/* Copyright 2013 The ChromiumOS Authors * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. * * EC software sync routines for vboot */ #include "2api.h" #include "2common.h" #include "2misc.h" #include "2nvstorage.h" #include "2secdata.h" #include "2sysincludes.h" #define SYNC_FLAG(select) \ ((select) == VB_SELECT_FIRMWARE_READONLY ? \ VB2_SD_FLAG_ECSYNC_EC_RO : VB2_SD_FLAG_ECSYNC_EC_RW) /** * Print a hash to debug output * * @param hash Pointer to the hash * @param hash_size Size of the hash in bytes * @param desc Description of what's being hashed */ static void print_hash(const uint8_t *hash, uint32_t hash_size) { int i; for (i = 0; i < hash_size; i++) VB2_DEBUG_RAW("%02x", hash[i]); VB2_DEBUG_RAW("\n"); } static const char *image_name_to_string(enum vb2_firmware_selection select) { switch (select) { case VB_SELECT_FIRMWARE_READONLY: return "RO"; case VB_SELECT_FIRMWARE_EC_ACTIVE: return "RW(active)"; case VB_SELECT_FIRMWARE_EC_UPDATE: return "RW(update)"; default: return "UNKNOWN"; } } /** * Check if the hash of the EC code matches the expected hash. * * @param ctx Vboot2 context * @param select Which firmware image to check * @return VB2_SUCCESS, or non-zero error code. */ static vb2_error_t check_ec_hash(struct vb2_context *ctx, enum vb2_firmware_selection select) { struct vb2_shared_data *sd = vb2_get_sd(ctx); const uint8_t *hexp = NULL; const uint8_t *hmir = NULL; const uint8_t *heff = NULL; int hexp_len, heff_len; const int hmir_len = VB2_SHA256_DIGEST_SIZE; vb2_error_t rv; /* * Get expected EC hash and length. */ VB2_TRY(vb2ex_ec_get_expected_image_hash(select, &hexp, &hexp_len), ctx, VB2_RECOVERY_EC_EXPECTED_HASH); VB2_DEBUG("Hexp %10s: ", image_name_to_string(select)); print_hash(hexp, hexp_len); /* * Get mirrored EC hash. This returns NULL on old systems. On new * systems without EFS2, Hmir will be updated but unused. * * If it's called from update_ec, Hmir and Hexp are already synced. */ hmir = vb2_secdata_kernel_get_ec_hash(ctx); if (hmir && select == VB_SELECT_FIRMWARE_EC_ACTIVE) { VB2_DEBUG(" %10s: ", "Hmir"); print_hash(hmir, hmir_len); if (hmir_len != hexp_len) { VB2_DEBUG("Hmir size (%d) != Hexp size (%d)\n", hmir_len, hexp_len); rv = VB2_ERROR_EC_HASH_SIZE; vb2api_fail(ctx, VB2_RECOVERY_EC_HASH_SIZE, rv); return rv; } if (vb2_safe_memcmp(hmir, hexp, hexp_len)) { VB2_DEBUG("Hmir != Hexp. Update Hmir.\n"); vb2_secdata_kernel_set_ec_hash(ctx, hexp); sd->flags |= VB2_SD_FLAG_ECSYNC_HMIR_UPDATED; } } /* * Get effective EC hash and length. */ VB2_TRY(vb2ex_ec_hash_image(select, &heff, &heff_len), ctx, VB2_RECOVERY_EC_HASH_FAILED); VB2_DEBUG("Heff %10s: ", image_name_to_string(select)); print_hash(heff, heff_len); /* Lengths should match. */ if (heff_len != hexp_len) { VB2_DEBUG("EC uses %d-byte hash but AP-RW contains %d bytes\n", heff_len, hexp_len); rv = VB2_ERROR_EC_HASH_SIZE; vb2api_fail(ctx, VB2_RECOVERY_EC_HASH_SIZE, rv); return rv; } if (vb2_safe_memcmp(heff, hexp, hexp_len)) { VB2_DEBUG("Heff != Hexp. Schedule update\n"); sd->flags |= SYNC_FLAG(select); } return VB2_SUCCESS; } /** * Update the specified EC and verify the update succeeded * * @param ctx Vboot2 context * @param select Which firmware image to check * @return VB2_SUCCESS, or non-zero error code. */ static vb2_error_t update_ec(struct vb2_context *ctx, enum vb2_firmware_selection select) { struct vb2_shared_data *sd = vb2_get_sd(ctx); VB2_DEBUG("Updating %s...\n", image_name_to_string(select)); VB2_TRY(vb2ex_ec_update_image(select), ctx, VB2_RECOVERY_EC_UPDATE); /* Verify the EC was updated properly */ sd->flags &= ~SYNC_FLAG(select); VB2_TRY(check_ec_hash(ctx, select)); if (sd->flags & SYNC_FLAG(select)) { VB2_DEBUG("Failed to update\n"); vb2api_fail(ctx, VB2_RECOVERY_EC_UPDATE, 0); return VB2_REQUEST_REBOOT_EC_TO_RO; } VB2_DEBUG("Updated %s successfully\n", image_name_to_string(select)); return VB2_SUCCESS; } /** * Set VB2_SD_FLAG_ECSYNC_EC_IN_RW flag for the EC * * @param ctx Vboot2 context * @return VB2_SUCCESS, or non-zero if error. */ static vb2_error_t check_ec_active(struct vb2_context *ctx) { struct vb2_shared_data *sd = vb2_get_sd(ctx); int in_rw = 0; /* * We don't use VB2_CONTEXT_EC_TRUSTED, which checks if not EC_IN_RW. * It is controlled by GSC but on some platforms, GSC can't know when * a EC resets. So, we trust what EC-RW says. If it lies it's in RO, * we'll flash RW while it's in RW. */ /* If we couldn't determine where the EC was, reboot to recovery. */ VB2_TRY(vb2ex_ec_running_rw(&in_rw), ctx, VB2_RECOVERY_EC_UNKNOWN_IMAGE); if (in_rw) sd->flags |= VB2_SD_FLAG_ECSYNC_EC_IN_RW; return VB2_SUCCESS; } /** * Sync, jump, and protect EC device * * @param ctx Vboot2 context * @return VB2_SUCCESS, or non-zero if error. */ static vb2_error_t sync_ec(struct vb2_context *ctx) { struct vb2_shared_data *sd = vb2_get_sd(ctx); const enum vb2_firmware_selection select_rw = EC_EFS ? VB_SELECT_FIRMWARE_EC_UPDATE : VB_SELECT_FIRMWARE_EC_ACTIVE; VB2_DEBUG("select_rw=%s\n", image_name_to_string(select_rw)); /* Update the RW Image */ if (sd->flags & SYNC_FLAG(select_rw)) { VB2_TRY(update_ec(ctx, select_rw), ctx, VB2_RECOVERY_EC_UPDATE); /* Updated successfully. Cold reboot to switch to the new RW. */ if (ctx->flags & VB2_CONTEXT_NO_BOOT) { VB2_DEBUG("Rebooting to jump to new EC-RW\n"); return VB2_REQUEST_REBOOT_EC_TO_RO; } else if (EC_EFS) { VB2_DEBUG("Rebooting to switch to new EC-RW\n"); return VB2_REQUEST_REBOOT_EC_SWITCH_RW; } } if (sd->flags & VB2_SD_FLAG_ECSYNC_HMIR_UPDATED) { /* * After Hmir is updated, EFS needs to be retried since the * verification result is revoked. */ VB2_DEBUG("Reset EC after Hmir update\n"); return VB2_REQUEST_REBOOT_EC_TO_RO; } /* We no longer trust the EC once it is already in RW or tries to jump to RW. */ ctx->flags &= ~VB2_CONTEXT_EC_TRUSTED; /* Tell EC to jump to RW. It should already be in RW for EFS2. */ if (!(sd->flags & VB2_SD_FLAG_ECSYNC_EC_IN_RW)) { VB2_DEBUG("jumping to EC-RW\n"); VB2_TRY(vb2ex_ec_jump_to_rw(), ctx, VB2_RECOVERY_EC_JUMP_RW); } /* Might need to update EC-RO */ if (sd->flags & VB2_SD_FLAG_ECSYNC_EC_RO) { VB2_DEBUG("RO Software Sync\n"); /* Reset RO Software Sync NV flag */ vb2_nv_set(ctx, VB2_NV_TRY_RO_SYNC, 0); /* Update the RO Image */ VB2_TRY(update_ec(ctx, VB_SELECT_FIRMWARE_READONLY), ctx, VB2_RECOVERY_EC_UPDATE); } /* Protect RW flash */ VB2_TRY(vb2ex_ec_protect(), ctx, VB2_RECOVERY_EC_PROTECT); /* Disable further sysjumps */ VB2_TRY(vb2ex_ec_disable_jump(), ctx, VB2_RECOVERY_EC_SOFTWARE_SYNC); return VB2_SUCCESS; } /** * EC sync, phase 1 * * This checks whether the EC is running the correct image to do EC sync, and * whether any updates are necessary. * * @param ctx Vboot2 context * @return VB2_SUCCESS, VB2_REQUEST_REBOOT_EC_TO_RO if the EC must reboot back * to its RO code to continue EC sync, or other non-zero error code. */ static vb2_error_t ec_sync_phase1(struct vb2_context *ctx) { struct vb2_shared_data *sd = vb2_get_sd(ctx); struct vb2_gbb_header *gbb = vb2_get_gbb(ctx); /* Reasons not to do sync at all */ if (!(ctx->flags & VB2_CONTEXT_EC_SYNC_SUPPORTED)) return VB2_SUCCESS; if (gbb->flags & VB2_GBB_FLAG_DISABLE_EC_SOFTWARE_SYNC) return VB2_SUCCESS; /* Set VB2_SD_FLAG_ECSYNC_EC_IN_RW flag */ if (check_ec_active(ctx)) return VB2_REQUEST_REBOOT_EC_TO_RO; /* Check if we need to update RW. Failures trigger recovery mode. */ if (check_ec_hash(ctx, VB_SELECT_FIRMWARE_EC_ACTIVE)) return VB2_REQUEST_REBOOT_EC_TO_RO; /* See if we need to update EC-RO. */ if (vb2_nv_get(ctx, VB2_NV_TRY_RO_SYNC) && check_ec_hash(ctx, VB_SELECT_FIRMWARE_READONLY)) { return VB2_REQUEST_REBOOT_EC_TO_RO; } /* * If we're in RW, we need to reboot back to RO because RW can't be * updated while we're running it. * * If EC supports RW-A/B slots, we can proceed but we need * to jump to the new RW version later. */ if ((sd->flags & SYNC_FLAG(VB_SELECT_FIRMWARE_EC_ACTIVE)) && (sd->flags & VB2_SD_FLAG_ECSYNC_EC_IN_RW) && !EC_EFS) { if (ctx->flags & VB2_CONTEXT_EC_SYNC_SLOW) { /* Ignore the return value. */ vb2api_need_reboot_for_display(ctx); } return VB2_REQUEST_REBOOT_EC_TO_RO; } return VB2_SUCCESS; } /** * determine if we can update the EC * * @param ctx Vboot2 context * @return boolean (true iff we can update the EC) */ static int ec_sync_allowed(struct vb2_context *ctx) { struct vb2_gbb_header *gbb = vb2_get_gbb(ctx); /* Reasons not to do sync at all */ if (!(ctx->flags & VB2_CONTEXT_EC_SYNC_SUPPORTED)) return 0; if (gbb->flags & VB2_GBB_FLAG_DISABLE_EC_SOFTWARE_SYNC) return 0; if (ctx->flags & VB2_CONTEXT_RECOVERY_MODE) return 0; return 1; } /** * EC sync, phase 2 * * This updates the EC if necessary, makes sure it has protected its image(s), * and makes sure it has jumped to the correct image. * * @param ctx Vboot2 context * @return VB2_SUCCESS, VB2_REQUEST_REBOOT_EC_TO_RO if the EC must * reboot back to its RO code to continue EC sync, or other non-zero error * code. */ static vb2_error_t ec_sync_phase2(struct vb2_context *ctx) { if (!ec_sync_allowed(ctx)) return VB2_SUCCESS; /* Handle updates and jumps for EC */ return sync_ec(ctx); } test_mockable vb2_error_t vb2api_ec_sync(struct vb2_context *ctx) { struct vb2_shared_data *sd = vb2_get_sd(ctx); /* * If the status indicates that the EC has already gone through * software sync this boot, then don't do it again. */ if (sd->status & VB2_SD_STATUS_EC_SYNC_COMPLETE) { VB2_DEBUG("EC software sync already performed this boot, skipping\n"); return VB2_SUCCESS; } /* * If the device is in recovery mode, then EC sync should * not be performed. */ if (ctx->flags & VB2_CONTEXT_RECOVERY_MODE) { VB2_DEBUG("In recovery mode, skipping EC sync\n"); return VB2_SUCCESS; } /* Phase 1; this determines if we need an update */ VB2_TRY(ec_sync_phase1(ctx)); /* Phase 2; Applies update and/or jumps to the correct EC image */ VB2_TRY(ec_sync_phase2(ctx)); /* Phase 3; Let the platform know that EC software sync is now done */ VB2_TRY(vb2ex_ec_vboot_done(ctx)); /* Establish that EC software sync is complete and successful */ sd->status |= VB2_SD_STATUS_EC_SYNC_COMPLETE; return VB2_SUCCESS; }