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ACPI Embedded Controller Driver (v2.1) * * Copyright (C) 2006-2008 Alexey Starikovskiy <astarikovskiy@suse.de> * Copyright (C) 2006 Denis Sadykov <denis.m.sadykov@intel.com> * Copyright (C) 2004 Luming Yu <luming.yu@intel.com> * Copyright (C) 2001, 2002 Andy Grover <andrew.grover@intel.com> * Copyright (C) 2001, 2002 Paul Diefenbaugh <paul.s.diefenbaugh@intel.com> * * ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ * * This program 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., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. * * ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ */ /* Uncomment next line to get verbose printout */ /* #define DEBUG */ #include <linux/kernel.h> #include <linux/module.h> #include <linux/init.h> #include <linux/types.h> #include <linux/delay.h> #include <linux/proc_fs.h> #include <linux/seq_file.h> #include <linux/interrupt.h> #include <linux/list.h> #include <linux/spinlock.h> #include <linux/slab.h> #include <asm/io.h> #include <acpi/acpi_bus.h> #include <acpi/acpi_drivers.h> #include <linux/dmi.h> #define ACPI_EC_CLASS "embedded_controller" #define ACPI_EC_DEVICE_NAME "Embedded Controller" #define ACPI_EC_FILE_INFO "info" #define PREFIX "ACPI: EC: " /* EC status register */ #define ACPI_EC_FLAG_OBF 0x01 /* Output buffer full */ #define ACPI_EC_FLAG_IBF 0x02 /* Input buffer full */ #define ACPI_EC_FLAG_BURST 0x10 /* burst mode */ #define ACPI_EC_FLAG_SCI 0x20 /* EC-SCI occurred */ /* EC commands */ enum ec_command { ACPI_EC_COMMAND_READ = 0x80, ACPI_EC_COMMAND_WRITE = 0x81, ACPI_EC_BURST_ENABLE = 0x82, ACPI_EC_BURST_DISABLE = 0x83, ACPI_EC_COMMAND_QUERY = 0x84, }; #define ACPI_EC_DELAY 500 /* Wait 500ms max. during EC ops */ #define ACPI_EC_UDELAY_GLK 1000 /* Wait 1ms max. to get global lock */ #define ACPI_EC_CDELAY 10 /* Wait 10us before polling EC */ #define ACPI_EC_MSI_UDELAY 550 /* Wait 550us for MSI EC */ #define ACPI_EC_STORM_THRESHOLD 8 /* number of false interrupts per one transaction */ enum { EC_FLAGS_QUERY_PENDING, /* Query is pending */ EC_FLAGS_GPE_STORM, /* GPE storm detected */ EC_FLAGS_HANDLERS_INSTALLED, /* Handlers for GPE and * OpReg are installed */ EC_FLAGS_BLOCKED, /* Transactions are blocked */ }; /* If we find an EC via the ECDT, we need to keep a ptr to its context */ /* External interfaces use first EC only, so remember */ typedef int (*acpi_ec_query_func) (void *data); struct acpi_ec_query_handler { struct list_head node; acpi_ec_query_func func; acpi_handle handle; void *data; u8 query_bit; }; struct transaction { const u8 *wdata; u8 *rdata; unsigned short irq_count; u8 command; u8 wi; u8 ri; u8 wlen; u8 rlen; bool done; }; static struct acpi_ec { acpi_handle handle; unsigned long gpe; unsigned long command_addr; unsigned long data_addr; unsigned long global_lock; unsigned long flags; struct mutex lock; wait_queue_head_t wait; struct list_head list; struct transaction *curr; spinlock_t curr_lock; } *boot_ec, *first_ec; static int EC_FLAGS_MSI; /* Out-of-spec MSI controller */ static int EC_FLAGS_VALIDATE_ECDT; /* ASUStec ECDTs need to be validated */ static int EC_FLAGS_SKIP_DSDT_SCAN; /* Not all BIOS survive early DSDT scan */ /* -------------------------------------------------------------------------- Transaction Management -------------------------------------------------------------------------- */ static inline u8 acpi_ec_read_status(struct acpi_ec *ec) { u8 x = inb(ec->command_addr); pr_debug(PREFIX "---> status = 0x%2.2x\n", x); return x; } static inline u8 acpi_ec_read_data(struct acpi_ec *ec) { u8 x = inb(ec->data_addr); pr_debug(PREFIX "---> data = 0x%2.2x\n", x); return x; } static inline void acpi_ec_write_cmd(struct acpi_ec *ec, u8 command) { pr_debug(PREFIX "<--- command = 0x%2.2x\n", command); outb(command, ec->command_addr); } static inline void acpi_ec_write_data(struct acpi_ec *ec, u8 data) { pr_debug(PREFIX "<--- data = 0x%2.2x\n", data); outb(data, ec->data_addr); } static int ec_transaction_done(struct acpi_ec *ec) { unsigned long flags; int ret = 0; spin_lock_irqsave(&ec->curr_lock, flags); if (!ec->curr || ec->curr->done) ret = 1; spin_unlock_irqrestore(&ec->curr_lock, flags); return ret; } static void start_transaction(struct acpi_ec *ec) { ec->curr->irq_count = ec->curr->wi = ec->curr->ri = 0; ec->curr->done = false; acpi_ec_write_cmd(ec, ec->curr->command); } static void advance_transaction(struct acpi_ec *ec, u8 status) { unsigned long flags; spin_lock_irqsave(&ec->curr_lock, flags); if (!ec->curr) goto unlock; if (ec->curr->wlen > ec->curr->wi) { if ((status & ACPI_EC_FLAG_IBF) == 0) acpi_ec_write_data(ec, ec->curr->wdata[ec->curr->wi++]); else goto err; } else if (ec->curr->rlen > ec->curr->ri) { if ((status & ACPI_EC_FLAG_OBF) == 1) { ec->curr->rdata[ec->curr->ri++] = acpi_ec_read_data(ec); if (ec->curr->rlen == ec->curr->ri) ec->curr->done = true; } else goto err; } else if (ec->curr->wlen == ec->curr->wi && (status & ACPI_EC_FLAG_IBF) == 0) ec->curr->done = true; goto unlock; err: /* false interrupt, state didn't change */ if (in_interrupt()) ++ec->curr->irq_count; unlock: spin_unlock_irqrestore(&ec->curr_lock, flags); } static int acpi_ec_sync_query(struct acpi_ec *ec); static int ec_check_sci_sync(struct acpi_ec *ec, u8 state) { if (state & ACPI_EC_FLAG_SCI) { if (!test_and_set_bit(EC_FLAGS_QUERY_PENDING, &ec->flags)) return acpi_ec_sync_query(ec); } return 0; } static int ec_poll(struct acpi_ec *ec) { unsigned long flags; int repeat = 2; /* number of command restarts */ while (repeat--) { unsigned long delay = jiffies + msecs_to_jiffies(ACPI_EC_DELAY); do { /* don't sleep with disabled interrupts */ if (EC_FLAGS_MSI || irqs_disabled()) { udelay(ACPI_EC_MSI_UDELAY); if (ec_transaction_done(ec)) return 0; } else { if (wait_event_timeout(ec->wait, ec_transaction_done(ec), msecs_to_jiffies(1))) return 0; } advance_transaction(ec, acpi_ec_read_status(ec)); } while (time_before(jiffies, delay)); if (acpi_ec_read_status(ec) & ACPI_EC_FLAG_IBF) break; pr_debug(PREFIX "controller reset, restart transaction\n"); spin_lock_irqsave(&ec->curr_lock, flags); start_transaction(ec); spin_unlock_irqrestore(&ec->curr_lock, flags); } return -ETIME; } static int acpi_ec_transaction_unlocked(struct acpi_ec *ec, struct transaction *t) { unsigned long tmp; int ret = 0; if (EC_FLAGS_MSI) udelay(ACPI_EC_MSI_UDELAY); /* start transaction */ spin_lock_irqsave(&ec->curr_lock, tmp); /* following two actions should be kept atomic */ ec->curr = t; start_transaction(ec); if (ec->curr->command == ACPI_EC_COMMAND_QUERY) clear_bit(EC_FLAGS_QUERY_PENDING, &ec->flags); spin_unlock_irqrestore(&ec->curr_lock, tmp); ret = ec_poll(ec); spin_lock_irqsave(&ec->curr_lock, tmp); ec->curr = NULL; spin_unlock_irqrestore(&ec->curr_lock, tmp); return ret; } static int ec_check_ibf0(struct acpi_ec *ec) { u8 status = acpi_ec_read_status(ec); return (status & ACPI_EC_FLAG_IBF) == 0; } static int ec_wait_ibf0(struct acpi_ec *ec) { unsigned long delay = jiffies + msecs_to_jiffies(ACPI_EC_DELAY); /* interrupt wait manually if GPE mode is not active */ while (time_before(jiffies, delay)) if (wait_event_timeout(ec->wait, ec_check_ibf0(ec), msecs_to_jiffies(1))) return 0; return -ETIME; } static int acpi_ec_transaction(struct acpi_ec *ec, struct transaction *t) { int status; u32 glk; if (!ec || (!t) || (t->wlen && !t->wdata) || (t->rlen && !t->rdata)) return -EINVAL; if (t->rdata) memset(t->rdata, 0, t->rlen); mutex_lock(&ec->lock); if (test_bit(EC_FLAGS_BLOCKED, &ec->flags)) { status = -EINVAL; goto unlock; } if (ec->global_lock) { status = acpi_acquire_global_lock(ACPI_EC_UDELAY_GLK, &glk); if (ACPI_FAILURE(status)) { status = -ENODEV; goto unlock; } } if (ec_wait_ibf0(ec)) { pr_err(PREFIX "input buffer is not empty, " "aborting transaction\n"); status = -ETIME; goto end; } pr_debug(PREFIX "transaction start\n"); /* disable GPE during transaction if storm is detected */ if (test_bit(EC_FLAGS_GPE_STORM, &ec->flags)) { /* * It has to be disabled at the hardware level regardless of the * GPE reference counting, so that it doesn't trigger. */ acpi_set_gpe(NULL, ec->gpe, ACPI_GPE_DISABLE); } status = acpi_ec_transaction_unlocked(ec, t); /* check if we received SCI during transaction */ ec_check_sci_sync(ec, acpi_ec_read_status(ec)); if (test_bit(EC_FLAGS_GPE_STORM, &ec->flags)) { msleep(1); /* * It is safe to enable the GPE outside of the transaction. Use * acpi_set_gpe() for that, since we used it to disable the GPE * above. */ acpi_set_gpe(NULL, ec->gpe, ACPI_GPE_ENABLE); } else if (t->irq_count > ACPI_EC_STORM_THRESHOLD) { pr_info(PREFIX "GPE storm detected, " "transactions will use polling mode\n"); set_bit(EC_FLAGS_GPE_STORM, &ec->flags); } pr_debug(PREFIX "transaction end\n"); end: if (ec->global_lock) acpi_release_global_lock(glk); unlock: mutex_unlock(&ec->lock); return status; } static int acpi_ec_burst_enable(struct acpi_ec *ec) { u8 d; struct transaction t = {.command = ACPI_EC_BURST_ENABLE, .wdata = NULL, .rdata = &d, .wlen = 0, .rlen = 1}; return acpi_ec_transaction(ec, &t); } static int acpi_ec_burst_disable(struct acpi_ec *ec) { struct transaction t = {.command = ACPI_EC_BURST_DISABLE, .wdata = NULL, .rdata = NULL, .wlen = 0, .rlen = 0}; return (acpi_ec_read_status(ec) & ACPI_EC_FLAG_BURST) ? acpi_ec_transaction(ec, &t) : 0; } static int acpi_ec_read(struct acpi_ec *ec, u8 address, u8 * data) { int result; u8 d; struct transaction t = {.command = ACPI_EC_COMMAND_READ, .wdata = &address, .rdata = &d, .wlen = 1, .rlen = 1}; result = acpi_ec_transaction(ec, &t); *data = d; return result; } static int acpi_ec_write(struct acpi_ec *ec, u8 address, u8 data) { u8 wdata[2] = { address, data }; struct transaction t = {.command = ACPI_EC_COMMAND_WRITE, .wdata = wdata, .rdata = NULL, .wlen = 2, .rlen = 0}; return acpi_ec_transaction(ec, &t); } /* * Externally callable EC access functions. For now, assume 1 EC only */ int ec_burst_enable(void) { if (!first_ec) return -ENODEV; return acpi_ec_burst_enable(first_ec); } EXPORT_SYMBOL(ec_burst_enable); int ec_burst_disable(void) { if (!first_ec) return -ENODEV; return acpi_ec_burst_disable(first_ec); } EXPORT_SYMBOL(ec_burst_disable); int ec_read(u8 addr, u8 * val) { int err; u8 temp_data; if (!first_ec) return -ENODEV; err = acpi_ec_read(first_ec, addr, &temp_data); if (!err) { *val = temp_data; return 0; } else return err; } EXPORT_SYMBOL(ec_read); int ec_write(u8 addr, u8 val) { int err; if (!first_ec) return -ENODEV; err = acpi_ec_write(first_ec, addr, val); return err; } EXPORT_SYMBOL(ec_write); int ec_transaction(u8 command, const u8 * wdata, unsigned wdata_len, u8 * rdata, unsigned rdata_len, int force_poll) { struct transaction t = {.command = command, .wdata = wdata, .rdata = rdata, .wlen = wdata_len, .rlen = rdata_len}; if (!first_ec) return -ENODEV; return acpi_ec_transaction(first_ec, &t); } EXPORT_SYMBOL(ec_transaction); void acpi_ec_block_transactions(void) { struct acpi_ec *ec = first_ec; if (!ec) return; mutex_lock(&ec->lock); /* Prevent transactions from being carried out */ set_bit(EC_FLAGS_BLOCKED, &ec->flags); mutex_unlock(&ec->lock); } void acpi_ec_unblock_transactions(void) { struct acpi_ec *ec = first_ec; if (!ec) return; mutex_lock(&ec->lock); /* Allow transactions to be carried out again */ clear_bit(EC_FLAGS_BLOCKED, &ec->flags); mutex_unlock(&ec->lock); } void acpi_ec_unblock_transactions_early(void) { /* * Allow transactions to happen again (this function is called from * atomic context during wakeup, so we don't need to acquire the mutex). */ if (first_ec) clear_bit(EC_FLAGS_BLOCKED, &first_ec->flags); } static int acpi_ec_query_unlocked(struct acpi_ec *ec, u8 * data) { int result; u8 d; struct transaction t = {.command = ACPI_EC_COMMAND_QUERY, .wdata = NULL, .rdata = &d, .wlen = 0, .rlen = 1}; if (!ec || !data) return -EINVAL; /* * Query the EC to find out which _Qxx method we need to evaluate. * Note that successful completion of the query causes the ACPI_EC_SCI * bit to be cleared (and thus clearing the interrupt source). */ result = acpi_ec_transaction_unlocked(ec, &t); if (result) return result; if (!d) return -ENODATA; *data = d; return 0; } /* -------------------------------------------------------------------------- Event Management -------------------------------------------------------------------------- */ int acpi_ec_add_query_handler(struct acpi_ec *ec, u8 query_bit, acpi_handle handle, acpi_ec_query_func func, void *data) { struct acpi_ec_query_handler *handler = kzalloc(sizeof(struct acpi_ec_query_handler), GFP_KERNEL); if (!handler) return -ENOMEM; handler->query_bit = query_bit; handler->handle = handle; handler->func = func; handler->data = data; mutex_lock(&ec->lock); list_add(&handler->node, &ec->list); mutex_unlock(&ec->lock); return 0; } EXPORT_SYMBOL_GPL(acpi_ec_add_query_handler); void acpi_ec_remove_query_handler(struct acpi_ec *ec, u8 query_bit) { struct acpi_ec_query_handler *handler, *tmp; mutex_lock(&ec->lock); list_for_each_entry_safe(handler, tmp, &ec->list, node) { if (query_bit == handler->query_bit) { list_del(&handler->node); kfree(handler); } } mutex_unlock(&ec->lock); } EXPORT_SYMBOL_GPL(acpi_ec_remove_query_handler); static void acpi_ec_run(void *cxt) { struct acpi_ec_query_handler *handler = cxt; if (!handler) return; pr_debug(PREFIX "start query execution\n"); if (handler->func) handler->func(handler->data); else if (handler->handle) acpi_evaluate_object(handler->handle, NULL, NULL, NULL); pr_debug(PREFIX "stop query execution\n"); kfree(handler); } static int acpi_ec_sync_query(struct acpi_ec *ec) { u8 value = 0; int status; struct acpi_ec_query_handler *handler, *copy; if ((status = acpi_ec_query_unlocked(ec, &value))) return status; list_for_each_entry(handler, &ec->list, node) { if (value == handler->query_bit) { /* have custom handler for this bit */ copy = kmalloc(sizeof(*handler), GFP_KERNEL); if (!copy) return -ENOMEM; memcpy(copy, handler, sizeof(*copy)); pr_debug(PREFIX "push query execution (0x%2x) on queue\n", value); return acpi_os_execute((copy->func) ? OSL_NOTIFY_HANDLER : OSL_GPE_HANDLER, acpi_ec_run, copy); } } return 0; } static void acpi_ec_gpe_query(void *ec_cxt) { struct acpi_ec *ec = ec_cxt; if (!ec) return; mutex_lock(&ec->lock); acpi_ec_sync_query(ec); mutex_unlock(&ec->lock); } static void acpi_ec_gpe_query(void *ec_cxt); static int ec_check_sci(struct acpi_ec *ec, u8 state) { if (state & ACPI_EC_FLAG_SCI) { if (!test_and_set_bit(EC_FLAGS_QUERY_PENDING, &ec->flags)) { pr_debug(PREFIX "push gpe query to the queue\n"); return acpi_os_execute(OSL_NOTIFY_HANDLER, acpi_ec_gpe_query, ec); } } return 0; } static u32 acpi_ec_gpe_handler(void *data) { struct acpi_ec *ec = data; pr_debug(PREFIX "~~~> interrupt\n"); advance_transaction(ec, acpi_ec_read_status(ec)); if (ec_transaction_done(ec) && (acpi_ec_read_status(ec) & ACPI_EC_FLAG_IBF) == 0) { wake_up(&ec->wait); ec_check_sci(ec, acpi_ec_read_status(ec)); } return ACPI_INTERRUPT_HANDLED; } /* -------------------------------------------------------------------------- Address Space Management -------------------------------------------------------------------------- */ static acpi_status acpi_ec_space_handler(u32 function, acpi_physical_address address, u32 bits, u64 *value64, void *handler_context, void *region_context) { struct acpi_ec *ec = handler_context; int result = 0, i, bytes = bits / 8; u8 *value = (u8 *)value64; if ((address > 0xFF) || !value || !handler_context) return AE_BAD_PARAMETER; if (function != ACPI_READ && function != ACPI_WRITE) return AE_BAD_PARAMETER; if (EC_FLAGS_MSI || bits > 8) acpi_ec_burst_enable(ec); for (i = 0; i < bytes; ++i, ++address, ++value) result = (function == ACPI_READ) ? acpi_ec_read(ec, address, value) : acpi_ec_write(ec, address, *value); if (EC_FLAGS_MSI || bits > 8) acpi_ec_burst_disable(ec); switch (result) { case -EINVAL: return AE_BAD_PARAMETER; break; case -ENODEV: return AE_NOT_FOUND; break; case -ETIME: return AE_TIME; break; default: return AE_OK; } } /* -------------------------------------------------------------------------- FS Interface (/proc) -------------------------------------------------------------------------- */ static struct proc_dir_entry *acpi_ec_dir; static int acpi_ec_read_info(struct seq_file *seq, void *offset) { struct acpi_ec *ec = seq->private; if (!ec) goto end; seq_printf(seq, "gpe:\t\t\t0x%02x\n", (u32) ec->gpe); seq_printf(seq, "ports:\t\t\t0x%02x, 0x%02x\n", (unsigned)ec->command_addr, (unsigned)ec->data_addr); seq_printf(seq, "use global lock:\t%s\n", ec->global_lock ? "yes" : "no"); end: return 0; } static int acpi_ec_info_open_fs(struct inode *inode, struct file *file) { return single_open(file, acpi_ec_read_info, PDE(inode)->data); } static const struct file_operations acpi_ec_info_ops = { .open = acpi_ec_info_open_fs, .read = seq_read, .llseek = seq_lseek, .release = single_release, .owner = THIS_MODULE, }; static int acpi_ec_add_fs(struct acpi_device *device) { struct proc_dir_entry *entry = NULL; if (!acpi_device_dir(device)) { acpi_device_dir(device) = proc_mkdir(acpi_device_bid(device), acpi_ec_dir); if (!acpi_device_dir(device)) return -ENODEV; } entry = proc_create_data(ACPI_EC_FILE_INFO, S_IRUGO, acpi_device_dir(device), &acpi_ec_info_ops, acpi_driver_data(device)); if (!entry) return -ENODEV; return 0; } static int acpi_ec_remove_fs(struct acpi_device *device) { if (acpi_device_dir(device)) { remove_proc_entry(ACPI_EC_FILE_INFO, acpi_device_dir(device)); remove_proc_entry(acpi_device_bid(device), acpi_ec_dir); acpi_device_dir(device) = NULL; } return 0; } /* -------------------------------------------------------------------------- Driver Interface -------------------------------------------------------------------------- */ static acpi_status ec_parse_io_ports(struct acpi_resource *resource, void *context); static struct acpi_ec *make_acpi_ec(void) { struct acpi_ec *ec = kzalloc(sizeof(struct acpi_ec), GFP_KERNEL); if (!ec) return NULL; ec->flags = 1 << EC_FLAGS_QUERY_PENDING; mutex_init(&ec->lock); init_waitqueue_head(&ec->wait); INIT_LIST_HEAD(&ec->list); spin_lock_init(&ec->curr_lock); return ec; } static acpi_status acpi_ec_register_query_methods(acpi_handle handle, u32 level, void *context, void **return_value) { char node_name[5]; struct acpi_buffer buffer = { sizeof(node_name), node_name }; struct acpi_ec *ec = context; int value = 0; acpi_status status; status = acpi_get_name(handle, ACPI_SINGLE_NAME, &buffer); if (ACPI_SUCCESS(status) && sscanf(node_name, "_Q%x", &value) == 1) { acpi_ec_add_query_handler(ec, value, handle, NULL, NULL); } return AE_OK; } static acpi_status ec_parse_device(acpi_handle handle, u32 Level, void *context, void **retval) { acpi_status status; unsigned long long tmp = 0; struct acpi_ec *ec = context; /* clear addr values, ec_parse_io_ports depend on it */ ec->command_addr = ec->data_addr = 0; status = acpi_walk_resources(handle, METHOD_NAME__CRS, ec_parse_io_ports, ec); if (ACPI_FAILURE(status)) return status; /* Get GPE bit assignment (EC events). */ /* TODO: Add support for _GPE returning a package */ status = acpi_evaluate_integer(handle, "_GPE", NULL, &tmp); if (ACPI_FAILURE(status)) return status; ec->gpe = tmp; /* Use the global lock for all EC transactions? */ tmp = 0; acpi_evaluate_integer(handle, "_GLK", NULL, &tmp); ec->global_lock = tmp; ec->handle = handle; return AE_CTRL_TERMINATE; } static int ec_install_handlers(struct acpi_ec *ec) { acpi_status status; if (test_bit(EC_FLAGS_HANDLERS_INSTALLED, &ec->flags)) return 0; status = acpi_install_gpe_handler(NULL, ec->gpe, ACPI_GPE_EDGE_TRIGGERED, &acpi_ec_gpe_handler, ec); if (ACPI_FAILURE(status)) return -ENODEV; acpi_enable_gpe(NULL, ec->gpe, ACPI_GPE_TYPE_RUNTIME); status = acpi_install_address_space_handler(ec->handle, ACPI_ADR_SPACE_EC, &acpi_ec_space_handler, NULL, ec); if (ACPI_FAILURE(status)) { if (status == AE_NOT_FOUND) { /* * Maybe OS fails in evaluating the _REG object. * The AE_NOT_FOUND error will be ignored and OS * continue to initialize EC. */ printk(KERN_ERR "Fail in evaluating the _REG object" " of EC device. Broken bios is suspected.\n"); } else { acpi_remove_gpe_handler(NULL, ec->gpe, &acpi_ec_gpe_handler); acpi_disable_gpe(NULL, ec->gpe, ACPI_GPE_TYPE_RUNTIME); return -ENODEV; } } set_bit(EC_FLAGS_HANDLERS_INSTALLED, &ec->flags); return 0; } static void ec_remove_handlers(struct acpi_ec *ec) { acpi_disable_gpe(NULL, ec->gpe, ACPI_GPE_TYPE_RUNTIME); if (ACPI_FAILURE(acpi_remove_address_space_handler(ec->handle, ACPI_ADR_SPACE_EC, &acpi_ec_space_handler))) pr_err(PREFIX "failed to remove space handler\n"); if (ACPI_FAILURE(acpi_remove_gpe_handler(NULL, ec->gpe, &acpi_ec_gpe_handler))) pr_err(PREFIX "failed to remove gpe handler\n"); clear_bit(EC_FLAGS_HANDLERS_INSTALLED, &ec->flags); } static int acpi_ec_add(struct acpi_device *device) { struct acpi_ec *ec = NULL; int ret; strcpy(acpi_device_name(device), ACPI_EC_DEVICE_NAME); strcpy(acpi_device_class(device), ACPI_EC_CLASS); /* Check for boot EC */ if (boot_ec && (boot_ec->handle == device->handle || boot_ec->handle == ACPI_ROOT_OBJECT)) { ec = boot_ec; boot_ec = NULL; } else { ec = make_acpi_ec(); if (!ec) return -ENOMEM; } if (ec_parse_device(device->handle, 0, ec, NULL) != AE_CTRL_TERMINATE) { kfree(ec); return -EINVAL; } ec->handle = device->handle; /* Find and register all query methods */ acpi_walk_namespace(ACPI_TYPE_METHOD, ec->handle, 1, acpi_ec_register_query_methods, NULL, ec, NULL); if (!first_ec) first_ec = ec; device->driver_data = ec; acpi_ec_add_fs(device); pr_info(PREFIX "GPE = 0x%lx, I/O: command/status = 0x%lx, data = 0x%lx\n", ec->gpe, ec->command_addr, ec->data_addr); ret = ec_install_handlers(ec); /* EC is fully operational, allow queries */ clear_bit(EC_FLAGS_QUERY_PENDING, &ec->flags); return ret; } static int acpi_ec_remove(struct acpi_device *device, int type) { struct acpi_ec *ec; struct acpi_ec_query_handler *handler, *tmp; if (!device) return -EINVAL; ec = acpi_driver_data(device); ec_remove_handlers(ec); mutex_lock(&ec->lock); list_for_each_entry_safe(handler, tmp, &ec->list, node) { list_del(&handler->node); kfree(handler); } mutex_unlock(&ec->lock); acpi_ec_remove_fs(device); device->driver_data = NULL; if (ec == first_ec) first_ec = NULL; kfree(ec); return 0; } static acpi_status ec_parse_io_ports(struct acpi_resource *resource, void *context) { struct acpi_ec *ec = context; if (resource->type != ACPI_RESOURCE_TYPE_IO) return AE_OK; /* * The first address region returned is the data port, and * the second address region returned is the status/command * port. */ if (ec->data_addr == 0) ec->data_addr = resource->data.io.minimum; else if (ec->command_addr == 0) ec->command_addr = resource->data.io.minimum; else return AE_CTRL_TERMINATE; return AE_OK; } int __init acpi_boot_ec_enable(void) { if (!boot_ec || test_bit(EC_FLAGS_HANDLERS_INSTALLED, &boot_ec->flags)) return 0; if (!ec_install_handlers(boot_ec)) { first_ec = boot_ec; return 0; } return -EFAULT; } static const struct acpi_device_id ec_device_ids[] = { {"PNP0C09", 0}, {"", 0}, }; /* Some BIOS do not survive early DSDT scan, skip it */ static int ec_skip_dsdt_scan(const struct dmi_system_id *id) { EC_FLAGS_SKIP_DSDT_SCAN = 1; return 0; } /* ASUStek often supplies us with broken ECDT, validate it */ static int ec_validate_ecdt(const struct dmi_system_id *id) { EC_FLAGS_VALIDATE_ECDT = 1; return 0; } /* MSI EC needs special treatment, enable it */ static int ec_flag_msi(const struct dmi_system_id *id) { printk(KERN_DEBUG PREFIX "Detected MSI hardware, enabling workarounds.\n"); EC_FLAGS_MSI = 1; EC_FLAGS_VALIDATE_ECDT = 1; return 0; } static struct dmi_system_id __initdata ec_dmi_table[] = { { ec_skip_dsdt_scan, "Compal JFL92", { DMI_MATCH(DMI_BIOS_VENDOR, "COMPAL"), DMI_MATCH(DMI_BOARD_NAME, "JFL92") }, NULL}, { ec_flag_msi, "MSI hardware", { DMI_MATCH(DMI_BIOS_VENDOR, "Micro-Star")}, NULL}, { ec_flag_msi, "MSI hardware", { DMI_MATCH(DMI_SYS_VENDOR, "Micro-Star")}, NULL}, { ec_flag_msi, "MSI hardware", { DMI_MATCH(DMI_CHASSIS_VENDOR, "MICRO-Star")}, NULL}, { ec_validate_ecdt, "ASUS hardware", { DMI_MATCH(DMI_BIOS_VENDOR, "ASUS") }, NULL}, {}, }; int __init acpi_ec_ecdt_probe(void) { acpi_status status; struct acpi_ec *saved_ec = NULL; struct acpi_table_ecdt *ecdt_ptr; boot_ec = make_acpi_ec(); if (!boot_ec) return -ENOMEM; /* * Generate a boot ec context */ dmi_check_system(ec_dmi_table); status = acpi_get_table(ACPI_SIG_ECDT, 1, (struct acpi_table_header **)&ecdt_ptr); if (ACPI_SUCCESS(status)) { pr_info(PREFIX "EC description table is found, configuring boot EC\n"); boot_ec->command_addr = ecdt_ptr->control.address; boot_ec->data_addr = ecdt_ptr->data.address; boot_ec->gpe = ecdt_ptr->gpe; boot_ec->handle = ACPI_ROOT_OBJECT; acpi_get_handle(ACPI_ROOT_OBJECT, ecdt_ptr->id, &boot_ec->handle); /* Don't trust ECDT, which comes from ASUSTek */ if (!EC_FLAGS_VALIDATE_ECDT) goto install; saved_ec = kmemdup(boot_ec, sizeof(struct acpi_ec), GFP_KERNEL); if (!saved_ec) return -ENOMEM; /* fall through */ } if (EC_FLAGS_SKIP_DSDT_SCAN) return -ENODEV; /* This workaround is needed only on some broken machines, * which require early EC, but fail to provide ECDT */ printk(KERN_DEBUG PREFIX "Look up EC in DSDT\n"); status = acpi_get_devices(ec_device_ids[0].id, ec_parse_device, boot_ec, NULL); /* Check that acpi_get_devices actually find something */ if (ACPI_FAILURE(status) || !boot_ec->handle) goto error; if (saved_ec) { /* try to find good ECDT from ASUSTek */ if (saved_ec->command_addr != boot_ec->command_addr || saved_ec->data_addr != boot_ec->data_addr || saved_ec->gpe != boot_ec->gpe || saved_ec->handle != boot_ec->handle) pr_info(PREFIX "ASUSTek keeps feeding us with broken " "ECDT tables, which are very hard to workaround. " "Trying to use DSDT EC info instead. Please send " "output of acpidump to linux-acpi@vger.kernel.org\n"); kfree(saved_ec); saved_ec = NULL; } else { /* We really need to limit this workaround, the only ASUS, * which needs it, has fake EC._INI method, so use it as flag. * Keep boot_ec struct as it will be needed soon. */ acpi_handle dummy; if (!dmi_name_in_vendors("ASUS") || ACPI_FAILURE(acpi_get_handle(boot_ec->handle, "_INI", &dummy))) return -ENODEV; } install: if (!ec_install_handlers(boot_ec)) { first_ec = boot_ec; return 0; } error: kfree(boot_ec); boot_ec = NULL; return -ENODEV; } static int acpi_ec_suspend(struct acpi_device *device, pm_message_t state) { struct acpi_ec *ec = acpi_driver_data(device); /* Stop using the GPE, but keep it reference counted. */ acpi_set_gpe(NULL, ec->gpe, ACPI_GPE_DISABLE); return 0; } static int acpi_ec_resume(struct acpi_device *device) { struct acpi_ec *ec = acpi_driver_data(device); /* Enable the GPE again, but don't reference count it once more. */ acpi_set_gpe(NULL, ec->gpe, ACPI_GPE_ENABLE); return 0; } static struct acpi_driver acpi_ec_driver = { .name = "ec", .class = ACPI_EC_CLASS, .ids = ec_device_ids, .ops = { .add = acpi_ec_add, .remove = acpi_ec_remove, .suspend = acpi_ec_suspend, .resume = acpi_ec_resume, }, }; int __init acpi_ec_init(void) { int result = 0; acpi_ec_dir = proc_mkdir(ACPI_EC_CLASS, acpi_root_dir); if (!acpi_ec_dir) return -ENODEV; /* Now register the driver for the EC */ result = acpi_bus_register_driver(&acpi_ec_driver); if (result < 0) { remove_proc_entry(ACPI_EC_CLASS, acpi_root_dir); return -ENODEV; } return result; } /* EC driver currently not unloadable */ #if 0 static void __exit acpi_ec_exit(void) { acpi_bus_unregister_driver(&acpi_ec_driver); remove_proc_entry(ACPI_EC_CLASS, acpi_root_dir); return; } #endif /* 0 */ |