_cmd) are processed muster device is unlocked +and next w1_netlink_msg header processing started. + + +Connector [1] specific documentation. +==================================== + +Each connector message includes two u32 fields as "address". +w1 uses CN_W1_IDX and CN_W1_VAL defined in include/linux/connector.h header. +Each message also includes sequence and acknowledge numbers. +Sequence number for event messages is appropriate bus master sequence number increased with +each event message sent "through" this master. +Sequence number for userspace requests is set by userspace application. +Sequence number for reply is the same as was in request, and +acknowledge number is set to seq+1. + + +Additional documantion, source code examples. +============================================ + +1. Documentation/connector +2. http://tservice.net.ru/~s0mbre/archive/w1 +This archive includes userspace application w1d.c which +uses read/write/search commands for all master/slave devices found on the bus. |