/* * This file is part of the coreboot project. * * Copyright (C) 2012 The ChromiumOS Authors. All rights reserved. * * 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; version 2 of the License. * * 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., 51 Franklin St, Fifth Floor, Boston, MA, 02110-1301 USA */ #if CONFIG_HAVE_ACPI_RESUME == 1 #include #endif #include #include #if CONFIG_ARCH_X86 #include #endif #include #include #include #include #include #include #include #include #include "elog_internal.h" #if CONFIG_CHROMEOS #include #if CONFIG_ELOG_FLASH_BASE == 0 #error "CONFIG_ELOG_FLASH_BASE is invalid" #endif #if CONFIG_ELOG_FULL_THRESHOLD >= CONFIG_ELOG_AREA_SIZE #error "CONFIG_ELOG_FULL_THRESHOLD is larger than CONFIG_ELOG_AREA_SIZE" #endif #if (CONFIG_ELOG_AREA_SIZE - CONFIG_ELOG_FULL_THRESHOLD) < (MAX_EVENT_SIZE + 1) #error "CONFIG_ELOG_FULL_THRESHOLD is too small" #endif #if CONFIG_ELOG_SHRINK_SIZE >= CONFIG_ELOG_AREA_SIZE #error "CONFIG_ELOG_SHRINK_SIZE is larger than CONFIG_ELOG_AREA_SIZE" #endif #if (CONFIG_ELOG_AREA_SIZE - CONFIG_ELOG_SHRINK_SIZE) > \ CONFIG_ELOG_FULL_THRESHOLD #error "CONFIG_ELOG_SHRINK_SIZE is too large" #endif #if CONFIG_ELOG_DEBUG #define elog_debug(STR...) printk(BIOS_DEBUG, STR) #else #define elog_debug(STR...) #endif /* * Static variables for ELOG state */ static struct elog_area *elog_area; static u16 total_size; static u16 log_size; static u32 flash_base; static elog_area_state area_state; static elog_header_state header_state; static elog_event_buffer_state event_buffer_state; static u16 next_event_offset; static u16 event_count; static int elog_initialized; static struct spi_flash *elog_spi; static inline u32 get_rom_size(void) { u32 rom_size; /* Assume the used space of the ROM image starts from 0. The * physical size of the device may not be completely used. */ rom_size = elog_spi->size; if (rom_size > CONFIG_ROM_SIZE) rom_size = CONFIG_ROM_SIZE; return rom_size; } /* * Convert a memory mapped flash address into a flash offset */ static inline u32 elog_flash_address_to_offset(u8 *address) { #if CONFIG_ARCH_X86 /* For x86, assume address is memory-mapped near 4GB */ u32 rom_size; if (!elog_spi) return 0; rom_size = get_rom_size(); return (u32)address - ((u32)~0UL - rom_size + 1); #else return (u32)address; #endif } /* * Convert a flash offset into a memory mapped flash address */ static inline u8* elog_flash_offset_to_address(u32 offset) { u32 rom_size; if (!elog_spi) return NULL; rom_size = get_rom_size(); return (u8*)((u32)~0UL - rom_size + 1 + offset); } /* * Pointer to an event log header in the event data area */ static inline struct event_header* elog_get_event_base(u32 offset) { return (struct event_header *)&elog_area->data[offset]; } /* * Update the checksum at the last byte */ static void elog_update_checksum(struct event_header *event, u8 checksum) { u8 *event_data = (u8*)event; event_data[event->length - 1] = checksum; } /* * Simple byte checksum for events */ static u8 elog_checksum_event(struct event_header *event) { u8 index, checksum = 0; u8 *data = (u8*)event; for (index = 0; index < event->length; index++) checksum += data[index]; return checksum; } /* * Check if a raw buffer is filled with ELOG_TYPE_EOL byte */ static int elog_is_buffer_clear(void *base, u32 size) { u8 *current = base; u8 *end = current + size; elog_debug("elog_is_buffer_clear(base=0x%p size=%u)\n", base, size); for (; current != end; current++) { if (*current != ELOG_TYPE_EOL) return 0; } return 1; } /* * Check that the ELOG area has been initialized and is valid. */ static int elog_is_area_valid(void) { elog_debug("elog_is_area_valid()\n"); if (area_state != ELOG_AREA_HAS_CONTENT) return 0; if (header_state != ELOG_HEADER_VALID) return 0; if (event_buffer_state != ELOG_EVENT_BUFFER_OK) return 0; return 1; } /* * Verify the contents of an ELOG Header structure * Returns 1 if the header is valid, 0 otherwise */ static int elog_is_header_valid(struct elog_header *header) { elog_debug("elog_is_header_valid()\n"); if (header->magic != ELOG_SIGNATURE) { printk(BIOS_ERR, "ELOG: header magic 0x%X != 0x%X\n", header->magic, ELOG_SIGNATURE); return 0; } if (header->version != ELOG_VERSION) { printk(BIOS_ERR, "ELOG: header version %u != %u\n", header->version, ELOG_VERSION); return 0; } if (header->header_size != sizeof(*header)) { printk(BIOS_ERR, "ELOG: header size mismatch %u != %zu\n", header->header_size, sizeof(*header)); return 0; } return 1; } /* * Validate the event header and data. */ static int elog_is_event_valid(u32 offset) { struct event_header *event; event = elog_get_event_base(offset); if (!event) return 0; /* Validate event length */ if ((offsetof(struct event_header, type) + sizeof(event->type) - 1 + offset) >= log_size) return 0; /* End of event marker has been found */ if (event->type == ELOG_TYPE_EOL) return 0; /* Check if event fits in area */ if ((offsetof(struct event_header, length) + sizeof(event->length) - 1 + offset) >= log_size) return 0; /* * If the current event length + the current offset exceeds * the area size then the event area is corrupt. */ if ((event->length + offset) >= log_size) return 0; /* Event length must be at least header size + checksum */ if (event->length < (sizeof(*event) + 1)) return 0; /* If event checksum is invalid the area is corrupt */ if (elog_checksum_event(event) != 0) return 0; /* Event is valid */ return 1; } /* * Write 'size' bytes of data pointed to by 'address' in the flash backing * store into flash. This will not erase the flash and it assumes the flash * area has been erased appropriately. */ static void elog_flash_write(void *address, u32 size) { u32 offset; if (!address || !size || !elog_spi) return; offset = flash_base; offset += (u8 *)address - (u8 *)elog_area; elog_debug("elog_flash_write(address=0x%p offset=0x%08x size=%u)\n", address, offset, size); /* Write the data to flash */ elog_spi->write(elog_spi, offset, size, address); } /* * Erase the first block specified in the address. * Only handles flash area within a single flash block. */ static void elog_flash_erase(void *address, u32 size) { u32 offset; if (!address || !size || !elog_spi) return; offset = flash_base; offset += (u8 *)address - (u8*)elog_area; elog_debug("elog_flash_erase(address=0x%p offset=0x%08x size=%u)\n", address, offset, size); /* Erase the sectors in this region */ elog_spi->erase(elog_spi, offset, size); } /* * Scan the event area and validate each entry and update the ELOG state. */ static void elog_update_event_buffer_state(void) { u32 count = 0; u32 offset = 0; struct event_header *event; elog_debug("elog_update_event_buffer_state()\n"); /* Go through each event and validate it */ while (1) { event = elog_get_event_base(offset); /* Do not de-reference anything past the area length */ if ((offsetof(struct event_header, type) + sizeof(event->type) - 1 + offset) >= log_size) { event_buffer_state = ELOG_EVENT_BUFFER_CORRUPTED; break; } /* The end of the event marker has been found */ if (event->type == ELOG_TYPE_EOL) break; /* Validate the event */ if (!elog_is_event_valid(offset)) { event_buffer_state = ELOG_EVENT_BUFFER_CORRUPTED; break; } /* Move to the next event */ count++; offset += event->length; } /* Ensure the remaining buffer is empty */ if (!elog_is_buffer_clear(&elog_area->data[offset], log_size - offset)) event_buffer_state = ELOG_EVENT_BUFFER_CORRUPTED; /* Update ELOG state */ event_count = count; next_event_offset = offset; } static void elog_scan_flash(void) { elog_debug("elog_scan_flash()\n"); area_state = ELOG_AREA_UNDEFINED; header_state = ELOG_HEADER_INVALID; event_buffer_state = ELOG_EVENT_BUFFER_OK; /* Fill memory buffer by reading from SPI */ elog_spi->read(elog_spi, flash_base, total_size, elog_area); next_event_offset = 0; event_count = 0; /* Check if the area is empty or not */ if (elog_is_buffer_clear(elog_area, total_size)) { area_state = ELOG_AREA_EMPTY; return; } area_state = ELOG_AREA_HAS_CONTENT; /* Validate the header */ if (!elog_is_header_valid(&elog_area->header)) { header_state = ELOG_HEADER_INVALID; return; } header_state = ELOG_HEADER_VALID; elog_update_event_buffer_state(); } static void elog_prepare_empty(void) { struct elog_header *header; elog_debug("elog_prepare_empty()\n"); /* Write out the header */ header = &elog_area->header; header->magic = ELOG_SIGNATURE; header->version = ELOG_VERSION; header->header_size = sizeof(struct elog_header); header->reserved[0] = ELOG_TYPE_EOL; header->reserved[1] = ELOG_TYPE_EOL; elog_flash_write(elog_area, header->header_size); elog_scan_flash(); } /* * Shrink the log, deleting old entries and moving the * remaining ones to the front of the log. */ static int elog_shrink(void) { struct event_header *event; u16 discard_count = 0; u16 offset = 0; u16 new_size = 0; elog_debug("elog_shrink()\n"); if (next_event_offset < CONFIG_ELOG_SHRINK_SIZE) return 0; while (1) { /* Next event has exceeded constraints */ if (offset > CONFIG_ELOG_SHRINK_SIZE) break; event = elog_get_event_base(offset); /* Reached the end of the area */ if (!event || event->type == ELOG_TYPE_EOL) break; offset += event->length; discard_count++; } new_size = next_event_offset - offset; memmove(&elog_area->data[0], &elog_area->data[offset], new_size); memset(&elog_area->data[new_size], ELOG_TYPE_EOL, log_size - new_size); elog_flash_erase(elog_area, total_size); elog_flash_write(elog_area, total_size); elog_scan_flash(); /* Ensure the area was successfully erased */ if (next_event_offset >= CONFIG_ELOG_FULL_THRESHOLD) { printk(BIOS_ERR, "ELOG: Flash area was not erased!\n"); return -1; } /* Add clear event */ elog_add_event_word(ELOG_TYPE_LOG_CLEAR, offset); return 0; } #ifndef __SMM__ /* * Fill out SMBIOS Type 15 table entry so the * event log can be discovered at runtime. */ int elog_smbios_write_type15(unsigned long *current, int handle) { struct smbios_type15 *t = (struct smbios_type15 *)*current; int len = sizeof(struct smbios_type15); #if CONFIG_ELOG_CBMEM /* Save event log buffer into CBMEM for the OS to read */ void *cbmem = cbmem_add(CBMEM_ID_ELOG, total_size); if (!cbmem) return 0; memcpy(cbmem, elog_area, total_size); #endif memset(t, 0, len); t->type = SMBIOS_EVENT_LOG; t->length = len - 2; t->handle = handle; t->area_length = total_size - 1; t->header_offset = 0; t->data_offset = sizeof(struct elog_header); t->access_method = SMBIOS_EVENTLOG_ACCESS_METHOD_MMIO32; t->log_status = SMBIOS_EVENTLOG_STATUS_VALID; t->change_token = 0; #if CONFIG_ELOG_CBMEM t->address = (u32)cbmem; #else t->address = (u32)elog_flash_offset_to_address(flash_base); #endif t->header_format = ELOG_HEADER_TYPE_OEM; t->log_type_descriptors = 0; t->log_type_descriptor_length = 2; *current += len; return len; } #endif /* * Clear the entire event log */ int elog_clear(void) { elog_debug("elog_clear()\n"); /* Make sure ELOG structures are initialized */ if (elog_init() < 0) return -1; /* Erase flash area */ elog_flash_erase(elog_area, total_size); elog_prepare_empty(); if (!elog_is_area_valid()) return -1; /* Log the clear event */ elog_add_event_word(ELOG_TYPE_LOG_CLEAR, total_size); return 0; } static void elog_find_flash(void) { #if CONFIG_CHROMEOS u8 *flash_base_ptr; #endif elog_debug("elog_find_flash()\n"); #if CONFIG_CHROMEOS /* Find the ELOG base and size in FMAP */ total_size = find_fmap_entry("RW_ELOG", (void **)&flash_base_ptr); if (total_size < 0) { printk(BIOS_WARNING, "ELOG: Unable to find RW_ELOG in FMAP, " "using CONFIG_ELOG_FLASH_BASE instead\n"); total_size = CONFIG_ELOG_AREA_SIZE; } else { flash_base = elog_flash_address_to_offset(flash_base_ptr); /* Use configured size if smaller than FMAP size */ if (total_size > CONFIG_ELOG_AREA_SIZE) total_size = CONFIG_ELOG_AREA_SIZE; } #else flash_base = CONFIG_ELOG_FLASH_BASE; total_size = CONFIG_ELOG_AREA_SIZE; #endif log_size = total_size - sizeof(struct elog_header); } /* * Event log main entry point */ int elog_init(void) { if (elog_initialized) return 0; elog_debug("elog_init()\n"); /* Probe SPI chip. SPI controller must already be initialized. */ elog_spi = spi_flash_probe(CONFIG_BOOT_MEDIA_SPI_BUS, 0); if (!elog_spi) { printk(BIOS_ERR, "ELOG: Unable to find SPI flash\n"); return -1; } /* Set up the backing store */ elog_find_flash(); if (flash_base == 0) { printk(BIOS_ERR, "ELOG: Invalid flash base\n"); return -1; } elog_area = malloc(total_size); if (!elog_area) { printk(BIOS_ERR, "ELOG: Unable to allocate backing store\n"); return -1; } /* Load the log from flash */ elog_scan_flash(); /* Prepare the flash if necessary */ if (header_state == ELOG_HEADER_INVALID || event_buffer_state == ELOG_EVENT_BUFFER_CORRUPTED) { /* If the header is invalid or the events are corrupted, * no events can be salvaged so erase the entire area. */ printk(BIOS_ERR, "ELOG: flash area invalid\n"); elog_flash_erase(elog_area, total_size); elog_prepare_empty(); } if (area_state == ELOG_AREA_EMPTY) elog_prepare_empty(); if (!elog_is_area_valid()) { printk(BIOS_ERR, "ELOG: Unable to prepare flash\n"); return -1; } elog_initialized = 1; printk(BIOS_INFO, "ELOG: FLASH @0x%p [SPI 0x%08x]\n", elog_area, flash_base); printk(BIOS_INFO, "ELOG: area is %d bytes, full threshold %d," " shrink size %d\n", total_size, CONFIG_ELOG_FULL_THRESHOLD, CONFIG_ELOG_SHRINK_SIZE); /* Log a clear event if necessary */ if (event_count == 0) elog_add_event_word(ELOG_TYPE_LOG_CLEAR, total_size); /* Shrink the log if we are getting too full */ if (next_event_offset >= CONFIG_ELOG_FULL_THRESHOLD) if (elog_shrink() < 0) return -1; #if !defined(__SMM__) /* Log boot count event except in S3 resume */ #if CONFIG_ELOG_BOOT_COUNT == 1 #if CONFIG_HAVE_ACPI_RESUME == 1 if (!acpi_is_wakeup_s3()) #endif elog_add_event_dword(ELOG_TYPE_BOOT, boot_count_read()); #endif #if CONFIG_ARCH_X86 /* Check and log POST codes from previous boot */ if (CONFIG_CMOS_POST) cmos_post_log(); #endif #endif return 0; } /* * Populate timestamp in event header with current time */ static void elog_fill_timestamp(struct event_header *event) { struct rtc_time time; rtc_get(&time); event->second = bin2bcd(time.sec); event->minute = bin2bcd(time.min); event->hour = bin2bcd(time.hour); event->day = bin2bcd(time.mday); event->month = bin2bcd(time.mon); event->year = bin2bcd(time.year) & 0xff; /* Basic sanity check of expected ranges */ if (event->month > 0x12 || event->day > 0x31 || event->hour > 0x23 || event->minute > 0x59 || event->second > 0x59) { event->year = 0; event->month = 0; event->day = 0; event->hour = 0; event->minute = 0; event->second = 0; } } /* * Add an event to the log */ void elog_add_event_raw(u8 event_type, void *data, u8 data_size) { struct event_header *event; u8 event_size; elog_debug("elog_add_event_raw(type=%X)\n", event_type); /* Make sure ELOG structures are initialized */ if (elog_init() < 0) return; /* Header + Data + Checksum */ event_size = sizeof(*event) + data_size + 1; if (event_size > MAX_EVENT_SIZE) { printk(BIOS_ERR, "ELOG: Event(%X) data size too " "big (%d)\n", event_type, event_size); return; } /* Make sure event data can fit */ if ((next_event_offset + event_size) >= log_size) { printk(BIOS_ERR, "ELOG: Event(%X) does not fit\n", event_type); return; } /* Fill out event data */ event = elog_get_event_base(next_event_offset); event->type = event_type; event->length = event_size; elog_fill_timestamp(event); if (data_size) memcpy(&event[1], data, data_size); /* Zero the checksum byte and then compute checksum */ elog_update_checksum(event, 0); elog_update_checksum(event, -(elog_checksum_event(event))); /* Update the ELOG state */ event_count++; elog_flash_write((void *)event, event_size); next_event_offset += event_size; printk(BIOS_INFO, "ELOG: Event(%X) added with size %d\n", event_type, event_size); /* Shrink the log if we are getting too full */ if (next_event_offset >= CONFIG_ELOG_FULL_THRESHOLD) elog_shrink(); } void elog_add_event(u8 event_type) { elog_add_event_raw(event_type, NULL, 0); } void elog_add_event_byte(u8 event_type, u8 data) { elog_add_event_raw(event_type, &data, sizeof(data)); } void elog_add_event_word(u8 event_type, u16 data) { elog_add_event_raw(event_type, &data, sizeof(data)); } void elog_add_event_dword(u8 event_type, u32 data) { elog_add_event_raw(event_type, &data, sizeof(data)); } void elog_add_event_wake(u8 source, u32 instance) { struct elog_event_data_wake wake = { .source = source, .instance = instance }; elog_add_event_raw(ELOG_TYPE_WAKE_SOURCE, &wake, sizeof(wake)); }