Merge branch 'for-2.6.29' of git://linux-nfs.org/~bfields/linux

[linux-2.6] / drivers / staging / meilhaus / me8100_di.c

/**
 * @file me8100_di.c
 *
 * @brief ME-8100 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 <linux/module.h>

#include <linux/slab.h>
#include <linux/spinlock.h>
#include <asm/io.h>
#include <linux/types.h>
#include <linux/interrupt.h>
#include <linux/version.h>

#include "medefines.h"
#include "meerror.h"

#include "meids.h"
#include "medebug.h"
#include "meplx_reg.h"
#include "me8100_reg.h"
#include "me8100_di_reg.h"
#include "me8100_di.h"

/*
 * Defines
 */

/*
 * Functions
 */

static int me8100_di_io_reset_subdevice(struct me_subdevice *subdevice,
                                        struct file *filep, int flags)
{
        me8100_di_subdevice_t *instance;
        unsigned short ctrl;
        unsigned long cpu_flags;

        PDEBUG("executed.\n");

        instance = (me8100_di_subdevice_t *) subdevice;

        if (flags) {
                PERROR("Invalid flag specified.\n");
                return ME_ERRNO_INVALID_FLAGS;
        }

        ME_SUBDEVICE_ENTER;

        spin_lock_irqsave(&instance->subdevice_lock, cpu_flags);
        spin_lock(instance->ctrl_reg_lock);
        ctrl = inw(instance->ctrl_reg);
        ctrl &= ~(ME8100_DIO_CTRL_BIT_INTB_1 | ME8100_DIO_CTRL_BIT_INTB_0);
        outw(ctrl, instance->ctrl_reg);
        PDEBUG_REG("ctrl_reg outl(0x%lX+0x%lX)=0x%x\n", instance->reg_base,
                   instance->ctrl_reg - instance->reg_base, ctrl);
        spin_unlock(instance->ctrl_reg_lock);

        outw(0, instance->mask_reg);
        PDEBUG_REG("mask_reg outw(0x%lX+0x%lX)=0x%x\n", instance->reg_base,
                   instance->mask_reg - instance->reg_base, 0);
        outw(0, instance->pattern_reg);
        PDEBUG_REG("pattern_reg outw(0x%lX+0x%lX)=0x%x\n", instance->reg_base,
                   instance->pattern_reg - instance->reg_base, 0);
        instance->rised = -1;
        instance->irq_count = 0;
        instance->filtering_flag = 0;
        spin_unlock_irqrestore(&instance->subdevice_lock, cpu_flags);

        outl(PLX_INTCSR_LOCAL_INT1_EN |
             PLX_INTCSR_LOCAL_INT1_POL |
             PLX_INTCSR_LOCAL_INT2_EN |
             PLX_INTCSR_LOCAL_INT2_POL |
             PLX_INTCSR_PCI_INT_EN, instance->irq_status_reg);
        PDEBUG_REG("plx:irq_status_reg outl(0x%lX)=0x%x\n",
                   instance->irq_status_reg,
                   PLX_INTCSR_LOCAL_INT1_EN | PLX_INTCSR_LOCAL_INT1_POL |
                   PLX_INTCSR_LOCAL_INT2_EN | PLX_INTCSR_LOCAL_INT2_POL |
                   PLX_INTCSR_PCI_INT_EN);

        wake_up_interruptible_all(&instance->wait_queue);
        ME_SUBDEVICE_EXIT;

        return ME_ERRNO_SUCCESS;
}

static int me8100_di_io_irq_start(me_subdevice_t * subdevice,
                                  struct file *filep,
                                  int channel,
                                  int irq_source,
                                  int irq_edge, int irq_arg, int flags)
{
        me8100_di_subdevice_t *instance;
        int err = ME_ERRNO_SUCCESS;
        uint16_t ctrl;
        unsigned long cpu_flags;

        PDEBUG("executed.\n");

        instance = (me8100_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_WORD)) {
                        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_WORD)) {
                        PERROR("Invalid flag specified.\n");
                        return ME_ERRNO_INVALID_FLAGS;
                }

                if (irq_edge != ME_IRQ_EDGE_ANY) {
                        PERROR("Invalid irq edge specified.\n");
                        return ME_ERRNO_INVALID_IRQ_EDGE;
                }

                if (!(irq_arg & 0xFFFF)) {
                        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, cpu_flags);
        if (irq_source == ME_IRQ_SOURCE_DIO_PATTERN) {
                outw(irq_arg, instance->pattern_reg);
                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) {
                outw(irq_arg, instance->mask_reg);
        }

        spin_lock(instance->ctrl_reg_lock);
        ctrl = inw(instance->ctrl_reg);
        ctrl |= ME8100_DIO_CTRL_BIT_INTB_0;
        if (irq_source == ME_IRQ_SOURCE_DIO_PATTERN) {
                ctrl &= ~ME8100_DIO_CTRL_BIT_INTB_1;
        }

        if (irq_source == ME_IRQ_SOURCE_DIO_MASK) {
                ctrl |= ME8100_DIO_CTRL_BIT_INTB_1;
        }
        outw(ctrl, instance->ctrl_reg);
        PDEBUG_REG("ctrl_reg outw(0x%lX+0x%lX)=0x%x\n", instance->reg_base,
                   instance->ctrl_reg - instance->reg_base, ctrl);
        spin_unlock(instance->ctrl_reg_lock);

        instance->rised = 0;
        instance->status_value = 0;
        instance->status_value_edges = 0;
        instance->line_value = inw(instance->port_reg);
        instance->status_flag = flags & ME_IO_IRQ_START_EXTENDED_STATUS;
        spin_unlock_irqrestore(&instance->subdevice_lock, cpu_flags);

        ME_SUBDEVICE_EXIT;

        return err;
}

static int me8100_di_io_irq_wait(me_subdevice_t * subdevice,
                                 struct file *filep,
                                 int channel,
                                 int *irq_count,
                                 int *value, int time_out, int flags)
{
        me8100_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 = (me8100_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->irq_count;

                if (time_out) {
                        t = wait_event_interruptible_timeout(instance->
                                                             wait_queue,
                                                             ((count !=
                                                               instance->
                                                               irq_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->irq_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->irq_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 me8100_di_io_irq_stop(me_subdevice_t * subdevice,
                                 struct file *filep, int channel, int flags)
{
        me8100_di_subdevice_t *instance;
        uint16_t ctrl;
        unsigned long cpu_flags;

        PDEBUG("executed.\n");

        instance = (me8100_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, cpu_flags);
        spin_lock(instance->ctrl_reg_lock);
        ctrl = inw(instance->ctrl_reg);
        ctrl &= ~(ME8100_DIO_CTRL_BIT_INTB_1 | ME8100_DIO_CTRL_BIT_INTB_0);
        outw(ctrl, instance->ctrl_reg);
        PDEBUG_REG("ctrl_reg outw(0x%lX+0x%lX)=0x%x\n", instance->reg_base,
                   instance->ctrl_reg - instance->reg_base, ctrl);
        spin_unlock(instance->ctrl_reg_lock);
        instance->rised = -1;
        instance->status_value = 0;
        instance->status_value_edges = 0;
        instance->filtering_flag = 0;
        spin_unlock_irqrestore(&instance->subdevice_lock, cpu_flags);
        wake_up_interruptible_all(&instance->wait_queue);

        ME_SUBDEVICE_EXIT;

        return ME_ERRNO_SUCCESS;
}

static int me8100_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)
{
        me8100_di_subdevice_t *instance;
        int err = ME_ERRNO_SUCCESS;

        PDEBUG("executed.\n");

        instance = (me8100_di_subdevice_t *) subdevice;

        ME_SUBDEVICE_ENTER;

        spin_lock(&instance->subdevice_lock);

        switch (flags) {
        case ME_IO_SINGLE_CONFIG_NO_FLAGS:
        case ME_IO_SINGLE_CONFIG_DIO_WORD:
                if (channel == 0) {
                        if (single_config == ME_SINGLE_CONFIG_DIO_INPUT) {
                        } else {
                                PERROR
                                    ("Invalid port configuration 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(&instance->subdevice_lock);

        ME_SUBDEVICE_EXIT;

        return err;
}

static int me8100_di_io_single_read(me_subdevice_t * subdevice,
                                    struct file *filep,
                                    int channel,
                                    int *value, int time_out, int flags)
{
        me8100_di_subdevice_t *instance;
        int err = ME_ERRNO_SUCCESS;

        PDEBUG("executed.\n");

        instance = (me8100_di_subdevice_t *) subdevice;

        ME_SUBDEVICE_ENTER;

        spin_lock(&instance->subdevice_lock);

        switch (flags) {

        case ME_IO_SINGLE_TYPE_DIO_BIT:
                if ((channel >= 0) && (channel < 16)) {
                        *value = inw(instance->port_reg) & (0x1 << channel);
                } else {
                        PERROR("Invalid bit number specified.\n");
                        err = ME_ERRNO_INVALID_CHANNEL;
                }
                break;

        case ME_IO_SINGLE_TYPE_DIO_BYTE:
                if (channel == 0) {
                        *value = inw(instance->port_reg) & 0xFF;
                } else if (channel == 1) {
                        *value = (inw(instance->port_reg) >> 8) & 0xFF;
                } else {
                        PERROR("Invalid byte number specified.\n");
                        err = ME_ERRNO_INVALID_CHANNEL;
                }
                break;

        case ME_IO_SINGLE_NO_FLAGS:
        case ME_IO_SINGLE_TYPE_DIO_WORD:
                if (channel == 0) {
                        *value = inw(instance->port_reg);
                } else {
                        PERROR("Invalid word number specified.\n");
                        err = ME_ERRNO_INVALID_CHANNEL;
                }

                break;

        default:
                PERROR("Invalid flags specified.\n");
                err = ME_ERRNO_INVALID_FLAGS;
        }

        spin_unlock(&instance->subdevice_lock);

        ME_SUBDEVICE_EXIT;

        return err;
}

static int me8100_di_query_number_channels(me_subdevice_t * subdevice,
                                           int *number)
{
        PDEBUG("executed.\n");
        *number = 16;
        return ME_ERRNO_SUCCESS;
}

static int me8100_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 me8100_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_ANY;
        return ME_ERRNO_SUCCESS;
}

static void me8100_di_destructor(struct me_subdevice *subdevice)
{
        me8100_di_subdevice_t *instance;

        PDEBUG("executed.\n");

        instance = (me8100_di_subdevice_t *) subdevice;

        free_irq(instance->irq, (void *)instance);
        me_subdevice_deinit(&instance->base);
        kfree(instance);
}

#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 19)
static irqreturn_t me8100_isr(int irq, void *dev_id)
#else
static irqreturn_t me8100_isr(int irq, void *dev_id, struct pt_regs *regs)
#endif
{
        me8100_di_subdevice_t *instance;
        uint32_t icsr;

        uint16_t irq_status;
        uint16_t line_value = 0;

        uint32_t status_val = 0;

        PDEBUG("executed.\n");

        instance = (me8100_di_subdevice_t *) dev_id;

        if (irq != instance->irq) {
                PERROR("Incorrect interrupt num: %d.\n", irq);
                return IRQ_NONE;
        }

        icsr = inl(instance->irq_status_reg);
        if (instance->di_idx == 0) {

                if ((icsr &
                     (PLX_INTCSR_LOCAL_INT1_STATE | PLX_INTCSR_PCI_INT_EN |
                      PLX_INTCSR_LOCAL_INT1_EN)) !=
                    (PLX_INTCSR_LOCAL_INT1_STATE | PLX_INTCSR_PCI_INT_EN |
                     PLX_INTCSR_LOCAL_INT1_EN)) {
                        PINFO
                            ("%ld Shared interrupt. %s(): idx=0 plx:irq_status_reg=0x%04X\n",
                             jiffies, __func__, icsr);
                        return IRQ_NONE;
                }
        } else if (instance->di_idx == 1) {
                if ((icsr &
                     (PLX_INTCSR_LOCAL_INT2_STATE | PLX_INTCSR_PCI_INT_EN |
                      PLX_INTCSR_LOCAL_INT2_EN)) !=
                    (PLX_INTCSR_LOCAL_INT2_STATE | PLX_INTCSR_PCI_INT_EN |
                     PLX_INTCSR_LOCAL_INT2_EN)) {
                        PINFO
                            ("%ld Shared interrupt. %s(): idx=1 plx:irq_status_reg=0x%04X\n",
                             jiffies, __func__, icsr);
                        return IRQ_NONE;
                }
        } else {
                PERROR("%s():Wrong interrupt idx=%d csr=0x%X.\n", __func__,
                       instance->di_idx, icsr);
                return IRQ_NONE;
        }

        PDEBUG("me8100_isr():Interrupt from idx=%d occured.\n",
               instance->di_idx);
        spin_lock(&instance->subdevice_lock);
        inw(instance->irq_reset_reg);
        line_value = inw(instance->port_reg);

        irq_status = instance->line_value ^ line_value;

        // Make extended information.
        status_val |= (0x00FF & (~(uint16_t) instance->line_value & line_value)) << 16; //Raise
        status_val |= (0x00FF & ((uint16_t) instance->line_value & ~line_value));       //Fall

        instance->line_value = line_value;

        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->irq_count++;
                }
        } else {
                instance->rised = 1;
                instance->irq_count++;
        }

        spin_unlock(&instance->subdevice_lock);
        wake_up_interruptible_all(&instance->wait_queue);

        return IRQ_HANDLED;
}

me8100_di_subdevice_t *me8100_di_constructor(uint32_t me8100_reg_base,
                                             uint32_t plx_reg_base,
                                             unsigned int di_idx,
                                             int irq,
                                             spinlock_t * ctrl_reg_lock)
{
        me8100_di_subdevice_t *subdevice;
        int err;

        PDEBUG("executed.\n");

        /* Allocate memory for subdevice instance */
        subdevice = kmalloc(sizeof(me8100_di_subdevice_t), GFP_KERNEL);

        if (!subdevice) {
                PERROR("Cannot get memory for subdevice instance.\n");
                return NULL;
        }

        memset(subdevice, 0, sizeof(me8100_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;
        }
        // Initialize spin locks.
        spin_lock_init(&subdevice->subdevice_lock);

        subdevice->ctrl_reg_lock = ctrl_reg_lock;

        /* Save the subdevice index. */
        subdevice->di_idx = di_idx;

        /* Initialize wait queue */
        init_waitqueue_head(&subdevice->wait_queue);

        /* Register interrupt service routine. */
        subdevice->irq = irq;
        err = request_irq(subdevice->irq, me8100_isr,
#ifdef IRQF_DISABLED
                          IRQF_DISABLED | IRQF_SHARED,
#else
                          SA_INTERRUPT | SA_SHIRQ,
#endif
                          ME8100_NAME, (void *)subdevice);

        if (err) {
                PERROR("Cannot initialize subdevice base class instance.\n");
                kfree(subdevice);
                return NULL;
        }
        PINFO("Registered irq=%d.\n", subdevice->irq);

        /* Initialize the registers */
        subdevice->ctrl_reg =
            me8100_reg_base + ME8100_CTRL_REG_A + di_idx * ME8100_REG_OFFSET;
        subdevice->port_reg =
            me8100_reg_base + ME8100_DI_REG_A + di_idx * ME8100_REG_OFFSET;
        subdevice->mask_reg =
            me8100_reg_base + ME8100_MASK_REG_A + di_idx * ME8100_REG_OFFSET;
        subdevice->pattern_reg =
            me8100_reg_base + ME8100_PATTERN_REG_A + di_idx * ME8100_REG_OFFSET;
        subdevice->din_int_reg =
            me8100_reg_base + ME8100_INT_DI_REG_A + di_idx * ME8100_REG_OFFSET;
        subdevice->irq_reset_reg =
            me8100_reg_base + ME8100_RES_INT_REG_A + di_idx * ME8100_REG_OFFSET;
        subdevice->irq_status_reg = plx_reg_base + PLX_INTCSR;
#ifdef MEDEBUG_DEBUG_REG
        subdevice->reg_base = me8100_reg_base;
#endif

        /* Overload base class methods. */
        subdevice->base.me_subdevice_io_irq_start = me8100_di_io_irq_start;
        subdevice->base.me_subdevice_io_irq_wait = me8100_di_io_irq_wait;
        subdevice->base.me_subdevice_io_irq_stop = me8100_di_io_irq_stop;
        subdevice->base.me_subdevice_io_reset_subdevice =
            me8100_di_io_reset_subdevice;
        subdevice->base.me_subdevice_io_single_config =
            me8100_di_io_single_config;
        subdevice->base.me_subdevice_io_single_read = me8100_di_io_single_read;
        subdevice->base.me_subdevice_query_number_channels =
            me8100_di_query_number_channels;
        subdevice->base.me_subdevice_query_subdevice_type =
            me8100_di_query_subdevice_type;
        subdevice->base.me_subdevice_query_subdevice_caps =
            me8100_di_query_subdevice_caps;
        subdevice->base.me_subdevice_destructor = me8100_di_destructor;

        subdevice->rised = 0;
        subdevice->irq_count = 0;

        return subdevice;
}