linux/drivers/firmware/dcdbas.c
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   1/*
   2 *  dcdbas.c: Dell Systems Management Base Driver
   3 *
   4 *  The Dell Systems Management Base Driver provides a sysfs interface for
   5 *  systems management software to perform System Management Interrupts (SMIs)
   6 *  and Host Control Actions (power cycle or power off after OS shutdown) on
   7 *  Dell systems.
   8 *
   9 *  See Documentation/dcdbas.txt for more information.
  10 *
  11 *  Copyright (C) 1995-2006 Dell Inc.
  12 *
  13 *  This program is free software; you can redistribute it and/or modify
  14 *  it under the terms of the GNU General Public License v2.0 as published by
  15 *  the Free Software Foundation.
  16 *
  17 *  This program is distributed in the hope that it will be useful,
  18 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
  19 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  20 *  GNU General Public License for more details.
  21 */
  22
  23#include <linux/platform_device.h>
  24#include <linux/dma-mapping.h>
  25#include <linux/errno.h>
  26#include <linux/cpu.h>
  27#include <linux/gfp.h>
  28#include <linux/init.h>
  29#include <linux/kernel.h>
  30#include <linux/mc146818rtc.h>
  31#include <linux/module.h>
  32#include <linux/reboot.h>
  33#include <linux/sched.h>
  34#include <linux/smp.h>
  35#include <linux/spinlock.h>
  36#include <linux/string.h>
  37#include <linux/types.h>
  38#include <linux/mutex.h>
  39#include <asm/io.h>
  40
  41#include "dcdbas.h"
  42
  43#define DRIVER_NAME             "dcdbas"
  44#define DRIVER_VERSION          "5.6.0-3.2"
  45#define DRIVER_DESCRIPTION      "Dell Systems Management Base Driver"
  46
  47static struct platform_device *dcdbas_pdev;
  48
  49static u8 *smi_data_buf;
  50static dma_addr_t smi_data_buf_handle;
  51static unsigned long smi_data_buf_size;
  52static u32 smi_data_buf_phys_addr;
  53static DEFINE_MUTEX(smi_data_lock);
  54
  55static unsigned int host_control_action;
  56static unsigned int host_control_smi_type;
  57static unsigned int host_control_on_shutdown;
  58
  59/**
  60 * smi_data_buf_free: free SMI data buffer
  61 */
  62static void smi_data_buf_free(void)
  63{
  64        if (!smi_data_buf)
  65                return;
  66
  67        dev_dbg(&dcdbas_pdev->dev, "%s: phys: %x size: %lu\n",
  68                __func__, smi_data_buf_phys_addr, smi_data_buf_size);
  69
  70        dma_free_coherent(&dcdbas_pdev->dev, smi_data_buf_size, smi_data_buf,
  71                          smi_data_buf_handle);
  72        smi_data_buf = NULL;
  73        smi_data_buf_handle = 0;
  74        smi_data_buf_phys_addr = 0;
  75        smi_data_buf_size = 0;
  76}
  77
  78/**
  79 * smi_data_buf_realloc: grow SMI data buffer if needed
  80 */
  81static int smi_data_buf_realloc(unsigned long size)
  82{
  83        void *buf;
  84        dma_addr_t handle;
  85
  86        if (smi_data_buf_size >= size)
  87                return 0;
  88
  89        if (size > MAX_SMI_DATA_BUF_SIZE)
  90                return -EINVAL;
  91
  92        /* new buffer is needed */
  93        buf = dma_alloc_coherent(&dcdbas_pdev->dev, size, &handle, GFP_KERNEL);
  94        if (!buf) {
  95                dev_dbg(&dcdbas_pdev->dev,
  96                        "%s: failed to allocate memory size %lu\n",
  97                        __func__, size);
  98                return -ENOMEM;
  99        }
 100        /* memory zeroed by dma_alloc_coherent */
 101
 102        if (smi_data_buf)
 103                memcpy(buf, smi_data_buf, smi_data_buf_size);
 104
 105        /* free any existing buffer */
 106        smi_data_buf_free();
 107
 108        /* set up new buffer for use */
 109        smi_data_buf = buf;
 110        smi_data_buf_handle = handle;
 111        smi_data_buf_phys_addr = (u32) virt_to_phys(buf);
 112        smi_data_buf_size = size;
 113
 114        dev_dbg(&dcdbas_pdev->dev, "%s: phys: %x size: %lu\n",
 115                __func__, smi_data_buf_phys_addr, smi_data_buf_size);
 116
 117        return 0;
 118}
 119
 120static ssize_t smi_data_buf_phys_addr_show(struct device *dev,
 121                                           struct device_attribute *attr,
 122                                           char *buf)
 123{
 124        return sprintf(buf, "%x\n", smi_data_buf_phys_addr);
 125}
 126
 127static ssize_t smi_data_buf_size_show(struct device *dev,
 128                                      struct device_attribute *attr,
 129                                      char *buf)
 130{
 131        return sprintf(buf, "%lu\n", smi_data_buf_size);
 132}
 133
 134static ssize_t smi_data_buf_size_store(struct device *dev,
 135                                       struct device_attribute *attr,
 136                                       const char *buf, size_t count)
 137{
 138        unsigned long buf_size;
 139        ssize_t ret;
 140
 141        buf_size = simple_strtoul(buf, NULL, 10);
 142
 143        /* make sure SMI data buffer is at least buf_size */
 144        mutex_lock(&smi_data_lock);
 145        ret = smi_data_buf_realloc(buf_size);
 146        mutex_unlock(&smi_data_lock);
 147        if (ret)
 148                return ret;
 149
 150        return count;
 151}
 152
 153static ssize_t smi_data_read(struct file *filp, struct kobject *kobj,
 154                             struct bin_attribute *bin_attr,
 155                             char *buf, loff_t pos, size_t count)
 156{
 157        ssize_t ret;
 158
 159        mutex_lock(&smi_data_lock);
 160        ret = memory_read_from_buffer(buf, count, &pos, smi_data_buf,
 161                                        smi_data_buf_size);
 162        mutex_unlock(&smi_data_lock);
 163        return ret;
 164}
 165
 166static ssize_t smi_data_write(struct file *filp, struct kobject *kobj,
 167                              struct bin_attribute *bin_attr,
 168                              char *buf, loff_t pos, size_t count)
 169{
 170        ssize_t ret;
 171
 172        if ((pos + count) > MAX_SMI_DATA_BUF_SIZE)
 173                return -EINVAL;
 174
 175        mutex_lock(&smi_data_lock);
 176
 177        ret = smi_data_buf_realloc(pos + count);
 178        if (ret)
 179                goto out;
 180
 181        memcpy(smi_data_buf + pos, buf, count);
 182        ret = count;
 183out:
 184        mutex_unlock(&smi_data_lock);
 185        return ret;
 186}
 187
 188static ssize_t host_control_action_show(struct device *dev,
 189                                        struct device_attribute *attr,
 190                                        char *buf)
 191{
 192        return sprintf(buf, "%u\n", host_control_action);
 193}
 194
 195static ssize_t host_control_action_store(struct device *dev,
 196                                         struct device_attribute *attr,
 197                                         const char *buf, size_t count)
 198{
 199        ssize_t ret;
 200
 201        /* make sure buffer is available for host control command */
 202        mutex_lock(&smi_data_lock);
 203        ret = smi_data_buf_realloc(sizeof(struct apm_cmd));
 204        mutex_unlock(&smi_data_lock);
 205        if (ret)
 206                return ret;
 207
 208        host_control_action = simple_strtoul(buf, NULL, 10);
 209        return count;
 210}
 211
 212static ssize_t host_control_smi_type_show(struct device *dev,
 213                                          struct device_attribute *attr,
 214                                          char *buf)
 215{
 216        return sprintf(buf, "%u\n", host_control_smi_type);
 217}
 218
 219static ssize_t host_control_smi_type_store(struct device *dev,
 220                                           struct device_attribute *attr,
 221                                           const char *buf, size_t count)
 222{
 223        host_control_smi_type = simple_strtoul(buf, NULL, 10);
 224        return count;
 225}
 226
 227static ssize_t host_control_on_shutdown_show(struct device *dev,
 228                                             struct device_attribute *attr,
 229                                             char *buf)
 230{
 231        return sprintf(buf, "%u\n", host_control_on_shutdown);
 232}
 233
 234static ssize_t host_control_on_shutdown_store(struct device *dev,
 235                                              struct device_attribute *attr,
 236                                              const char *buf, size_t count)
 237{
 238        host_control_on_shutdown = simple_strtoul(buf, NULL, 10);
 239        return count;
 240}
 241
 242static int raise_smi(void *par)
 243{
 244        struct smi_cmd *smi_cmd = par;
 245
 246        if (smp_processor_id() != 0) {
 247                dev_dbg(&dcdbas_pdev->dev, "%s: failed to get CPU 0\n",
 248                        __func__);
 249                return -EBUSY;
 250        }
 251
 252        /* generate SMI */
 253        /* inb to force posted write through and make SMI happen now */
 254        asm volatile (
 255                "outb %b0,%w1\n"
 256                "inb %w1"
 257                : /* no output args */
 258                : "a" (smi_cmd->command_code),
 259                  "d" (smi_cmd->command_address),
 260                  "b" (smi_cmd->ebx),
 261                  "c" (smi_cmd->ecx)
 262                : "memory"
 263        );
 264
 265        return 0;
 266}
 267/**
 268 * dcdbas_smi_request: generate SMI request
 269 *
 270 * Called with smi_data_lock.
 271 */
 272int dcdbas_smi_request(struct smi_cmd *smi_cmd)
 273{
 274        int ret;
 275
 276        if (smi_cmd->magic != SMI_CMD_MAGIC) {
 277                dev_info(&dcdbas_pdev->dev, "%s: invalid magic value\n",
 278                         __func__);
 279                return -EBADR;
 280        }
 281
 282        /* SMI requires CPU 0 */
 283        get_online_cpus();
 284        ret = smp_call_on_cpu(0, raise_smi, smi_cmd, true);
 285        put_online_cpus();
 286
 287        return ret;
 288}
 289
 290/**
 291 * smi_request_store:
 292 *
 293 * The valid values are:
 294 * 0: zero SMI data buffer
 295 * 1: generate calling interface SMI
 296 * 2: generate raw SMI
 297 *
 298 * User application writes smi_cmd to smi_data before telling driver
 299 * to generate SMI.
 300 */
 301static ssize_t smi_request_store(struct device *dev,
 302                                 struct device_attribute *attr,
 303                                 const char *buf, size_t count)
 304{
 305        struct smi_cmd *smi_cmd;
 306        unsigned long val = simple_strtoul(buf, NULL, 10);
 307        ssize_t ret;
 308
 309        mutex_lock(&smi_data_lock);
 310
 311        if (smi_data_buf_size < sizeof(struct smi_cmd)) {
 312                ret = -ENODEV;
 313                goto out;
 314        }
 315        smi_cmd = (struct smi_cmd *)smi_data_buf;
 316
 317        switch (val) {
 318        case 2:
 319                /* Raw SMI */
 320                ret = dcdbas_smi_request(smi_cmd);
 321                if (!ret)
 322                        ret = count;
 323                break;
 324        case 1:
 325                /* Calling Interface SMI */
 326                smi_cmd->ebx = (u32) virt_to_phys(smi_cmd->command_buffer);
 327                ret = dcdbas_smi_request(smi_cmd);
 328                if (!ret)
 329                        ret = count;
 330                break;
 331        case 0:
 332                memset(smi_data_buf, 0, smi_data_buf_size);
 333                ret = count;
 334                break;
 335        default:
 336                ret = -EINVAL;
 337                break;
 338        }
 339
 340out:
 341        mutex_unlock(&smi_data_lock);
 342        return ret;
 343}
 344EXPORT_SYMBOL(dcdbas_smi_request);
 345
 346/**
 347 * host_control_smi: generate host control SMI
 348 *
 349 * Caller must set up the host control command in smi_data_buf.
 350 */
 351static int host_control_smi(void)
 352{
 353        struct apm_cmd *apm_cmd;
 354        u8 *data;
 355        unsigned long flags;
 356        u32 num_ticks;
 357        s8 cmd_status;
 358        u8 index;
 359
 360        apm_cmd = (struct apm_cmd *)smi_data_buf;
 361        apm_cmd->status = ESM_STATUS_CMD_UNSUCCESSFUL;
 362
 363        switch (host_control_smi_type) {
 364        case HC_SMITYPE_TYPE1:
 365                spin_lock_irqsave(&rtc_lock, flags);
 366                /* write SMI data buffer physical address */
 367                data = (u8 *)&smi_data_buf_phys_addr;
 368                for (index = PE1300_CMOS_CMD_STRUCT_PTR;
 369                     index < (PE1300_CMOS_CMD_STRUCT_PTR + 4);
 370                     index++, data++) {
 371                        outb(index,
 372                             (CMOS_BASE_PORT + CMOS_PAGE2_INDEX_PORT_PIIX4));
 373                        outb(*data,
 374                             (CMOS_BASE_PORT + CMOS_PAGE2_DATA_PORT_PIIX4));
 375                }
 376
 377                /* first set status to -1 as called by spec */
 378                cmd_status = ESM_STATUS_CMD_UNSUCCESSFUL;
 379                outb((u8) cmd_status, PCAT_APM_STATUS_PORT);
 380
 381                /* generate SMM call */
 382                outb(ESM_APM_CMD, PCAT_APM_CONTROL_PORT);
 383                spin_unlock_irqrestore(&rtc_lock, flags);
 384
 385                /* wait a few to see if it executed */
 386                num_ticks = TIMEOUT_USEC_SHORT_SEMA_BLOCKING;
 387                while ((cmd_status = inb(PCAT_APM_STATUS_PORT))
 388                       == ESM_STATUS_CMD_UNSUCCESSFUL) {
 389                        num_ticks--;
 390                        if (num_ticks == EXPIRED_TIMER)
 391                                return -ETIME;
 392                }
 393                break;
 394
 395        case HC_SMITYPE_TYPE2:
 396        case HC_SMITYPE_TYPE3:
 397                spin_lock_irqsave(&rtc_lock, flags);
 398                /* write SMI data buffer physical address */
 399                data = (u8 *)&smi_data_buf_phys_addr;
 400                for (index = PE1400_CMOS_CMD_STRUCT_PTR;
 401                     index < (PE1400_CMOS_CMD_STRUCT_PTR + 4);
 402                     index++, data++) {
 403                        outb(index, (CMOS_BASE_PORT + CMOS_PAGE1_INDEX_PORT));
 404                        outb(*data, (CMOS_BASE_PORT + CMOS_PAGE1_DATA_PORT));
 405                }
 406
 407                /* generate SMM call */
 408                if (host_control_smi_type == HC_SMITYPE_TYPE3)
 409                        outb(ESM_APM_CMD, PCAT_APM_CONTROL_PORT);
 410                else
 411                        outb(ESM_APM_CMD, PE1400_APM_CONTROL_PORT);
 412
 413                /* restore RTC index pointer since it was written to above */
 414                CMOS_READ(RTC_REG_C);
 415                spin_unlock_irqrestore(&rtc_lock, flags);
 416
 417                /* read control port back to serialize write */
 418                cmd_status = inb(PE1400_APM_CONTROL_PORT);
 419
 420                /* wait a few to see if it executed */
 421                num_ticks = TIMEOUT_USEC_SHORT_SEMA_BLOCKING;
 422                while (apm_cmd->status == ESM_STATUS_CMD_UNSUCCESSFUL) {
 423                        num_ticks--;
 424                        if (num_ticks == EXPIRED_TIMER)
 425                                return -ETIME;
 426                }
 427                break;
 428
 429        default:
 430                dev_dbg(&dcdbas_pdev->dev, "%s: invalid SMI type %u\n",
 431                        __func__, host_control_smi_type);
 432                return -ENOSYS;
 433        }
 434
 435        return 0;
 436}
 437
 438/**
 439 * dcdbas_host_control: initiate host control
 440 *
 441 * This function is called by the driver after the system has
 442 * finished shutting down if the user application specified a
 443 * host control action to perform on shutdown.  It is safe to
 444 * use smi_data_buf at this point because the system has finished
 445 * shutting down and no userspace apps are running.
 446 */
 447static void dcdbas_host_control(void)
 448{
 449        struct apm_cmd *apm_cmd;
 450        u8 action;
 451
 452        if (host_control_action == HC_ACTION_NONE)
 453                return;
 454
 455        action = host_control_action;
 456        host_control_action = HC_ACTION_NONE;
 457
 458        if (!smi_data_buf) {
 459                dev_dbg(&dcdbas_pdev->dev, "%s: no SMI buffer\n", __func__);
 460                return;
 461        }
 462
 463        if (smi_data_buf_size < sizeof(struct apm_cmd)) {
 464                dev_dbg(&dcdbas_pdev->dev, "%s: SMI buffer too small\n",
 465                        __func__);
 466                return;
 467        }
 468
 469        apm_cmd = (struct apm_cmd *)smi_data_buf;
 470
 471        /* power off takes precedence */
 472        if (action & HC_ACTION_HOST_CONTROL_POWEROFF) {
 473                apm_cmd->command = ESM_APM_POWER_CYCLE;
 474                apm_cmd->reserved = 0;
 475                *((s16 *)&apm_cmd->parameters.shortreq.parm[0]) = (s16) 0;
 476                host_control_smi();
 477        } else if (action & HC_ACTION_HOST_CONTROL_POWERCYCLE) {
 478                apm_cmd->command = ESM_APM_POWER_CYCLE;
 479                apm_cmd->reserved = 0;
 480                *((s16 *)&apm_cmd->parameters.shortreq.parm[0]) = (s16) 20;
 481                host_control_smi();
 482        }
 483}
 484
 485/**
 486 * dcdbas_reboot_notify: handle reboot notification for host control
 487 */
 488static int dcdbas_reboot_notify(struct notifier_block *nb, unsigned long code,
 489                                void *unused)
 490{
 491        switch (code) {
 492        case SYS_DOWN:
 493        case SYS_HALT:
 494        case SYS_POWER_OFF:
 495                if (host_control_on_shutdown) {
 496                        /* firmware is going to perform host control action */
 497                        printk(KERN_WARNING "Please wait for shutdown "
 498                               "action to complete...\n");
 499                        dcdbas_host_control();
 500                }
 501                break;
 502        }
 503
 504        return NOTIFY_DONE;
 505}
 506
 507static struct notifier_block dcdbas_reboot_nb = {
 508        .notifier_call = dcdbas_reboot_notify,
 509        .next = NULL,
 510        .priority = INT_MIN
 511};
 512
 513static DCDBAS_BIN_ATTR_RW(smi_data);
 514
 515static struct bin_attribute *dcdbas_bin_attrs[] = {
 516        &bin_attr_smi_data,
 517        NULL
 518};
 519
 520static DCDBAS_DEV_ATTR_RW(smi_data_buf_size);
 521static DCDBAS_DEV_ATTR_RO(smi_data_buf_phys_addr);
 522static DCDBAS_DEV_ATTR_WO(smi_request);
 523static DCDBAS_DEV_ATTR_RW(host_control_action);
 524static DCDBAS_DEV_ATTR_RW(host_control_smi_type);
 525static DCDBAS_DEV_ATTR_RW(host_control_on_shutdown);
 526
 527static struct attribute *dcdbas_dev_attrs[] = {
 528        &dev_attr_smi_data_buf_size.attr,
 529        &dev_attr_smi_data_buf_phys_addr.attr,
 530        &dev_attr_smi_request.attr,
 531        &dev_attr_host_control_action.attr,
 532        &dev_attr_host_control_smi_type.attr,
 533        &dev_attr_host_control_on_shutdown.attr,
 534        NULL
 535};
 536
 537static struct attribute_group dcdbas_attr_group = {
 538        .attrs = dcdbas_dev_attrs,
 539        .bin_attrs = dcdbas_bin_attrs,
 540};
 541
 542static int dcdbas_probe(struct platform_device *dev)
 543{
 544        int error;
 545
 546        host_control_action = HC_ACTION_NONE;
 547        host_control_smi_type = HC_SMITYPE_NONE;
 548
 549        dcdbas_pdev = dev;
 550
 551        /*
 552         * BIOS SMI calls require buffer addresses be in 32-bit address space.
 553         * This is done by setting the DMA mask below.
 554         */
 555        error = dma_set_coherent_mask(&dcdbas_pdev->dev, DMA_BIT_MASK(32));
 556        if (error)
 557                return error;
 558
 559        error = sysfs_create_group(&dev->dev.kobj, &dcdbas_attr_group);
 560        if (error)
 561                return error;
 562
 563        register_reboot_notifier(&dcdbas_reboot_nb);
 564
 565        dev_info(&dev->dev, "%s (version %s)\n",
 566                 DRIVER_DESCRIPTION, DRIVER_VERSION);
 567
 568        return 0;
 569}
 570
 571static int dcdbas_remove(struct platform_device *dev)
 572{
 573        unregister_reboot_notifier(&dcdbas_reboot_nb);
 574        sysfs_remove_group(&dev->dev.kobj, &dcdbas_attr_group);
 575
 576        return 0;
 577}
 578
 579static struct platform_driver dcdbas_driver = {
 580        .driver         = {
 581                .name   = DRIVER_NAME,
 582        },
 583        .probe          = dcdbas_probe,
 584        .remove         = dcdbas_remove,
 585};
 586
 587static const struct platform_device_info dcdbas_dev_info __initconst = {
 588        .name           = DRIVER_NAME,
 589        .id             = -1,
 590        .dma_mask       = DMA_BIT_MASK(32),
 591};
 592
 593static struct platform_device *dcdbas_pdev_reg;
 594
 595/**
 596 * dcdbas_init: initialize driver
 597 */
 598static int __init dcdbas_init(void)
 599{
 600        int error;
 601
 602        error = platform_driver_register(&dcdbas_driver);
 603        if (error)
 604                return error;
 605
 606        dcdbas_pdev_reg = platform_device_register_full(&dcdbas_dev_info);
 607        if (IS_ERR(dcdbas_pdev_reg)) {
 608                error = PTR_ERR(dcdbas_pdev_reg);
 609                goto err_unregister_driver;
 610        }
 611
 612        return 0;
 613
 614 err_unregister_driver:
 615        platform_driver_unregister(&dcdbas_driver);
 616        return error;
 617}
 618
 619/**
 620 * dcdbas_exit: perform driver cleanup
 621 */
 622static void __exit dcdbas_exit(void)
 623{
 624        /*
 625         * make sure functions that use dcdbas_pdev are called
 626         * before platform_device_unregister
 627         */
 628        unregister_reboot_notifier(&dcdbas_reboot_nb);
 629
 630        /*
 631         * We have to free the buffer here instead of dcdbas_remove
 632         * because only in module exit function we can be sure that
 633         * all sysfs attributes belonging to this module have been
 634         * released.
 635         */
 636        if (dcdbas_pdev)
 637                smi_data_buf_free();
 638        platform_device_unregister(dcdbas_pdev_reg);
 639        platform_driver_unregister(&dcdbas_driver);
 640}
 641
 642module_init(dcdbas_init);
 643module_exit(dcdbas_exit);
 644
 645MODULE_DESCRIPTION(DRIVER_DESCRIPTION " (version " DRIVER_VERSION ")");
 646MODULE_VERSION(DRIVER_VERSION);
 647MODULE_AUTHOR("Dell Inc.");
 648MODULE_LICENSE("GPL");
 649/* Any System or BIOS claiming to be by Dell */
 650MODULE_ALIAS("dmi:*:[bs]vnD[Ee][Ll][Ll]*:*");
 651