diff --git a/components/bootloader/Makefile.projbuild b/components/bootloader/Makefile.projbuild index b9dab3e09..3799e913c 100644 --- a/components/bootloader/Makefile.projbuild +++ b/components/bootloader/Makefile.projbuild @@ -20,7 +20,7 @@ SECURE_BOOT_KEYFILE=$(abspath $(call dequote,$(CONFIG_SECURE_BOOTLOADER_KEY_FILE # Custom recursive make for bootloader sub-project BOOTLOADER_MAKE=+$(MAKE) -C $(BOOTLOADER_COMPONENT_PATH)/src \ V=$(V) SDKCONFIG=$(BOOTLOADER_SDKCONFIG) \ - BUILD_DIR_BASE=$(BOOTLOADER_BUILD_DIR) \ + BUILD_DIR_BASE=$(BOOTLOADER_BUILD_DIR) IS_BOOTLOADER_BUILD=1 .PHONY: bootloader-clean bootloader-flash bootloader $(BOOTLOADER_BIN) @@ -89,7 +89,9 @@ $(SECURE_BOOT_KEYFILE): @exit 1 else -$(error Bad sdkconfig - one of CONFIG_SECURE_BOOTLOADER_DISABLED, CONFIG_SECURE_BOOTLOADER_ONE_TIME_FLASH, CONFIG_SECURE_BOOTLOADER_REFLASHABLE must be set) +bootloader: + @echo "Invalid bootloader target: bad sdkconfig?" + @exit 1 endif all_binaries: $(BOOTLOADER_BIN) diff --git a/components/bootloader/src/Makefile b/components/bootloader/src/Makefile index add9c15d6..278e0e9af 100644 --- a/components/bootloader/src/Makefile +++ b/components/bootloader/src/Makefile @@ -4,7 +4,7 @@ # PROJECT_NAME := bootloader -COMPONENTS := esptool_py bootloader log spi_flash +COMPONENTS := esptool_py bootloader bootloader_support log spi_flash # The bootloader pseudo-component is also included in this build, for its Kconfig.projbuild to be included. # diff --git a/components/bootloader/src/main/bootloader_config.h b/components/bootloader/src/main/bootloader_config.h index 1655280dc..082358182 100644 --- a/components/bootloader/src/main/bootloader_config.h +++ b/components/bootloader/src/main/bootloader_config.h @@ -25,8 +25,6 @@ extern "C" #define BOOT_VERSION "V0.1" #define SPI_SEC_SIZE 0x1000 -#define MEM_CACHE(offset) (uint8_t *)(0x3f400000 + (offset)) -#define CACHE_READ_32(offset) ((uint32_t *)(0x3f400000 + (offset))) #define IROM_LOW 0x400D0000 #define IROM_HIGH 0x40400000 #define DROM_LOW 0x3F400000 @@ -61,9 +59,6 @@ typedef struct { uint32_t selected_subtype; } bootloader_state_t; -void boot_cache_redirect( uint32_t pos, size_t size ); -uint32_t get_bin_len(uint32_t pos); - bool flash_encrypt(bootloader_state_t *bs); bool secure_boot_generate_bootloader_digest(void); diff --git a/components/bootloader/src/main/bootloader_start.c b/components/bootloader/src/main/bootloader_start.c index a4b27702c..3bc2696a4 100644 --- a/components/bootloader/src/main/bootloader_start.c +++ b/components/bootloader/src/main/bootloader_start.c @@ -33,6 +33,8 @@ #include "soc/timer_group_reg.h" #include "sdkconfig.h" +#include "esp_image_format.h" +#include "bootloader_flash.h" #include "bootloader_config.h" @@ -49,7 +51,7 @@ flash cache is down and the app CPU is in reset. We do have a stack, so we can d extern void Cache_Flush(int); void bootloader_main(); -void unpack_load_app(const esp_partition_pos_t *app_node); +static void unpack_load_app(const esp_partition_pos_t *app_node); void print_flash_info(const esp_image_header_t* pfhdr); void IRAM_ATTR set_cache_and_start_app(uint32_t drom_addr, uint32_t drom_load_addr, @@ -94,53 +96,6 @@ void IRAM_ATTR call_start_cpu0() bootloader_main(); } -/** - * @function : get_bin_len - * @description: get bin's length - * - * @inputs: pos bin locate address in flash - * @return: uint32 length of bin,if bin MAGIC error return 0 - */ - -uint32_t get_bin_len(uint32_t pos) -{ - uint32_t len = 8 + 16; - uint8_t i; - ESP_LOGD(TAG, "pos %d %x",pos,*(uint8_t *)pos); - if(0xE9 != *(uint8_t *)pos) { - return 0; - } - for (i = 0; i < *(uint8_t *)(pos + 1); i++) { - len += *(uint32_t *)(pos + len + 4) + 8; - } - if (len % 16 != 0) { - len = (len / 16 + 1) * 16; - } else { - len += 16; - } - ESP_LOGD(TAG, "bin length = %d", len); - return len; -} - -/** - * @function : boot_cache_redirect - * @description: Configure several pages in flash map so that `size` bytes - * starting at `pos` are mapped to 0x3f400000. - * This sets up mapping only for PRO CPU. - * - * @inputs: pos address in flash - * size size of the area to map, in bytes - */ -void boot_cache_redirect( uint32_t pos, size_t size ) -{ - uint32_t pos_aligned = pos & 0xffff0000; - uint32_t count = (size + 0xffff) / 0x10000; - Cache_Read_Disable( 0 ); - Cache_Flush( 0 ); - ESP_LOGD(TAG, "mmu set paddr=%08x count=%d", pos_aligned, count ); - cache_flash_mmu_set( 0, 0, 0x3f400000, pos_aligned, 64, count ); - Cache_Read_Enable( 0 ); -} /** * @function : load_partition_table @@ -154,79 +109,86 @@ void boot_cache_redirect( uint32_t pos, size_t size ) */ bool load_partition_table(bootloader_state_t* bs, uint32_t addr) { - esp_partition_info_t partition; - uint32_t end = addr + 0x1000; - int index = 0; + const esp_partition_info_t *partitions; + const int PARTITION_TABLE_SIZE = 0x1000; + const int MAX_PARTITIONS = PARTITION_TABLE_SIZE / sizeof(esp_partition_info_t); char *partition_usage; ESP_LOGI(TAG, "Partition Table:"); ESP_LOGI(TAG, "## Label Usage Type ST Offset Length"); - while (addr < end) { - ESP_LOGD(TAG, "load partition table entry from %x(%08x)", addr, MEM_CACHE(addr)); - memcpy(&partition, MEM_CACHE(addr), sizeof(partition)); - ESP_LOGD(TAG, "type=%x subtype=%x", partition.type, partition.subtype); + partitions = bootloader_mmap(addr, 0x1000); + if (!partitions) { + ESP_LOGE(TAG, "bootloader_mmap(0x%x, 0x%x) failed", addr, 0x1000); + return false; + } + ESP_LOGD(TAG, "mapped partition table 0x%x at 0x%x", addr, (intptr_t)partitions); + + for(int i = 0; i < MAX_PARTITIONS; i++) { + const esp_partition_info_t *partition = &partitions[i]; + ESP_LOGD(TAG, "load partition table entry 0x%x", (intptr_t)partition); + ESP_LOGD(TAG, "type=%x subtype=%x", partition->type, partition->subtype); partition_usage = "unknown"; - if (partition.magic == ESP_PARTITION_MAGIC) { /* valid partition definition */ - switch(partition.type) { - case PART_TYPE_APP: /* app partition */ - switch(partition.subtype) { - case PART_SUBTYPE_FACTORY: /* factory binary */ - bs->factory = partition.pos; - partition_usage = "factory app"; - break; - case PART_SUBTYPE_TEST: /* test binary */ - bs->test = partition.pos; - partition_usage = "test app"; - break; - default: - /* OTA binary */ - if ((partition.subtype & ~PART_SUBTYPE_OTA_MASK) == PART_SUBTYPE_OTA_FLAG) { - bs->ota[partition.subtype & PART_SUBTYPE_OTA_MASK] = partition.pos; - ++bs->app_count; - partition_usage = "OTA app"; - } - else { - partition_usage = "Unknown app"; - } - break; + if (partition->magic != ESP_PARTITION_MAGIC) { + /* invalid partition definition indicates end-of-table */ + break; + } + + /* valid partition table */ + switch(partition->type) { + case PART_TYPE_APP: /* app partition */ + switch(partition->subtype) { + case PART_SUBTYPE_FACTORY: /* factory binary */ + bs->factory = partition->pos; + partition_usage = "factory app"; + break; + case PART_SUBTYPE_TEST: /* test binary */ + bs->test = partition->pos; + partition_usage = "test app"; + break; + default: + /* OTA binary */ + if ((partition->subtype & ~PART_SUBTYPE_OTA_MASK) == PART_SUBTYPE_OTA_FLAG) { + bs->ota[partition->subtype & PART_SUBTYPE_OTA_MASK] = partition->pos; + ++bs->app_count; + partition_usage = "OTA app"; } - break; /* PART_TYPE_APP */ - case PART_TYPE_DATA: /* data partition */ - switch(partition.subtype) { - case PART_SUBTYPE_DATA_OTA: /* ota data */ - bs->ota_info = partition.pos; - partition_usage = "OTA data"; - break; - case PART_SUBTYPE_DATA_RF: - partition_usage = "RF data"; - break; - case PART_SUBTYPE_DATA_WIFI: - partition_usage = "WiFi data"; - break; - default: - partition_usage = "Unknown data"; - break; + else { + partition_usage = "Unknown app"; } - break; /* PARTITION_USAGE_DATA */ - default: /* other partition type */ break; } - } - /* invalid partition magic number */ - else { - break; /* todo: validate md5 */ + break; /* PART_TYPE_APP */ + case PART_TYPE_DATA: /* data partition */ + switch(partition->subtype) { + case PART_SUBTYPE_DATA_OTA: /* ota data */ + bs->ota_info = partition->pos; + partition_usage = "OTA data"; + break; + case PART_SUBTYPE_DATA_RF: + partition_usage = "RF data"; + break; + case PART_SUBTYPE_DATA_WIFI: + partition_usage = "WiFi data"; + break; + default: + partition_usage = "Unknown data"; + break; + } + break; /* PARTITION_USAGE_DATA */ + default: /* other partition type */ + break; } /* print partition type info */ - ESP_LOGI(TAG, "%2d %-16s %-16s %02x %02x %08x %08x", index, partition.label, partition_usage, - partition.type, partition.subtype, - partition.pos.offset, partition.pos.size); - index++; - addr += sizeof(partition); + ESP_LOGI(TAG, "%2d %-16s %-16s %02x %02x %08x %08x", i, partition->label, partition_usage, + partition->type, partition->subtype, + partition->pos.offset, partition->pos.size); } + bootloader_unmap(partitions); + ESP_LOGI(TAG,"End of partition table"); return true; } @@ -254,8 +216,9 @@ void bootloader_main() esp_image_header_t fhdr; bootloader_state_t bs; - SpiFlashOpResult spiRet1,spiRet2; + SpiFlashOpResult spiRet1,spiRet2; esp_ota_select_entry_t sa,sb; + const esp_ota_select_entry_t *ota_select_map; memset(&bs, 0, sizeof(bs)); @@ -264,10 +227,11 @@ void bootloader_main() REG_CLR_BIT( RTC_CNTL_WDTCONFIG0_REG, RTC_CNTL_WDT_FLASHBOOT_MOD_EN ); REG_CLR_BIT( TIMG_WDTCONFIG0_REG(0), TIMG_WDT_FLASHBOOT_MOD_EN ); SPIUnlock(); - /*register first sector in drom0 page 0 */ - boot_cache_redirect( 0, 0x5000 ); - memcpy((unsigned int *) &fhdr, MEM_CACHE(0x1000), sizeof(esp_image_header_t) ); + if(esp_image_load_header(0x1000, &fhdr) != ESP_OK) { + ESP_LOGE(TAG, "failed to load bootloader header!"); + return; + } print_flash_info(&fhdr); @@ -282,9 +246,19 @@ void bootloader_main() if (bs.ota_info.offset != 0) { // check if partition table has OTA info partition //ESP_LOGE("OTA info sector handling is not implemented"); - boot_cache_redirect(bs.ota_info.offset, bs.ota_info.size ); - memcpy(&sa,MEM_CACHE(bs.ota_info.offset & 0x0000ffff),sizeof(sa)); - memcpy(&sb,MEM_CACHE((bs.ota_info.offset + 0x1000)&0x0000ffff) ,sizeof(sb)); + if (bs.ota_info.size < 2 * sizeof(esp_ota_select_entry_t)) { + ESP_LOGE(TAG, "ERROR: ota_info partition size %d is too small (minimum %d bytes)", bs.ota_info.size, sizeof(esp_ota_select_entry_t)); + return; + } + ota_select_map = bootloader_mmap(bs.ota_info.offset, bs.ota_info.size); + if (!ota_select_map) { + ESP_LOGE(TAG, "bootloader_mmap(0x%x, 0x%x) failed", bs.ota_info.offset, bs.ota_info.size); + return; + } + sa = ota_select_map[0]; + sb = ota_select_map[1]; + bootloader_unmap(ota_select_map); + if(sa.ota_seq == 0xFFFFFFFF && sb.ota_seq == 0xFFFFFFFF) { // init status flash load_part_pos = bs.ota[0]; @@ -355,14 +329,14 @@ void bootloader_main() } -void unpack_load_app(const esp_partition_pos_t* partition) +static void unpack_load_app(const esp_partition_pos_t* partition) { - boot_cache_redirect(partition->offset, partition->size); - - uint32_t pos = 0; esp_image_header_t image_header; - memcpy(&image_header, MEM_CACHE(pos), sizeof(image_header)); - pos += sizeof(image_header); + + if (esp_image_load_header(partition->offset, &image_header) != ESP_OK) { + ESP_LOGE(TAG, "Failed to load app image header @ 0x%x", partition->offset); + return; + } uint32_t drom_addr = 0; uint32_t drom_load_addr = 0; @@ -376,19 +350,22 @@ void unpack_load_app(const esp_partition_pos_t* partition) bool load_rtc_memory = rtc_get_reset_reason(0) != DEEPSLEEP_RESET; ESP_LOGD(TAG, "bin_header: %u %u %u %u %08x", image_header.magic, - image_header.blocks, + image_header.segment_count, image_header.spi_mode, image_header.spi_size, (unsigned)image_header.entry_addr); - for (uint32_t section_index = 0; - section_index < image_header.blocks; - ++section_index) { - esp_image_section_header_t section_header = {0}; - memcpy(§ion_header, MEM_CACHE(pos), sizeof(section_header)); - pos += sizeof(section_header); + for (int segment = 0; segment < image_header.segment_count; segment++) { + esp_image_segment_header_t segment_header; + uint32_t data_offs; + if(esp_image_load_segment_header(segment, partition->offset, + &image_header, &segment_header, + &data_offs) != ESP_OK) { + ESP_LOGE(TAG, "failed to load segment header #%d", segment); + return; + } - const uint32_t address = section_header.load_addr; + const uint32_t address = segment_header.load_addr; bool load = true; bool map = false; if (address == 0x00000000) { // padding, ignore block @@ -400,47 +377,50 @@ void unpack_load_app(const esp_partition_pos_t* partition) } if (address >= DROM_LOW && address < DROM_HIGH) { - ESP_LOGD(TAG, "found drom section, map from %08x to %08x", pos, - section_header.load_addr); - drom_addr = partition->offset + pos - sizeof(section_header); - drom_load_addr = section_header.load_addr; - drom_size = section_header.data_len + sizeof(section_header); + ESP_LOGD(TAG, "found drom section, map from %08x to %08x", data_offs, + segment_header.load_addr); + drom_addr = data_offs; + drom_load_addr = segment_header.load_addr; + drom_size = segment_header.data_len + sizeof(segment_header); load = false; map = true; } if (address >= IROM_LOW && address < IROM_HIGH) { - ESP_LOGD(TAG, "found irom section, map from %08x to %08x", pos, - section_header.load_addr); - irom_addr = partition->offset + pos - sizeof(section_header); - irom_load_addr = section_header.load_addr; - irom_size = section_header.data_len + sizeof(section_header); + ESP_LOGD(TAG, "found irom section, map from %08x to %08x", data_offs, + segment_header.load_addr); + irom_addr = data_offs; + irom_load_addr = segment_header.load_addr; + irom_size = segment_header.data_len + sizeof(segment_header); load = false; map = true; } if (!load_rtc_memory && address >= RTC_IRAM_LOW && address < RTC_IRAM_HIGH) { - ESP_LOGD(TAG, "Skipping RTC code section at %08x\n", pos); + ESP_LOGD(TAG, "Skipping RTC code section at %08x\n", data_offs); load = false; } if (!load_rtc_memory && address >= RTC_DATA_LOW && address < RTC_DATA_HIGH) { - ESP_LOGD(TAG, "Skipping RTC data section at %08x\n", pos); + ESP_LOGD(TAG, "Skipping RTC data section at %08x\n", data_offs); load = false; } - ESP_LOGI(TAG, "section %d: paddr=0x%08x vaddr=0x%08x size=0x%05x (%6d) %s", section_index, pos, - section_header.load_addr, section_header.data_len, section_header.data_len, (load)?"load":(map)?"map":""); + ESP_LOGI(TAG, "segment %d: paddr=0x%08x vaddr=0x%08x size=0x%05x (%6d) %s", segment, data_offs - sizeof(esp_image_segment_header_t), + segment_header.load_addr, segment_header.data_len, segment_header.data_len, (load)?"load":(map)?"map":""); - if (!load) { - pos += section_header.data_len; - continue; + if (load) { + const void *data = bootloader_mmap(data_offs, segment_header.data_len); + if(!data) { + ESP_LOGE(TAG, "bootloader_mmap(0x%xc, 0x%x) failed", + data_offs, segment_header.data_len); + return; + } + memcpy((void *)segment_header.load_addr, data, segment_header.data_len); + bootloader_unmap(data); } - - memcpy((void*) section_header.load_addr, MEM_CACHE(pos), section_header.data_len); - pos += section_header.data_len; } - + set_cache_and_start_app(drom_addr, drom_load_addr, drom_size, @@ -526,7 +506,7 @@ void print_flash_info(const esp_image_header_t* phdr) #if (BOOT_LOG_LEVEL >= BOOT_LOG_LEVEL_NOTICE) ESP_LOGD(TAG, "magic %02x", phdr->magic ); - ESP_LOGD(TAG, "blocks %02x", phdr->blocks ); + ESP_LOGD(TAG, "segments %02x", phdr->segment_count ); ESP_LOGD(TAG, "spi_mode %02x", phdr->spi_mode ); ESP_LOGD(TAG, "spi_speed %02x", phdr->spi_speed ); ESP_LOGD(TAG, "spi_size %02x", phdr->spi_size ); diff --git a/components/bootloader/src/main/flash_encrypt.c b/components/bootloader/src/main/flash_encrypt.c index 2fb57a987..2b1479097 100644 --- a/components/bootloader/src/main/flash_encrypt.c +++ b/components/bootloader/src/main/flash_encrypt.c @@ -17,6 +17,7 @@ #include "esp_types.h" #include "esp_attr.h" #include "esp_log.h" +#include "esp_err.h" #include "rom/cache.h" #include "rom/ets_sys.h" @@ -30,6 +31,7 @@ #include "sdkconfig.h" #include "bootloader_config.h" +#include "esp_image_format.h" static const char* TAG = "flash_encrypt"; @@ -90,103 +92,97 @@ bool flash_encrypt_write(uint32_t pos, uint32_t len) Cache_Read_Enable(0); return true; } + + /** * @function : flash_encrypt * @description: encrypt 2nd boot ,partition table ,factory bin ��test bin (if use)��ota bin * ��OTA info sector. * * @inputs: bs bootloader state structure used to save the data - * + * * @return: return true, if the encrypt flash success - * + * */ bool flash_encrypt(bootloader_state_t *bs) { - uint32_t bin_len = 0; - uint32_t flash_crypt_cnt = REG_GET_FIELD(EFUSE_BLK0_RDATA0_REG, EFUSE_FLASH_CRYPT_CNT); - uint8_t count = bitcount(flash_crypt_cnt); - int i = 0; - ESP_LOGD(TAG, "flash encrypt cnt %x, bitcount %d", flash_crypt_cnt, count); + esp_err_t err; + uint32_t image_len = 0; + uint32_t flash_crypt_cnt = REG_GET_FIELD(EFUSE_BLK0_RDATA0_REG, EFUSE_FLASH_CRYPT_CNT); + uint8_t count = bitcount(flash_crypt_cnt); + ESP_LOGD(TAG, "flash encrypt cnt %x, bitcount %d", flash_crypt_cnt, count); - if ((count % 2) == 0) { - boot_cache_redirect( 0, 64*1024); - /* encrypt iv and abstruct */ - if (false == flash_encrypt_write(0, SPI_SEC_SIZE)) { - ESP_LOGE(TAG, "encrypt iv and abstract error"); - return false; - } + if ((count % 2) == 0) { + /* encrypt iv and abstract */ + if (false == flash_encrypt_write(0, SPI_SEC_SIZE)) { + ESP_LOGE(TAG, "encrypt iv and abstract error"); + return false; + } + + /* encrypt bootloader image */ + err = esp_image_basic_verify(0x1000, &image_len); + if(err == ESP_OK && image_len != 0) { + if (false == flash_encrypt_write(0x1000, image_len)) { + ESP_LOGE(TAG, "encrypt 2nd boot error"); + return false; + } + } else { + ESP_LOGE(TAG, "2nd boot len error"); + return false; + } - /* encrypt write boot bin*/ - bin_len = get_bin_len((uint32_t)MEM_CACHE(0x1000)); - if(bin_len != 0) { - if (false == flash_encrypt_write(0x1000, bin_len)) { - ESP_LOGE(TAG, "encrypt 2nd boot error"); - return false; - } - } else { - ESP_LOGE(TAG, "2nd boot len error"); - return false; - } /* encrypt partition table */ - if (false == flash_encrypt_write(ESP_PARTITION_TABLE_ADDR, SPI_SEC_SIZE)) { - ESP_LOGE(TAG, "encrypt partition table error"); - return false; - } + if (false == flash_encrypt_write(ESP_PARTITION_TABLE_ADDR, SPI_SEC_SIZE)) { + ESP_LOGE(TAG, "encrypt partition table error"); + return false; + } /* encrypt write factory bin */ - if(bs->factory.offset != 0x00) { - ESP_LOGD(TAG, "have factory bin"); - boot_cache_redirect(bs->factory.offset, bs->factory.size); - bin_len = get_bin_len((uint32_t)MEM_CACHE(bs->factory.offset&0xffff)); - if(bin_len != 0) { - if (false == flash_encrypt_write(bs->factory.offset, bin_len)) { - ESP_LOGE(TAG, "encrypt factory bin error"); - return false; - } - } - } + if(bs->factory.offset != 0 && bs->factory.size != 0) { + ESP_LOGD(TAG, "have factory bin"); + if (false == flash_encrypt_write(bs->factory.offset, bs->factory.size)) { + ESP_LOGE(TAG, "encrypt factory bin error"); + return false; + } + } + /* encrypt write test bin */ - if(bs->test.offset != 0x00) { - ESP_LOGD(TAG, "have test bin"); - boot_cache_redirect(bs->test.offset, bs->test.size); - bin_len = get_bin_len((uint32_t)MEM_CACHE(bs->test.offset&0xffff)); - if(bin_len != 0) { - if (false == flash_encrypt_write(bs->test.offset, bin_len)) { - ESP_LOGE(TAG, "encrypt test bin error"); - return false; - } - } - } + if(bs->test.offset != 0 && bs->test.size != 0) { + ESP_LOGD(TAG, "have test bin"); + if (false == flash_encrypt_write(bs->test.offset, bs->test.size)) { + ESP_LOGE(TAG, "encrypt test bin error"); + return false; + } + } + /* encrypt write ota bin */ - for (i = 0;i<16;i++) { - if(bs->ota[i].offset != 0x00) { - ESP_LOGD(TAG, "have ota[%d] bin",i); - boot_cache_redirect(bs->ota[i].offset, bs->ota[i].size); - bin_len = get_bin_len((uint32_t)MEM_CACHE(bs->ota[i].offset&0xffff)); - if(bin_len != 0) { - if (false == flash_encrypt_write(bs->ota[i].offset, bin_len)) { - ESP_LOGE(TAG, "encrypt ota bin error"); - return false; - } - } - } - } + for (int i = 0; i < 16; i++) { + if(bs->ota[i].offset != 0 && bs->ota[i].size != 0) { + ESP_LOGD(TAG, "have ota[%d] bin",i); + if (false == flash_encrypt_write(bs->ota[i].offset, bs->ota[i].size)) { + ESP_LOGE(TAG, "encrypt ota bin error"); + return false; + } + } + } + /* encrypt write ota info bin */ - if (false == flash_encrypt_write(bs->ota_info.offset, 2*SPI_SEC_SIZE)) { - ESP_LOGE(TAG, "encrypt ota info error"); - return false; - } - REG_SET_FIELD(EFUSE_BLK0_WDATA0_REG, EFUSE_FLASH_CRYPT_CNT, 0x04); - REG_WRITE(EFUSE_CONF_REG, 0x5A5A); /* efuse_pgm_op_ena, force no rd/wr disable */ - REG_WRITE(EFUSE_CMD_REG, 0x02); /* efuse_pgm_cmd */ - while (REG_READ(EFUSE_CMD_REG)); /* wait for efuse_pagm_cmd=0 */ - ESP_LOGW(TAG, "burn flash_crypt_cnt"); - REG_WRITE(EFUSE_CONF_REG, 0x5AA5); /* efuse_read_op_ena, release force */ - REG_WRITE(EFUSE_CMD_REG, 0x01); /* efuse_read_cmd */ - while (REG_READ(EFUSE_CMD_REG)); /* wait for efuse_read_cmd=0 */ - return true; - } else { - ESP_LOGI(TAG, "flash already encrypted."); - return true; - } + if (false == flash_encrypt_write(bs->ota_info.offset, 2*SPI_SEC_SIZE)) { + ESP_LOGE(TAG, "encrypt ota info error"); + return false; + } + + REG_SET_FIELD(EFUSE_BLK0_WDATA0_REG, EFUSE_FLASH_CRYPT_CNT, 0x04); + REG_WRITE(EFUSE_CONF_REG, 0x5A5A); /* efuse_pgm_op_ena, force no rd/wr disable */ + REG_WRITE(EFUSE_CMD_REG, 0x02); /* efuse_pgm_cmd */ + while (REG_READ(EFUSE_CMD_REG)); /* wait for efuse_pagm_cmd=0 */ + ESP_LOGW(TAG, "burn flash_crypt_cnt"); + REG_WRITE(EFUSE_CONF_REG, 0x5AA5); /* efuse_read_op_ena, release force */ + REG_WRITE(EFUSE_CMD_REG, 0x01); /* efuse_read_cmd */ + while (REG_READ(EFUSE_CMD_REG)); /* wait for efuse_read_cmd=0 */ + return true; + } else { + ESP_LOGI(TAG, "flash already encrypted."); + return true; + } } diff --git a/components/bootloader/src/main/secure_boot.c b/components/bootloader/src/main/secure_boot.c index 070fbf24d..2b1b8573f 100644 --- a/components/bootloader/src/main/secure_boot.c +++ b/components/bootloader/src/main/secure_boot.c @@ -31,6 +31,8 @@ #include "sdkconfig.h" #include "bootloader_config.h" +#include "bootloader_flash.h" +#include "esp_image_format.h" static const char* TAG = "secure_boot"; @@ -40,43 +42,52 @@ static const char* TAG = "secure_boot"; * * @inputs: bool */ -static bool secure_boot_generate(uint32_t bin_len){ +static bool secure_boot_generate(uint32_t image_len){ SpiFlashOpResult spiRet; - uint16_t i; uint32_t buf[32]; - if (bin_len % 128 != 0) { - bin_len = (bin_len / 128 + 1) * 128; - } + const void *image; + + if (image_len % 128 != 0) { + image_len = (image_len / 128 + 1) * 128; + } ets_secure_boot_start(); ets_secure_boot_rd_iv(buf); ets_secure_boot_hash(NULL); Cache_Read_Disable(0); - /* iv stored in sec 0 */ + /* iv stored in sec 0 */ spiRet = SPIEraseSector(0); if (spiRet != SPI_FLASH_RESULT_OK) - { - ESP_LOGE(TAG, SPI_ERROR_LOG); - return false; - } - /* write iv to flash, 0x0000, 128 bytes (1024 bits) */ - spiRet = SPIWrite(0, buf, 128); - if (spiRet != SPI_FLASH_RESULT_OK) { ESP_LOGE(TAG, SPI_ERROR_LOG); return false; } - ESP_LOGD(TAG, "write iv to flash."); Cache_Read_Enable(0); - /* read 4K code image from flash, for test */ - for (i = 0; i < bin_len; i+=128) { - ets_secure_boot_hash((uint32_t *)(0x3f400000 + 0x1000 + i)); + + /* write iv to flash, 0x0000, 128 bytes (1024 bits) */ + ESP_LOGD(TAG, "write iv to flash."); + spiRet = SPIWrite(0, buf, 128); + if (spiRet != SPI_FLASH_RESULT_OK) + { + ESP_LOGE(TAG, SPI_ERROR_LOG); + return false; } + /* generate digest from image contents */ + image = bootloader_mmap(0x1000, image_len); + if (!image) { + ESP_LOGE(TAG, "bootloader_mmap(0x1000, 0x%x) failed", image_len); + return false; + } + for (int i = 0; i < image_len; i+=128) { + ets_secure_boot_hash(image + i/sizeof(void *)); + } + bootloader_unmap(image); + ets_secure_boot_obtain(); ets_secure_boot_rd_abstract(buf); ets_secure_boot_finish(); - Cache_Read_Disable(0); - /* write abstract to flash, 0x0080, 64 bytes (512 bits) */ + + ESP_LOGD(TAG, "write abstract to flash."); spiRet = SPIWrite(0x80, buf, 64); if (spiRet != SPI_FLASH_RESULT_OK) { ESP_LOGE(TAG, SPI_ERROR_LOG); @@ -99,9 +110,9 @@ static inline void burn_efuses() } /** - * @function : secure_boot_generate_bootloader_digest + * @brief Enable secure boot if it is not already enabled. * - * @description: Called if the secure boot flag is set on the + * Called if the secure boot flag is set on the * bootloader image in flash. If secure boot is not yet enabled for * bootloader, this will generate the secure boot digest and enable * secure boot by blowing the EFUSE_RD_ABS_DONE_0 efuse. @@ -110,24 +121,21 @@ static inline void burn_efuses() * ROM bootloader does this.) * * @return true if secure boot is enabled (either was already enabled, - * or is freshly enabled as a result of calling this function.) + * or is freshly enabled as a result of calling this function.) false + * implies an error occured (possibly secure boot is part-enabled.) */ bool secure_boot_generate_bootloader_digest(void) { - uint32_t bin_len = 0; + esp_err_t err; + uint32_t image_len = 0; if (REG_READ(EFUSE_BLK0_RDATA6_REG) & EFUSE_RD_ABS_DONE_0) { ESP_LOGI(TAG, "bootloader secure boot is already enabled, continuing.."); return true; } - boot_cache_redirect( 0, 64*1024); - bin_len = get_bin_len((uint32_t)MEM_CACHE(0x1000)); - if (bin_len == 0) { - ESP_LOGE(TAG, "Invalid bootloader image length zero."); - return false; - } - if (bin_len > 0x100000) { - ESP_LOGE(TAG, "Invalid bootloader image length %x", bin_len); + err = esp_image_basic_verify(0x1000, &image_len); + if (err != ESP_OK) { + ESP_LOGE(TAG, "bootloader image appears invalid! error %d", err); return false; } @@ -168,7 +176,7 @@ bool secure_boot_generate_bootloader_digest(void) { } ESP_LOGI(TAG, "Generating secure boot digest..."); - if (false == secure_boot_generate(bin_len)){ + if (false == secure_boot_generate(image_len)){ ESP_LOGE(TAG, "secure boot generation failed"); return false; } diff --git a/components/bootloader_support/README.rst b/components/bootloader_support/README.rst new file mode 100644 index 000000000..54ac861c9 --- /dev/null +++ b/components/bootloader_support/README.rst @@ -0,0 +1,9 @@ +Bootloader Support Component +============================ + +Overview +-------- + +"Bootloader support" contains APIs which are used by the bootloader but are also needed for the main app. + +Code in this component needs to be aware of being executed in a bootloader environment (no RTOS available, BOOTLOADER_BUILD macro set) or in an esp-idf app environment (RTOS running, need locking support.) diff --git a/components/bootloader_support/component.mk b/components/bootloader_support/component.mk new file mode 100755 index 000000000..2988fe287 --- /dev/null +++ b/components/bootloader_support/component.mk @@ -0,0 +1,11 @@ +COMPONENT_ADD_INCLUDEDIRS := include +COMPONENT_PRIV_INCLUDEDIRS := include_priv + +ifdef IS_BOOTLOADER_BUILD +# share "private" headers with the bootloader component +COMPONENT_ADD_INCLUDEDIRS += include_priv +endif + +COMPONENT_SRCDIRS := src + +include $(IDF_PATH)/make/component_common.mk diff --git a/components/bootloader_support/include/esp_image_format.h b/components/bootloader_support/include/esp_image_format.h new file mode 100644 index 000000000..a8b1739d7 --- /dev/null +++ b/components/bootloader_support/include/esp_image_format.h @@ -0,0 +1,133 @@ +// Copyright 2015-2016 Espressif Systems (Shanghai) PTE LTD +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at + +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. +#ifndef __ESP32_IMAGE_FORMAT_H +#define __ESP32_IMAGE_FORMAT_H + +#include +#include + +#define ESP_ERR_IMAGE_BASE 0x2000 +#define ESP_ERR_IMAGE_FLASH_FAIL (ESP_ERR_IMAGE_BASE + 1) +#define ESP_ERR_IMAGE_INVALID (ESP_ERR_IMAGE_BASE + 2) + +/* Support for app/bootloader image parsing + Can be compiled as part of app or bootloader code. +*/ + +/* SPI flash mode, used in esp_image_header_t */ +typedef enum { + ESP_IMAGE_SPI_MODE_QIO, + ESP_IMAGE_SPI_MODE_QOUT, + ESP_IMAGE_SPI_MODE_DIO, + ESP_IMAGE_SPI_MODE_DOUT, + ESP_IMAGE_SPI_MODE_FAST_READ, + ESP_IMAGE_SPI_MODE_SLOW_READ +} esp_image_spi_mode_t; + +/* SPI flash clock frequency */ +enum { + ESP_IMAGE_SPI_SPEED_40M, + ESP_IMAGE_SPI_SPEED_26M, + ESP_IMAGE_SPI_SPEED_20M, + ESP_IMAGE_SPI_SPEED_80M = 0xF +} esp_image_spi_freq_t; + +/* Supported SPI flash sizes */ +typedef enum { + ESP_IMAGE_FLASH_SIZE_1MB = 0, + ESP_IMAGE_FLASH_SIZE_2MB, + ESP_IMAGE_FLASH_SIZE_4MB, + ESP_IMAGE_FLASH_SIZE_8MB, + ESP_IMAGE_FLASH_SIZE_16MB, + ESP_IMAGE_FLASH_SIZE_MAX +} esp_image_flash_size_t; + +#define ESP_IMAGE_HEADER_MAGIC 0xE9 + +/* Main header of binary image */ +typedef struct { + uint8_t magic; + uint8_t segment_count; + uint8_t spi_mode; /* flash read mode (esp_image_spi_mode_t as uint8_t) */ + uint8_t spi_speed: 4; /* flash frequency (esp_image_spi_freq_t as uint8_t) */ + uint8_t spi_size: 4; /* flash chip size (esp_image_flash_size_t as uint8_t) */ + uint32_t entry_addr; + uint8_t encrypt_flag; /* encrypt flag */ + uint8_t secure_boot_flag; /* secure boot flag */ + uint8_t extra_header[14]; /* ESP32 additional header, unused by second bootloader */ +} esp_image_header_t; + +/* Header of binary image segment */ +typedef struct { + uint32_t load_addr; + uint32_t data_len; +} esp_image_segment_header_t; + + +/** + * @brief Read an ESP image header from flash. + * + * @param src_addr Address in flash to load image header. Must be 4 byte aligned. + * @param[out] image_header Pointer to an esp_image_header_t struture to be filled with data. If the function fails, contents are undefined. + * + * @return ESP_OK if image header was loaded, ESP_ERR_IMAGE_FLASH_FAIL + * if a SPI flash error occurs, ESP_ERR_IMAGE_INVALID if the image header + * appears invalid. + */ +esp_err_t esp_image_load_header(uint32_t src_addr, esp_image_header_t *image_header); + +/** + * @brief Read the segment header and data offset of a segment in the image. + * + * @param index Index of the segment to load information for. + * @param src_addr Base address in flash of the image. + * @param[in] image_header Pointer to the flash image header, already loaded by @ref esp_image_load_header(). + * @param[out] segment_header Pointer to a segment header structure to be filled with data. If the function fails, contents are undefined. + * @param[out] segment_data_offset Pointer to the data offset of the segment. + * + * @return ESP_OK if segment_header & segment_data_offset were loaded successfully, ESP_ERR_IMAGE_FLASH_FAIL if a SPI flash error occurs, ESP_ERR_IMAGE_INVALID if the image header appears invalid, ESP_ERR_INVALID_ARG if the index is invalid. + */ +esp_err_t esp_image_load_segment_header(uint8_t index, uint32_t src_addr, const esp_image_header_t *image_header, esp_image_segment_header_t *segment_header, uint32_t *segment_data_offset); + + +/** + * @brief Return length of an image in flash. Non-cryptographically validates image integrity in the process. + * + * If the image has a secure boot signature appended, the signature is not checked and this length is not included in the result. + * + * Image validation checks: + * - Magic byte + * - No single section longer than 16MB + * - Total image no longer than 16MB + * - 8 bit image checksum is valid + * + * @param src_addr Offset of the start of the image in flash. Must be 4 byte aligned. + * @param[out] length Length of the image, set to a value if the image is valid. Can be null. + * + * @return ESP_OK if image is valid, ESP_FAIL or ESP_ERR_IMAGE_INVALID on errors. + * + */ +esp_err_t esp_image_basic_verify(uint32_t src_addr, uint32_t *length); + + +typedef struct { + uint32_t drom_addr; + uint32_t drom_load_addr; + uint32_t drom_size; + uint32_t irom_addr; + uint32_t irom_load_addr; + uint32_t irom_size; +} esp_image_flash_mapping_t; + +#endif diff --git a/components/bootloader_support/include/esp_secureboot.h b/components/bootloader_support/include/esp_secureboot.h new file mode 100644 index 000000000..b0097df8a --- /dev/null +++ b/components/bootloader_support/include/esp_secureboot.h @@ -0,0 +1,51 @@ +// Copyright 2015-2016 Espressif Systems (Shanghai) PTE LTD +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at + +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. +#ifndef __ESP32_SECUREBOOT_H +#define __ESP32_SECUREBOOT_H + +#include +#include + +/* Support functions for secure boot features. + + Can be compiled as part of app or bootloader code. +*/ + +/** @brief Is secure boot currently enabled in hardware? + * + * Secure boot is enabled if the ABS_DONE_0 efuse is blown. This means + * that the ROM bootloader code will only boot a verified secure + * bootloader digest from now on. + * + * @return true if secure boot is enabled. + */ +bool esp_secure_boot_enabled(void); + + +/** @brief Enable secure boot if it isw not already enabled. + * + * @important If this function succeeds, secure boot is permanentl + * enabled on the chip via efuse. + * + * This function is intended to be called from bootloader code. + * + * @return ESP_ERR_INVALID_STATE if efuse state doesn't allow + * secure boot to be enabled cleanly. ESP_OK if secure boot + * is enabled on this chip from now on. + */ +esp_err_t esp_secure_boot_enable(void); + + + +#endif diff --git a/components/bootloader_support/include_priv/bootloader_flash.h b/components/bootloader_support/include_priv/bootloader_flash.h new file mode 100644 index 000000000..d70ec22d5 --- /dev/null +++ b/components/bootloader_support/include_priv/bootloader_flash.h @@ -0,0 +1,69 @@ +// Copyright 2015-2016 Espressif Systems (Shanghai) PTE LTD +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at + +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. +#ifndef __BOOTLOADER_FLASH_H +#define __BOOTLOADER_FLASH_H + +#include +#include +#include +#include + +/* Provide a Flash API for bootloader_support code, + that can be used from bootloader or app code. + + This header is available to source code in the bootloader & + bootloader_support components only. +*/ + +/** + * @brief Map a region of flash to data memory + * + * @important In bootloader code, only one region can be bootloader_mmaped at once. The previous region must be bootloader_unmapped before another region is mapped. + * + * @important In app code, these functions are not thread safe. + * + * Call bootloader_unmap once for each successful call to bootloader_mmap. + * + * In esp-idf app, this function maps directly to spi_flash_mmap. + * + * @param offset - Starting flash offset to map to memory. + * @param length - Length of data to map. + * + * @return Pointer to mapped data memory (at src_addr), or NULL + * if an allocation error occured. + */ +const void *bootloader_mmap(uint32_t src_addr, uint32_t size); + + +/** + * @brief Unmap a previously mapped region of flash + * + * Call bootloader_unmap once for each successful call to bootloader_mmap. + */ +void bootloader_unmap(const void *mapping); + +/** + * @brief Read data from Flash. + * + * @note Both src and dest have to be 4-byte aligned. + * + * @param src source address of the data in Flash. + * @param dest pointer to the destination buffer + * @param size length of data + * + * @return esp_err_t + */ +esp_err_t bootloader_flash_read(size_t src_addr, void *dest, size_t size); + +#endif diff --git a/components/bootloader_support/src/bootloader_flash.c b/components/bootloader_support/src/bootloader_flash.c new file mode 100644 index 000000000..a50cd157e --- /dev/null +++ b/components/bootloader_support/src/bootloader_flash.c @@ -0,0 +1,122 @@ +// Copyright 2015-2016 Espressif Systems (Shanghai) PTE LTD +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at + +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. +#include + +#include +#include +#include /* including in bootloader for error values */ + +#ifndef BOOTLOADER_BUILD +/* Normal app version maps to esp_spi_flash.h operations... + */ +static const char *TAG = "bootloader_mmap"; + +static spi_flash_mmap_memory_t map; + +const void *bootloader_mmap(uint32_t src_addr, uint32_t size) +{ + if (map) { + ESP_LOGE(TAG, "tried to bootloader_mmap twice"); + return NULL; /* existing mapping in use... */ + } + const void *result = NULL; + esp_err_t err = spi_flash_mmap(src_addr, size, SPI_FLASH_MMAP_DATA, &result, &map); + if (err != ESP_OK) { + result = NULL; + } + return result; +} + +void bootloader_unmap(const void *mapping) +{ + if(mapping && map) { + spi_flash_munmap(map); + } + map = 0; +} + +esp_err_t bootloader_flash_read(size_t src, void *dest, size_t size) +{ + return spi_flash_read(src, dest, size); +} + +#else +/* Bootloader version, uses ROM functions only */ +#include +#include + +static const char *TAG = "bootloader_flash"; + +static bool mapped; + +const void *bootloader_mmap(uint32_t src_addr, uint32_t size) +{ + if (mapped) { + ESP_LOGE(TAG, "tried to bootloader_mmap twice"); + return NULL; /* can't map twice */ + } + + uint32_t src_addr_aligned = src_addr & 0xffff0000; + uint32_t count = (size + 0xffff) / 0x10000; + Cache_Read_Disable(0); + Cache_Flush(0); + ESP_LOGD(TAG, "mmu set paddr=%08x count=%d", src_addr_aligned, count ); + cache_flash_mmu_set( 0, 0, 0x3f400000, src_addr_aligned, 64, count ); + Cache_Read_Enable( 0 ); + + mapped = true; + + return (void *)(0x3f400000 + (src_addr - src_addr_aligned)); +} + +void bootloader_unmap(const void *mapping) +{ + if (mapped) { + /* Full MMU reset */ + Cache_Read_Disable(0); + Cache_Flush(0); + mmu_init(0); + mapped = false; + } +} + +esp_err_t bootloader_flash_read(size_t src_addr, void *dest, size_t size) +{ + if(src_addr & 3) { + ESP_LOGE(TAG, "bootloader_flash_read src_addr not 4-byte aligned"); + return ESP_FAIL; + } + if((intptr_t)dest & 3) { + ESP_LOGE(TAG, "bootloader_flash_read dest not 4-byte aligned"); + return ESP_FAIL; + } + + Cache_Read_Disable(0); + Cache_Flush(0); + SpiFlashOpResult r = SPIRead(src_addr, dest, size); + Cache_Read_Enable(0); + + switch(r) { + case SPI_FLASH_RESULT_OK: + return ESP_OK; + case SPI_FLASH_RESULT_ERR: + return ESP_ERR_FLASH_OP_FAIL; + case SPI_FLASH_RESULT_TIMEOUT: + return ESP_ERR_FLASH_OP_TIMEOUT; + default: + return ESP_FAIL; + } +} + +#endif diff --git a/components/bootloader_support/src/esp_image_format.c b/components/bootloader_support/src/esp_image_format.c new file mode 100644 index 000000000..ad3cd33f1 --- /dev/null +++ b/components/bootloader_support/src/esp_image_format.c @@ -0,0 +1,155 @@ +// Copyright 2015-2016 Espressif Systems (Shanghai) PTE LTD +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at + +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. +#include + +#include +#include +#include + +const static char *TAG = "esp_image"; + +#define SIXTEEN_MB 0x1000000 +#define ESP_ROM_CHECKSUM_INITIAL 0xEF + +esp_err_t esp_image_load_header(uint32_t src_addr, esp_image_header_t *image_header) +{ + esp_err_t err; + ESP_LOGD(TAG, "reading image header @ 0x%x", src_addr); + + err = bootloader_flash_read(src_addr, image_header, sizeof(esp_image_header_t)); + + if (err == ESP_OK) { + if (image_header->magic != ESP_IMAGE_HEADER_MAGIC) { + ESP_LOGE(TAG, "image at 0x%x has invalid magic byte", src_addr); + err = ESP_ERR_IMAGE_INVALID; + } + if (image_header->spi_mode > ESP_IMAGE_SPI_MODE_SLOW_READ) { + ESP_LOGW(TAG, "image at 0x%x has invalid SPI mode %d", src_addr, image_header->spi_mode); + } + if (image_header->spi_speed > ESP_IMAGE_SPI_SPEED_80M) { + ESP_LOGW(TAG, "image at 0x%x has invalid SPI speed %d", src_addr, image_header->spi_speed); + } + if (image_header->spi_size > ESP_IMAGE_FLASH_SIZE_MAX) { + ESP_LOGW(TAG, "image at 0x%x has invalid SPI size %d", src_addr, image_header->spi_size); + } + } + + if (err != ESP_OK) { + bzero(image_header, sizeof(esp_image_header_t)); + } + return err; +} + +esp_err_t esp_image_load_segment_header(uint8_t index, uint32_t src_addr, const esp_image_header_t *image_header, esp_image_segment_header_t *segment_header, uint32_t *segment_data_offset) +{ + esp_err_t err = ESP_OK; + uint32_t next_addr = src_addr + sizeof(esp_image_header_t); + + if(index >= image_header->segment_count) { + ESP_LOGE(TAG, "index %d higher than segment count %d", index, image_header->segment_count); + return ESP_ERR_INVALID_ARG; + } + + for(int i = 0; i <= index && err == ESP_OK; i++) { + err = bootloader_flash_read(next_addr, segment_header, sizeof(esp_image_segment_header_t)); + if (err == ESP_OK) { + if ((segment_header->data_len & 3) != 0 + || segment_header->data_len >= SIXTEEN_MB) { + ESP_LOGE(TAG, "invalid segment length 0x%x", segment_header->data_len); + err = ESP_ERR_IMAGE_INVALID; + } + next_addr += sizeof(esp_image_segment_header_t); + *segment_data_offset = next_addr; + next_addr += segment_header->data_len; + } + } + + if (err != ESP_OK) { + *segment_data_offset = 0; + bzero(segment_header, sizeof(esp_image_segment_header_t)); + } + + return err; +} + +esp_err_t esp_image_basic_verify(uint32_t src_addr, uint32_t *p_length) +{ + esp_err_t err; + uint8_t buf[16]; + uint8_t checksum = ESP_ROM_CHECKSUM_INITIAL; + esp_image_header_t image_header; + esp_image_segment_header_t segment_header = { 0 }; + uint32_t segment_data_offs = 0; + const uint8_t *segment_data; + uint32_t end_addr; + uint32_t length; + + if (p_length != NULL) { + *p_length = 0; + } + + err = esp_image_load_header(src_addr, &image_header); + if (err != ESP_OK) { + return err; + } + + ESP_LOGD(TAG, "reading %d image segments", image_header.segment_count); + + /* Checksum each segment's data */ + for (int i = 0; i < image_header.segment_count; i++) { + err = esp_image_load_segment_header(i, src_addr, &image_header, + &segment_header, &segment_data_offs); + if (err != ESP_OK) { + return err; + } + + segment_data = bootloader_mmap(segment_data_offs, segment_header.data_len); + if (segment_data == NULL) { + ESP_LOGE(TAG, "bootloader_mmap(0x%x, 0x%x) failed", segment_data_offs, segment_header.data_len); + return ESP_FAIL; + } + for(int i = 0; i < segment_header.data_len; i++) { + checksum ^= segment_data[i]; + } + bootloader_unmap(segment_data); + } + + /* End of image, verify checksum */ + end_addr = segment_data_offs + segment_header.data_len; + + if (end_addr < src_addr) { + ESP_LOGE(TAG, "image offset has wrapped"); + return ESP_ERR_IMAGE_INVALID; + } + + length = end_addr - src_addr; + if (length >= SIXTEEN_MB) { + ESP_LOGE(TAG, "invalid total length 0x%x", length); + return ESP_ERR_IMAGE_INVALID; + } + + /* image padded to next full 16 byte block, with checksum byte at very end */ + length += 15 - (length % 16); + bootloader_flash_read(src_addr + length - 16, buf, 16); + if (checksum != buf[15]) { + ESP_LOGE(TAG, "checksum failed. Calculated 0x%x read 0x%x", + checksum, buf[15]); + return ESP_ERR_IMAGE_INVALID; + } + + if (p_length != NULL) { + *p_length = length; + } + return ESP_OK; +} diff --git a/components/bootloader_support/src/secureboot.c b/components/bootloader_support/src/secureboot.c new file mode 100644 index 000000000..e55c1f33f --- /dev/null +++ b/components/bootloader_support/src/secureboot.c @@ -0,0 +1,7 @@ +#include +#include + +#include "esp_log.h" + + + diff --git a/components/esp32/include/esp_flash_data_types.h b/components/esp32/include/esp_flash_data_types.h index 4bf886c84..ce4acb7bc 100644 --- a/components/esp32/include/esp_flash_data_types.h +++ b/components/esp32/include/esp_flash_data_types.h @@ -24,54 +24,6 @@ extern "C" #define ESP_PARTITION_TABLE_ADDR 0x4000 #define ESP_PARTITION_MAGIC 0x50AA -/* SPI flash mode, used in esp_image_header_t */ -typedef enum { - ESP_IMAGE_SPI_MODE_QIO, - ESP_IMAGE_SPI_MODE_QOUT, - ESP_IMAGE_SPI_MODE_DIO, - ESP_IMAGE_SPI_MODE_DOUT, - ESP_IMAGE_SPI_MODE_FAST_READ, - ESP_IMAGE_SPI_MODE_SLOW_READ -} esp_image_spi_mode_t; - -/* SPI flash clock frequency */ -enum { - ESP_IMAGE_SPI_SPEED_40M, - ESP_IMAGE_SPI_SPEED_26M, - ESP_IMAGE_SPI_SPEED_20M, - ESP_IMAGE_SPI_SPEED_80M = 0xF -} esp_image_spi_freq_t; - -/* Supported SPI flash sizes */ -typedef enum { - ESP_IMAGE_FLASH_SIZE_1MB = 0, - ESP_IMAGE_FLASH_SIZE_2MB, - ESP_IMAGE_FLASH_SIZE_4MB, - ESP_IMAGE_FLASH_SIZE_8MB, - ESP_IMAGE_FLASH_SIZE_16MB, - ESP_IMAGE_FLASH_SIZE_MAX -} esp_image_flash_size_t; - -/* Main header of binary image */ -typedef struct { - uint8_t magic; - uint8_t blocks; - uint8_t spi_mode; /* flash read mode (esp_image_spi_mode_t as uint8_t) */ - uint8_t spi_speed: 4; /* flash frequency (esp_image_spi_freq_t as uint8_t) */ - uint8_t spi_size: 4; /* flash chip size (esp_image_flash_size_t as uint8_t) */ - uint32_t entry_addr; - uint8_t encrypt_flag; /* encrypt flag */ - uint8_t secure_boot_flag; /* secure boot flag */ - uint8_t extra_header[14]; /* ESP32 additional header, unused by second bootloader */ -} esp_image_header_t; - -/* Header of binary image segment */ -typedef struct { - uint32_t load_addr; - uint32_t data_len; -} esp_image_section_header_t; - - /* OTA selection structure (two copies in the OTA data partition.) Size of 32 bytes is friendly to flash encryption */ typedef struct { diff --git a/components/esp32/include/rom/secure_boot.h b/components/esp32/include/rom/secure_boot.h index cfeda0893..bd4f32ed9 100644 --- a/components/esp32/include/rom/secure_boot.h +++ b/components/esp32/include/rom/secure_boot.h @@ -25,7 +25,7 @@ void ets_secure_boot_start(void); void ets_secure_boot_finish(void); -void ets_secure_boot_hash(uint32_t *buf); +void ets_secure_boot_hash(const uint32_t *buf); void ets_secure_boot_obtain(void); diff --git a/components/log/include/esp_log.h b/components/log/include/esp_log.h index 6716f6e10..f4b9aa288 100644 --- a/components/log/include/esp_log.h +++ b/components/log/include/esp_log.h @@ -19,6 +19,10 @@ #include #include "sdkconfig.h" +#ifdef BOOTLOADER_BUILD +#include +#endif + #ifdef __cplusplus extern "C" { #endif diff --git a/make/project.mk b/make/project.mk index 17fb83e0d..7e8dc46d5 100644 --- a/make/project.mk +++ b/make/project.mk @@ -100,7 +100,7 @@ COMPONENT_LDFLAGS := # # Debugging this? Replace $(shell with $(error and you'll see the full command as-run. define GetVariable -$(shell "$(MAKE)" -s --no-print-directory -C $(1) -f component.mk get_variable PROJECT_PATH=$(PROJECT_PATH) GET_VARIABLE=$(2) | sed -En "s/^$(2)=(.+)/\1/p" ) +$(shell "$(MAKE)" -s --no-print-directory -C $(1) -f component.mk get_variable PROJECT_PATH=$(PROJECT_PATH) GET_VARIABLE=$(2) IS_BOOTLOADER_BUILD=$(IS_BOOTLOADER_BUILD) | sed -En "s/^$(2)=(.+)/\1/p" ) endef COMPONENT_INCLUDES := $(abspath $(foreach comp,$(COMPONENT_PATHS_BUILDABLE),$(addprefix $(comp)/, \