/** * @file me8200_di.c * * @brief ME-8200 digital input subdevice instance. * @note Copyright (C) 2007 Meilhaus Electronic GmbH (support@meilhaus.de) * @author Guenter Gebhardt * @author Krzysztof Gantzke (k.gantzke@meilhaus.de) */ /* * Copyright (C) 2007 Meilhaus Electronic GmbH (support@meilhaus.de) * * This file is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #ifndef __KERNEL__ # define __KERNEL__ #endif ///Includes #include #include #include #include #include #include #include #include "medefines.h" #include "meerror.h" #include "meids.h" #include "medebug.h" #include "me8200_reg.h" #include "me8200_di_reg.h" #include "me8200_di.h" /// Defines static void me8200_di_destructor(struct me_subdevice *subdevice); static int me8200_di_io_irq_start(me_subdevice_t * subdevice, struct file *filep, int channel, int irq_source, int irq_edge, int irq_arg, int flags); static int me8200_di_io_irq_wait(me_subdevice_t * subdevice, struct file *filep, int channel, int *irq_count, int *value, int time_out, int flags); static int me8200_di_io_irq_stop(me_subdevice_t * subdevice, struct file *filep, int channel, int flags); static int me8200_di_io_single_config(me_subdevice_t * subdevice, struct file *filep, int channel, int single_config, int ref, int trig_chan, int trig_type, int trig_edge, int flags); static int me8200_di_io_single_read(me_subdevice_t * subdevice, struct file *filep, int channel, int *value, int time_out, int flags); static int me8200_di_io_reset_subdevice(struct me_subdevice *subdevice, struct file *filep, int flags); static int me8200_di_query_number_channels(me_subdevice_t * subdevice, int *number); static int me8200_di_query_subdevice_type(me_subdevice_t * subdevice, int *type, int *subtype); static int me8200_di_query_subdevice_caps(me_subdevice_t * subdevice, int *caps); #if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 19) static irqreturn_t me8200_isr(int irq, void *dev_id); #else static irqreturn_t me8200_isr(int irq, void *dev_id, struct pt_regs *regs); #endif #if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 19) static irqreturn_t me8200_isr_EX(int irq, void *dev_id); #else static irqreturn_t me8200_isr_EX(int irq, void *dev_id, struct pt_regs *regs); #endif static void me8200_di_check_version(me8200_di_subdevice_t * instance, unsigned long addr); ///Functions static int me8200_di_io_irq_start(me_subdevice_t * subdevice, struct file *filep, int channel, int irq_source, int irq_edge, int irq_arg, int flags) { me8200_di_subdevice_t *instance; int err = ME_ERRNO_SUCCESS; volatile uint8_t tmp; unsigned long status; PDEBUG("executed.\n"); instance = (me8200_di_subdevice_t *) subdevice; if (irq_source == ME_IRQ_SOURCE_DIO_PATTERN) { if (flags & ~(ME_IO_IRQ_START_PATTERN_FILTERING | ME_IO_IRQ_START_DIO_BYTE)) { PERROR("Invalid flag specified.\n"); return ME_ERRNO_INVALID_FLAGS; } if (irq_edge != ME_IRQ_EDGE_NOT_USED) { PERROR("Invalid irq edge specified.\n"); return ME_ERRNO_INVALID_IRQ_EDGE; } } else if (irq_source == ME_IRQ_SOURCE_DIO_MASK) { if (flags & ~(ME_IO_IRQ_START_EXTENDED_STATUS | ME_IO_IRQ_START_DIO_BYTE)) { PERROR("Invalid flag specified.\n"); return ME_ERRNO_INVALID_FLAGS; } if ((irq_edge != ME_IRQ_EDGE_RISING) && (irq_edge != ME_IRQ_EDGE_FALLING) && (irq_edge != ME_IRQ_EDGE_ANY)) { PERROR("Invalid irq edge specified.\n"); return ME_ERRNO_INVALID_IRQ_EDGE; } if (!(irq_arg & 0xFF)) { PERROR("No mask specified.\n"); return ME_ERRNO_INVALID_IRQ_ARG; } } else { PERROR("Invalid irq source specified.\n"); return ME_ERRNO_INVALID_IRQ_SOURCE; } if (channel) { PERROR("Invalid channel specified.\n"); return ME_ERRNO_INVALID_CHANNEL; } ME_SUBDEVICE_ENTER; spin_lock_irqsave(&instance->subdevice_lock, status); if (irq_source == ME_IRQ_SOURCE_DIO_PATTERN) { outb(irq_arg, instance->compare_reg); PDEBUG_REG("compare_reg outb(0x%lX+0x%lX)=0x%x\n", instance->reg_base, instance->compare_reg - instance->reg_base, irq_arg); outb(0xFF, instance->mask_reg); PDEBUG_REG("mask_reg outb(0x%lX+0x%lX)=0x%x\n", instance->reg_base, instance->mask_reg - instance->reg_base, 0xff); instance->compare_value = irq_arg; instance->filtering_flag = (flags & ME_IO_IRQ_START_PATTERN_FILTERING) ? 1 : 0; } if (irq_source == ME_IRQ_SOURCE_DIO_MASK) { outb(irq_arg, instance->mask_reg); PDEBUG_REG("mask_reg outb(0x%lX+0x%lX)=0x%x\n", instance->reg_base, instance->mask_reg - instance->reg_base, irq_arg); instance->filtering_flag = 0; } spin_lock(instance->irq_mode_lock); tmp = inb(instance->irq_mode_reg); tmp &= ~(ME8200_IRQ_MODE_MASK << (ME8200_IRQ_MODE_DI_SHIFT * instance->di_idx)); if (irq_source == ME_IRQ_SOURCE_DIO_PATTERN) { tmp |= ME8200_IRQ_MODE_MASK_COMPARE << (ME8200_IRQ_MODE_DI_SHIFT * instance->di_idx); } if (irq_source == ME_IRQ_SOURCE_DIO_MASK) { tmp |= ME8200_IRQ_MODE_MASK_MASK << (ME8200_IRQ_MODE_DI_SHIFT * instance->di_idx); } outb(tmp, instance->irq_mode_reg); PDEBUG_REG("irq_mode_reg outb(0x%lX+0x%lX)=0x%x\n", instance->reg_base, instance->irq_mode_reg - instance->reg_base, tmp); spin_unlock(instance->irq_mode_lock); spin_lock(instance->irq_ctrl_lock); tmp = inb(instance->irq_ctrl_reg); tmp |= (ME8200_DI_IRQ_CTRL_BIT_CLEAR << (ME8200_DI_IRQ_CTRL_SHIFT * instance->di_idx)); tmp |= ME8200_DI_IRQ_CTRL_BIT_ENABLE << (ME8200_DI_IRQ_CTRL_SHIFT * instance->di_idx); if (irq_source == ME_IRQ_SOURCE_DIO_MASK) { tmp &= ~(ME8200_DI_IRQ_CTRL_MASK_EDGE << (ME8200_DI_IRQ_CTRL_SHIFT * instance->di_idx)); if (irq_edge == ME_IRQ_EDGE_RISING) { tmp |= ME8200_DI_IRQ_CTRL_MASK_EDGE_RISING << (ME8200_DI_IRQ_CTRL_SHIFT * instance->di_idx); } else if (irq_edge == ME_IRQ_EDGE_FALLING) { tmp |= ME8200_DI_IRQ_CTRL_MASK_EDGE_FALLING << (ME8200_DI_IRQ_CTRL_SHIFT * instance->di_idx); } else if (irq_edge == ME_IRQ_EDGE_ANY) { tmp |= ME8200_DI_IRQ_CTRL_MASK_EDGE_ANY << (ME8200_DI_IRQ_CTRL_SHIFT * instance->di_idx); } } outb(tmp, instance->irq_ctrl_reg); PDEBUG_REG("irq_ctrl_reg outb(0x%lX+0x%lX)=0x%x\n", instance->reg_base, instance->irq_ctrl_reg - instance->reg_base, tmp); tmp &= ~(ME8200_DI_IRQ_CTRL_BIT_CLEAR << (ME8200_DI_IRQ_CTRL_SHIFT * instance->di_idx)); outb(tmp, instance->irq_ctrl_reg); PDEBUG_REG("irq_ctrl_reg outb(0x%lX+0x%lX)=0x%x\n", instance->reg_base, instance->irq_ctrl_reg - instance->reg_base, tmp); instance->line_value = inb(instance->port_reg); spin_unlock(instance->irq_ctrl_lock); instance->rised = 0; instance->status_value = 0; instance->status_value_edges = 0; instance->status_flag = flags & ME_IO_IRQ_START_EXTENDED_STATUS; spin_unlock_irqrestore(&instance->subdevice_lock, status); ME_SUBDEVICE_EXIT; return err; } static int me8200_di_io_irq_wait(me_subdevice_t * subdevice, struct file *filep, int channel, int *irq_count, int *value, int time_out, int flags) { me8200_di_subdevice_t *instance; int err = ME_ERRNO_SUCCESS; long t = 0; unsigned long cpu_flags; int count; PDEBUG("executed.\n"); PDEVELOP("PID: %d.\n", current->pid); instance = (me8200_di_subdevice_t *) subdevice; if (flags & ~(ME_IO_IRQ_WAIT_NORMAL_STATUS | ME_IO_IRQ_WAIT_EXTENDED_STATUS)) { PERROR("Invalid flag specified.\n"); return ME_ERRNO_INVALID_FLAGS; } if (channel) { PERROR("Invalid channel specified.\n"); return ME_ERRNO_INVALID_CHANNEL; } if (time_out < 0) { PERROR("Invalid time_out specified.\n"); return ME_ERRNO_INVALID_TIMEOUT; } if (time_out) { t = (time_out * HZ) / 1000; if (t == 0) t = 1; } ME_SUBDEVICE_ENTER; if (instance->rised <= 0) { instance->rised = 0; count = instance->count; if (time_out) { t = wait_event_interruptible_timeout(instance-> wait_queue, ((count != instance->count) || (instance-> rised < 0)), t); // t = wait_event_interruptible_timeout(instance->wait_queue, (instance->rised != 0), t); if (t == 0) { PERROR("Wait on interrupt timed out.\n"); err = ME_ERRNO_TIMEOUT; } } else { wait_event_interruptible(instance->wait_queue, ((count != instance->count) || (instance->rised < 0))); // wait_event_interruptible(instance->wait_queue, (instance->rised != 0)); } if (instance->rised < 0) { PERROR("Wait on interrupt aborted by user.\n"); err = ME_ERRNO_CANCELLED; } } if (signal_pending(current)) { PERROR("Wait on interrupt aborted by signal.\n"); err = ME_ERRNO_SIGNAL; } spin_lock_irqsave(&instance->subdevice_lock, cpu_flags); *irq_count = instance->count; if (!err) { if (flags & ME_IO_IRQ_WAIT_NORMAL_STATUS) { *value = instance->status_value; } else if (flags & ME_IO_IRQ_WAIT_EXTENDED_STATUS) { *value = instance->status_value_edges; } else { // Use default if (!instance->status_flag) { *value = instance->status_value; } else { *value = instance->status_value_edges; } } instance->rised = 0; /* instance->status_value = 0; instance->status_value_edges = 0; */ } else { *value = 0; } spin_unlock_irqrestore(&instance->subdevice_lock, cpu_flags); ME_SUBDEVICE_EXIT; return err; } static int me8200_di_io_irq_stop(me_subdevice_t * subdevice, struct file *filep, int channel, int flags) { me8200_di_subdevice_t *instance; uint8_t tmp; unsigned long status; PDEBUG("executed.\n"); instance = (me8200_di_subdevice_t *) subdevice; if (flags) { PERROR("Invalid flag specified.\n"); return ME_ERRNO_INVALID_FLAGS; } if (channel) { PERROR("Invalid channel specified.\n"); return ME_ERRNO_INVALID_CHANNEL; } ME_SUBDEVICE_ENTER spin_lock_irqsave(&instance->subdevice_lock, status); spin_lock(instance->irq_ctrl_lock); tmp = inb(instance->irq_ctrl_reg); tmp |= (ME8200_DI_IRQ_CTRL_BIT_ENABLE << (ME8200_DI_IRQ_CTRL_SHIFT * instance->di_idx)); outb(tmp, instance->irq_ctrl_reg); PDEBUG_REG("irq_ctrl_reg outb(0x%lX+0x%lX)=0x%x\n", instance->reg_base, instance->irq_ctrl_reg - instance->reg_base, tmp); tmp &= ~(ME8200_DI_IRQ_CTRL_BIT_ENABLE << (ME8200_DI_IRQ_CTRL_SHIFT * instance->di_idx)); tmp |= (ME8200_DI_IRQ_CTRL_BIT_CLEAR << (ME8200_DI_IRQ_CTRL_SHIFT * instance->di_idx)); // tmp &= ~(ME8200_DI_IRQ_CTRL_BIT_CLEAR << (ME8200_DI_IRQ_CTRL_SHIFT * instance->di_idx)); outb(tmp, instance->irq_ctrl_reg); PDEBUG_REG("irq_ctrl_reg outb(0x%lX+0x%lX)=0x%x\n", instance->reg_base, instance->irq_ctrl_reg - instance->reg_base, tmp); spin_unlock(instance->irq_ctrl_lock); instance->rised = -1; instance->status_value = 0; instance->status_value_edges = 0; instance->filtering_flag = 0; spin_unlock_irqrestore(&instance->subdevice_lock, status); wake_up_interruptible_all(&instance->wait_queue); ME_SUBDEVICE_EXIT; return ME_ERRNO_SUCCESS; } static int me8200_di_io_single_config(me_subdevice_t * subdevice, struct file *filep, int channel, int single_config, int ref, int trig_chan, int trig_type, int trig_edge, int flags) { me8200_di_subdevice_t *instance; int err = ME_ERRNO_SUCCESS; unsigned long status; PDEBUG("executed.\n"); instance = (me8200_di_subdevice_t *) subdevice; ME_SUBDEVICE_ENTER; spin_lock_irqsave(&instance->subdevice_lock, status); switch (flags) { case ME_IO_SINGLE_CONFIG_NO_FLAGS: case ME_IO_SINGLE_CONFIG_DIO_BYTE: if (channel == 0) { if (single_config == ME_SINGLE_CONFIG_DIO_INPUT) { } else { PERROR("Invalid port direction specified.\n"); err = ME_ERRNO_INVALID_SINGLE_CONFIG; } } else { PERROR("Invalid channel number.\n"); err = ME_ERRNO_INVALID_CHANNEL; } break; default: PERROR("Invalid flags specified.\n"); err = ME_ERRNO_INVALID_FLAGS; } spin_unlock_irqrestore(&instance->subdevice_lock, status); ME_SUBDEVICE_EXIT; return err; } static int me8200_di_io_single_read(me_subdevice_t * subdevice, struct file *filep, int channel, int *value, int time_out, int flags) { me8200_di_subdevice_t *instance; int err = ME_ERRNO_SUCCESS; unsigned long status; PDEBUG("executed.\n"); instance = (me8200_di_subdevice_t *) subdevice; ME_SUBDEVICE_ENTER; spin_lock_irqsave(&instance->subdevice_lock, status); switch (flags) { case ME_IO_SINGLE_TYPE_DIO_BIT: if ((channel >= 0) && (channel < 8)) { *value = inb(instance->port_reg) & (0x1 << channel); } else { PERROR("Invalid bit number specified.\n"); err = ME_ERRNO_INVALID_CHANNEL; } break; case ME_IO_SINGLE_NO_FLAGS: case ME_IO_SINGLE_TYPE_DIO_BYTE: if (channel == 0) { *value = inb(instance->port_reg); } else { PERROR("Invalid channel number.\n"); err = ME_ERRNO_INVALID_CHANNEL; } break; default: PERROR("Invalid flags specified.\n"); err = ME_ERRNO_INVALID_FLAGS; } spin_unlock_irqrestore(&instance->subdevice_lock, status); ME_SUBDEVICE_EXIT; return err; } static int me8200_di_io_reset_subdevice(struct me_subdevice *subdevice, struct file *filep, int flags) { me8200_di_subdevice_t *instance = (me8200_di_subdevice_t *) subdevice; PDEBUG("executed.\n"); if (flags) { PERROR("Invalid flag specified.\n"); return ME_ERRNO_INVALID_FLAGS; } instance->count = 0; return me8200_di_io_irq_stop(subdevice, filep, 0, 0); } static int me8200_di_query_number_channels(me_subdevice_t * subdevice, int *number) { PDEBUG("executed.\n"); *number = 8; return ME_ERRNO_SUCCESS; } static int me8200_di_query_subdevice_type(me_subdevice_t * subdevice, int *type, int *subtype) { PDEBUG("executed.\n"); *type = ME_TYPE_DI; *subtype = ME_SUBTYPE_SINGLE; return ME_ERRNO_SUCCESS; } static int me8200_di_query_subdevice_caps(me_subdevice_t * subdevice, int *caps) { PDEBUG("executed.\n"); *caps = ME_CAPS_DIO_BIT_PATTERN_IRQ | ME_CAPS_DIO_BIT_MASK_IRQ_EDGE_RISING | ME_CAPS_DIO_BIT_MASK_IRQ_EDGE_FALLING | ME_CAPS_DIO_BIT_MASK_IRQ_EDGE_ANY; return ME_ERRNO_SUCCESS; } #if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 19) static irqreturn_t me8200_isr(int irq, void *dev_id) #else static irqreturn_t me8200_isr(int irq, void *dev_id, struct pt_regs *regs) #endif { me8200_di_subdevice_t *instance; uint8_t ctrl; uint8_t irq_status; uint8_t line_value = 0; uint8_t line_status = 0; uint32_t status_val = 0; instance = (me8200_di_subdevice_t *) dev_id; if (irq != instance->irq) { PERROR("Incorrect interrupt num: %d.\n", irq); return IRQ_NONE; } irq_status = inb(instance->irq_status_reg); if (!irq_status) { PINFO ("%ld Shared interrupt. %s(): idx=%d irq_status_reg=0x%04X\n", jiffies, __func__, instance->di_idx, irq_status); return IRQ_NONE; } PDEBUG("executed.\n"); spin_lock(&instance->subdevice_lock); spin_lock(instance->irq_ctrl_lock); ctrl = inb(instance->irq_ctrl_reg); ctrl |= ME8200_DI_IRQ_CTRL_BIT_CLEAR << (ME8200_DI_IRQ_CTRL_SHIFT * instance->di_idx); outb(ctrl, instance->irq_ctrl_reg); PDEBUG_REG("irq_ctrl_reg outb(0x%lX+0x%lX)=0x%x\n", instance->reg_base, instance->irq_ctrl_reg - instance->reg_base, ctrl); ctrl &= ~(ME8200_DI_IRQ_CTRL_BIT_CLEAR << (ME8200_DI_IRQ_CTRL_SHIFT * instance->di_idx)); outb(ctrl, instance->irq_ctrl_reg); PDEBUG_REG("irq_ctrl_reg outb(0x%lX+0x%lX)=0x%x\n", instance->reg_base, instance->irq_ctrl_reg - instance->reg_base, ctrl); line_value = inb(instance->port_reg); spin_unlock(instance->irq_ctrl_lock); line_status = ((uint8_t) instance->line_value ^ line_value); // Make extended information. status_val |= (0x00FF & (~(uint8_t) instance->line_value & line_value)) << 16; //Raise status_val |= (0x00FF & ((uint8_t) instance->line_value & ~line_value)); //Fall instance->line_value = (int)line_value; if (instance->rised == 0) { instance->status_value = irq_status | line_status; instance->status_value_edges = status_val; } else { instance->status_value |= irq_status | line_status; instance->status_value_edges |= status_val; } if (instance->filtering_flag) { // For compare mode only. if (instance->compare_value == instance->line_value) { instance->rised = 1; instance->count++; } } else { instance->rised = 1; instance->count++; } spin_unlock(&instance->subdevice_lock); spin_unlock(&instance->subdevice_lock); wake_up_interruptible_all(&instance->wait_queue); return IRQ_HANDLED; } #if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 19) static irqreturn_t me8200_isr_EX(int irq, void *dev_id) #else static irqreturn_t me8200_isr_EX(int irq, void *dev_id, struct pt_regs *regs) #endif { me8200_di_subdevice_t *instance; uint8_t irq_status = 0; uint16_t irq_status_EX = 0; uint32_t status_val = 0; int i, j; instance = (me8200_di_subdevice_t *) dev_id; if (irq != instance->irq) { PERROR("Incorrect interrupt num: %d.\n", irq); return IRQ_NONE; } PDEBUG("executed.\n"); //Reset latches. Copy status to extended registers. irq_status = inb(instance->irq_status_reg); PDEBUG_REG("idx=%d irq_status_reg=0x%02X\n", instance->di_idx, irq_status); if (!irq_status) { PINFO ("%ld Shared interrupt. %s(): idx=%d irq_status_reg=0x%04X\n", jiffies, __func__, instance->di_idx, irq_status); return IRQ_NONE; } irq_status_EX = inb(instance->irq_status_low_reg); irq_status_EX |= (inb(instance->irq_status_high_reg) << 8); PDEVELOP("EXTENDED REG: 0x%04x\n", irq_status_EX); instance->line_value = inb(instance->port_reg); // Format extended information. for (i = 0, j = 0; i < 8; i++, j += 2) { status_val |= ((0x01 << j) & irq_status_EX) >> (j - i); //Fall status_val |= ((0x01 << (j + 1)) & irq_status_EX) << (15 - j + i); //Raise } spin_lock(&instance->subdevice_lock); if (instance->rised == 0) { instance->status_value = irq_status; instance->status_value_edges = status_val; } else { instance->status_value |= irq_status; instance->status_value_edges |= status_val; } if (instance->filtering_flag) { // For compare mode only. if (instance->compare_value == instance->line_value) { instance->rised = 1; instance->count++; } } else { instance->rised = 1; instance->count++; } spin_unlock(&instance->subdevice_lock); wake_up_interruptible_all(&instance->wait_queue); return IRQ_HANDLED; } static void me8200_di_destructor(struct me_subdevice *subdevice) { me8200_di_subdevice_t *instance; PDEBUG("executed.\n"); instance = (me8200_di_subdevice_t *) subdevice; free_irq(instance->irq, (void *)instance); me_subdevice_deinit(&instance->base); kfree(instance); } me8200_di_subdevice_t *me8200_di_constructor(uint32_t me8200_regbase, unsigned int di_idx, int irq, spinlock_t * irq_ctrl_lock, spinlock_t * irq_mode_lock) { me8200_di_subdevice_t *subdevice; int err; PDEBUG("executed.\n"); /* Allocate memory for subdevice instance */ subdevice = kmalloc(sizeof(me8200_di_subdevice_t), GFP_KERNEL); if (!subdevice) { PERROR("Cannot get memory for subdevice instance.\n"); return NULL; } memset(subdevice, 0, sizeof(me8200_di_subdevice_t)); /* Initialize subdevice base class */ err = me_subdevice_init(&subdevice->base); if (err) { PERROR("Cannot initialize subdevice base class instance.\n"); kfree(subdevice); return NULL; } // Check firmware version. me8200_di_check_version(subdevice, me8200_regbase + ME8200_FIRMWARE_VERSION_REG); // Initialize spin locks. spin_lock_init(&subdevice->subdevice_lock); subdevice->irq_ctrl_lock = irq_ctrl_lock; subdevice->irq_mode_lock = irq_mode_lock; /* Save the subdevice index. */ subdevice->di_idx = di_idx; /* Initialize registers */ if (di_idx == 0) { subdevice->port_reg = me8200_regbase + ME8200_DI_PORT_0_REG; subdevice->mask_reg = me8200_regbase + ME8200_DI_MASK_0_REG; subdevice->compare_reg = me8200_regbase + ME8200_DI_COMPARE_0_REG; subdevice->irq_status_reg = me8200_regbase + ME8200_DI_CHANGE_0_REG; subdevice->irq_status_low_reg = me8200_regbase + ME8200_DI_EXTEND_CHANGE_0_LOW_REG; subdevice->irq_status_high_reg = me8200_regbase + ME8200_DI_EXTEND_CHANGE_0_HIGH_REG; } else if (di_idx == 1) { subdevice->port_reg = me8200_regbase + ME8200_DI_PORT_1_REG; subdevice->mask_reg = me8200_regbase + ME8200_DI_MASK_1_REG; subdevice->compare_reg = me8200_regbase + ME8200_DI_COMPARE_1_REG; subdevice->irq_status_reg = me8200_regbase + ME8200_DI_CHANGE_1_REG; subdevice->irq_status_low_reg = me8200_regbase + ME8200_DI_EXTEND_CHANGE_1_LOW_REG; subdevice->irq_status_high_reg = me8200_regbase + ME8200_DI_EXTEND_CHANGE_1_HIGH_REG; } else { PERROR("Wrong subdevice idx=%d.\n", di_idx); kfree(subdevice); return NULL; } subdevice->irq_ctrl_reg = me8200_regbase + ME8200_DI_IRQ_CTRL_REG; subdevice->irq_mode_reg = me8200_regbase + ME8200_IRQ_MODE_REG; #ifdef MEDEBUG_DEBUG_REG subdevice->reg_base = me8200_regbase; #endif /* Initialize wait queue */ init_waitqueue_head(&subdevice->wait_queue); /* Overload base class methods. */ subdevice->base.me_subdevice_io_irq_start = me8200_di_io_irq_start; subdevice->base.me_subdevice_io_irq_wait = me8200_di_io_irq_wait; subdevice->base.me_subdevice_io_irq_stop = me8200_di_io_irq_stop; subdevice->base.me_subdevice_io_reset_subdevice = me8200_di_io_reset_subdevice; subdevice->base.me_subdevice_io_single_config = me8200_di_io_single_config; subdevice->base.me_subdevice_io_single_read = me8200_di_io_single_read; subdevice->base.me_subdevice_query_number_channels = me8200_di_query_number_channels; subdevice->base.me_subdevice_query_subdevice_type = me8200_di_query_subdevice_type; subdevice->base.me_subdevice_query_subdevice_caps = me8200_di_query_subdevice_caps; subdevice->base.me_subdevice_destructor = me8200_di_destructor; subdevice->rised = 0; subdevice->count = 0; /* Register interrupt service routine. */ subdevice->irq = irq; if (subdevice->version > 0) { // NEW err = request_irq(subdevice->irq, me8200_isr_EX, #ifdef IRQF_DISABLED IRQF_DISABLED | IRQF_SHARED, #else SA_INTERRUPT | SA_SHIRQ, #endif ME8200_NAME, (void *)subdevice); } else { //OLD err = request_irq(subdevice->irq, me8200_isr, #ifdef IRQF_DISABLED IRQF_DISABLED | IRQF_SHARED, #else SA_INTERRUPT | SA_SHIRQ, #endif ME8200_NAME, (void *)subdevice); } if (err) { PERROR("Cannot initialize subdevice base class instance.\n"); kfree(subdevice); return NULL; } PDEBUG("Registred irq=%d.\n", subdevice->irq); return subdevice; } static void me8200_di_check_version(me8200_di_subdevice_t * instance, unsigned long addr) { PDEBUG("executed.\n"); instance->version = 0x000000FF & inb(addr); PDEVELOP("me8200 firmware version: %d\n", instance->version); /// @note Fix for wrong values in this registry. if ((instance->version < 0x7) || (instance->version > 0x1F)) instance->version = 0x0; }