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/*

 * Copyright (c) 2009 Jiri Svoboda

 * All rights reserved.

 *

 * Redistribution and use in source and binary forms, with or without

 * modification, are permitted provided that the following conditions

 * are met:

 *

 * - Redistributions of source code must retain the above copyright

 *   notice, this list of conditions and the following disclaimer.

 * - Redistributions in binary form must reproduce the above copyright

 *   notice, this list of conditions and the following disclaimer in the

 *   documentation and/or other materials provided with the distribution.

 * - The name of the author may not be used to endorse or promote products

 *   derived from this software without specific prior written permission.

 *

 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR

 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES

 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.

 * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,

 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT

 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,

 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY

 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT

 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF

 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 */

/** @addtogroup bd

 * @{

 */

/**

 * @file

 * @brief ATA disk driver

 *

 * This driver currently works only with CHS addressing and uses PIO.

 * Currently based on the (now obsolete) ANSI X3.221-1994 (ATA-1) standard.

 * At this point only reading is possible, not writing.

 *

 * The driver services a single controller which can have up to two disks

 * attached.

 */

#include <stdio.h>

#include <libarch/ddi.h>

#include <ddi.h>

#include <ipc/ipc.h>

#include <ipc/bd.h>

#include <async.h>

#include <as.h>

#include <fibril_sync.h>

#include <devmap.h>

#include <sys/types.h>

#include <errno.h>

#include <bool.h>

#include "ata_bd.h"

#define NAME "ata_bd"

static const size_t block_size = 512;

static size_t comm_size;

static uintptr_t cmd_physical = 0x1f0;

static uintptr_t ctl_physical = 0x170;

static ata_cmd_t *cmd;

static ata_ctl_t *ctl;

/** Per-disk state. */

static disk_t disk[MAX_DISKS];

static int ata_bd_init(void);

static void ata_bd_connection(ipc_callid_t iid, ipc_call_t *icall);

static int ata_bd_rdwr(int disk_id, ipcarg_t method, off_t offset, size_t size,

    void *buf);

static int ata_bd_read_block(int disk_id, uint64_t blk_idx, size_t blk_cnt,

    void *buf);

static int ata_bd_write_block(int disk_id, uint64_t blk_idx, size_t blk_cnt,

    const void *buf);

static int drive_identify(int drive_id, disk_t *d);

int main(int argc, char **argv)

{

    uint8_t status;

    char name[16];

    int i, rc;

    int n_disks;

    printf(NAME ": ATA disk driver\n");

    printf("I/O address 0x%x\n", cmd_physical);

    if (ata_bd_init() != EOK)

        return -1;

    /* Put drives to reset, disable interrupts. */

    printf("Reset drives...\n");

    pio_write_8(&ctl->device_control, DCR_SRST);

    /* FIXME: Find out how to do this properly. */

    async_usleep(100);

    pio_write_8(&ctl->device_control, 0);

    do {

        status = pio_read_8(&cmd->status);

    } while ((status & SR_BSY) != 0);

    printf("Done\n");

    printf("Status = 0x%x\n", pio_read_8(&cmd->status));

    (void) drive_identify(0, &disk[0]);

    (void) drive_identify(1, &disk[1]);

    n_disks = 0;

    for (i = 0; i < MAX_DISKS; i++) {

        /* Skip unattached drives. */

        if (disk[i].present == false)

            continue;

        snprintf(name, 16, "disk%d", i);

        rc = devmap_device_register(name, &disk[i].dev_handle);

        if (rc != EOK) {

            devmap_hangup_phone(DEVMAP_DRIVER);

            printf(NAME ": Unable to register device %s.\n",

                name);

            return rc;

        }

        ++n_disks;

    }

    if (n_disks == 0) {

        printf("No disks detected.\n");

        return -1;

    }

    printf(NAME ": Accepting connections\n");

    async_manager();

    /* Not reached */

    return 0;

}

static int drive_identify(int disk_id, disk_t *d)

{

    uint16_t data;

    uint8_t status;

    size_t i;

    printf("Identify drive %d\n", disk_id);

    pio_write_8(&cmd->drive_head, ((disk_id != 0) ? DHR_DRV : 0));

    async_usleep(100);

    pio_write_8(&cmd->command, CMD_IDENTIFY_DRIVE);

    status = pio_read_8(&cmd->status);

    printf("Status = 0x%x\n", status);

    d->present = false;

    /*

     * Detect if drive is present. This is Qemu only! Need to

     * do the right thing to work with real drives.

     */

    if ((status & SR_DRDY) == 0) {

        printf("None attached.\n");

        return ENOENT;

    }

    for (i = 0; i < block_size / 2; i++) {

        do {

            status = pio_read_8(&cmd->status);

        } while ((status & SR_DRDY) == 0);

        data = pio_read_16(&cmd->data_port);

        switch (i) {

        case 1: d->cylinders = data; break;

        case 3: d->heads = data; break;

        case 6: d->sectors = data; break;

        }

    }

    d->blocks = d->cylinders * d->heads * d->sectors;

    printf("Geometry: %u cylinders, %u heads, %u sectors\n",

        d->cylinders, d->heads, d->sectors);

    d->present = true;

    fibril_mutex_initialize(&d->lock);

    return EOK;

}

static int ata_bd_init(void)

{

    void *vaddr;

    int rc;

    rc = devmap_driver_register(NAME, ata_bd_connection);

    if (rc < 0) {

        printf(NAME ": Unable to register driver.\n");

        return rc;

    }

    rc = pio_enable((void *) cmd_physical, sizeof(ata_cmd_t), &vaddr);

    if (rc != EOK) {

        printf(NAME ": Could not initialize device I/O space.\n");

        return rc;

    }

    cmd = vaddr;

    rc = pio_enable((void *) ctl_physical, sizeof(ata_ctl_t), &vaddr);

    if (rc != EOK) {

        printf(NAME ": Could not initialize device I/O space.\n");

        return rc;

    }

    ctl = vaddr;

    return EOK;

}

static void ata_bd_connection(ipc_callid_t iid, ipc_call_t *icall)

{

    void *fs_va = NULL;

    ipc_callid_t callid;

    ipc_call_t call;

    ipcarg_t method;

    dev_handle_t dh;

    int flags;

    int retval;

    off_t idx;

    size_t size;

    int disk_id, i;

    /* Get the device handle. */

    dh = IPC_GET_ARG1(*icall);

    /* Determine which disk device is the client connecting to. */

    disk_id = -1;

    for (i = 0; i < MAX_DISKS; i++)

        if (disk[i].dev_handle == dh)

            disk_id = i;

    if (disk_id < 0 || disk[disk_id].present == false) {

        ipc_answer_0(iid, EINVAL);

        return;

    }

    /* Answer the IPC_M_CONNECT_ME_TO call. */

    ipc_answer_0(iid, EOK);

    if (!ipc_share_out_receive(&callid, &comm_size, &flags)) {

        ipc_answer_0(callid, EHANGUP);

        return;

    }

    fs_va = as_get_mappable_page(comm_size);

    if (fs_va == NULL) {

        ipc_answer_0(callid, EHANGUP);

        return;

    }

    (void) ipc_share_out_finalize(callid, fs_va);

    while (1) {

        callid = async_get_call(&call);

        method = IPC_GET_METHOD(call);

        switch (method) {

        case IPC_M_PHONE_HUNGUP:

            /* The other side has hung up. */

            ipc_answer_0(callid, EOK);

            return;

        case BD_READ_BLOCK:

        case BD_WRITE_BLOCK:

            idx = IPC_GET_ARG1(call);

            size = IPC_GET_ARG2(call);

            if (size > comm_size) {

                retval = EINVAL;

                break;

            }

            retval = ata_bd_rdwr(disk_id, method, idx,

                size, fs_va);

            break;

        default:

            retval = EINVAL;

            break;

        }

        ipc_answer_0(callid, retval);

    }

}

static int ata_bd_rdwr(int disk_id, ipcarg_t method, off_t blk_idx, size_t size,

    void *buf)

{

    int rc;

    size_t now;

    while (size > 0) {

        now = size < block_size ? size : block_size;

        if (now != block_size)

            return EINVAL;

        if (method == BD_READ_BLOCK)

            rc = ata_bd_read_block(disk_id, blk_idx, 1, buf);

        else

            rc = ata_bd_write_block(disk_id, blk_idx, 1, buf);

        if (rc != EOK)

            return rc;

        buf += block_size;

        blk_idx++;

        if (size > block_size)

            size -= block_size;

        else

            size = 0;

    }

    return EOK;

}

static int ata_bd_read_block(int disk_id, uint64_t blk_idx, size_t blk_cnt,

    void *buf)

{

    size_t i;

    uint16_t data;

    uint8_t status;

    uint64_t c, h, s;

    uint64_t idx;

    uint8_t drv_head;

    disk_t *d;

    d = &disk[disk_id];

    /* Check device bounds. */

    if (blk_idx >= d->blocks)

        return EINVAL;

    /* Compute CHS. */

    c = blk_idx / (d->heads * d->sectors);

    idx = blk_idx % (d->heads * d->sectors);

    h = idx / d->sectors;

    s = 1 + (idx % d->sectors);

    /* New value for Drive/Head register */

    drv_head =

        ((disk_id != 0) ? DHR_DRV : 0) |

        (h & 0x0f);

    fibril_mutex_lock(&d->lock);

    /* Program a Read Sectors operation. */

    pio_write_8(&cmd->drive_head, drv_head);

    pio_write_8(&cmd->sector_count, 1);

    pio_write_8(&cmd->sector_number, s);

    pio_write_8(&cmd->cylinder_low, c & 0xff);

    pio_write_8(&cmd->cylinder_high, c >> 16);

    pio_write_8(&cmd->command, CMD_READ_SECTORS);

    /* Read data from the disk buffer. */

    for (i = 0; i < block_size / 2; i++) {

        do {

            status = pio_read_8(&cmd->status);

        } while ((status & SR_DRDY) == 0);

        data = pio_read_16(&cmd->data_port);

        ((uint16_t *) buf)[i] = data;

    }

    fibril_mutex_unlock(&d->lock);

    return EOK;

}

static int ata_bd_write_block(int disk_id, uint64_t blk_idx, size_t blk_cnt,

    const void *buf)

{

    size_t i;

    uint8_t status;

    uint64_t c, h, s;

    uint64_t idx;

    uint8_t drv_head;

    disk_t *d;

    d = &disk[disk_id];

    /* Check device bounds. */

    if (blk_idx >= d->blocks)

        return EINVAL;

    /* Compute CHS. */

    c = blk_idx / (d->heads * d->sectors);

    idx = blk_idx % (d->heads * d->sectors);

    h = idx / d->sectors;

    s = 1 + (idx % d->sectors);

    /* New value for Drive/Head register */

    drv_head =

        ((disk_id != 0) ? DHR_DRV : 0) |

        (h & 0x0f);

    fibril_mutex_lock(&d->lock);

    /* Program a Read Sectors operation. */

    pio_write_8(&cmd->drive_head, drv_head);

    pio_write_8(&cmd->sector_count, 1);

    pio_write_8(&cmd->sector_number, s);

    pio_write_8(&cmd->cylinder_low, c & 0xff);

    pio_write_8(&cmd->cylinder_high, c >> 16);

    pio_write_8(&cmd->command, CMD_WRITE_SECTORS);

    /* Write data to the disk buffer. */

    for (i = 0; i < block_size / 2; i++) {

        do {

            status = pio_read_8(&cmd->status);

        } while ((status & SR_DRDY) == 0);

        pio_write_16(&cmd->data_port, ((uint16_t *) buf)[i]);

    }

    fibril_mutex_unlock(&d->lock);

    return EOK;

}

/**

 * @}

 */