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/*
* Copyright (C) 2016 The Android Open Source Project
*
* Permission is hereby granted, free of charge, to any person
* obtaining a copy of this software and associated documentation
* files (the "Software"), to deal in the Software without
* restriction, including without limitation the rights to use, copy,
* modify, merge, publish, distribute, sublicense, and/or sell copies
* of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
#include "avb_ab_flow.h"
#include "avb_util.h"
bool avb_ab_data_verify_and_byteswap(const AvbABData* src, AvbABData* dest) {
/* Ensure magic is correct. */
if (avb_safe_memcmp(src->magic, AVB_AB_MAGIC, AVB_AB_MAGIC_LEN) != 0) {
avb_error("Magic is incorrect.\n");
return false;
}
avb_memcpy(dest, src, sizeof(AvbABData));
dest->crc32 = avb_be32toh(dest->crc32);
/* Ensure we don't attempt to access any fields if the major version
* is not supported.
*/
if (dest->version_major > AVB_AB_MAJOR_VERSION) {
avb_error("No support for given major version.\n");
return false;
}
/* Bail if CRC32 doesn't match. */
if (dest->crc32 !=
avb_crc32((const uint8_t*)dest, sizeof(AvbABData) - sizeof(uint32_t))) {
avb_error("CRC32 does not match.\n");
return false;
}
return true;
}
void avb_ab_data_update_crc_and_byteswap(const AvbABData* src,
AvbABData* dest) {
avb_memcpy(dest, src, sizeof(AvbABData));
dest->crc32 = avb_htobe32(
avb_crc32((const uint8_t*)dest, sizeof(AvbABData) - sizeof(uint32_t)));
}
void avb_ab_data_init(AvbABData* data) {
avb_memset(data, '\0', sizeof(AvbABData));
avb_memcpy(data->magic, AVB_AB_MAGIC, AVB_AB_MAGIC_LEN);
data->version_major = AVB_AB_MAJOR_VERSION;
data->version_minor = AVB_AB_MINOR_VERSION;
data->slots[0].priority = AVB_AB_MAX_PRIORITY;
data->slots[0].tries_remaining = AVB_AB_MAX_TRIES_REMAINING;
data->slots[0].successful_boot = 0;
data->slots[1].priority = AVB_AB_MAX_PRIORITY - 1;
data->slots[1].tries_remaining = AVB_AB_MAX_TRIES_REMAINING;
data->slots[1].successful_boot = 0;
}
/* The AvbABData struct is stored 2048 bytes into the 'misc' partition
* following the 'struct bootloader_message' field. The struct is
* compatible with the guidelines in bootable/recovery/bootloader.h -
* e.g. it is stored in the |slot_suffix| field, starts with a
* NUL-byte, and is 32 bytes long.
*/
#define AB_METADATA_MISC_PARTITION_OFFSET 2048
AvbIOResult avb_ab_data_read(AvbOps* ops, AvbABData* data) {
AvbABData serialized;
AvbIOResult io_ret;
size_t num_bytes_read;
io_ret =
ops->read_from_partition(ops, "misc", AB_METADATA_MISC_PARTITION_OFFSET,
sizeof(AvbABData), &serialized, &num_bytes_read);
if (io_ret == AVB_IO_RESULT_ERROR_OOM) {
return AVB_IO_RESULT_ERROR_OOM;
} else if (io_ret != AVB_IO_RESULT_OK ||
num_bytes_read != sizeof(AvbABData)) {
avb_error("Error reading A/B metadata.\n");
return AVB_IO_RESULT_ERROR_IO;
}
if (!avb_ab_data_verify_and_byteswap(&serialized, data)) {
avb_error(
"Error validating A/B metadata from disk. "
"Resetting and writing new A/B metadata to disk.\n");
avb_ab_data_init(data);
return avb_ab_data_write(ops, data);
}
return AVB_IO_RESULT_OK;
}
AvbIOResult avb_ab_data_write(AvbOps* ops, const AvbABData* data) {
AvbABData serialized;
AvbIOResult io_ret;
avb_ab_data_update_crc_and_byteswap(data, &serialized);
io_ret =
ops->write_to_partition(ops, "misc", AB_METADATA_MISC_PARTITION_OFFSET,
sizeof(AvbABData), &serialized);
if (io_ret == AVB_IO_RESULT_ERROR_OOM) {
return AVB_IO_RESULT_ERROR_OOM;
} else if (io_ret != AVB_IO_RESULT_OK) {
avb_error("Error writing A/B metadata.\n");
return AVB_IO_RESULT_ERROR_IO;
}
return AVB_IO_RESULT_OK;
}
static bool slot_is_bootable(AvbABSlotData* slot) {
return slot->priority > 0 &&
(slot->successful_boot || (slot->tries_remaining > 0));
}
static void slot_set_unbootable(AvbABSlotData* slot) {
slot->priority = 0;
slot->tries_remaining = 0;
slot->successful_boot = 0;
}
/* Ensure all unbootable and/or illegal states are marked as the
* canonical 'unbootable' state, e.g. priority=0, tries_remaining=0,
* and successful_boot=0.
*/
static void slot_normalize(AvbABSlotData* slot) {
if (slot->priority > 0) {
if (slot->tries_remaining == 0 && !slot->successful_boot) {
/* We've exhausted all tries -> unbootable. */
slot_set_unbootable(slot);
}
if (slot->tries_remaining > 0 && slot->successful_boot) {
/* Illegal state - avb_ab_mark_slot_successful() will clear
* tries_remaining when setting successful_boot.
*/
slot_set_unbootable(slot);
}
} else {
slot_set_unbootable(slot);
}
}
static const char* slot_suffixes[2] = {"_a", "_b"};
/* Helper function to load metadata - returns AVB_IO_RESULT_OK on
* success, error code otherwise.
*/
static AvbIOResult load_metadata(AvbOps* ops, AvbABData* ab_data,
AvbABData* ab_data_orig) {
AvbIOResult io_ret;
io_ret = ops->read_ab_metadata(ops, ab_data);
if (io_ret != AVB_IO_RESULT_OK) {
avb_error("I/O error while loading A/B metadata.\n");
return io_ret;
}
*ab_data_orig = *ab_data;
/* Ensure data is normalized, e.g. illegal states will be marked as
* unbootable and all unbootable states are represented with
* (priority=0, tries_remaining=0, successful_boot=0).
*/
slot_normalize(&ab_data->slots[0]);
slot_normalize(&ab_data->slots[1]);
return AVB_IO_RESULT_OK;
}
/* Writes A/B metadata to disk only if it has changed - returns
* AVB_IO_RESULT_OK on success, error code otherwise.
*/
static AvbIOResult save_metadata_if_changed(AvbOps* ops, AvbABData* ab_data,
AvbABData* ab_data_orig) {
if (avb_safe_memcmp(ab_data, ab_data_orig, sizeof(AvbABData)) != 0) {
avb_debug("Writing A/B metadata to disk.\n");
return ops->write_ab_metadata(ops, ab_data);
}
return AVB_IO_RESULT_OK;
}
AvbABFlowResult avb_ab_flow(AvbOps* ops,
const char* const* requested_partitions,
AvbSlotVerifyData** out_data) {
AvbSlotVerifyData* slot_data[2] = {NULL, NULL};
AvbSlotVerifyData* data = NULL;
AvbABFlowResult ret;
AvbABData ab_data, ab_data_orig;
size_t slot_index_to_boot, n;
bool is_device_unlocked;
AvbIOResult io_ret;
io_ret = load_metadata(ops, &ab_data, &ab_data_orig);
if (io_ret == AVB_IO_RESULT_ERROR_OOM) {
ret = AVB_AB_FLOW_RESULT_ERROR_OOM;
goto out;
} else if (io_ret != AVB_IO_RESULT_OK) {
ret = AVB_AB_FLOW_RESULT_ERROR_IO;
goto out;
}
/* Validate all bootable slots. */
for (n = 0; n < 2; n++) {
if (slot_is_bootable(&ab_data.slots[n])) {
AvbSlotVerifyResult verify_result;
verify_result = avb_slot_verify(ops, requested_partitions,
slot_suffixes[n], &slot_data[n]);
if (verify_result != AVB_SLOT_VERIFY_RESULT_OK) {
if (verify_result == AVB_SLOT_VERIFY_RESULT_ERROR_OOM) {
ret = AVB_AB_FLOW_RESULT_ERROR_OOM;
goto out;
}
if (verify_result == AVB_SLOT_VERIFY_RESULT_ERROR_IO) {
ret = AVB_AB_FLOW_RESULT_ERROR_IO;
goto out;
}
avb_errorv("Error verifying slot ", slot_suffixes[n], " with result ",
avb_slot_verify_result_to_string(verify_result),
" - setting unbootable.\n", NULL);
slot_set_unbootable(&ab_data.slots[n]);
}
}
}
if (slot_is_bootable(&ab_data.slots[0]) &&
slot_is_bootable(&ab_data.slots[1])) {
if (ab_data.slots[1].priority > ab_data.slots[0].priority) {
slot_index_to_boot = 1;
} else {
slot_index_to_boot = 0;
}
} else if (slot_is_bootable(&ab_data.slots[0])) {
slot_index_to_boot = 0;
} else if (slot_is_bootable(&ab_data.slots[1])) {
slot_index_to_boot = 1;
} else {
/* No bootable slots! */
avb_error("No bootable slots found.\n");
ret = AVB_AB_FLOW_RESULT_ERROR_NO_BOOTABLE_SLOTS;
goto out;
}
/* Update stored rollback index such that the stored rollback index
* is the largest value supporting all currently bootable slots. Do
* this for every rollback index slot.
*/
for (n = 0; n < AVB_MAX_NUMBER_OF_ROLLBACK_INDEX_SLOTS; n++) {
uint64_t rollback_index_value = 0;
if (slot_data[0] != NULL && slot_data[1] != NULL) {
uint64_t a_rollback_index = slot_data[0]->rollback_indexes[n];
uint64_t b_rollback_index = slot_data[1]->rollback_indexes[n];
rollback_index_value =
(a_rollback_index < b_rollback_index ? a_rollback_index
: b_rollback_index);
} else if (slot_data[0] != NULL) {
rollback_index_value = slot_data[0]->rollback_indexes[n];
} else if (slot_data[1] != NULL) {
rollback_index_value = slot_data[1]->rollback_indexes[n];
}
if (rollback_index_value != 0) {
uint64_t current_rollback_index_value;
io_ret = ops->read_rollback_index(ops, n, ¤t_rollback_index_value);
if (io_ret == AVB_IO_RESULT_ERROR_OOM) {
ret = AVB_AB_FLOW_RESULT_ERROR_OOM;
goto out;
} else if (io_ret != AVB_IO_RESULT_OK) {
avb_error("Error getting rollback index for slot.\n");
ret = AVB_AB_FLOW_RESULT_ERROR_IO;
goto out;
}
if (current_rollback_index_value != rollback_index_value) {
io_ret = ops->write_rollback_index(ops, n, rollback_index_value);
if (io_ret == AVB_IO_RESULT_ERROR_OOM) {
ret = AVB_AB_FLOW_RESULT_ERROR_OOM;
goto out;
} else if (io_ret != AVB_IO_RESULT_OK) {
avb_error("Error setting stored rollback index.\n");
ret = AVB_AB_FLOW_RESULT_ERROR_IO;
goto out;
}
}
}
}
/* Finally, select this slot. */
avb_assert(slot_data[slot_index_to_boot] != NULL);
data = slot_data[slot_index_to_boot];
slot_data[slot_index_to_boot] = NULL;
ret = AVB_AB_FLOW_RESULT_OK;
/* ... and decrement tries remaining, if applicable. */
if (!ab_data.slots[slot_index_to_boot].successful_boot &&
ab_data.slots[slot_index_to_boot].tries_remaining > 0) {
ab_data.slots[slot_index_to_boot].tries_remaining -= 1;
}
out:
/* do not touch metadata in UNLOCK state */
io_ret = ops->read_is_device_unlocked(ops, &is_device_unlocked);
if (io_ret == AVB_IO_RESULT_ERROR_OOM) {
ret = AVB_AB_FLOW_RESULT_ERROR_OOM;
goto fail;
} else if (io_ret != AVB_IO_RESULT_OK) {
ret = AVB_SLOT_VERIFY_RESULT_ERROR_IO;
avb_error("Error getting device state.\n");
goto fail;
}
if (is_device_unlocked)
goto ret;
fail:
io_ret = save_metadata_if_changed(ops, &ab_data, &ab_data_orig);
if (io_ret != AVB_IO_RESULT_OK) {
if (io_ret == AVB_IO_RESULT_ERROR_OOM) {
ret = AVB_AB_FLOW_RESULT_ERROR_OOM;
} else {
ret = AVB_AB_FLOW_RESULT_ERROR_IO;
}
if (data != NULL) {
avb_slot_verify_data_free(data);
data = NULL;
}
}
ret:
for (n = 0; n < 2; n++) {
if (slot_data[n] != NULL) {
avb_slot_verify_data_free(slot_data[n]);
}
}
if (out_data != NULL) {
*out_data = data;
} else {
if (data != NULL) {
avb_slot_verify_data_free(data);
}
}
return ret;
}
AvbIOResult avb_ab_mark_slot_active(AvbOps* ops, unsigned int slot_number) {
AvbABData ab_data, ab_data_orig;
unsigned int other_slot_number;
AvbIOResult ret;
avb_assert(slot_number < 2);
ret = load_metadata(ops, &ab_data, &ab_data_orig);
if (ret != AVB_IO_RESULT_OK) {
goto out;
}
/* Make requested slot top priority, unsuccessful, and with max tries. */
ab_data.slots[slot_number].priority = AVB_AB_MAX_PRIORITY;
ab_data.slots[slot_number].tries_remaining = AVB_AB_MAX_TRIES_REMAINING;
ab_data.slots[slot_number].successful_boot = 0;
/* Ensure other slot doesn't have as high a priority. */
other_slot_number = 1 - slot_number;
if (ab_data.slots[other_slot_number].priority == AVB_AB_MAX_PRIORITY) {
ab_data.slots[other_slot_number].priority = AVB_AB_MAX_PRIORITY - 1;
}
ret = AVB_IO_RESULT_OK;
out:
if (ret == AVB_IO_RESULT_OK) {
ret = save_metadata_if_changed(ops, &ab_data, &ab_data_orig);
}
return ret;
}
AvbIOResult avb_ab_mark_slot_unbootable(AvbOps* ops, unsigned int slot_number) {
AvbABData ab_data, ab_data_orig;
AvbIOResult ret;
avb_assert(slot_number < 2);
ret = load_metadata(ops, &ab_data, &ab_data_orig);
if (ret != AVB_IO_RESULT_OK) {
goto out;
}
slot_set_unbootable(&ab_data.slots[slot_number]);
ret = AVB_IO_RESULT_OK;
out:
if (ret == AVB_IO_RESULT_OK) {
ret = save_metadata_if_changed(ops, &ab_data, &ab_data_orig);
}
return ret;
}
AvbIOResult avb_ab_mark_slot_successful(AvbOps* ops, unsigned int slot_number) {
AvbABData ab_data, ab_data_orig;
AvbIOResult ret;
avb_assert(slot_number < 2);
ret = load_metadata(ops, &ab_data, &ab_data_orig);
if (ret != AVB_IO_RESULT_OK) {
goto out;
}
if (!slot_is_bootable(&ab_data.slots[slot_number])) {
avb_error("Cannot mark unbootable slot as successful.\n");
ret = AVB_IO_RESULT_OK;
goto out;
}
ab_data.slots[slot_number].tries_remaining = 0;
ab_data.slots[slot_number].successful_boot = 1;
ret = AVB_IO_RESULT_OK;
out:
if (ret == AVB_IO_RESULT_OK) {
ret = save_metadata_if_changed(ops, &ab_data, &ab_data_orig);
}
return ret;
}
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