Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Huang Ying | 3882 | 76.98% | 6 | 15.79% |
Tony Luck | 668 | 13.25% | 2 | 5.26% |
Chen Gong | 153 | 3.03% | 5 | 13.16% |
Kees Cook | 143 | 2.84% | 5 | 13.16% |
Aruna Balakrishnaiah | 49 | 0.97% | 2 | 5.26% |
Borislav Petkov | 42 | 0.83% | 1 | 2.63% |
Lenny Szubowicz | 36 | 0.71% | 1 | 2.63% |
Matthew Garrett | 27 | 0.54% | 1 | 2.63% |
Joshua Hunt | 7 | 0.14% | 1 | 2.63% |
Wei Yongjun | 7 | 0.14% | 1 | 2.63% |
Tetsuo Handa | 5 | 0.10% | 1 | 2.63% |
Geliang Tang | 4 | 0.08% | 1 | 2.63% |
Takashi Iwai | 4 | 0.08% | 1 | 2.63% |
Thomas Gleixner | 3 | 0.06% | 1 | 2.63% |
Stephen Rothwell | 3 | 0.06% | 1 | 2.63% |
Michal Hocko | 2 | 0.04% | 1 | 2.63% |
Don Zickus | 2 | 0.04% | 1 | 2.63% |
Stefan Weil | 1 | 0.02% | 1 | 2.63% |
Jarkko Nikula | 1 | 0.02% | 1 | 2.63% |
Arnd Bergmann | 1 | 0.02% | 1 | 2.63% |
Namhyung Kim | 1 | 0.02% | 1 | 2.63% |
Seiji Aguchi | 1 | 0.02% | 1 | 2.63% |
Jiang Liu | 1 | 0.02% | 1 | 2.63% |
Total | 5043 | 38 |
/* * APEI Error Record Serialization Table support * * ERST is a way provided by APEI to save and retrieve hardware error * information to and from a persistent store. * * For more information about ERST, please refer to ACPI Specification * version 4.0, section 17.4. * * Copyright 2010 Intel Corp. * Author: Huang Ying <ying.huang@intel.com> * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License version * 2 as published by the Free Software Foundation. * * 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. */ #include <linux/kernel.h> #include <linux/module.h> #include <linux/init.h> #include <linux/delay.h> #include <linux/io.h> #include <linux/acpi.h> #include <linux/uaccess.h> #include <linux/cper.h> #include <linux/nmi.h> #include <linux/hardirq.h> #include <linux/pstore.h> #include <linux/vmalloc.h> #include <linux/mm.h> /* kvfree() */ #include <acpi/apei.h> #include "apei-internal.h" #undef pr_fmt #define pr_fmt(fmt) "ERST: " fmt /* ERST command status */ #define ERST_STATUS_SUCCESS 0x0 #define ERST_STATUS_NOT_ENOUGH_SPACE 0x1 #define ERST_STATUS_HARDWARE_NOT_AVAILABLE 0x2 #define ERST_STATUS_FAILED 0x3 #define ERST_STATUS_RECORD_STORE_EMPTY 0x4 #define ERST_STATUS_RECORD_NOT_FOUND 0x5 #define ERST_TAB_ENTRY(tab) \ ((struct acpi_whea_header *)((char *)(tab) + \ sizeof(struct acpi_table_erst))) #define SPIN_UNIT 100 /* 100ns */ /* Firmware should respond within 1 milliseconds */ #define FIRMWARE_TIMEOUT (1 * NSEC_PER_MSEC) #define FIRMWARE_MAX_STALL 50 /* 50us */ int erst_disable; EXPORT_SYMBOL_GPL(erst_disable); static struct acpi_table_erst *erst_tab; /* ERST Error Log Address Range atrributes */ #define ERST_RANGE_RESERVED 0x0001 #define ERST_RANGE_NVRAM 0x0002 #define ERST_RANGE_SLOW 0x0004 /* * ERST Error Log Address Range, used as buffer for reading/writing * error records. */ static struct erst_erange { u64 base; u64 size; void __iomem *vaddr; u32 attr; } erst_erange; /* * Prevent ERST interpreter to run simultaneously, because the * corresponding firmware implementation may not work properly when * invoked simultaneously. * * It is used to provide exclusive accessing for ERST Error Log * Address Range too. */ static DEFINE_RAW_SPINLOCK(erst_lock); static inline int erst_errno(int command_status) { switch (command_status) { case ERST_STATUS_SUCCESS: return 0; case ERST_STATUS_HARDWARE_NOT_AVAILABLE: return -ENODEV; case ERST_STATUS_NOT_ENOUGH_SPACE: return -ENOSPC; case ERST_STATUS_RECORD_STORE_EMPTY: case ERST_STATUS_RECORD_NOT_FOUND: return -ENOENT; default: return -EINVAL; } } static int erst_timedout(u64 *t, u64 spin_unit) { if ((s64)*t < spin_unit) { pr_warn(FW_WARN "Firmware does not respond in time.\n"); return 1; } *t -= spin_unit; ndelay(spin_unit); touch_nmi_watchdog(); return 0; } static int erst_exec_load_var1(struct apei_exec_context *ctx, struct acpi_whea_header *entry) { return __apei_exec_read_register(entry, &ctx->var1); } static int erst_exec_load_var2(struct apei_exec_context *ctx, struct acpi_whea_header *entry) { return __apei_exec_read_register(entry, &ctx->var2); } static int erst_exec_store_var1(struct apei_exec_context *ctx, struct acpi_whea_header *entry) { return __apei_exec_write_register(entry, ctx->var1); } static int erst_exec_add(struct apei_exec_context *ctx, struct acpi_whea_header *entry) { ctx->var1 += ctx->var2; return 0; } static int erst_exec_subtract(struct apei_exec_context *ctx, struct acpi_whea_header *entry) { ctx->var1 -= ctx->var2; return 0; } static int erst_exec_add_value(struct apei_exec_context *ctx, struct acpi_whea_header *entry) { int rc; u64 val; rc = __apei_exec_read_register(entry, &val); if (rc) return rc; val += ctx->value; rc = __apei_exec_write_register(entry, val); return rc; } static int erst_exec_subtract_value(struct apei_exec_context *ctx, struct acpi_whea_header *entry) { int rc; u64 val; rc = __apei_exec_read_register(entry, &val); if (rc) return rc; val -= ctx->value; rc = __apei_exec_write_register(entry, val); return rc; } static int erst_exec_stall(struct apei_exec_context *ctx, struct acpi_whea_header *entry) { u64 stall_time; if (ctx->value > FIRMWARE_MAX_STALL) { if (!in_nmi()) pr_warn(FW_WARN "Too long stall time for stall instruction: 0x%llx.\n", ctx->value); stall_time = FIRMWARE_MAX_STALL; } else stall_time = ctx->value; udelay(stall_time); return 0; } static int erst_exec_stall_while_true(struct apei_exec_context *ctx, struct acpi_whea_header *entry) { int rc; u64 val; u64 timeout = FIRMWARE_TIMEOUT; u64 stall_time; if (ctx->var1 > FIRMWARE_MAX_STALL) { if (!in_nmi()) pr_warn(FW_WARN "Too long stall time for stall while true instruction: 0x%llx.\n", ctx->var1); stall_time = FIRMWARE_MAX_STALL; } else stall_time = ctx->var1; for (;;) { rc = __apei_exec_read_register(entry, &val); if (rc) return rc; if (val != ctx->value) break; if (erst_timedout(&timeout, stall_time * NSEC_PER_USEC)) return -EIO; } return 0; } static int erst_exec_skip_next_instruction_if_true( struct apei_exec_context *ctx, struct acpi_whea_header *entry) { int rc; u64 val; rc = __apei_exec_read_register(entry, &val); if (rc) return rc; if (val == ctx->value) { ctx->ip += 2; return APEI_EXEC_SET_IP; } return 0; } static int erst_exec_goto(struct apei_exec_context *ctx, struct acpi_whea_header *entry) { ctx->ip = ctx->value; return APEI_EXEC_SET_IP; } static int erst_exec_set_src_address_base(struct apei_exec_context *ctx, struct acpi_whea_header *entry) { return __apei_exec_read_register(entry, &ctx->src_base); } static int erst_exec_set_dst_address_base(struct apei_exec_context *ctx, struct acpi_whea_header *entry) { return __apei_exec_read_register(entry, &ctx->dst_base); } static int erst_exec_move_data(struct apei_exec_context *ctx, struct acpi_whea_header *entry) { int rc; u64 offset; void *src, *dst; /* ioremap does not work in interrupt context */ if (in_interrupt()) { pr_warn("MOVE_DATA can not be used in interrupt context.\n"); return -EBUSY; } rc = __apei_exec_read_register(entry, &offset); if (rc) return rc; src = ioremap(ctx->src_base + offset, ctx->var2); if (!src) return -ENOMEM; dst = ioremap(ctx->dst_base + offset, ctx->var2); if (!dst) { iounmap(src); return -ENOMEM; } memmove(dst, src, ctx->var2); iounmap(src); iounmap(dst); return 0; } static struct apei_exec_ins_type erst_ins_type[] = { [ACPI_ERST_READ_REGISTER] = { .flags = APEI_EXEC_INS_ACCESS_REGISTER, .run = apei_exec_read_register, }, [ACPI_ERST_READ_REGISTER_VALUE] = { .flags = APEI_EXEC_INS_ACCESS_REGISTER, .run = apei_exec_read_register_value, }, [ACPI_ERST_WRITE_REGISTER] = { .flags = APEI_EXEC_INS_ACCESS_REGISTER, .run = apei_exec_write_register, }, [ACPI_ERST_WRITE_REGISTER_VALUE] = { .flags = APEI_EXEC_INS_ACCESS_REGISTER, .run = apei_exec_write_register_value, }, [ACPI_ERST_NOOP] = { .flags = 0, .run = apei_exec_noop, }, [ACPI_ERST_LOAD_VAR1] = { .flags = APEI_EXEC_INS_ACCESS_REGISTER, .run = erst_exec_load_var1, }, [ACPI_ERST_LOAD_VAR2] = { .flags = APEI_EXEC_INS_ACCESS_REGISTER, .run = erst_exec_load_var2, }, [ACPI_ERST_STORE_VAR1] = { .flags = APEI_EXEC_INS_ACCESS_REGISTER, .run = erst_exec_store_var1, }, [ACPI_ERST_ADD] = { .flags = 0, .run = erst_exec_add, }, [ACPI_ERST_SUBTRACT] = { .flags = 0, .run = erst_exec_subtract, }, [ACPI_ERST_ADD_VALUE] = { .flags = APEI_EXEC_INS_ACCESS_REGISTER, .run = erst_exec_add_value, }, [ACPI_ERST_SUBTRACT_VALUE] = { .flags = APEI_EXEC_INS_ACCESS_REGISTER, .run = erst_exec_subtract_value, }, [ACPI_ERST_STALL] = { .flags = 0, .run = erst_exec_stall, }, [ACPI_ERST_STALL_WHILE_TRUE] = { .flags = APEI_EXEC_INS_ACCESS_REGISTER, .run = erst_exec_stall_while_true, }, [ACPI_ERST_SKIP_NEXT_IF_TRUE] = { .flags = APEI_EXEC_INS_ACCESS_REGISTER, .run = erst_exec_skip_next_instruction_if_true, }, [ACPI_ERST_GOTO] = { .flags = 0, .run = erst_exec_goto, }, [ACPI_ERST_SET_SRC_ADDRESS_BASE] = { .flags = APEI_EXEC_INS_ACCESS_REGISTER, .run = erst_exec_set_src_address_base, }, [ACPI_ERST_SET_DST_ADDRESS_BASE] = { .flags = APEI_EXEC_INS_ACCESS_REGISTER, .run = erst_exec_set_dst_address_base, }, [ACPI_ERST_MOVE_DATA] = { .flags = APEI_EXEC_INS_ACCESS_REGISTER, .run = erst_exec_move_data, }, }; static inline void erst_exec_ctx_init(struct apei_exec_context *ctx) { apei_exec_ctx_init(ctx, erst_ins_type, ARRAY_SIZE(erst_ins_type), ERST_TAB_ENTRY(erst_tab), erst_tab->entries); } static int erst_get_erange(struct erst_erange *range) { struct apei_exec_context ctx; int rc; erst_exec_ctx_init(&ctx); rc = apei_exec_run(&ctx, ACPI_ERST_GET_ERROR_RANGE); if (rc) return rc; range->base = apei_exec_ctx_get_output(&ctx); rc = apei_exec_run(&ctx, ACPI_ERST_GET_ERROR_LENGTH); if (rc) return rc; range->size = apei_exec_ctx_get_output(&ctx); rc = apei_exec_run(&ctx, ACPI_ERST_GET_ERROR_ATTRIBUTES); if (rc) return rc; range->attr = apei_exec_ctx_get_output(&ctx); return 0; } static ssize_t __erst_get_record_count(void) { struct apei_exec_context ctx; int rc; erst_exec_ctx_init(&ctx); rc = apei_exec_run(&ctx, ACPI_ERST_GET_RECORD_COUNT); if (rc) return rc; return apei_exec_ctx_get_output(&ctx); } ssize_t erst_get_record_count(void) { ssize_t count; unsigned long flags; if (erst_disable) return -ENODEV; raw_spin_lock_irqsave(&erst_lock, flags); count = __erst_get_record_count(); raw_spin_unlock_irqrestore(&erst_lock, flags); return count; } EXPORT_SYMBOL_GPL(erst_get_record_count); #define ERST_RECORD_ID_CACHE_SIZE_MIN 16 #define ERST_RECORD_ID_CACHE_SIZE_MAX 1024 struct erst_record_id_cache { struct mutex lock; u64 *entries; int len; int size; int refcount; }; static struct erst_record_id_cache erst_record_id_cache = { .lock = __MUTEX_INITIALIZER(erst_record_id_cache.lock), .refcount = 0, }; static int __erst_get_next_record_id(u64 *record_id) { struct apei_exec_context ctx; int rc; erst_exec_ctx_init(&ctx); rc = apei_exec_run(&ctx, ACPI_ERST_GET_RECORD_ID); if (rc) return rc; *record_id = apei_exec_ctx_get_output(&ctx); return 0; } int erst_get_record_id_begin(int *pos) { int rc; if (erst_disable) return -ENODEV; rc = mutex_lock_interruptible(&erst_record_id_cache.lock); if (rc) return rc; erst_record_id_cache.refcount++; mutex_unlock(&erst_record_id_cache.lock); *pos = 0; return 0; } EXPORT_SYMBOL_GPL(erst_get_record_id_begin); /* erst_record_id_cache.lock must be held by caller */ static int __erst_record_id_cache_add_one(void) { u64 id, prev_id, first_id; int i, rc; u64 *entries; unsigned long flags; id = prev_id = first_id = APEI_ERST_INVALID_RECORD_ID; retry: raw_spin_lock_irqsave(&erst_lock, flags); rc = __erst_get_next_record_id(&id); raw_spin_unlock_irqrestore(&erst_lock, flags); if (rc == -ENOENT) return 0; if (rc) return rc; if (id == APEI_ERST_INVALID_RECORD_ID) return 0; /* can not skip current ID, or loop back to first ID */ if (id == prev_id || id == first_id) return 0; if (first_id == APEI_ERST_INVALID_RECORD_ID) first_id = id; prev_id = id; entries = erst_record_id_cache.entries; for (i = 0; i < erst_record_id_cache.len; i++) { if (entries[i] == id) break; } /* record id already in cache, try next */ if (i < erst_record_id_cache.len) goto retry; if (erst_record_id_cache.len >= erst_record_id_cache.size) { int new_size; u64 *new_entries; new_size = erst_record_id_cache.size * 2; new_size = clamp_val(new_size, ERST_RECORD_ID_CACHE_SIZE_MIN, ERST_RECORD_ID_CACHE_SIZE_MAX); if (new_size <= erst_record_id_cache.size) { if (printk_ratelimit()) pr_warn(FW_WARN "too many record IDs!\n"); return 0; } new_entries = kvmalloc_array(new_size, sizeof(entries[0]), GFP_KERNEL); if (!new_entries) return -ENOMEM; memcpy(new_entries, entries, erst_record_id_cache.len * sizeof(entries[0])); kvfree(entries); erst_record_id_cache.entries = entries = new_entries; erst_record_id_cache.size = new_size; } entries[i] = id; erst_record_id_cache.len++; return 1; } /* * Get the record ID of an existing error record on the persistent * storage. If there is no error record on the persistent storage, the * returned record_id is APEI_ERST_INVALID_RECORD_ID. */ int erst_get_record_id_next(int *pos, u64 *record_id) { int rc = 0; u64 *entries; if (erst_disable) return -ENODEV; /* must be enclosed by erst_get_record_id_begin/end */ BUG_ON(!erst_record_id_cache.refcount); BUG_ON(*pos < 0 || *pos > erst_record_id_cache.len); mutex_lock(&erst_record_id_cache.lock); entries = erst_record_id_cache.entries; for (; *pos < erst_record_id_cache.len; (*pos)++) if (entries[*pos] != APEI_ERST_INVALID_RECORD_ID) break; /* found next record id in cache */ if (*pos < erst_record_id_cache.len) { *record_id = entries[*pos]; (*pos)++; goto out_unlock; } /* Try to add one more record ID to cache */ rc = __erst_record_id_cache_add_one(); if (rc < 0) goto out_unlock; /* successfully add one new ID */ if (rc == 1) { *record_id = erst_record_id_cache.entries[*pos]; (*pos)++; rc = 0; } else { *pos = -1; *record_id = APEI_ERST_INVALID_RECORD_ID; } out_unlock: mutex_unlock(&erst_record_id_cache.lock); return rc; } EXPORT_SYMBOL_GPL(erst_get_record_id_next); /* erst_record_id_cache.lock must be held by caller */ static void __erst_record_id_cache_compact(void) { int i, wpos = 0; u64 *entries; if (erst_record_id_cache.refcount) return; entries = erst_record_id_cache.entries; for (i = 0; i < erst_record_id_cache.len; i++) { if (entries[i] == APEI_ERST_INVALID_RECORD_ID) continue; if (wpos != i) entries[wpos] = entries[i]; wpos++; } erst_record_id_cache.len = wpos; } void erst_get_record_id_end(void) { /* * erst_disable != 0 should be detected by invoker via the * return value of erst_get_record_id_begin/next, so this * function should not be called for erst_disable != 0. */ BUG_ON(erst_disable); mutex_lock(&erst_record_id_cache.lock); erst_record_id_cache.refcount--; BUG_ON(erst_record_id_cache.refcount < 0); __erst_record_id_cache_compact(); mutex_unlock(&erst_record_id_cache.lock); } EXPORT_SYMBOL_GPL(erst_get_record_id_end); static int __erst_write_to_storage(u64 offset) { struct apei_exec_context ctx; u64 timeout = FIRMWARE_TIMEOUT; u64 val; int rc; erst_exec_ctx_init(&ctx); rc = apei_exec_run_optional(&ctx, ACPI_ERST_BEGIN_WRITE); if (rc) return rc; apei_exec_ctx_set_input(&ctx, offset); rc = apei_exec_run(&ctx, ACPI_ERST_SET_RECORD_OFFSET); if (rc) return rc; rc = apei_exec_run(&ctx, ACPI_ERST_EXECUTE_OPERATION); if (rc) return rc; for (;;) { rc = apei_exec_run(&ctx, ACPI_ERST_CHECK_BUSY_STATUS); if (rc) return rc; val = apei_exec_ctx_get_output(&ctx); if (!val) break; if (erst_timedout(&timeout, SPIN_UNIT)) return -EIO; } rc = apei_exec_run(&ctx, ACPI_ERST_GET_COMMAND_STATUS); if (rc) return rc; val = apei_exec_ctx_get_output(&ctx); rc = apei_exec_run_optional(&ctx, ACPI_ERST_END); if (rc) return rc; return erst_errno(val); } static int __erst_read_from_storage(u64 record_id, u64 offset) { struct apei_exec_context ctx; u64 timeout = FIRMWARE_TIMEOUT; u64 val; int rc; erst_exec_ctx_init(&ctx); rc = apei_exec_run_optional(&ctx, ACPI_ERST_BEGIN_READ); if (rc) return rc; apei_exec_ctx_set_input(&ctx, offset); rc = apei_exec_run(&ctx, ACPI_ERST_SET_RECORD_OFFSET); if (rc) return rc; apei_exec_ctx_set_input(&ctx, record_id); rc = apei_exec_run(&ctx, ACPI_ERST_SET_RECORD_ID); if (rc) return rc; rc = apei_exec_run(&ctx, ACPI_ERST_EXECUTE_OPERATION); if (rc) return rc; for (;;) { rc = apei_exec_run(&ctx, ACPI_ERST_CHECK_BUSY_STATUS); if (rc) return rc; val = apei_exec_ctx_get_output(&ctx); if (!val) break; if (erst_timedout(&timeout, SPIN_UNIT)) return -EIO; }; rc = apei_exec_run(&ctx, ACPI_ERST_GET_COMMAND_STATUS); if (rc) return rc; val = apei_exec_ctx_get_output(&ctx); rc = apei_exec_run_optional(&ctx, ACPI_ERST_END); if (rc) return rc; return erst_errno(val); } static int __erst_clear_from_storage(u64 record_id) { struct apei_exec_context ctx; u64 timeout = FIRMWARE_TIMEOUT; u64 val; int rc; erst_exec_ctx_init(&ctx); rc = apei_exec_run_optional(&ctx, ACPI_ERST_BEGIN_CLEAR); if (rc) return rc; apei_exec_ctx_set_input(&ctx, record_id); rc = apei_exec_run(&ctx, ACPI_ERST_SET_RECORD_ID); if (rc) return rc; rc = apei_exec_run(&ctx, ACPI_ERST_EXECUTE_OPERATION); if (rc) return rc; for (;;) { rc = apei_exec_run(&ctx, ACPI_ERST_CHECK_BUSY_STATUS); if (rc) return rc; val = apei_exec_ctx_get_output(&ctx); if (!val) break; if (erst_timedout(&timeout, SPIN_UNIT)) return -EIO; } rc = apei_exec_run(&ctx, ACPI_ERST_GET_COMMAND_STATUS); if (rc) return rc; val = apei_exec_ctx_get_output(&ctx); rc = apei_exec_run_optional(&ctx, ACPI_ERST_END); if (rc) return rc; return erst_errno(val); } /* NVRAM ERST Error Log Address Range is not supported yet */ static void pr_unimpl_nvram(void) { if (printk_ratelimit()) pr_warn("NVRAM ERST Log Address Range not implemented yet.\n"); } static int __erst_write_to_nvram(const struct cper_record_header *record) { /* do not print message, because printk is not safe for NMI */ return -ENOSYS; } static int __erst_read_to_erange_from_nvram(u64 record_id, u64 *offset) { pr_unimpl_nvram(); return -ENOSYS; } static int __erst_clear_from_nvram(u64 record_id) { pr_unimpl_nvram(); return -ENOSYS; } int erst_write(const struct cper_record_header *record) { int rc; unsigned long flags; struct cper_record_header *rcd_erange; if (erst_disable) return -ENODEV; if (memcmp(record->signature, CPER_SIG_RECORD, CPER_SIG_SIZE)) return -EINVAL; if (erst_erange.attr & ERST_RANGE_NVRAM) { if (!raw_spin_trylock_irqsave(&erst_lock, flags)) return -EBUSY; rc = __erst_write_to_nvram(record); raw_spin_unlock_irqrestore(&erst_lock, flags); return rc; } if (record->record_length > erst_erange.size) return -EINVAL; if (!raw_spin_trylock_irqsave(&erst_lock, flags)) return -EBUSY; memcpy(erst_erange.vaddr, record, record->record_length); rcd_erange = erst_erange.vaddr; /* signature for serialization system */ memcpy(&rcd_erange->persistence_information, "ER", 2); rc = __erst_write_to_storage(0); raw_spin_unlock_irqrestore(&erst_lock, flags); return rc; } EXPORT_SYMBOL_GPL(erst_write); static int __erst_read_to_erange(u64 record_id, u64 *offset) { int rc; if (erst_erange.attr & ERST_RANGE_NVRAM) return __erst_read_to_erange_from_nvram( record_id, offset); rc = __erst_read_from_storage(record_id, 0); if (rc) return rc; *offset = 0; return 0; } static ssize_t __erst_read(u64 record_id, struct cper_record_header *record, size_t buflen) { int rc; u64 offset, len = 0; struct cper_record_header *rcd_tmp; rc = __erst_read_to_erange(record_id, &offset); if (rc) return rc; rcd_tmp = erst_erange.vaddr + offset; len = rcd_tmp->record_length; if (len <= buflen) memcpy(record, rcd_tmp, len); return len; } /* * If return value > buflen, the buffer size is not big enough, * else if return value < 0, something goes wrong, * else everything is OK, and return value is record length */ ssize_t erst_read(u64 record_id, struct cper_record_header *record, size_t buflen) { ssize_t len; unsigned long flags; if (erst_disable) return -ENODEV; raw_spin_lock_irqsave(&erst_lock, flags); len = __erst_read(record_id, record, buflen); raw_spin_unlock_irqrestore(&erst_lock, flags); return len; } EXPORT_SYMBOL_GPL(erst_read); int erst_clear(u64 record_id) { int rc, i; unsigned long flags; u64 *entries; if (erst_disable) return -ENODEV; rc = mutex_lock_interruptible(&erst_record_id_cache.lock); if (rc) return rc; raw_spin_lock_irqsave(&erst_lock, flags); if (erst_erange.attr & ERST_RANGE_NVRAM) rc = __erst_clear_from_nvram(record_id); else rc = __erst_clear_from_storage(record_id); raw_spin_unlock_irqrestore(&erst_lock, flags); if (rc) goto out; entries = erst_record_id_cache.entries; for (i = 0; i < erst_record_id_cache.len; i++) { if (entries[i] == record_id) entries[i] = APEI_ERST_INVALID_RECORD_ID; } __erst_record_id_cache_compact(); out: mutex_unlock(&erst_record_id_cache.lock); return rc; } EXPORT_SYMBOL_GPL(erst_clear); static int __init setup_erst_disable(char *str) { erst_disable = 1; return 0; } __setup("erst_disable", setup_erst_disable); static int erst_check_table(struct acpi_table_erst *erst_tab) { if ((erst_tab->header_length != (sizeof(struct acpi_table_erst) - sizeof(erst_tab->header))) && (erst_tab->header_length != sizeof(struct acpi_table_erst))) return -EINVAL; if (erst_tab->header.length < sizeof(struct acpi_table_erst)) return -EINVAL; if (erst_tab->entries != (erst_tab->header.length - sizeof(struct acpi_table_erst)) / sizeof(struct acpi_erst_entry)) return -EINVAL; return 0; } static int erst_open_pstore(struct pstore_info *psi); static int erst_close_pstore(struct pstore_info *psi); static ssize_t erst_reader(struct pstore_record *record); static int erst_writer(struct pstore_record *record); static int erst_clearer(struct pstore_record *record); static struct pstore_info erst_info = { .owner = THIS_MODULE, .name = "erst", .flags = PSTORE_FLAGS_DMESG, .open = erst_open_pstore, .close = erst_close_pstore, .read = erst_reader, .write = erst_writer, .erase = erst_clearer }; #define CPER_CREATOR_PSTORE \ UUID_LE(0x75a574e3, 0x5052, 0x4b29, 0x8a, 0x8e, 0xbe, 0x2c, \ 0x64, 0x90, 0xb8, 0x9d) #define CPER_SECTION_TYPE_DMESG \ UUID_LE(0xc197e04e, 0xd545, 0x4a70, 0x9c, 0x17, 0xa5, 0x54, \ 0x94, 0x19, 0xeb, 0x12) #define CPER_SECTION_TYPE_DMESG_Z \ UUID_LE(0x4f118707, 0x04dd, 0x4055, 0xb5, 0xdd, 0x95, 0x6d, \ 0x34, 0xdd, 0xfa, 0xc6) #define CPER_SECTION_TYPE_MCE \ UUID_LE(0xfe08ffbe, 0x95e4, 0x4be7, 0xbc, 0x73, 0x40, 0x96, \ 0x04, 0x4a, 0x38, 0xfc) struct cper_pstore_record { struct cper_record_header hdr; struct cper_section_descriptor sec_hdr; char data[]; } __packed; static int reader_pos; static int erst_open_pstore(struct pstore_info *psi) { int rc; if (erst_disable) return -ENODEV; rc = erst_get_record_id_begin(&reader_pos); return rc; } static int erst_close_pstore(struct pstore_info *psi) { erst_get_record_id_end(); return 0; } static ssize_t erst_reader(struct pstore_record *record) { int rc; ssize_t len = 0; u64 record_id; struct cper_pstore_record *rcd; size_t rcd_len = sizeof(*rcd) + erst_info.bufsize; if (erst_disable) return -ENODEV; rcd = kmalloc(rcd_len, GFP_KERNEL); if (!rcd) { rc = -ENOMEM; goto out; } skip: rc = erst_get_record_id_next(&reader_pos, &record_id); if (rc) goto out; /* no more record */ if (record_id == APEI_ERST_INVALID_RECORD_ID) { rc = -EINVAL; goto out; } len = erst_read(record_id, &rcd->hdr, rcd_len); /* The record may be cleared by others, try read next record */ if (len == -ENOENT) goto skip; else if (len < 0 || len < sizeof(*rcd)) { rc = -EIO; goto out; } if (uuid_le_cmp(rcd->hdr.creator_id, CPER_CREATOR_PSTORE) != 0) goto skip; record->buf = kmalloc(len, GFP_KERNEL); if (record->buf == NULL) { rc = -ENOMEM; goto out; } memcpy(record->buf, rcd->data, len - sizeof(*rcd)); record->id = record_id; record->compressed = false; record->ecc_notice_size = 0; if (uuid_le_cmp(rcd->sec_hdr.section_type, CPER_SECTION_TYPE_DMESG_Z) == 0) { record->type = PSTORE_TYPE_DMESG; record->compressed = true; } else if (uuid_le_cmp(rcd->sec_hdr.section_type, CPER_SECTION_TYPE_DMESG) == 0) record->type = PSTORE_TYPE_DMESG; else if (uuid_le_cmp(rcd->sec_hdr.section_type, CPER_SECTION_TYPE_MCE) == 0) record->type = PSTORE_TYPE_MCE; else record->type = PSTORE_TYPE_UNKNOWN; if (rcd->hdr.validation_bits & CPER_VALID_TIMESTAMP) record->time.tv_sec = rcd->hdr.timestamp; else record->time.tv_sec = 0; record->time.tv_nsec = 0; out: kfree(rcd); return (rc < 0) ? rc : (len - sizeof(*rcd)); } static int erst_writer(struct pstore_record *record) { struct cper_pstore_record *rcd = (struct cper_pstore_record *) (erst_info.buf - sizeof(*rcd)); int ret; memset(rcd, 0, sizeof(*rcd)); memcpy(rcd->hdr.signature, CPER_SIG_RECORD, CPER_SIG_SIZE); rcd->hdr.revision = CPER_RECORD_REV; rcd->hdr.signature_end = CPER_SIG_END; rcd->hdr.section_count = 1; rcd->hdr.error_severity = CPER_SEV_FATAL; /* timestamp valid. platform_id, partition_id are invalid */ rcd->hdr.validation_bits = CPER_VALID_TIMESTAMP; rcd->hdr.timestamp = ktime_get_real_seconds(); rcd->hdr.record_length = sizeof(*rcd) + record->size; rcd->hdr.creator_id = CPER_CREATOR_PSTORE; rcd->hdr.notification_type = CPER_NOTIFY_MCE; rcd->hdr.record_id = cper_next_record_id(); rcd->hdr.flags = CPER_HW_ERROR_FLAGS_PREVERR; rcd->sec_hdr.section_offset = sizeof(*rcd); rcd->sec_hdr.section_length = record->size; rcd->sec_hdr.revision = CPER_SEC_REV; /* fru_id and fru_text is invalid */ rcd->sec_hdr.validation_bits = 0; rcd->sec_hdr.flags = CPER_SEC_PRIMARY; switch (record->type) { case PSTORE_TYPE_DMESG: if (record->compressed) rcd->sec_hdr.section_type = CPER_SECTION_TYPE_DMESG_Z; else rcd->sec_hdr.section_type = CPER_SECTION_TYPE_DMESG; break; case PSTORE_TYPE_MCE: rcd->sec_hdr.section_type = CPER_SECTION_TYPE_MCE; break; default: return -EINVAL; } rcd->sec_hdr.section_severity = CPER_SEV_FATAL; ret = erst_write(&rcd->hdr); record->id = rcd->hdr.record_id; return ret; } static int erst_clearer(struct pstore_record *record) { return erst_clear(record->id); } static int __init erst_init(void) { int rc = 0; acpi_status status; struct apei_exec_context ctx; struct apei_resources erst_resources; struct resource *r; char *buf; if (acpi_disabled) goto err; if (erst_disable) { pr_info( "Error Record Serialization Table (ERST) support is disabled.\n"); goto err; } status = acpi_get_table(ACPI_SIG_ERST, 0, (struct acpi_table_header **)&erst_tab); if (status == AE_NOT_FOUND) goto err; else if (ACPI_FAILURE(status)) { const char *msg = acpi_format_exception(status); pr_err("Failed to get table, %s\n", msg); rc = -EINVAL; goto err; } rc = erst_check_table(erst_tab); if (rc) { pr_err(FW_BUG "ERST table is invalid.\n"); goto err; } apei_resources_init(&erst_resources); erst_exec_ctx_init(&ctx); rc = apei_exec_collect_resources(&ctx, &erst_resources); if (rc) goto err_fini; rc = apei_resources_request(&erst_resources, "APEI ERST"); if (rc) goto err_fini; rc = apei_exec_pre_map_gars(&ctx); if (rc) goto err_release; rc = erst_get_erange(&erst_erange); if (rc) { if (rc == -ENODEV) pr_info( "The corresponding hardware device or firmware implementation " "is not available.\n"); else pr_err("Failed to get Error Log Address Range.\n"); goto err_unmap_reg; } r = request_mem_region(erst_erange.base, erst_erange.size, "APEI ERST"); if (!r) { pr_err("Can not request [mem %#010llx-%#010llx] for ERST.\n", (unsigned long long)erst_erange.base, (unsigned long long)erst_erange.base + erst_erange.size - 1); rc = -EIO; goto err_unmap_reg; } rc = -ENOMEM; erst_erange.vaddr = ioremap_cache(erst_erange.base, erst_erange.size); if (!erst_erange.vaddr) goto err_release_erange; pr_info( "Error Record Serialization Table (ERST) support is initialized.\n"); buf = kmalloc(erst_erange.size, GFP_KERNEL); spin_lock_init(&erst_info.buf_lock); if (buf) { erst_info.buf = buf + sizeof(struct cper_pstore_record); erst_info.bufsize = erst_erange.size - sizeof(struct cper_pstore_record); rc = pstore_register(&erst_info); if (rc) { if (rc != -EPERM) pr_info( "Could not register with persistent store.\n"); erst_info.buf = NULL; erst_info.bufsize = 0; kfree(buf); } } else pr_err( "Failed to allocate %lld bytes for persistent store error log.\n", erst_erange.size); /* Cleanup ERST Resources */ apei_resources_fini(&erst_resources); return 0; err_release_erange: release_mem_region(erst_erange.base, erst_erange.size); err_unmap_reg: apei_exec_post_unmap_gars(&ctx); err_release: apei_resources_release(&erst_resources); err_fini: apei_resources_fini(&erst_resources); err: erst_disable = 1; return rc; } device_initcall(erst_init);
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