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|
/**
* Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
* SPDX-License-Identifier: Apache-2.0.
*/
#include "aws/s3/private/s3_auto_ranged_get.h"
#include "aws/s3/private/s3_checksums.h"
#include "aws/s3/private/s3_client_impl.h"
#include "aws/s3/private/s3_meta_request_impl.h"
#include "aws/s3/private/s3_request_messages.h"
#include "aws/s3/private/s3_util.h"
#include <aws/auth/signable.h>
#include <aws/auth/signing.h>
#include <aws/auth/signing_config.h>
#include <aws/auth/signing_result.h>
#include <aws/common/encoding.h>
#include <aws/common/string.h>
#include <aws/common/system_info.h>
#include <aws/io/event_loop.h>
#include <aws/io/retry_strategy.h>
#include <aws/io/stream.h>
#include <inttypes.h>
static const size_t s_dynamic_body_initial_buf_size = KB_TO_BYTES(1);
static const size_t s_default_body_streaming_priority_queue_size = 16;
static int s_s3_request_priority_queue_pred(const void *a, const void *b);
static void s_s3_meta_request_destroy(void *user_data);
static void s_s3_meta_request_init_signing_date_time(
struct aws_s3_meta_request *meta_request,
struct aws_date_time *date_time);
static void s_s3_meta_request_sign_request(
struct aws_s3_meta_request *meta_request,
struct aws_s3_request *request,
aws_signing_complete_fn *on_signing_complete,
void *user_data);
static void s_s3_meta_request_request_on_signed(
struct aws_signing_result *signing_result,
int error_code,
void *user_data);
static int s_s3_meta_request_incoming_body(
struct aws_http_stream *stream,
const struct aws_byte_cursor *data,
void *user_data);
static int s_s3_meta_request_incoming_headers(
struct aws_http_stream *stream,
enum aws_http_header_block header_block,
const struct aws_http_header *headers,
size_t headers_count,
void *user_data);
static void s_s3_meta_request_stream_complete(struct aws_http_stream *stream, int error_code, void *user_data);
static void s_s3_meta_request_send_request_finish(
struct aws_s3_connection *connection,
struct aws_http_stream *stream,
int error_code);
void aws_s3_meta_request_lock_synced_data(struct aws_s3_meta_request *meta_request) {
AWS_PRECONDITION(meta_request);
aws_mutex_lock(&meta_request->synced_data.lock);
}
void aws_s3_meta_request_unlock_synced_data(struct aws_s3_meta_request *meta_request) {
AWS_PRECONDITION(meta_request);
aws_mutex_unlock(&meta_request->synced_data.lock);
}
static int s_meta_request_get_response_headers_checksum_callback(
struct aws_s3_meta_request *meta_request,
const struct aws_http_headers *headers,
int response_status,
void *user_data) {
for (int i = AWS_SCA_INIT; i <= AWS_SCA_END; i++) {
if (!aws_s3_meta_request_checksum_config_has_algorithm(meta_request, i)) {
/* If user doesn't select this algorithm, skip */
continue;
}
const struct aws_byte_cursor *algorithm_header_name = aws_get_http_header_name_from_algorithm(i);
if (aws_http_headers_has(headers, *algorithm_header_name)) {
struct aws_byte_cursor header_sum;
aws_http_headers_get(headers, *algorithm_header_name, &header_sum);
size_t encoded_len = 0;
aws_base64_compute_encoded_len(aws_get_digest_size_from_algorithm(i), &encoded_len);
if (header_sum.len == encoded_len - 1) {
/* encoded_len includes the nullptr length. -1 is the expected length. */
aws_byte_buf_init_copy_from_cursor(
&meta_request->meta_request_level_response_header_checksum, aws_default_allocator(), header_sum);
meta_request->meta_request_level_running_response_sum = aws_checksum_new(aws_default_allocator(), i);
}
break;
}
}
if (meta_request->headers_user_callback_after_checksum) {
return meta_request->headers_user_callback_after_checksum(meta_request, headers, response_status, user_data);
} else {
return AWS_OP_SUCCESS;
}
}
/* warning this might get screwed up with retrys/restarts */
static int s_meta_request_get_response_body_checksum_callback(
struct aws_s3_meta_request *meta_request,
const struct aws_byte_cursor *body,
uint64_t range_start,
void *user_data) {
if (meta_request->meta_request_level_running_response_sum) {
aws_checksum_update(meta_request->meta_request_level_running_response_sum, body);
}
if (meta_request->body_user_callback_after_checksum) {
return meta_request->body_user_callback_after_checksum(meta_request, body, range_start, user_data);
} else {
return AWS_OP_SUCCESS;
}
}
static void s_meta_request_get_response_finish_checksum_callback(
struct aws_s3_meta_request *meta_request,
const struct aws_s3_meta_request_result *meta_request_result,
void *user_data) {
struct aws_byte_buf response_body_sum;
struct aws_byte_buf encoded_response_body_sum;
AWS_ZERO_STRUCT(response_body_sum);
AWS_ZERO_STRUCT(encoded_response_body_sum);
struct aws_s3_meta_request_result *mut_meta_request_result =
(struct aws_s3_meta_request_result *)meta_request_result;
if (meta_request_result->error_code == AWS_OP_SUCCESS && meta_request->meta_request_level_running_response_sum) {
mut_meta_request_result->did_validate = true;
mut_meta_request_result->validation_algorithm =
meta_request->meta_request_level_running_response_sum->algorithm;
size_t encoded_checksum_len = 0;
/* what error should I raise for these? */
aws_base64_compute_encoded_len(
meta_request->meta_request_level_running_response_sum->digest_size, &encoded_checksum_len);
aws_byte_buf_init(&encoded_response_body_sum, aws_default_allocator(), encoded_checksum_len);
aws_byte_buf_init(
&response_body_sum,
aws_default_allocator(),
meta_request->meta_request_level_running_response_sum->digest_size);
aws_checksum_finalize(meta_request->meta_request_level_running_response_sum, &response_body_sum, 0);
struct aws_byte_cursor response_body_sum_cursor = aws_byte_cursor_from_buf(&response_body_sum);
aws_base64_encode(&response_body_sum_cursor, &encoded_response_body_sum);
if (!aws_byte_buf_eq(&encoded_response_body_sum, &meta_request->meta_request_level_response_header_checksum)) {
mut_meta_request_result->error_code = AWS_ERROR_S3_RESPONSE_CHECKSUM_MISMATCH;
}
}
if (meta_request->finish_user_callback_after_checksum) {
meta_request->finish_user_callback_after_checksum(meta_request, meta_request_result, user_data);
}
aws_byte_buf_clean_up(&response_body_sum);
aws_byte_buf_clean_up(&encoded_response_body_sum);
aws_checksum_destroy(meta_request->meta_request_level_running_response_sum);
aws_byte_buf_clean_up(&meta_request->meta_request_level_response_header_checksum);
}
int aws_s3_meta_request_init_base(
struct aws_allocator *allocator,
struct aws_s3_client *client,
size_t part_size,
bool should_compute_content_md5,
const struct aws_s3_meta_request_options *options,
void *impl,
struct aws_s3_meta_request_vtable *vtable,
struct aws_s3_meta_request *meta_request) {
AWS_PRECONDITION(allocator);
AWS_PRECONDITION(options);
AWS_PRECONDITION(options->message);
AWS_PRECONDITION(impl);
AWS_PRECONDITION(meta_request);
AWS_ZERO_STRUCT(*meta_request);
AWS_ASSERT(vtable->update);
AWS_ASSERT(vtable->prepare_request);
AWS_ASSERT(vtable->destroy);
AWS_ASSERT(vtable->sign_request);
AWS_ASSERT(vtable->init_signing_date_time);
AWS_ASSERT(vtable->finished_request);
AWS_ASSERT(vtable->send_request_finish);
meta_request->allocator = allocator;
meta_request->type = options->type;
/* Set up reference count. */
aws_ref_count_init(&meta_request->ref_count, meta_request, s_s3_meta_request_destroy);
if (part_size == SIZE_MAX) {
aws_raise_error(AWS_ERROR_INVALID_ARGUMENT);
goto error;
}
if (aws_mutex_init(&meta_request->synced_data.lock)) {
AWS_LOGF_ERROR(
AWS_LS_S3_META_REQUEST, "id=%p Could not initialize mutex for meta request", (void *)meta_request);
goto error;
}
if (aws_priority_queue_init_dynamic(
&meta_request->synced_data.pending_body_streaming_requests,
meta_request->allocator,
s_default_body_streaming_priority_queue_size,
sizeof(struct aws_s3_request *),
s_s3_request_priority_queue_pred)) {
AWS_LOGF_ERROR(
AWS_LS_S3_META_REQUEST, "id=%p Could not initialize priority queue for meta request", (void *)meta_request);
/* Priority queue */
goto error;
}
*((size_t *)&meta_request->part_size) = part_size;
*((bool *)&meta_request->should_compute_content_md5) = should_compute_content_md5;
checksum_config_init(&meta_request->checksum_config, options->checksum_config);
if (options->signing_config) {
meta_request->cached_signing_config = aws_cached_signing_config_new(allocator, options->signing_config);
}
/* Set initial_meta_request */
if (options->send_filepath.len > 0) {
/* Create copy of original message, but with body-stream that reads directly from file */
meta_request->initial_request_message = aws_s3_message_util_copy_http_message_filepath_body_all_headers(
allocator, options->message, options->send_filepath);
if (meta_request->initial_request_message == NULL) {
goto error;
}
} else {
/* Keep a reference to the original message structure passed in. */
meta_request->initial_request_message = aws_http_message_acquire(options->message);
}
/* Client is currently optional to allow spinning up a meta_request without a client in a test. */
if (client != NULL) {
aws_s3_client_acquire(client);
meta_request->client = client;
meta_request->io_event_loop = aws_event_loop_group_get_next_loop(client->body_streaming_elg);
meta_request->synced_data.read_window_running_total = client->initial_read_window;
}
meta_request->synced_data.next_streaming_part = 1;
meta_request->meta_request_level_running_response_sum = NULL;
meta_request->user_data = options->user_data;
meta_request->shutdown_callback = options->shutdown_callback;
meta_request->progress_callback = options->progress_callback;
if (meta_request->checksum_config.validate_response_checksum) {
/* TODO: the validate for auto range get should happen for each response received. */
meta_request->headers_user_callback_after_checksum = options->headers_callback;
meta_request->body_user_callback_after_checksum = options->body_callback;
meta_request->finish_user_callback_after_checksum = options->finish_callback;
meta_request->headers_callback = s_meta_request_get_response_headers_checksum_callback;
meta_request->body_callback = s_meta_request_get_response_body_checksum_callback;
meta_request->finish_callback = s_meta_request_get_response_finish_checksum_callback;
} else {
meta_request->headers_callback = options->headers_callback;
meta_request->body_callback = options->body_callback;
meta_request->finish_callback = options->finish_callback;
}
/* Nothing can fail after here. Leave the impl not affected by failure of initializing base. */
meta_request->impl = impl;
meta_request->vtable = vtable;
return AWS_OP_SUCCESS;
error:
s_s3_meta_request_destroy((void *)meta_request);
return AWS_OP_ERR;
}
void aws_s3_meta_request_increment_read_window(struct aws_s3_meta_request *meta_request, uint64_t bytes) {
AWS_PRECONDITION(meta_request);
if (bytes == 0) {
return;
}
if (!meta_request->client->enable_read_backpressure) {
AWS_LOGF_DEBUG(
AWS_LS_S3_META_REQUEST,
"id=%p: Ignoring call to increment read window. This client has not enabled read backpressure.",
(void *)meta_request);
return;
}
AWS_LOGF_TRACE(AWS_LS_S3_META_REQUEST, "id=%p: Incrementing read window by %" PRIu64, (void *)meta_request, bytes);
/* BEGIN CRITICAL SECTION */
aws_s3_meta_request_lock_synced_data(meta_request);
/* Response will never approach UINT64_MAX, so do a saturating sum instead of worrying about overflow */
meta_request->synced_data.read_window_running_total =
aws_add_u64_saturating(bytes, meta_request->synced_data.read_window_running_total);
aws_s3_meta_request_unlock_synced_data(meta_request);
/* END CRITICAL SECTION */
/* Schedule the work task, to continue processing the meta-request */
aws_s3_client_schedule_process_work(meta_request->client);
}
void aws_s3_meta_request_cancel(struct aws_s3_meta_request *meta_request) {
/* BEGIN CRITICAL SECTION */
aws_s3_meta_request_lock_synced_data(meta_request);
aws_s3_meta_request_set_fail_synced(meta_request, NULL, AWS_ERROR_S3_CANCELED);
aws_s3_meta_request_unlock_synced_data(meta_request);
/* END CRITICAL SECTION */
}
int aws_s3_meta_request_pause(
struct aws_s3_meta_request *meta_request,
struct aws_s3_meta_request_resume_token **out_resume_token) {
AWS_PRECONDITION(meta_request);
AWS_PRECONDITION(meta_request->vtable);
*out_resume_token = NULL;
if (!meta_request->vtable->pause) {
return aws_raise_error(AWS_ERROR_UNSUPPORTED_OPERATION);
}
return meta_request->vtable->pause(meta_request, out_resume_token);
}
void aws_s3_meta_request_set_fail_synced(
struct aws_s3_meta_request *meta_request,
struct aws_s3_request *failed_request,
int error_code) {
AWS_PRECONDITION(meta_request);
ASSERT_SYNCED_DATA_LOCK_HELD(meta_request);
if (meta_request->synced_data.finish_result_set) {
return;
}
meta_request->synced_data.finish_result_set = true;
if ((error_code == AWS_ERROR_S3_INVALID_RESPONSE_STATUS || error_code == AWS_ERROR_S3_NON_RECOVERABLE_ASYNC_ERROR ||
error_code == AWS_ERROR_S3_OBJECT_MODIFIED) &&
failed_request != NULL) {
aws_s3_meta_request_result_setup(
meta_request,
&meta_request->synced_data.finish_result,
failed_request,
failed_request->send_data.response_status,
error_code);
} else {
AWS_ASSERT(error_code != AWS_ERROR_S3_INVALID_RESPONSE_STATUS);
aws_s3_meta_request_result_setup(meta_request, &meta_request->synced_data.finish_result, NULL, 0, error_code);
}
}
void aws_s3_meta_request_set_success_synced(struct aws_s3_meta_request *meta_request, int response_status) {
AWS_PRECONDITION(meta_request);
ASSERT_SYNCED_DATA_LOCK_HELD(meta_request);
if (meta_request->synced_data.finish_result_set) {
return;
}
meta_request->synced_data.finish_result_set = true;
aws_s3_meta_request_result_setup(
meta_request, &meta_request->synced_data.finish_result, NULL, response_status, AWS_ERROR_SUCCESS);
}
bool aws_s3_meta_request_has_finish_result(struct aws_s3_meta_request *meta_request) {
AWS_PRECONDITION(meta_request);
/* BEGIN CRITICAL SECTION */
aws_s3_meta_request_lock_synced_data(meta_request);
bool is_finishing = aws_s3_meta_request_has_finish_result_synced(meta_request);
aws_s3_meta_request_unlock_synced_data(meta_request);
/* END CRITICAL SECTION */
return is_finishing;
}
bool aws_s3_meta_request_has_finish_result_synced(struct aws_s3_meta_request *meta_request) {
AWS_PRECONDITION(meta_request);
ASSERT_SYNCED_DATA_LOCK_HELD(meta_request);
if (!meta_request->synced_data.finish_result_set) {
return false;
}
return true;
}
struct aws_s3_meta_request *aws_s3_meta_request_acquire(struct aws_s3_meta_request *meta_request) {
AWS_PRECONDITION(meta_request);
aws_ref_count_acquire(&meta_request->ref_count);
return meta_request;
}
struct aws_s3_meta_request *aws_s3_meta_request_release(struct aws_s3_meta_request *meta_request) {
if (meta_request != NULL) {
aws_ref_count_release(&meta_request->ref_count);
}
return NULL;
}
static void s_s3_meta_request_destroy(void *user_data) {
struct aws_s3_meta_request *meta_request = user_data;
AWS_PRECONDITION(meta_request);
AWS_LOGF_DEBUG(AWS_LS_S3_META_REQUEST, "id=%p Cleaning up meta request", (void *)meta_request);
/* Clean up our initial http message */
if (meta_request->initial_request_message != NULL) {
aws_http_message_release(meta_request->initial_request_message);
meta_request->initial_request_message = NULL;
}
void *meta_request_user_data = meta_request->user_data;
aws_s3_meta_request_shutdown_fn *shutdown_callback = meta_request->shutdown_callback;
aws_cached_signing_config_destroy(meta_request->cached_signing_config);
aws_mutex_clean_up(&meta_request->synced_data.lock);
/* endpoint should have already been released and set NULL by the meta request finish call.
* But call release() again, just in case we're tearing down a half-initialized meta request */
aws_s3_endpoint_release(meta_request->endpoint);
meta_request->client = aws_s3_client_release(meta_request->client);
aws_priority_queue_clean_up(&meta_request->synced_data.pending_body_streaming_requests);
aws_s3_meta_request_result_clean_up(meta_request, &meta_request->synced_data.finish_result);
if (meta_request->vtable != NULL) {
AWS_LOGF_TRACE(
AWS_LS_S3_META_REQUEST, "id=%p Calling virtual meta request destroy function.", (void *)meta_request);
meta_request->vtable->destroy(meta_request);
}
meta_request = NULL;
if (shutdown_callback != NULL) {
AWS_LOGF_TRACE(AWS_LS_S3_META_REQUEST, "id=%p Calling meta request shutdown callback.", (void *)meta_request);
shutdown_callback(meta_request_user_data);
}
AWS_LOGF_TRACE(AWS_LS_S3_META_REQUEST, "id=%p Meta request clean up finished.", (void *)meta_request);
}
static int s_s3_request_priority_queue_pred(const void *a, const void *b) {
const struct aws_s3_request **request_a = (const struct aws_s3_request **)a;
AWS_PRECONDITION(request_a);
AWS_PRECONDITION(*request_a);
const struct aws_s3_request **request_b = (const struct aws_s3_request **)b;
AWS_PRECONDITION(request_b);
AWS_PRECONDITION(*request_b);
return (*request_a)->part_number > (*request_b)->part_number;
}
bool aws_s3_meta_request_update(
struct aws_s3_meta_request *meta_request,
uint32_t flags,
struct aws_s3_request **out_request) {
AWS_PRECONDITION(meta_request);
AWS_PRECONDITION(meta_request->vtable);
AWS_PRECONDITION(meta_request->vtable->update);
return meta_request->vtable->update(meta_request, flags, out_request);
}
bool aws_s3_meta_request_is_active(struct aws_s3_meta_request *meta_request) {
AWS_PRECONDITION(meta_request);
/* BEGIN CRITICAL SECTION */
aws_s3_meta_request_lock_synced_data(meta_request);
bool active = meta_request->synced_data.state == AWS_S3_META_REQUEST_STATE_ACTIVE;
aws_s3_meta_request_unlock_synced_data(meta_request);
/* END CRITICAL SECTION */
return active;
}
bool aws_s3_meta_request_is_finished(struct aws_s3_meta_request *meta_request) {
AWS_PRECONDITION(meta_request);
/* BEGIN CRITICAL SECTION */
aws_s3_meta_request_lock_synced_data(meta_request);
bool is_finished = meta_request->synced_data.state == AWS_S3_META_REQUEST_STATE_FINISHED;
aws_s3_meta_request_unlock_synced_data(meta_request);
/* END CRITICAL SECTION */
return is_finished;
}
static void s_s3_meta_request_prepare_request_task(struct aws_task *task, void *arg, enum aws_task_status task_status);
static void s_s3_prepare_request_payload_callback_and_destroy(
struct aws_s3_prepare_request_payload *payload,
int error_code) {
AWS_PRECONDITION(payload);
AWS_PRECONDITION(payload->request);
struct aws_s3_meta_request *meta_request = payload->request->meta_request;
AWS_PRECONDITION(meta_request);
AWS_PRECONDITION(meta_request->client);
struct aws_s3_client *client = aws_s3_client_acquire(meta_request->client);
struct aws_allocator *allocator = client->allocator;
AWS_PRECONDITION(allocator);
if (payload->callback != NULL) {
payload->callback(meta_request, payload->request, error_code, payload->user_data);
}
aws_mem_release(allocator, payload);
aws_s3_client_release(client);
}
static void s_s3_meta_request_schedule_prepare_request_default(
struct aws_s3_meta_request *meta_request,
struct aws_s3_request *request,
aws_s3_meta_request_prepare_request_callback_fn *callback,
void *user_data);
void aws_s3_meta_request_prepare_request(
struct aws_s3_meta_request *meta_request,
struct aws_s3_request *request,
aws_s3_meta_request_prepare_request_callback_fn *callback,
void *user_data) {
AWS_PRECONDITION(meta_request);
AWS_PRECONDITION(meta_request->vtable);
if (meta_request->vtable->schedule_prepare_request) {
meta_request->vtable->schedule_prepare_request(meta_request, request, callback, user_data);
} else {
s_s3_meta_request_schedule_prepare_request_default(meta_request, request, callback, user_data);
}
}
static void s_s3_meta_request_schedule_prepare_request_default(
struct aws_s3_meta_request *meta_request,
struct aws_s3_request *request,
aws_s3_meta_request_prepare_request_callback_fn *callback,
void *user_data) {
AWS_PRECONDITION(meta_request);
AWS_PRECONDITION(request);
struct aws_s3_client *client = meta_request->client;
AWS_PRECONDITION(client);
struct aws_allocator *allocator = client->allocator;
AWS_PRECONDITION(allocator);
struct aws_s3_prepare_request_payload *payload =
aws_mem_calloc(allocator, 1, sizeof(struct aws_s3_prepare_request_payload));
payload->request = request;
payload->callback = callback;
payload->user_data = user_data;
aws_task_init(
&payload->task, s_s3_meta_request_prepare_request_task, payload, "s3_meta_request_prepare_request_task");
aws_event_loop_schedule_task_now(meta_request->io_event_loop, &payload->task);
}
static void s_s3_meta_request_prepare_request_task(struct aws_task *task, void *arg, enum aws_task_status task_status) {
(void)task;
(void)task_status;
struct aws_s3_prepare_request_payload *payload = arg;
AWS_PRECONDITION(payload);
struct aws_s3_request *request = payload->request;
AWS_PRECONDITION(request);
struct aws_s3_meta_request *meta_request = request->meta_request;
AWS_PRECONDITION(meta_request);
struct aws_s3_meta_request_vtable *vtable = meta_request->vtable;
AWS_PRECONDITION(vtable);
/* Client owns this event loop group. A cancel should not be possible. */
AWS_ASSERT(task_status == AWS_TASK_STATUS_RUN_READY);
int error_code = AWS_ERROR_SUCCESS;
if (!request->always_send && aws_s3_meta_request_has_finish_result(meta_request)) {
aws_raise_error(AWS_ERROR_S3_CANCELED);
goto dont_send_clean_up;
}
if (vtable->prepare_request(meta_request, request)) {
++request->num_times_prepared;
goto dont_send_clean_up;
}
++request->num_times_prepared;
aws_s3_add_user_agent_header(meta_request->allocator, request->send_data.message);
/* Sign the newly created message. */
s_s3_meta_request_sign_request(meta_request, request, s_s3_meta_request_request_on_signed, payload);
return;
dont_send_clean_up:
error_code = aws_last_error_or_unknown();
AWS_LOGF_ERROR(
AWS_LS_S3_META_REQUEST,
"id=%p Could not prepare request %p due to error %d (%s).",
(void *)meta_request,
(void *)request,
error_code,
aws_error_str(error_code));
/* BEGIN CRITICAL SECTION */
{
aws_s3_meta_request_lock_synced_data(meta_request);
aws_s3_meta_request_set_fail_synced(meta_request, request, error_code);
aws_s3_meta_request_unlock_synced_data(meta_request);
}
/* END CRITICAL SECTION */
s_s3_prepare_request_payload_callback_and_destroy(payload, error_code);
}
static void s_s3_meta_request_init_signing_date_time(
struct aws_s3_meta_request *meta_request,
struct aws_date_time *date_time) {
AWS_PRECONDITION(meta_request);
AWS_PRECONDITION(meta_request->vtable);
AWS_PRECONDITION(meta_request->vtable->init_signing_date_time);
meta_request->vtable->init_signing_date_time(meta_request, date_time);
}
void aws_s3_meta_request_init_signing_date_time_default(
struct aws_s3_meta_request *meta_request,
struct aws_date_time *date_time) {
AWS_PRECONDITION(meta_request);
AWS_PRECONDITION(date_time);
(void)meta_request;
aws_date_time_init_now(date_time);
}
static void s_s3_meta_request_sign_request(
struct aws_s3_meta_request *meta_request,
struct aws_s3_request *request,
aws_signing_complete_fn *on_signing_complete,
void *user_data) {
AWS_PRECONDITION(meta_request);
AWS_PRECONDITION(meta_request->vtable);
AWS_PRECONDITION(meta_request->vtable->sign_request);
meta_request->vtable->sign_request(meta_request, request, on_signing_complete, user_data);
}
/* Handles signing a message for the caller. */
void aws_s3_meta_request_sign_request_default(
struct aws_s3_meta_request *meta_request,
struct aws_s3_request *request,
aws_signing_complete_fn *on_signing_complete,
void *user_data) {
AWS_PRECONDITION(meta_request);
AWS_PRECONDITION(request);
AWS_PRECONDITION(on_signing_complete);
struct aws_s3_client *client = meta_request->client;
AWS_ASSERT(client);
struct aws_signing_config_aws signing_config;
if (meta_request->cached_signing_config != NULL) {
signing_config = meta_request->cached_signing_config->config;
} else if (client->cached_signing_config != NULL) {
signing_config = client->cached_signing_config->config;
} else {
AWS_LOGF_DEBUG(
AWS_LS_S3_META_REQUEST,
"id=%p: No signing config present. Not signing request %p.",
(void *)meta_request,
(void *)request);
on_signing_complete(NULL, AWS_ERROR_SUCCESS, user_data);
return;
}
s_s3_meta_request_init_signing_date_time(meta_request, &signing_config.date);
request->send_data.signable = aws_signable_new_http_request(meta_request->allocator, request->send_data.message);
AWS_LOGF_TRACE(
AWS_LS_S3_META_REQUEST,
"id=%p Created signable %p for request %p with message %p",
(void *)meta_request,
(void *)request->send_data.signable,
(void *)request,
(void *)request->send_data.message);
if (request->send_data.signable == NULL) {
AWS_LOGF_ERROR(
AWS_LS_S3_META_REQUEST,
"id=%p: Could not allocate signable for request %p",
(void *)meta_request,
(void *)request);
on_signing_complete(NULL, aws_last_error_or_unknown(), user_data);
return;
}
/* If the checksum is configured to be added to the trailer, the payload will be aws-chunked encoded. The payload
* will need to be streaming signed/unsigned. */
if (meta_request->checksum_config.location == AWS_SCL_TRAILER &&
aws_byte_cursor_eq(&signing_config.signed_body_value, &g_aws_signed_body_value_unsigned_payload)) {
signing_config.signed_body_value = g_aws_signed_body_value_streaming_unsigned_payload_trailer;
}
/* However the initial request for a multipart upload does not have a trailing checksum and is not chunked so it
* must have an unsigned_payload signed_body value*/
if (request->part_number == 0 &&
aws_byte_cursor_eq(
&signing_config.signed_body_value, &g_aws_signed_body_value_streaming_unsigned_payload_trailer)) {
signing_config.signed_body_value = g_aws_signed_body_value_unsigned_payload;
}
if (aws_sign_request_aws(
meta_request->allocator,
request->send_data.signable,
(struct aws_signing_config_base *)&signing_config,
on_signing_complete,
user_data)) {
AWS_LOGF_ERROR(
AWS_LS_S3_META_REQUEST, "id=%p: Could not sign request %p", (void *)meta_request, (void *)request);
on_signing_complete(NULL, aws_last_error_or_unknown(), user_data);
return;
}
}
/* Handle the signing result, getting an HTTP connection for the request if signing succeeded. */
static void s_s3_meta_request_request_on_signed(
struct aws_signing_result *signing_result,
int error_code,
void *user_data) {
struct aws_s3_prepare_request_payload *payload = user_data;
AWS_PRECONDITION(payload);
struct aws_s3_request *request = payload->request;
AWS_PRECONDITION(request);
struct aws_s3_meta_request *meta_request = request->meta_request;
AWS_PRECONDITION(meta_request);
if (error_code != AWS_ERROR_SUCCESS) {
goto finish;
}
if (signing_result != NULL &&
aws_apply_signing_result_to_http_request(request->send_data.message, meta_request->allocator, signing_result)) {
error_code = aws_last_error_or_unknown();
goto finish;
}
finish:
if (error_code != AWS_ERROR_SUCCESS) {
AWS_LOGF_ERROR(
AWS_LS_S3_META_REQUEST,
"id=%p Meta request could not sign TTP request due to error code %d (%s)",
(void *)meta_request,
error_code,
aws_error_str(error_code));
/* BEGIN CRITICAL SECTION */
{
aws_s3_meta_request_lock_synced_data(meta_request);
aws_s3_meta_request_set_fail_synced(meta_request, request, error_code);
aws_s3_meta_request_unlock_synced_data(meta_request);
}
/* END CRITICAL SECTION */
}
s_s3_prepare_request_payload_callback_and_destroy(payload, error_code);
}
void aws_s3_meta_request_send_request(struct aws_s3_meta_request *meta_request, struct aws_s3_connection *connection) {
AWS_PRECONDITION(meta_request);
AWS_PRECONDITION(connection);
AWS_PRECONDITION(connection->http_connection);
struct aws_s3_request *request = connection->request;
AWS_PRECONDITION(request);
/* Now that we have a signed request and a connection, go ahead and issue the request. */
struct aws_http_make_request_options options;
AWS_ZERO_STRUCT(options);
options.self_size = sizeof(struct aws_http_make_request_options);
options.request = request->send_data.message;
options.user_data = connection;
options.on_response_headers = s_s3_meta_request_incoming_headers;
options.on_response_header_block_done = NULL;
options.on_response_body = s_s3_meta_request_incoming_body;
options.on_complete = s_s3_meta_request_stream_complete;
struct aws_http_stream *stream = aws_http_connection_make_request(connection->http_connection, &options);
if (stream == NULL) {
AWS_LOGF_ERROR(
AWS_LS_S3_META_REQUEST, "id=%p: Could not make HTTP request %p", (void *)meta_request, (void *)request);
goto error_finish;
}
AWS_LOGF_TRACE(AWS_LS_S3_META_REQUEST, "id=%p: Sending request %p", (void *)meta_request, (void *)request);
if (aws_http_stream_activate(stream) != AWS_OP_SUCCESS) {
aws_http_stream_release(stream);
stream = NULL;
AWS_LOGF_ERROR(
AWS_LS_S3_META_REQUEST, "id=%p: Could not activate HTTP stream %p", (void *)meta_request, (void *)request);
goto error_finish;
}
return;
error_finish:
s_s3_meta_request_send_request_finish(connection, NULL, aws_last_error_or_unknown());
}
static int s_s3_meta_request_error_code_from_response_status(int response_status) {
int error_code = AWS_ERROR_UNKNOWN;
switch (response_status) {
case AWS_S3_RESPONSE_STATUS_SUCCESS:
case AWS_S3_RESPONSE_STATUS_RANGE_SUCCESS:
case AWS_S3_RESPONSE_STATUS_NO_CONTENT_SUCCESS:
error_code = AWS_ERROR_SUCCESS;
break;
case AWS_S3_RESPONSE_STATUS_INTERNAL_ERROR:
error_code = AWS_ERROR_S3_INTERNAL_ERROR;
break;
case AWS_S3_RESPONSE_STATUS_SLOW_DOWN:
error_code = AWS_ERROR_S3_SLOW_DOWN;
break;
default:
error_code = AWS_ERROR_S3_INVALID_RESPONSE_STATUS;
break;
}
return error_code;
}
static bool s_header_value_from_list(
const struct aws_http_header *headers,
size_t headers_count,
const struct aws_byte_cursor *name,
struct aws_byte_cursor *out_value) {
for (size_t i = 0; i < headers_count; ++i) {
if (aws_byte_cursor_eq(&headers[i].name, name)) {
*out_value = headers[i].value;
return true;
}
}
return false;
}
static void s_get_part_response_headers_checksum_helper(
struct aws_s3_connection *connection,
struct aws_s3_meta_request *meta_request,
const struct aws_http_header *headers,
size_t headers_count) {
for (int i = AWS_SCA_INIT; i <= AWS_SCA_END; i++) {
if (!aws_s3_meta_request_checksum_config_has_algorithm(meta_request, i)) {
/* If user doesn't select this algorithm, skip */
continue;
}
const struct aws_byte_cursor *algorithm_header_name = aws_get_http_header_name_from_algorithm(i);
struct aws_byte_cursor header_sum;
if (s_header_value_from_list(headers, headers_count, algorithm_header_name, &header_sum)) {
size_t encoded_len = 0;
aws_base64_compute_encoded_len(aws_get_digest_size_from_algorithm(i), &encoded_len);
if (header_sum.len == encoded_len - 1) {
aws_byte_buf_init_copy_from_cursor(
&connection->request->request_level_response_header_checksum, aws_default_allocator(), header_sum);
connection->request->request_level_running_response_sum = aws_checksum_new(aws_default_allocator(), i);
}
break;
}
}
}
/* warning this might get screwed up with retrys/restarts */
static void s_get_part_response_body_checksum_helper(
struct aws_s3_checksum *running_response_sum,
const struct aws_byte_cursor *body) {
if (running_response_sum) {
aws_checksum_update(running_response_sum, body);
}
}
static void s_get_response_part_finish_checksum_helper(struct aws_s3_connection *connection, int error_code) {
struct aws_byte_buf response_body_sum;
struct aws_byte_buf encoded_response_body_sum;
AWS_ZERO_STRUCT(response_body_sum);
AWS_ZERO_STRUCT(encoded_response_body_sum);
struct aws_s3_request *request = connection->request;
if (error_code == AWS_OP_SUCCESS && request->request_level_running_response_sum) {
size_t encoded_checksum_len = 0;
request->did_validate = true;
aws_base64_compute_encoded_len(request->request_level_running_response_sum->digest_size, &encoded_checksum_len);
aws_byte_buf_init(&encoded_response_body_sum, aws_default_allocator(), encoded_checksum_len);
aws_byte_buf_init(
&response_body_sum, aws_default_allocator(), request->request_level_running_response_sum->digest_size);
aws_checksum_finalize(request->request_level_running_response_sum, &response_body_sum, 0);
struct aws_byte_cursor response_body_sum_cursor = aws_byte_cursor_from_buf(&response_body_sum);
aws_base64_encode(&response_body_sum_cursor, &encoded_response_body_sum);
request->checksum_match =
aws_byte_buf_eq(&encoded_response_body_sum, &request->request_level_response_header_checksum);
request->validation_algorithm = request->request_level_running_response_sum->algorithm;
aws_byte_buf_clean_up(&response_body_sum);
aws_byte_buf_clean_up(&encoded_response_body_sum);
aws_checksum_destroy(request->request_level_running_response_sum);
aws_byte_buf_clean_up(&request->request_level_response_header_checksum);
request->request_level_running_response_sum = NULL;
} else {
request->did_validate = false;
}
}
static int s_s3_meta_request_incoming_headers(
struct aws_http_stream *stream,
enum aws_http_header_block header_block,
const struct aws_http_header *headers,
size_t headers_count,
void *user_data) {
(void)header_block;
AWS_PRECONDITION(stream);
struct aws_s3_connection *connection = user_data;
AWS_PRECONDITION(connection);
struct aws_s3_request *request = connection->request;
AWS_PRECONDITION(request);
struct aws_s3_meta_request *meta_request = request->meta_request;
AWS_PRECONDITION(meta_request);
if (aws_http_stream_get_incoming_response_status(stream, &request->send_data.response_status)) {
AWS_LOGF_ERROR(
AWS_LS_S3_META_REQUEST,
"id=%p Could not get incoming response status for request %p",
(void *)meta_request,
(void *)request);
}
bool successful_response =
s_s3_meta_request_error_code_from_response_status(request->send_data.response_status) == AWS_ERROR_SUCCESS;
if (successful_response && meta_request->checksum_config.validate_response_checksum &&
request->request_tag == AWS_S3_AUTO_RANGE_GET_REQUEST_TYPE_PART) {
s_get_part_response_headers_checksum_helper(connection, meta_request, headers, headers_count);
}
/* Only record headers if an error has taken place, or if the request_desc has asked for them. */
bool should_record_headers = !successful_response || request->record_response_headers;
if (should_record_headers) {
if (request->send_data.response_headers == NULL) {
request->send_data.response_headers = aws_http_headers_new(meta_request->allocator);
}
for (size_t i = 0; i < headers_count; ++i) {
const struct aws_byte_cursor *name = &headers[i].name;
const struct aws_byte_cursor *value = &headers[i].value;
aws_http_headers_add(request->send_data.response_headers, *name, *value);
}
}
return AWS_OP_SUCCESS;
}
static int s_s3_meta_request_incoming_body(
struct aws_http_stream *stream,
const struct aws_byte_cursor *data,
void *user_data) {
(void)stream;
struct aws_s3_connection *connection = user_data;
AWS_PRECONDITION(connection);
struct aws_s3_request *request = connection->request;
AWS_PRECONDITION(request);
struct aws_s3_meta_request *meta_request = request->meta_request;
AWS_PRECONDITION(meta_request);
AWS_PRECONDITION(meta_request->vtable);
AWS_LOGF_TRACE(
AWS_LS_S3_META_REQUEST,
"id=%p Incoming body for request %p. Response status: %d. Data Size: %" PRIu64 ". connection: %p.",
(void *)meta_request,
(void *)request,
request->send_data.response_status,
(uint64_t)data->len,
(void *)connection);
if (request->send_data.response_status < 200 || request->send_data.response_status > 299) {
AWS_LOGF_TRACE(AWS_LS_S3_META_REQUEST, "response body: \n" PRInSTR "\n", AWS_BYTE_CURSOR_PRI(*data));
}
if (meta_request->checksum_config.validate_response_checksum) {
s_get_part_response_body_checksum_helper(request->request_level_running_response_sum, data);
}
if (request->send_data.response_body.capacity == 0) {
size_t buffer_size = s_dynamic_body_initial_buf_size;
if (request->part_size_response_body) {
buffer_size = meta_request->part_size;
}
aws_byte_buf_init(&request->send_data.response_body, meta_request->allocator, buffer_size);
}
if (aws_byte_buf_append_dynamic(&request->send_data.response_body, data)) {
AWS_LOGF_ERROR(
AWS_LS_S3_META_REQUEST,
"id=%p: Request %p could not append to response body due to error %d (%s)",
(void *)meta_request,
(void *)request,
aws_last_error_or_unknown(),
aws_error_str(aws_last_error_or_unknown()));
return AWS_OP_ERR;
}
return AWS_OP_SUCCESS;
}
/* Finish up the processing of the request work. */
static void s_s3_meta_request_stream_complete(struct aws_http_stream *stream, int error_code, void *user_data) {
struct aws_s3_connection *connection = user_data;
AWS_PRECONDITION(connection);
if (connection->request->meta_request->checksum_config.validate_response_checksum) {
s_get_response_part_finish_checksum_helper(connection, error_code);
}
s_s3_meta_request_send_request_finish(connection, stream, error_code);
}
static void s_s3_meta_request_send_request_finish(
struct aws_s3_connection *connection,
struct aws_http_stream *stream,
int error_code) {
AWS_PRECONDITION(connection);
struct aws_s3_request *request = connection->request;
AWS_PRECONDITION(request);
struct aws_s3_meta_request *meta_request = request->meta_request;
AWS_PRECONDITION(meta_request);
struct aws_s3_meta_request_vtable *vtable = meta_request->vtable;
AWS_PRECONDITION(vtable);
vtable->send_request_finish(connection, stream, error_code);
}
static int s_s3_meta_request_error_code_from_response_body(struct aws_s3_request *request) {
AWS_PRECONDITION(request);
if (request->send_data.response_body.len == 0) {
/* Empty body is success */
return AWS_ERROR_SUCCESS;
}
struct aws_byte_cursor response_body_cursor = aws_byte_cursor_from_buf(&request->send_data.response_body);
bool root_name_mismatch = false;
struct aws_string *error_code_string = aws_xml_get_top_level_tag_with_root_name(
request->allocator, &g_code_body_xml_name, &g_error_body_xml_name, &root_name_mismatch, &response_body_cursor);
if (error_code_string == NULL) {
if (root_name_mismatch || aws_last_error() == AWS_ERROR_MALFORMED_INPUT_STRING) {
/* The xml body is not Error, we can safely think the request succeed. */
aws_reset_error();
return AWS_ERROR_SUCCESS;
} else {
return aws_last_error();
}
} else {
/* Check the error code. Map the S3 error code to CRT error code. */
int error_code = aws_s3_crt_error_code_from_server_error_code_string(error_code_string);
if (error_code == AWS_ERROR_UNKNOWN) {
/* All error besides of internal error from async error are not recoverable from retry for now. */
error_code = AWS_ERROR_S3_NON_RECOVERABLE_ASYNC_ERROR;
}
aws_string_destroy(error_code_string);
return error_code;
}
}
static void s_s3_meta_request_send_request_finish_helper(
struct aws_s3_connection *connection,
struct aws_http_stream *stream,
int error_code,
bool handle_async_error) {
struct aws_s3_request *request = connection->request;
AWS_PRECONDITION(request);
struct aws_s3_meta_request *meta_request = request->meta_request;
AWS_PRECONDITION(meta_request);
struct aws_s3_client *client = meta_request->client;
AWS_PRECONDITION(client);
int response_status = request->send_data.response_status;
/* If our error code is currently success, then we have some other calls to make that could still indicate a
* failure. */
if (error_code == AWS_ERROR_SUCCESS) {
if (handle_async_error && response_status == AWS_HTTP_STATUS_CODE_200_OK) {
error_code = s_s3_meta_request_error_code_from_response_body(request);
} else {
error_code = s_s3_meta_request_error_code_from_response_status(response_status);
}
if (error_code != AWS_ERROR_SUCCESS) {
aws_raise_error(error_code);
}
}
AWS_LOGF_DEBUG(
AWS_LS_S3_META_REQUEST,
"id=%p: Request %p finished with error code %d (%s) and response status %d",
(void *)meta_request,
(void *)request,
error_code,
aws_error_debug_str(error_code),
response_status);
enum aws_s3_connection_finish_code finish_code = AWS_S3_CONNECTION_FINISH_CODE_FAILED;
if (error_code == AWS_ERROR_SUCCESS) {
if (connection->request->meta_request->type == AWS_S3_META_REQUEST_TYPE_GET_OBJECT && request->did_validate &&
!request->checksum_match) {
finish_code = AWS_S3_CONNECTION_FINISH_CODE_FAILED;
error_code = AWS_ERROR_S3_RESPONSE_CHECKSUM_MISMATCH;
AWS_LOGF_ERROR(
AWS_LS_S3_META_REQUEST,
"id=%p Meta request cannot recover from checksum mismatch. (request=%p, response status=%d)",
(void *)meta_request,
(void *)request,
response_status);
} else {
finish_code = AWS_S3_CONNECTION_FINISH_CODE_SUCCESS;
}
} else {
/* BEGIN CRITICAL SECTION */
aws_s3_meta_request_lock_synced_data(meta_request);
bool meta_request_finishing = aws_s3_meta_request_has_finish_result_synced(meta_request);
aws_s3_meta_request_unlock_synced_data(meta_request);
/* END CRITICAL SECTION */
/* If the request failed due to an invalid (ie: unrecoverable) response status, or the meta request already
* has a result, then make sure that this request isn't retried. */
if (error_code == AWS_ERROR_S3_INVALID_RESPONSE_STATUS ||
error_code == AWS_ERROR_S3_NON_RECOVERABLE_ASYNC_ERROR || meta_request_finishing) {
finish_code = AWS_S3_CONNECTION_FINISH_CODE_FAILED;
AWS_LOGF_ERROR(
AWS_LS_S3_META_REQUEST,
"id=%p Meta request cannot recover from error %d (%s). (request=%p, response status=%d)",
(void *)meta_request,
error_code,
aws_error_str(error_code),
(void *)request,
response_status);
} else {
AWS_LOGF_ERROR(
AWS_LS_S3_META_REQUEST,
"id=%p Meta request failed from error %d (%s). (request=%p, response status=%d). Try to setup a "
"retry.",
(void *)meta_request,
error_code,
aws_error_str(error_code),
(void *)request,
response_status);
/* Otherwise, set this up for a retry if the meta request is active. */
finish_code = AWS_S3_CONNECTION_FINISH_CODE_RETRY;
}
}
if (stream != NULL) {
aws_http_stream_release(stream);
stream = NULL;
}
aws_s3_client_notify_connection_finished(client, connection, error_code, finish_code);
}
void aws_s3_meta_request_send_request_finish_default(
struct aws_s3_connection *connection,
struct aws_http_stream *stream,
int error_code) {
s_s3_meta_request_send_request_finish_helper(connection, stream, error_code, false /*async error*/);
}
void aws_s3_meta_request_send_request_finish_handle_async_error(
struct aws_s3_connection *connection,
struct aws_http_stream *stream,
int error_code) {
s_s3_meta_request_send_request_finish_helper(connection, stream, error_code, true /*async error*/);
}
void aws_s3_meta_request_finished_request(
struct aws_s3_meta_request *meta_request,
struct aws_s3_request *request,
int error_code) {
AWS_PRECONDITION(meta_request);
AWS_PRECONDITION(meta_request->vtable);
AWS_PRECONDITION(meta_request->vtable->finished_request);
meta_request->vtable->finished_request(meta_request, request, error_code);
}
struct s3_stream_response_body_payload {
struct aws_s3_meta_request *meta_request;
struct aws_linked_list requests;
struct aws_task task;
};
/* Pushes a request into the body streaming priority queue. Derived meta request types should not call this--they
* should instead call aws_s3_meta_request_stream_response_body_synced.*/
static void s_s3_meta_request_body_streaming_push_synced(
struct aws_s3_meta_request *meta_request,
struct aws_s3_request *request);
/* Pops the next available request from the body streaming priority queue. If the parts previous the next request in
* the priority queue have not been placed in the priority queue yet, the priority queue will remain the same, and
* NULL will be returned. (Should not be needed to be called by derived types.) */
static struct aws_s3_request *s_s3_meta_request_body_streaming_pop_next_synced(
struct aws_s3_meta_request *meta_request);
static void s_s3_meta_request_body_streaming_task(struct aws_task *task, void *arg, enum aws_task_status task_status);
void aws_s3_meta_request_stream_response_body_synced(
struct aws_s3_meta_request *meta_request,
struct aws_s3_request *request) {
ASSERT_SYNCED_DATA_LOCK_HELD(meta_request);
AWS_PRECONDITION(meta_request);
AWS_PRECONDITION(request);
AWS_PRECONDITION(request->part_number > 0);
struct aws_linked_list streaming_requests;
aws_linked_list_init(&streaming_requests);
/* Push it into the priority queue. */
s_s3_meta_request_body_streaming_push_synced(meta_request, request);
struct aws_s3_client *client = meta_request->client;
AWS_PRECONDITION(client);
aws_atomic_fetch_add(&client->stats.num_requests_stream_queued_waiting, 1);
/* Grab the next request that can be streamed back to the caller. */
struct aws_s3_request *next_streaming_request = s_s3_meta_request_body_streaming_pop_next_synced(meta_request);
uint32_t num_streaming_requests = 0;
/* Grab any additional requests that could be streamed to the caller. */
while (next_streaming_request != NULL) {
aws_atomic_fetch_sub(&client->stats.num_requests_stream_queued_waiting, 1);
aws_linked_list_push_back(&streaming_requests, &next_streaming_request->node);
++num_streaming_requests;
next_streaming_request = s_s3_meta_request_body_streaming_pop_next_synced(meta_request);
}
if (aws_linked_list_empty(&streaming_requests)) {
return;
}
aws_atomic_fetch_add(&client->stats.num_requests_streaming, num_streaming_requests);
meta_request->synced_data.num_parts_delivery_sent += num_streaming_requests;
struct s3_stream_response_body_payload *payload =
aws_mem_calloc(client->allocator, 1, sizeof(struct s3_stream_response_body_payload));
aws_s3_meta_request_acquire(meta_request);
payload->meta_request = meta_request;
aws_linked_list_init(&payload->requests);
aws_linked_list_swap_contents(&payload->requests, &streaming_requests);
aws_task_init(
&payload->task, s_s3_meta_request_body_streaming_task, payload, "s_s3_meta_request_body_streaming_task");
aws_event_loop_schedule_task_now(meta_request->io_event_loop, &payload->task);
}
static void s_s3_meta_request_body_streaming_task(struct aws_task *task, void *arg, enum aws_task_status task_status) {
(void)task;
(void)task_status;
struct s3_stream_response_body_payload *payload = arg;
AWS_PRECONDITION(payload);
struct aws_s3_meta_request *meta_request = payload->meta_request;
AWS_PRECONDITION(meta_request);
AWS_PRECONDITION(meta_request->vtable);
struct aws_s3_client *client = meta_request->client;
AWS_PRECONDITION(client);
/* Client owns this event loop group. A cancel should not be possible. */
AWS_ASSERT(task_status == AWS_TASK_STATUS_RUN_READY);
struct aws_linked_list completed_requests;
aws_linked_list_init(&completed_requests);
int error_code = AWS_ERROR_SUCCESS;
uint32_t num_successful = 0;
uint32_t num_failed = 0;
while (!aws_linked_list_empty(&payload->requests)) {
struct aws_linked_list_node *request_node = aws_linked_list_pop_front(&payload->requests);
struct aws_s3_request *request = AWS_CONTAINER_OF(request_node, struct aws_s3_request, node);
AWS_ASSERT(meta_request == request->meta_request);
struct aws_byte_cursor body_buffer_byte_cursor = aws_byte_cursor_from_buf(&request->send_data.response_body);
AWS_ASSERT(request->part_number >= 1);
if (aws_s3_meta_request_has_finish_result(meta_request)) {
++num_failed;
} else {
if (body_buffer_byte_cursor.len > 0 && error_code == AWS_ERROR_SUCCESS && meta_request->body_callback &&
meta_request->body_callback(
meta_request, &body_buffer_byte_cursor, request->part_range_start, meta_request->user_data)) {
error_code = aws_last_error_or_unknown();
}
if (error_code == AWS_ERROR_SUCCESS) {
++num_successful;
} else {
++num_failed;
}
}
aws_atomic_fetch_sub(&client->stats.num_requests_streaming, 1);
aws_s3_request_release(request);
}
/* BEGIN CRITICAL SECTION */
{
aws_s3_meta_request_lock_synced_data(meta_request);
if (error_code != AWS_ERROR_SUCCESS) {
aws_s3_meta_request_set_fail_synced(meta_request, NULL, error_code);
}
meta_request->synced_data.num_parts_delivery_completed += (num_failed + num_successful);
meta_request->synced_data.num_parts_delivery_failed += num_failed;
meta_request->synced_data.num_parts_delivery_succeeded += num_successful;
aws_s3_meta_request_unlock_synced_data(meta_request);
}
/* END CRITICAL SECTION */
aws_mem_release(client->allocator, payload);
payload = NULL;
aws_s3_client_schedule_process_work(client);
aws_s3_meta_request_release(meta_request);
}
static void s_s3_meta_request_body_streaming_push_synced(
struct aws_s3_meta_request *meta_request,
struct aws_s3_request *request) {
ASSERT_SYNCED_DATA_LOCK_HELD(meta_request);
AWS_PRECONDITION(meta_request);
AWS_PRECONDITION(request);
AWS_ASSERT(request->meta_request == meta_request);
aws_s3_request_acquire(request);
aws_priority_queue_push(&meta_request->synced_data.pending_body_streaming_requests, &request);
}
static struct aws_s3_request *s_s3_meta_request_body_streaming_pop_next_synced(
struct aws_s3_meta_request *meta_request) {
AWS_PRECONDITION(meta_request);
ASSERT_SYNCED_DATA_LOCK_HELD(meta_request);
if (0 == aws_priority_queue_size(&meta_request->synced_data.pending_body_streaming_requests)) {
return NULL;
}
struct aws_s3_request **top_request = NULL;
aws_priority_queue_top(&meta_request->synced_data.pending_body_streaming_requests, (void **)&top_request);
AWS_ASSERT(top_request);
AWS_FATAL_ASSERT(*top_request);
if ((*top_request)->part_number != meta_request->synced_data.next_streaming_part) {
return NULL;
}
struct aws_s3_request *request = NULL;
aws_priority_queue_pop(&meta_request->synced_data.pending_body_streaming_requests, (void **)&request);
++meta_request->synced_data.next_streaming_part;
return request;
}
void aws_s3_meta_request_finish(struct aws_s3_meta_request *meta_request) {
AWS_PRECONDITION(meta_request);
AWS_PRECONDITION(meta_request->vtable);
AWS_PRECONDITION(meta_request->vtable->finish);
meta_request->vtable->finish(meta_request);
}
void aws_s3_meta_request_finish_default(struct aws_s3_meta_request *meta_request) {
AWS_PRECONDITION(meta_request);
bool already_finished = false;
struct aws_linked_list release_request_list;
aws_linked_list_init(&release_request_list);
struct aws_s3_meta_request_result finish_result;
AWS_ZERO_STRUCT(finish_result);
/* BEGIN CRITICAL SECTION */
{
aws_s3_meta_request_lock_synced_data(meta_request);
if (meta_request->synced_data.state == AWS_S3_META_REQUEST_STATE_FINISHED) {
already_finished = true;
goto unlock;
}
meta_request->synced_data.state = AWS_S3_META_REQUEST_STATE_FINISHED;
/* Clean out the pending-stream-to-caller priority queue*/
while (aws_priority_queue_size(&meta_request->synced_data.pending_body_streaming_requests) > 0) {
struct aws_s3_request *request = NULL;
aws_priority_queue_pop(&meta_request->synced_data.pending_body_streaming_requests, (void **)&request);
AWS_FATAL_ASSERT(request != NULL);
aws_linked_list_push_back(&release_request_list, &request->node);
}
finish_result = meta_request->synced_data.finish_result;
AWS_ZERO_STRUCT(meta_request->synced_data.finish_result);
unlock:
aws_s3_meta_request_unlock_synced_data(meta_request);
}
/* END CRITICAL SECTION */
if (already_finished) {
return;
}
while (!aws_linked_list_empty(&release_request_list)) {
struct aws_linked_list_node *request_node = aws_linked_list_pop_front(&release_request_list);
struct aws_s3_request *release_request = AWS_CONTAINER_OF(request_node, struct aws_s3_request, node);
AWS_FATAL_ASSERT(release_request != NULL);
aws_s3_request_release(release_request);
}
if (meta_request->headers_callback && finish_result.error_response_headers) {
if (meta_request->headers_callback(
meta_request,
finish_result.error_response_headers,
finish_result.response_status,
meta_request->user_data)) {
finish_result.error_code = aws_last_error_or_unknown();
}
meta_request->headers_callback = NULL;
}
AWS_LOGF_DEBUG(
AWS_LS_S3_META_REQUEST,
"id=%p Meta request finished with error code %d (%s)",
(void *)meta_request,
finish_result.error_code,
aws_error_str(finish_result.error_code));
/* As the meta request has been finished with any HTTP message, we can safely release the http message that hold. So
* that, the downstream high level language doesn't need to wait for shutdown to clean related resource (eg: input
* stream) */
if (meta_request->initial_request_message) {
aws_http_message_release(meta_request->initial_request_message);
meta_request->initial_request_message = NULL;
}
if (meta_request->finish_callback != NULL) {
meta_request->finish_callback(meta_request, &finish_result, meta_request->user_data);
}
aws_s3_meta_request_result_clean_up(meta_request, &finish_result);
aws_s3_endpoint_release(meta_request->endpoint);
meta_request->endpoint = NULL;
meta_request->io_event_loop = NULL;
}
int aws_s3_meta_request_read_body(struct aws_s3_meta_request *meta_request, struct aws_byte_buf *buffer) {
AWS_PRECONDITION(meta_request);
AWS_PRECONDITION(buffer);
struct aws_input_stream *initial_body_stream =
aws_http_message_get_body_stream(meta_request->initial_request_message);
AWS_FATAL_ASSERT(initial_body_stream);
/* Copy it into our buffer. */
if (aws_input_stream_read(initial_body_stream, buffer)) {
AWS_LOGF_ERROR(AWS_LS_S3_META_REQUEST, "id=%p Could not read from body stream.", (void *)meta_request);
return AWS_OP_ERR;
}
return AWS_OP_SUCCESS;
}
void aws_s3_meta_request_result_setup(
struct aws_s3_meta_request *meta_request,
struct aws_s3_meta_request_result *result,
struct aws_s3_request *request,
int response_status,
int error_code) {
if (request != NULL) {
if (request->send_data.response_headers != NULL) {
result->error_response_headers = request->send_data.response_headers;
aws_http_headers_acquire(result->error_response_headers);
}
if (request->send_data.response_body.capacity > 0) {
result->error_response_body = aws_mem_calloc(meta_request->allocator, 1, sizeof(struct aws_byte_buf));
aws_byte_buf_init_copy(
result->error_response_body, meta_request->allocator, &request->send_data.response_body);
}
}
result->response_status = response_status;
result->error_code = error_code;
}
void aws_s3_meta_request_result_clean_up(
struct aws_s3_meta_request *meta_request,
struct aws_s3_meta_request_result *result) {
AWS_PRECONDITION(meta_request);
AWS_PRECONDITION(result);
aws_http_headers_release(result->error_response_headers);
if (result->error_response_body != NULL) {
aws_byte_buf_clean_up(result->error_response_body);
aws_mem_release(meta_request->allocator, result->error_response_body);
}
AWS_ZERO_STRUCT(*result);
}
bool aws_s3_meta_request_checksum_config_has_algorithm(
struct aws_s3_meta_request *meta_request,
enum aws_s3_checksum_algorithm algorithm) {
AWS_PRECONDITION(meta_request);
switch (algorithm) {
case AWS_SCA_CRC32C:
return meta_request->checksum_config.response_checksum_algorithms.crc32c;
case AWS_SCA_CRC32:
return meta_request->checksum_config.response_checksum_algorithms.crc32;
case AWS_SCA_SHA1:
return meta_request->checksum_config.response_checksum_algorithms.sha1;
case AWS_SCA_SHA256:
return meta_request->checksum_config.response_checksum_algorithms.sha256;
default:
return false;
}
}
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