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|
/**
* Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
* SPDX-License-Identifier: Apache-2.0.
*/
#include <aws/common/array_list.h>
#include <aws/common/clock.h>
#include <aws/common/hash_table.h>
#include <aws/common/logging.h>
#include <aws/http/connection.h>
#include <aws/http/connection_manager.h>
#include <aws/http/request_response.h>
#include <aws/io/channel.h>
#include <aws/io/channel_bootstrap.h>
#include <aws/io/event_loop.h>
#include <aws/http/http2_stream_manager.h>
#include <aws/http/private/http2_stream_manager_impl.h>
#include <aws/http/private/request_response_impl.h>
#include <aws/http/status_code.h>
#include <inttypes.h>
#ifdef _MSC_VER
# pragma warning(disable : 4204) /* non-constant aggregate initializer */
#endif
/* Apple toolchains such as xcode and swiftpm define the DEBUG symbol. undef it here so we can actually use the token */
#undef DEBUG
#define STREAM_MANAGER_LOGF(level, stream_manager, text, ...) \
AWS_LOGF_##level(AWS_LS_HTTP_STREAM_MANAGER, "id=%p: " text, (void *)(stream_manager), __VA_ARGS__)
#define STREAM_MANAGER_LOG(level, stream_manager, text) STREAM_MANAGER_LOGF(level, stream_manager, "%s", text)
/* 3 seconds */
static const size_t s_default_ping_timeout_ms = 3000;
static void s_stream_manager_start_destroy(struct aws_http2_stream_manager *stream_manager);
static void s_aws_http2_stream_manager_build_transaction_synced(struct aws_http2_stream_management_transaction *work);
static void s_aws_http2_stream_manager_execute_transaction(struct aws_http2_stream_management_transaction *work);
static struct aws_h2_sm_pending_stream_acquisition *s_new_pending_stream_acquisition(
struct aws_allocator *allocator,
const struct aws_http_make_request_options *options,
aws_http2_stream_manager_on_stream_acquired_fn *callback,
void *user_data) {
struct aws_h2_sm_pending_stream_acquisition *pending_stream_acquisition =
aws_mem_calloc(allocator, 1, sizeof(struct aws_h2_sm_pending_stream_acquisition));
/* Copy the options and keep the underlying message alive */
pending_stream_acquisition->options = *options;
pending_stream_acquisition->request = options->request;
aws_http_message_acquire(pending_stream_acquisition->request);
pending_stream_acquisition->callback = callback;
pending_stream_acquisition->user_data = user_data;
pending_stream_acquisition->allocator = allocator;
return pending_stream_acquisition;
}
static void s_pending_stream_acquisition_destroy(
struct aws_h2_sm_pending_stream_acquisition *pending_stream_acquisition) {
if (pending_stream_acquisition == NULL) {
return;
}
if (pending_stream_acquisition->request) {
aws_http_message_release(pending_stream_acquisition->request);
}
aws_mem_release(pending_stream_acquisition->allocator, pending_stream_acquisition);
}
static void s_lock_synced_data(struct aws_http2_stream_manager *stream_manager) {
int err = aws_mutex_lock(&stream_manager->synced_data.lock);
AWS_ASSERT(!err && "lock failed");
(void)err;
}
static void s_unlock_synced_data(struct aws_http2_stream_manager *stream_manager) {
int err = aws_mutex_unlock(&stream_manager->synced_data.lock);
AWS_ASSERT(!err && "unlock failed");
(void)err;
}
static void s_sm_log_stats_synced(struct aws_http2_stream_manager *stream_manager) {
STREAM_MANAGER_LOGF(
TRACE,
stream_manager,
"Stream manager internal counts status: "
"connection acquiring=%zu, streams opening=%zu, pending make request count=%zu, pending acquisition count=%zu, "
"holding connections count=%zu",
stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_CONNECTIONS_ACQUIRING],
stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_OPEN_STREAM],
stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_PENDING_MAKE_REQUESTS],
stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_PENDING_ACQUISITION],
stream_manager->synced_data.holding_connections_count);
}
/* The count acquire and release all needs to be invoked helding the lock */
static void s_sm_count_increase_synced(
struct aws_http2_stream_manager *stream_manager,
enum aws_sm_count_type count_type,
size_t num) {
stream_manager->synced_data.internal_refcount_stats[count_type] += num;
for (size_t i = 0; i < num; i++) {
aws_ref_count_acquire(&stream_manager->internal_ref_count);
}
}
static void s_sm_count_decrease_synced(
struct aws_http2_stream_manager *stream_manager,
enum aws_sm_count_type count_type,
size_t num) {
stream_manager->synced_data.internal_refcount_stats[count_type] -= num;
for (size_t i = 0; i < num; i++) {
aws_ref_count_release(&stream_manager->internal_ref_count);
}
}
static void s_aws_stream_management_transaction_init(
struct aws_http2_stream_management_transaction *work,
struct aws_http2_stream_manager *stream_manager) {
AWS_ZERO_STRUCT(*work);
aws_linked_list_init(&work->pending_make_requests);
work->stream_manager = stream_manager;
work->allocator = stream_manager->allocator;
aws_ref_count_acquire(&stream_manager->internal_ref_count);
}
static void s_aws_stream_management_transaction_clean_up(struct aws_http2_stream_management_transaction *work) {
(void)work;
AWS_ASSERT(aws_linked_list_empty(&work->pending_make_requests));
aws_ref_count_release(&work->stream_manager->internal_ref_count);
}
static struct aws_h2_sm_connection *s_get_best_sm_connection_from_set(struct aws_random_access_set *set) {
/* Use the best two algorithm */
int errored = AWS_ERROR_SUCCESS;
struct aws_h2_sm_connection *sm_connection_a = NULL;
errored = aws_random_access_set_random_get_ptr(set, (void **)&sm_connection_a);
struct aws_h2_sm_connection *sm_connection_b = NULL;
errored |= aws_random_access_set_random_get_ptr(set, (void **)&sm_connection_b);
struct aws_h2_sm_connection *chosen_connection =
sm_connection_a->num_streams_assigned > sm_connection_b->num_streams_assigned ? sm_connection_b
: sm_connection_a;
return errored == AWS_ERROR_SUCCESS ? chosen_connection : NULL;
(void)errored;
}
/* helper function for building the transaction: Try to assign connection for a pending stream acquisition */
/* *_synced should only be called with LOCK HELD or from another synced function */
static void s_sm_try_assign_connection_to_pending_stream_acquisition_synced(
struct aws_http2_stream_manager *stream_manager,
struct aws_h2_sm_pending_stream_acquisition *pending_stream_acquisition) {
AWS_ASSERT(pending_stream_acquisition->sm_connection == NULL);
int errored = 0;
if (aws_random_access_set_get_size(&stream_manager->synced_data.ideal_available_set)) {
/**
* Try assigning to connection from ideal set
*/
struct aws_h2_sm_connection *chosen_connection =
s_get_best_sm_connection_from_set(&stream_manager->synced_data.ideal_available_set);
AWS_ASSERT(chosen_connection);
pending_stream_acquisition->sm_connection = chosen_connection;
chosen_connection->num_streams_assigned++;
STREAM_MANAGER_LOGF(
DEBUG,
stream_manager,
"Picking connection:%p for acquisition:%p. Streams assigned to the connection=%" PRIu32 "",
(void *)chosen_connection->connection,
(void *)pending_stream_acquisition,
chosen_connection->num_streams_assigned);
/* Check if connection is still available or ideal, and move it if it's not */
if (chosen_connection->num_streams_assigned >= chosen_connection->max_concurrent_streams) {
/* It becomes not available for new streams any more, remove it from the set, but still alive (streams
* created will track the lifetime) */
chosen_connection->state = AWS_H2SMCST_FULL;
errored |=
aws_random_access_set_remove(&stream_manager->synced_data.ideal_available_set, chosen_connection);
STREAM_MANAGER_LOGF(
DEBUG,
stream_manager,
"connection:%p reaches max concurrent streams limits. "
"Connection max limits=%" PRIu32 ". Moving it out of available connections.",
(void *)chosen_connection->connection,
chosen_connection->max_concurrent_streams);
} else if (chosen_connection->num_streams_assigned >= stream_manager->ideal_concurrent_streams_per_connection) {
/* It meets the ideal limit, but still available for new streams, move it to the nonidea-available set */
errored |=
aws_random_access_set_remove(&stream_manager->synced_data.ideal_available_set, chosen_connection);
bool added = false;
errored |= aws_random_access_set_add(
&stream_manager->synced_data.nonideal_available_set, chosen_connection, &added);
errored |= !added;
chosen_connection->state = AWS_H2SMCST_NEARLY_FULL;
STREAM_MANAGER_LOGF(
DEBUG,
stream_manager,
"connection:%p reaches ideal concurrent streams limits. Ideal limits=%zu. Moving it to nonlimited set.",
(void *)chosen_connection->connection,
stream_manager->ideal_concurrent_streams_per_connection);
}
} else if (stream_manager->synced_data.holding_connections_count == stream_manager->max_connections) {
/**
* Try assigning to connection from nonideal available set.
*
* Note that we do not assign to nonideal connections until we're holding all the connections we can ever
* possibly get. This way, we don't overfill the first connections we get our hands on.
*/
if (aws_random_access_set_get_size(&stream_manager->synced_data.nonideal_available_set)) {
struct aws_h2_sm_connection *chosen_connection =
s_get_best_sm_connection_from_set(&stream_manager->synced_data.nonideal_available_set);
AWS_ASSERT(chosen_connection);
pending_stream_acquisition->sm_connection = chosen_connection;
chosen_connection->num_streams_assigned++;
STREAM_MANAGER_LOGF(
DEBUG,
stream_manager,
"Picking connection:%p for acquisition:%p. Streams assigned to the connection=%" PRIu32 "",
(void *)chosen_connection->connection,
(void *)pending_stream_acquisition,
chosen_connection->num_streams_assigned);
if (chosen_connection->num_streams_assigned >= chosen_connection->max_concurrent_streams) {
/* It becomes not available for new streams any more, remove it from the set, but still alive (streams
* created will track the lifetime) */
chosen_connection->state = AWS_H2SMCST_FULL;
errored |= aws_random_access_set_remove(
&stream_manager->synced_data.nonideal_available_set, chosen_connection);
STREAM_MANAGER_LOGF(
DEBUG,
stream_manager,
"connection %p reaches max concurrent streams limits. "
"Connection max limits=%" PRIu32 ". Moving it out of available connections.",
(void *)chosen_connection->connection,
chosen_connection->max_concurrent_streams);
}
}
}
AWS_ASSERT(errored == 0 && "random access set went wrong");
(void)errored;
}
/* NOTE: never invoke with lock held */
static void s_finish_pending_stream_acquisitions_list_helper(
struct aws_http2_stream_manager *stream_manager,
struct aws_linked_list *pending_stream_acquisitions,
int error_code) {
while (!aws_linked_list_empty(pending_stream_acquisitions)) {
struct aws_linked_list_node *node = aws_linked_list_pop_front(pending_stream_acquisitions);
struct aws_h2_sm_pending_stream_acquisition *pending_stream_acquisition =
AWS_CONTAINER_OF(node, struct aws_h2_sm_pending_stream_acquisition, node);
/* Make sure no connection assigned. */
AWS_ASSERT(pending_stream_acquisition->sm_connection == NULL);
if (pending_stream_acquisition->callback) {
pending_stream_acquisition->callback(NULL, error_code, pending_stream_acquisition->user_data);
}
STREAM_MANAGER_LOGF(
DEBUG,
stream_manager,
"acquisition:%p failed with error: %d(%s)",
(void *)pending_stream_acquisition,
error_code,
aws_error_str(error_code));
s_pending_stream_acquisition_destroy(pending_stream_acquisition);
}
}
/* This is scheduled to run on a separate event loop to finish pending acquisition asynchronously */
static void s_finish_pending_stream_acquisitions_task(struct aws_task *task, void *arg, enum aws_task_status status) {
(void)status;
struct aws_http2_stream_manager *stream_manager = arg;
STREAM_MANAGER_LOG(TRACE, stream_manager, "Stream Manager final task runs");
struct aws_http2_stream_management_transaction work;
struct aws_linked_list pending_stream_acquisitions;
aws_linked_list_init(&pending_stream_acquisitions);
s_aws_stream_management_transaction_init(&work, stream_manager);
{ /* BEGIN CRITICAL SECTION */
s_lock_synced_data(stream_manager);
AWS_ASSERT(stream_manager->synced_data.state == AWS_H2SMST_DESTROYING);
/* swap list to avoid callback with lock held. */
aws_linked_list_swap_contents(
&pending_stream_acquisitions, &stream_manager->synced_data.pending_stream_acquisitions);
/* After the callbacks invoked, now we can update the count */
s_sm_count_decrease_synced(
stream_manager,
AWS_SMCT_PENDING_ACQUISITION,
stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_PENDING_ACQUISITION]);
s_aws_http2_stream_manager_build_transaction_synced(&work);
s_unlock_synced_data(stream_manager);
} /* END CRITICAL SECTION */
s_finish_pending_stream_acquisitions_list_helper(
stream_manager, &pending_stream_acquisitions, AWS_ERROR_HTTP_STREAM_MANAGER_SHUTTING_DOWN);
aws_mem_release(stream_manager->allocator, task);
s_aws_http2_stream_manager_execute_transaction(&work);
}
/* helper function for building the transaction: how many new connections we should request */
static void s_check_new_connections_needed_synced(struct aws_http2_stream_management_transaction *work) {
struct aws_http2_stream_manager *stream_manager = work->stream_manager;
/* The ideal new connection we need to fit all the pending stream acquisitions */
size_t ideal_new_connection_count =
stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_PENDING_ACQUISITION] /
stream_manager->ideal_concurrent_streams_per_connection;
/* Rounding up */
if (stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_PENDING_ACQUISITION] %
stream_manager->ideal_concurrent_streams_per_connection) {
++ideal_new_connection_count;
}
/* The ideal new connections sub the number of connections we are acquiring to avoid the async acquiring */
work->new_connections = aws_sub_size_saturating(
ideal_new_connection_count,
stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_CONNECTIONS_ACQUIRING]);
/* The real number we can have is the min of how many more we can still have and how many we need */
size_t new_connections_available =
stream_manager->max_connections - stream_manager->synced_data.holding_connections_count -
stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_CONNECTIONS_ACQUIRING];
work->new_connections = aws_min_size(new_connections_available, work->new_connections);
/* Update the number of connections we acquiring */
s_sm_count_increase_synced(stream_manager, AWS_SMCT_CONNECTIONS_ACQUIRING, work->new_connections);
STREAM_MANAGER_LOGF(
DEBUG,
stream_manager,
"number of acquisition that waiting for connections to use=%zu. connection acquiring=%zu, connection held=%zu, "
"max connection=%zu",
stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_PENDING_ACQUISITION],
stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_CONNECTIONS_ACQUIRING],
stream_manager->synced_data.holding_connections_count,
stream_manager->max_connections);
}
/**
* It can be invoked from:
* - User release last refcount of stream manager
* - User acquires stream from stream manager
* - Connection acquired callback from connection manager
* - Stream completed callback from HTTP
*/
/* *_synced should only be called with LOCK HELD or from another synced function */
static void s_aws_http2_stream_manager_build_transaction_synced(struct aws_http2_stream_management_transaction *work) {
struct aws_http2_stream_manager *stream_manager = work->stream_manager;
if (stream_manager->synced_data.state == AWS_H2SMST_READY) {
/* Steps 1: Pending acquisitions of stream */
while (!aws_linked_list_empty(&stream_manager->synced_data.pending_stream_acquisitions)) {
struct aws_linked_list_node *node =
aws_linked_list_pop_front(&stream_manager->synced_data.pending_stream_acquisitions);
struct aws_h2_sm_pending_stream_acquisition *pending_stream_acquisition =
AWS_CONTAINER_OF(node, struct aws_h2_sm_pending_stream_acquisition, node);
s_sm_try_assign_connection_to_pending_stream_acquisition_synced(stream_manager, pending_stream_acquisition);
if (pending_stream_acquisition->sm_connection == NULL) {
/* Cannot find any connection, push it back to the front and break the loop */
aws_linked_list_push_front(&stream_manager->synced_data.pending_stream_acquisitions, node);
STREAM_MANAGER_LOGF(
DEBUG,
stream_manager,
"acquisition:%p cannot find any connection to use.",
(void *)pending_stream_acquisition);
break;
} else {
/* found connection for the request. Move it to pending make requests and update the count */
aws_linked_list_push_back(&work->pending_make_requests, node);
s_sm_count_decrease_synced(stream_manager, AWS_SMCT_PENDING_ACQUISITION, 1);
s_sm_count_increase_synced(stream_manager, AWS_SMCT_PENDING_MAKE_REQUESTS, 1);
}
}
/* Step 2: Check for new connections needed */
if (stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_PENDING_ACQUISITION]) {
s_check_new_connections_needed_synced(work);
}
} else {
/* Stream manager is shutting down */
if (stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_PENDING_ACQUISITION] &&
!stream_manager->synced_data.finish_pending_stream_acquisitions_task_scheduled) {
/* schedule a task to finish the pending acquisitions if there doesn't have one and needed */
stream_manager->finish_pending_stream_acquisitions_task_event_loop =
aws_event_loop_group_get_next_loop(stream_manager->bootstrap->event_loop_group);
struct aws_task *finish_pending_stream_acquisitions_task =
aws_mem_calloc(stream_manager->allocator, 1, sizeof(struct aws_task));
aws_task_init(
finish_pending_stream_acquisitions_task,
s_finish_pending_stream_acquisitions_task,
stream_manager,
"sm_finish_pending_stream_acquisitions");
aws_event_loop_schedule_task_now(
stream_manager->finish_pending_stream_acquisitions_task_event_loop,
finish_pending_stream_acquisitions_task);
stream_manager->synced_data.finish_pending_stream_acquisitions_task_scheduled = true;
}
}
s_sm_log_stats_synced(stream_manager);
}
static void s_on_ping_complete(
struct aws_http_connection *http2_connection,
uint64_t round_trip_time_ns,
int error_code,
void *user_data) {
(void)http2_connection;
struct aws_h2_sm_connection *sm_connection = user_data;
if (error_code) {
goto done;
}
if (!sm_connection->connection) {
goto done;
}
AWS_ASSERT(aws_channel_thread_is_callers_thread(aws_http_connection_get_channel(sm_connection->connection)));
STREAM_MANAGER_LOGF(
TRACE,
sm_connection->stream_manager,
"PING ACK received for connection: %p. Round trip time in ns is: %" PRIu64 ".",
(void *)sm_connection->connection,
round_trip_time_ns);
sm_connection->thread_data.ping_received = true;
done:
/* Release refcount held for ping complete */
aws_ref_count_release(&sm_connection->ref_count);
}
static void s_connection_ping_timeout_task(struct aws_channel_task *task, void *arg, enum aws_task_status status) {
(void)task;
(void)status;
struct aws_h2_sm_connection *sm_connection = arg;
if (status != AWS_TASK_STATUS_RUN_READY) {
goto done;
}
if (!sm_connection->connection) {
/* The connection has been released before timeout happens, just release the refcount */
goto done;
}
AWS_ASSERT(aws_channel_thread_is_callers_thread(aws_http_connection_get_channel(sm_connection->connection)));
if (!sm_connection->thread_data.ping_received) {
/* Timeout happened */
STREAM_MANAGER_LOGF(
ERROR,
sm_connection->stream_manager,
"ping timeout detected for connection: %p, closing connection.",
(void *)sm_connection->connection);
aws_http_connection_close(sm_connection->connection);
} else {
struct aws_channel *channel = aws_http_connection_get_channel(sm_connection->connection);
/* acquire a refcount for next set of tasks to run */
aws_ref_count_acquire(&sm_connection->ref_count);
aws_channel_schedule_task_future(
channel, &sm_connection->ping_task, sm_connection->thread_data.next_ping_task_time);
}
done:
/* Release refcount for current set of tasks */
aws_ref_count_release(&sm_connection->ref_count);
}
static void s_connection_ping_task(struct aws_channel_task *task, void *arg, enum aws_task_status status) {
(void)task;
(void)status;
struct aws_h2_sm_connection *sm_connection = arg;
if (status != AWS_TASK_STATUS_RUN_READY) {
aws_ref_count_release(&sm_connection->ref_count);
return;
}
if (!sm_connection->connection) {
/* The connection has been released before ping task, just release the refcount */
aws_ref_count_release(&sm_connection->ref_count);
return;
}
AWS_ASSERT(aws_channel_thread_is_callers_thread(aws_http_connection_get_channel(sm_connection->connection)));
STREAM_MANAGER_LOGF(
TRACE, sm_connection->stream_manager, "Sending PING for connection: %p.", (void *)sm_connection->connection);
aws_http2_connection_ping(sm_connection->connection, NULL, s_on_ping_complete, sm_connection);
/* Acquire refcount for PING complete to be invoked. */
aws_ref_count_acquire(&sm_connection->ref_count);
sm_connection->thread_data.ping_received = false;
/* schedule timeout task */
struct aws_channel *channel = aws_http_connection_get_channel(sm_connection->connection);
uint64_t current_time = 0;
aws_channel_current_clock_time(channel, ¤t_time);
sm_connection->thread_data.next_ping_task_time =
current_time + sm_connection->stream_manager->connection_ping_period_ns;
uint64_t timeout_time = current_time + sm_connection->stream_manager->connection_ping_timeout_ns;
aws_channel_task_init(
&sm_connection->ping_timeout_task,
s_connection_ping_timeout_task,
sm_connection,
"Stream manager connection ping timeout task");
/* keep the refcount for timeout task to run */
aws_channel_schedule_task_future(channel, &sm_connection->ping_timeout_task, timeout_time);
}
static void s_sm_connection_destroy(void *user_data) {
struct aws_h2_sm_connection *sm_connection = user_data;
aws_mem_release(sm_connection->allocator, sm_connection);
}
static struct aws_h2_sm_connection *s_sm_connection_new(
struct aws_http2_stream_manager *stream_manager,
struct aws_http_connection *connection) {
struct aws_h2_sm_connection *sm_connection =
aws_mem_calloc(stream_manager->allocator, 1, sizeof(struct aws_h2_sm_connection));
sm_connection->allocator = stream_manager->allocator;
/* Max concurrent stream reached, we need to update the max for the sm_connection */
struct aws_http2_setting out_settings[AWS_HTTP2_SETTINGS_COUNT];
/* The setting id equals to the index plus one. */
aws_http2_connection_get_remote_settings(connection, out_settings);
uint32_t remote_max_con_streams = out_settings[AWS_HTTP2_SETTINGS_MAX_CONCURRENT_STREAMS - 1].value;
sm_connection->max_concurrent_streams =
aws_min_u32((uint32_t)stream_manager->max_concurrent_streams_per_connection, remote_max_con_streams);
sm_connection->connection = connection;
sm_connection->stream_manager = stream_manager;
sm_connection->state = AWS_H2SMCST_IDEAL;
aws_ref_count_init(&sm_connection->ref_count, sm_connection, s_sm_connection_destroy);
if (stream_manager->connection_ping_period_ns) {
struct aws_channel *channel = aws_http_connection_get_channel(connection);
uint64_t schedule_time = 0;
aws_channel_current_clock_time(channel, &schedule_time);
schedule_time += stream_manager->connection_ping_period_ns;
aws_channel_task_init(
&sm_connection->ping_task, s_connection_ping_task, sm_connection, "Stream manager connection ping task");
/* Keep a refcount on sm_connection for the task to run. */
aws_ref_count_acquire(&sm_connection->ref_count);
aws_channel_schedule_task_future(channel, &sm_connection->ping_task, schedule_time);
}
return sm_connection;
}
static void s_sm_connection_release_connection(struct aws_h2_sm_connection *sm_connection) {
AWS_ASSERT(sm_connection->num_streams_assigned == 0);
if (sm_connection->connection) {
/* Should only be invoked from the connection thread. */
AWS_ASSERT(aws_channel_thread_is_callers_thread(aws_http_connection_get_channel(sm_connection->connection)));
int error = aws_http_connection_manager_release_connection(
sm_connection->stream_manager->connection_manager, sm_connection->connection);
AWS_ASSERT(!error);
(void)error;
sm_connection->connection = NULL;
}
aws_ref_count_release(&sm_connection->ref_count);
}
static void s_sm_on_connection_acquired_failed_synced(
struct aws_http2_stream_manager *stream_manager,
struct aws_linked_list *stream_acquisitions_to_fail) {
/* Once we failed to acquire a connection, we fail the stream acquisitions that cannot fit into the remaining
* acquiring connections. */
size_t num_can_fit = aws_mul_size_saturating(
stream_manager->ideal_concurrent_streams_per_connection,
stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_CONNECTIONS_ACQUIRING]);
size_t num_to_fail = aws_sub_size_saturating(
stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_PENDING_ACQUISITION], num_can_fit);
/* Get a list to fail instead of fail them with in the lock. */
for (size_t i = 0; i < num_to_fail; i++) {
struct aws_linked_list_node *node =
aws_linked_list_pop_front(&stream_manager->synced_data.pending_stream_acquisitions);
aws_linked_list_push_back(stream_acquisitions_to_fail, node);
}
s_sm_count_decrease_synced(stream_manager, AWS_SMCT_PENDING_ACQUISITION, num_to_fail);
}
static void s_sm_on_connection_acquired(struct aws_http_connection *connection, int error_code, void *user_data) {
struct aws_http2_stream_manager *stream_manager = user_data;
struct aws_http2_stream_management_transaction work;
STREAM_MANAGER_LOGF(TRACE, stream_manager, "connection=%p acquired from connection manager", (void *)connection);
int re_error = 0;
int stream_fail_error_code = AWS_ERROR_SUCCESS;
bool should_release_connection = false;
struct aws_linked_list stream_acquisitions_to_fail;
aws_linked_list_init(&stream_acquisitions_to_fail);
s_aws_stream_management_transaction_init(&work, stream_manager);
{ /* BEGIN CRITICAL SECTION */
s_lock_synced_data(stream_manager);
s_sm_count_decrease_synced(stream_manager, AWS_SMCT_CONNECTIONS_ACQUIRING, 1);
if (error_code || !connection) {
STREAM_MANAGER_LOGF(
ERROR,
stream_manager,
"connection acquired from connection manager failed, with error: %d(%s)",
error_code,
aws_error_str(error_code));
s_sm_on_connection_acquired_failed_synced(stream_manager, &stream_acquisitions_to_fail);
stream_fail_error_code = AWS_ERROR_HTTP_STREAM_MANAGER_CONNECTION_ACQUIRE_FAILURE;
} else if (aws_http_connection_get_version(connection) != AWS_HTTP_VERSION_2) {
STREAM_MANAGER_LOGF(
ERROR,
stream_manager,
"Unexpected HTTP version acquired, release the connection=%p acquired immediately",
(void *)connection);
should_release_connection = true;
s_sm_on_connection_acquired_failed_synced(stream_manager, &stream_acquisitions_to_fail);
stream_fail_error_code = AWS_ERROR_HTTP_STREAM_MANAGER_UNEXPECTED_HTTP_VERSION;
} else if (stream_manager->synced_data.state != AWS_H2SMST_READY) {
STREAM_MANAGER_LOGF(
DEBUG,
stream_manager,
"shutting down, release the connection=%p acquired immediately",
(void *)connection);
/* Release the acquired connection */
should_release_connection = true;
} else if (stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_PENDING_ACQUISITION] == 0) {
STREAM_MANAGER_LOGF(
DEBUG,
stream_manager,
"No pending acquisition, release the connection=%p acquired immediately",
(void *)connection);
/* Release the acquired connection */
should_release_connection = true;
} else {
struct aws_h2_sm_connection *sm_connection = s_sm_connection_new(stream_manager, connection);
bool added = false;
re_error |=
aws_random_access_set_add(&stream_manager->synced_data.ideal_available_set, sm_connection, &added);
re_error |= !added;
++stream_manager->synced_data.holding_connections_count;
}
s_aws_http2_stream_manager_build_transaction_synced(&work);
s_unlock_synced_data(stream_manager);
} /* END CRITICAL SECTION */
if (should_release_connection) {
STREAM_MANAGER_LOGF(DEBUG, stream_manager, "Releasing connection: %p", (void *)connection);
re_error |= aws_http_connection_manager_release_connection(stream_manager->connection_manager, connection);
}
AWS_ASSERT(!re_error && "connection acquired callback fails with programming errors");
(void)re_error;
/* Fail acquisitions if any */
s_finish_pending_stream_acquisitions_list_helper(
stream_manager, &stream_acquisitions_to_fail, stream_fail_error_code);
s_aws_http2_stream_manager_execute_transaction(&work);
}
static int s_on_incoming_headers(
struct aws_http_stream *stream,
enum aws_http_header_block header_block,
const struct aws_http_header *header_array,
size_t num_headers,
void *user_data) {
struct aws_h2_sm_pending_stream_acquisition *pending_stream_acquisition = user_data;
struct aws_h2_sm_connection *sm_connection = pending_stream_acquisition->sm_connection;
struct aws_http2_stream_manager *stream_manager = sm_connection->stream_manager;
if (pending_stream_acquisition->options.on_response_headers) {
return pending_stream_acquisition->options.on_response_headers(
stream, header_block, header_array, num_headers, pending_stream_acquisition->options.user_data);
}
if (stream_manager->close_connection_on_server_error) {
/* Check status code if stream completed successfully. */
int status_code = 0;
aws_http_stream_get_incoming_response_status(stream, &status_code);
AWS_ASSERT(status_code != 0); /* The get status should not fail */
switch (status_code) {
case AWS_HTTP_STATUS_CODE_500_INTERNAL_SERVER_ERROR:
case AWS_HTTP_STATUS_CODE_502_BAD_GATEWAY:
case AWS_HTTP_STATUS_CODE_503_SERVICE_UNAVAILABLE:
case AWS_HTTP_STATUS_CODE_504_GATEWAY_TIMEOUT:
/* For those error code if the retry happens, it should not use the same connection. */
if (!sm_connection->thread_data.stopped_new_requests) {
STREAM_MANAGER_LOGF(
DEBUG,
stream_manager,
"no longer using connection: %p due to receiving %d server error status code for stream: %p",
(void *)sm_connection->connection,
status_code,
(void *)stream);
aws_http_connection_stop_new_requests(sm_connection->connection);
sm_connection->thread_data.stopped_new_requests = true;
}
break;
default:
break;
}
}
return AWS_OP_SUCCESS;
}
static int s_on_incoming_header_block_done(
struct aws_http_stream *stream,
enum aws_http_header_block header_block,
void *user_data) {
struct aws_h2_sm_pending_stream_acquisition *pending_stream_acquisition = user_data;
if (pending_stream_acquisition->options.on_response_header_block_done) {
return pending_stream_acquisition->options.on_response_header_block_done(
stream, header_block, pending_stream_acquisition->options.user_data);
}
return AWS_OP_SUCCESS;
}
static int s_on_incoming_body(struct aws_http_stream *stream, const struct aws_byte_cursor *data, void *user_data) {
struct aws_h2_sm_pending_stream_acquisition *pending_stream_acquisition = user_data;
if (pending_stream_acquisition->options.on_response_body) {
return pending_stream_acquisition->options.on_response_body(
stream, data, pending_stream_acquisition->options.user_data);
}
return AWS_OP_SUCCESS;
}
/* Helper invoked when underlying connections is still available and the num stream assigned has been updated */
static void s_update_sm_connection_set_on_stream_finishes_synced(
struct aws_h2_sm_connection *sm_connection,
struct aws_http2_stream_manager *stream_manager) {
int re_error = 0;
size_t cur_num = sm_connection->num_streams_assigned;
size_t ideal_num = stream_manager->ideal_concurrent_streams_per_connection;
size_t max_num = sm_connection->max_concurrent_streams;
/**
* TODO: When the MAX_CONCURRENT_STREAMS from other side changed after the initial settings. We need to:
* - figure out where I am
* - figure out where I should be
* - if they're different, remove from where I am, put where should be
*/
if (sm_connection->state == AWS_H2SMCST_NEARLY_FULL && cur_num < ideal_num) {
/* this connection is back from soft limited to ideal */
bool exist = false;
(void)exist;
AWS_ASSERT(
aws_random_access_set_exist(&stream_manager->synced_data.nonideal_available_set, sm_connection, &exist) ==
AWS_OP_SUCCESS &&
exist);
re_error |= aws_random_access_set_remove(&stream_manager->synced_data.nonideal_available_set, sm_connection);
bool added = false;
re_error |= aws_random_access_set_add(&stream_manager->synced_data.ideal_available_set, sm_connection, &added);
re_error |= !added;
sm_connection->state = AWS_H2SMCST_IDEAL;
} else if (sm_connection->state == AWS_H2SMCST_FULL && cur_num < max_num) {
/* this connection is back from full */
STREAM_MANAGER_LOGF(
DEBUG,
stream_manager,
"connection:%p back to available, assigned stream=%zu, max concurrent streams=%" PRIu32 "",
(void *)sm_connection->connection,
cur_num,
sm_connection->max_concurrent_streams);
bool added = false;
if (cur_num >= ideal_num) {
sm_connection->state = AWS_H2SMCST_NEARLY_FULL;
STREAM_MANAGER_LOGF(
TRACE, stream_manager, "connection:%p added to soft limited set", (void *)sm_connection->connection);
re_error |=
aws_random_access_set_add(&stream_manager->synced_data.nonideal_available_set, sm_connection, &added);
} else {
sm_connection->state = AWS_H2SMCST_IDEAL;
STREAM_MANAGER_LOGF(
TRACE, stream_manager, "connection:%p added to ideal set", (void *)sm_connection->connection);
re_error |=
aws_random_access_set_add(&stream_manager->synced_data.ideal_available_set, sm_connection, &added);
}
re_error |= !added;
}
AWS_ASSERT(re_error == AWS_OP_SUCCESS);
(void)re_error;
}
static void s_sm_connection_on_scheduled_stream_finishes(
struct aws_h2_sm_connection *sm_connection,
struct aws_http2_stream_manager *stream_manager) {
/* Reach the max current will still allow new requests, but the new stream will complete with error */
bool connection_available = aws_http_connection_new_requests_allowed(sm_connection->connection);
struct aws_http2_stream_management_transaction work;
s_aws_stream_management_transaction_init(&work, stream_manager);
{ /* BEGIN CRITICAL SECTION */
s_lock_synced_data(stream_manager);
s_sm_count_decrease_synced(stream_manager, AWS_SMCT_OPEN_STREAM, 1);
--sm_connection->num_streams_assigned;
if (!connection_available) {
/* It might be removed already, but, it's fine */
aws_random_access_set_remove(&stream_manager->synced_data.ideal_available_set, sm_connection);
aws_random_access_set_remove(&stream_manager->synced_data.nonideal_available_set, sm_connection);
} else {
s_update_sm_connection_set_on_stream_finishes_synced(sm_connection, stream_manager);
}
s_aws_http2_stream_manager_build_transaction_synced(&work);
/* After we build transaction, if the sm_connection still have zero assigned stream, we can kill the
* sm_connection */
if (sm_connection->num_streams_assigned == 0) {
/* It might be removed already, but, it's fine */
aws_random_access_set_remove(&stream_manager->synced_data.ideal_available_set, sm_connection);
work.sm_connection_to_release = sm_connection;
--stream_manager->synced_data.holding_connections_count;
/* After we release one connection back, we should check if we need more connections */
if (stream_manager->synced_data.state == AWS_H2SMST_READY &&
stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_PENDING_ACQUISITION]) {
s_check_new_connections_needed_synced(&work);
}
}
s_unlock_synced_data(stream_manager);
} /* END CRITICAL SECTION */
s_aws_http2_stream_manager_execute_transaction(&work);
}
static void s_on_stream_complete(struct aws_http_stream *stream, int error_code, void *user_data) {
struct aws_h2_sm_pending_stream_acquisition *pending_stream_acquisition = user_data;
struct aws_h2_sm_connection *sm_connection = pending_stream_acquisition->sm_connection;
struct aws_http2_stream_manager *stream_manager = sm_connection->stream_manager;
if (pending_stream_acquisition->options.on_complete) {
pending_stream_acquisition->options.on_complete(
stream, error_code, pending_stream_acquisition->options.user_data);
}
s_sm_connection_on_scheduled_stream_finishes(sm_connection, stream_manager);
}
static void s_on_stream_destroy(void *user_data) {
struct aws_h2_sm_pending_stream_acquisition *pending_stream_acquisition = user_data;
if (pending_stream_acquisition->options.on_destroy) {
pending_stream_acquisition->options.on_destroy(pending_stream_acquisition->options.user_data);
}
s_pending_stream_acquisition_destroy(pending_stream_acquisition);
}
/* Scheduled to happen from connection's thread */
static void s_make_request_task(struct aws_channel_task *task, void *arg, enum aws_task_status status) {
(void)task;
struct aws_h2_sm_pending_stream_acquisition *pending_stream_acquisition = arg;
struct aws_h2_sm_connection *sm_connection = pending_stream_acquisition->sm_connection;
struct aws_http2_stream_manager *stream_manager = sm_connection->stream_manager;
int error_code = AWS_ERROR_SUCCESS;
STREAM_MANAGER_LOGF(
TRACE,
stream_manager,
"Make request task running for acquisition:%p from connection:%p thread",
(void *)pending_stream_acquisition,
(void *)sm_connection->connection);
bool is_shutting_down = false;
{ /* BEGIN CRITICAL SECTION */
s_lock_synced_data(stream_manager);
is_shutting_down = stream_manager->synced_data.state != AWS_H2SMST_READY;
s_sm_count_decrease_synced(stream_manager, AWS_SMCT_PENDING_MAKE_REQUESTS, 1);
/* The stream has not open yet, but we increase the count here, if anything fails, the count will be decreased
*/
s_sm_count_increase_synced(stream_manager, AWS_SMCT_OPEN_STREAM, 1);
AWS_ASSERT(
sm_connection->max_concurrent_streams >= sm_connection->num_streams_assigned &&
"The max concurrent streams exceed");
s_unlock_synced_data(stream_manager);
} /* END CRITICAL SECTION */
/* this is a channel task. If it is canceled, that means the channel shutdown. In that case, that's equivalent
* to a closed connection. */
if (status != AWS_TASK_STATUS_RUN_READY) {
STREAM_MANAGER_LOGF(
ERROR,
stream_manager,
"acquisition:%p failed as the task is cancelled.",
(void *)pending_stream_acquisition);
error_code = AWS_ERROR_HTTP_CONNECTION_CLOSED;
goto error;
}
if (is_shutting_down) {
STREAM_MANAGER_LOGF(
ERROR,
stream_manager,
"acquisition:%p failed as stream manager is shutting down before task runs.",
(void *)pending_stream_acquisition);
error_code = AWS_ERROR_HTTP_STREAM_MANAGER_SHUTTING_DOWN;
goto error;
}
struct aws_http_make_request_options request_options = {
.self_size = sizeof(request_options),
.request = pending_stream_acquisition->request,
.on_response_headers = s_on_incoming_headers,
.on_response_header_block_done = s_on_incoming_header_block_done,
.on_response_body = s_on_incoming_body,
.on_complete = s_on_stream_complete,
.on_destroy = s_on_stream_destroy,
.user_data = pending_stream_acquisition,
.http2_use_manual_data_writes = pending_stream_acquisition->options.http2_use_manual_data_writes,
};
/* TODO: we could put the pending acquisition back to the list if the connection is not available for new request.
*/
struct aws_http_stream *stream = aws_http_connection_make_request(sm_connection->connection, &request_options);
if (!stream) {
error_code = aws_last_error();
STREAM_MANAGER_LOGF(
ERROR,
stream_manager,
"acquisition:%p failed as HTTP level make request failed with error: %d(%s).",
(void *)pending_stream_acquisition,
error_code,
aws_error_str(error_code));
goto error;
}
/* Since we're in the connection's thread, this should be safe, there won't be any other callbacks to the user */
if (aws_http_stream_activate(stream)) {
/* Activate failed, the on_completed callback will NOT be invoked from HTTP, but we already told user about
* the stream. Invoke the user completed callback here */
error_code = aws_last_error();
STREAM_MANAGER_LOGF(
ERROR,
stream_manager,
"acquisition:%p failed as stream activate failed with error: %d(%s).",
(void *)pending_stream_acquisition,
error_code,
aws_error_str(error_code));
goto error;
}
if (pending_stream_acquisition->callback) {
pending_stream_acquisition->callback(stream, 0, pending_stream_acquisition->user_data);
}
/* Happy case, the complete callback will be invoked, and we clean things up at the callback, but we can release the
* request now */
aws_http_message_release(pending_stream_acquisition->request);
pending_stream_acquisition->request = NULL;
return;
error:
if (pending_stream_acquisition->callback) {
pending_stream_acquisition->callback(NULL, error_code, pending_stream_acquisition->user_data);
}
s_pending_stream_acquisition_destroy(pending_stream_acquisition);
/* task should happen after destroy, as the task can trigger the whole stream manager to be destroyed */
s_sm_connection_on_scheduled_stream_finishes(sm_connection, stream_manager);
}
/* NEVER invoke with lock held */
static void s_aws_http2_stream_manager_execute_transaction(struct aws_http2_stream_management_transaction *work) {
struct aws_http2_stream_manager *stream_manager = work->stream_manager;
/* Step1: Release connection */
if (work->sm_connection_to_release) {
AWS_ASSERT(work->sm_connection_to_release->num_streams_assigned == 0);
STREAM_MANAGER_LOGF(
DEBUG,
stream_manager,
"Release connection:%p back to connection manager as no outstanding streams",
(void *)work->sm_connection_to_release->connection);
s_sm_connection_release_connection(work->sm_connection_to_release);
}
/* Step2: Make request. The work should know what connection for the request to be made. */
while (!aws_linked_list_empty(&work->pending_make_requests)) {
/* The completions can also fail as the connection can be unavailable after the decision made. We just fail
* the acquisition */
struct aws_linked_list_node *node = aws_linked_list_pop_front(&work->pending_make_requests);
struct aws_h2_sm_pending_stream_acquisition *pending_stream_acquisition =
AWS_CONTAINER_OF(node, struct aws_h2_sm_pending_stream_acquisition, node);
AWS_ASSERT(
pending_stream_acquisition->sm_connection &&
"Stream manager internal bug: connection is not decided before execute transaction");
STREAM_MANAGER_LOGF(
TRACE,
stream_manager,
"acquisition:%p is scheduled to be made request from connection:%p thread",
(void *)pending_stream_acquisition,
(void *)pending_stream_acquisition->sm_connection->connection);
/**
* schedule a task from the connection's event loop to make request, so that:
* - We can activate the stream for user and then invoked the callback
* - The callback will happen asynced even the stream failed to be created
* - We can make sure we will not break the settings
*/
struct aws_channel *channel =
aws_http_connection_get_channel(pending_stream_acquisition->sm_connection->connection);
aws_channel_task_init(
&pending_stream_acquisition->make_request_task,
s_make_request_task,
pending_stream_acquisition,
"Stream manager make request task");
aws_channel_schedule_task_now(channel, &pending_stream_acquisition->make_request_task);
}
/* Step 3: Acquire connections if needed */
if (work->new_connections) {
STREAM_MANAGER_LOGF(DEBUG, stream_manager, "acquiring %zu new connections", work->new_connections);
}
for (size_t i = 0; i < work->new_connections; ++i) {
aws_http_connection_manager_acquire_connection(
stream_manager->connection_manager, s_sm_on_connection_acquired, stream_manager);
}
/*
* Step 4: Clean up work. Do this here rather than at the end of every caller. Destroy the manager if necessary
*/
s_aws_stream_management_transaction_clean_up(work);
}
void s_stream_manager_destroy_final(struct aws_http2_stream_manager *stream_manager) {
if (!stream_manager) {
return;
}
STREAM_MANAGER_LOG(TRACE, stream_manager, "Stream Manager finishes destroying self");
/* Connection manager has already been cleaned up */
AWS_FATAL_ASSERT(stream_manager->connection_manager == NULL);
AWS_FATAL_ASSERT(aws_linked_list_empty(&stream_manager->synced_data.pending_stream_acquisitions));
aws_mutex_clean_up(&stream_manager->synced_data.lock);
aws_random_access_set_clean_up(&stream_manager->synced_data.ideal_available_set);
aws_random_access_set_clean_up(&stream_manager->synced_data.nonideal_available_set);
aws_client_bootstrap_release(stream_manager->bootstrap);
if (stream_manager->shutdown_complete_callback) {
stream_manager->shutdown_complete_callback(stream_manager->shutdown_complete_user_data);
}
aws_mem_release(stream_manager->allocator, stream_manager);
}
void s_stream_manager_on_cm_shutdown_complete(void *user_data) {
struct aws_http2_stream_manager *stream_manager = (struct aws_http2_stream_manager *)user_data;
STREAM_MANAGER_LOGF(
TRACE,
stream_manager,
"Underlying connection manager (ip=%p) finished shutdown, stream manager can finish destroying now",
(void *)stream_manager->connection_manager);
stream_manager->connection_manager = NULL;
s_stream_manager_destroy_final(stream_manager);
}
static void s_stream_manager_start_destroy(struct aws_http2_stream_manager *stream_manager) {
STREAM_MANAGER_LOG(TRACE, stream_manager, "Stream Manager reaches the condition to destroy, start to destroy");
/* If there is no outstanding streams, the connections set should be empty. */
AWS_ASSERT(aws_random_access_set_get_size(&stream_manager->synced_data.ideal_available_set) == 0);
AWS_ASSERT(aws_random_access_set_get_size(&stream_manager->synced_data.nonideal_available_set) == 0);
AWS_ASSERT(stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_CONNECTIONS_ACQUIRING] == 0);
AWS_ASSERT(stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_OPEN_STREAM] == 0);
AWS_ASSERT(stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_PENDING_MAKE_REQUESTS] == 0);
AWS_ASSERT(stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_PENDING_ACQUISITION] == 0);
AWS_ASSERT(stream_manager->connection_manager);
struct aws_http_connection_manager *cm = stream_manager->connection_manager;
stream_manager->connection_manager = NULL;
aws_http_connection_manager_release(cm);
}
void s_stream_manager_on_zero_external_ref(struct aws_http2_stream_manager *stream_manager) {
STREAM_MANAGER_LOG(
TRACE,
stream_manager,
"Last refcount released, manager stop accepting new stream request and will start to clean up when not "
"outstanding tasks remaining.");
struct aws_http2_stream_management_transaction work;
s_aws_stream_management_transaction_init(&work, stream_manager);
{ /* BEGIN CRITICAL SECTION */
s_lock_synced_data(stream_manager);
stream_manager->synced_data.state = AWS_H2SMST_DESTROYING;
s_aws_http2_stream_manager_build_transaction_synced(&work);
/* Release the internal ref count as no external usage anymore */
aws_ref_count_release(&stream_manager->internal_ref_count);
s_unlock_synced_data(stream_manager);
} /* END CRITICAL SECTION */
s_aws_http2_stream_manager_execute_transaction(&work);
}
struct aws_http2_stream_manager *aws_http2_stream_manager_new(
struct aws_allocator *allocator,
const struct aws_http2_stream_manager_options *options) {
AWS_PRECONDITION(allocator);
/* The other options are validated by the aws_http_connection_manager_new */
if (!options->http2_prior_knowledge && !options->tls_connection_options) {
AWS_LOGF_ERROR(
AWS_LS_HTTP_CONNECTION_MANAGER,
"Invalid options - Prior knowledge must be used for cleartext HTTP/2 connections."
" Upgrade from HTTP/1.1 is not supported.");
aws_raise_error(AWS_ERROR_INVALID_ARGUMENT);
return NULL;
}
struct aws_http2_stream_manager *stream_manager =
aws_mem_calloc(allocator, 1, sizeof(struct aws_http2_stream_manager));
stream_manager->allocator = allocator;
aws_linked_list_init(&stream_manager->synced_data.pending_stream_acquisitions);
if (aws_mutex_init(&stream_manager->synced_data.lock)) {
goto on_error;
}
if (aws_random_access_set_init(
&stream_manager->synced_data.ideal_available_set,
allocator,
aws_hash_ptr,
aws_ptr_eq,
NULL /* destroy function */,
2)) {
goto on_error;
}
if (aws_random_access_set_init(
&stream_manager->synced_data.nonideal_available_set,
allocator,
aws_hash_ptr,
aws_ptr_eq,
NULL /* destroy function */,
2)) {
goto on_error;
}
aws_ref_count_init(
&stream_manager->external_ref_count,
stream_manager,
(aws_simple_completion_callback *)s_stream_manager_on_zero_external_ref);
aws_ref_count_init(
&stream_manager->internal_ref_count,
stream_manager,
(aws_simple_completion_callback *)s_stream_manager_start_destroy);
if (options->connection_ping_period_ms) {
stream_manager->connection_ping_period_ns =
aws_timestamp_convert(options->connection_ping_period_ms, AWS_TIMESTAMP_MILLIS, AWS_TIMESTAMP_NANOS, NULL);
size_t connection_ping_timeout_ms =
options->connection_ping_timeout_ms ? options->connection_ping_timeout_ms : s_default_ping_timeout_ms;
stream_manager->connection_ping_timeout_ns =
aws_timestamp_convert(connection_ping_timeout_ms, AWS_TIMESTAMP_MILLIS, AWS_TIMESTAMP_NANOS, NULL);
if (stream_manager->connection_ping_period_ns < stream_manager->connection_ping_timeout_ns) {
STREAM_MANAGER_LOGF(
WARN,
stream_manager,
"connection_ping_period_ms: %zu is shorter than connection_ping_timeout_ms: %zu. Clapping "
"connection_ping_timeout_ms to %zu",
options->connection_ping_period_ms,
connection_ping_timeout_ms,
options->connection_ping_period_ms);
stream_manager->connection_ping_timeout_ns = stream_manager->connection_ping_period_ns;
}
}
stream_manager->bootstrap = aws_client_bootstrap_acquire(options->bootstrap);
struct aws_http_connection_manager_options cm_options = {
.bootstrap = options->bootstrap,
.socket_options = options->socket_options,
.tls_connection_options = options->tls_connection_options,
.http2_prior_knowledge = options->http2_prior_knowledge,
.host = options->host,
.port = options->port,
.enable_read_back_pressure = options->enable_read_back_pressure,
.monitoring_options = options->monitoring_options,
.proxy_options = options->proxy_options,
.proxy_ev_settings = options->proxy_ev_settings,
.max_connections = options->max_connections,
.shutdown_complete_user_data = stream_manager,
.shutdown_complete_callback = s_stream_manager_on_cm_shutdown_complete,
.initial_settings_array = options->initial_settings_array,
.num_initial_settings = options->num_initial_settings,
.max_closed_streams = options->max_closed_streams,
.http2_conn_manual_window_management = options->conn_manual_window_management,
};
/* aws_http_connection_manager_new needs to be the last thing that can fail */
stream_manager->connection_manager = aws_http_connection_manager_new(allocator, &cm_options);
if (!stream_manager->connection_manager) {
goto on_error;
}
/* Nothing can fail after here */
stream_manager->synced_data.state = AWS_H2SMST_READY;
stream_manager->shutdown_complete_callback = options->shutdown_complete_callback;
stream_manager->shutdown_complete_user_data = options->shutdown_complete_user_data;
stream_manager->ideal_concurrent_streams_per_connection = options->ideal_concurrent_streams_per_connection
? options->ideal_concurrent_streams_per_connection
: UINT32_MAX;
stream_manager->max_concurrent_streams_per_connection =
options->max_concurrent_streams_per_connection ? options->max_concurrent_streams_per_connection : UINT32_MAX;
stream_manager->max_connections = options->max_connections;
stream_manager->close_connection_on_server_error = options->close_connection_on_server_error;
return stream_manager;
on_error:
s_stream_manager_destroy_final(stream_manager);
return NULL;
}
struct aws_http2_stream_manager *aws_http2_stream_manager_acquire(struct aws_http2_stream_manager *stream_manager) {
if (stream_manager) {
aws_ref_count_acquire(&stream_manager->external_ref_count);
}
return stream_manager;
}
struct aws_http2_stream_manager *aws_http2_stream_manager_release(struct aws_http2_stream_manager *stream_manager) {
if (stream_manager) {
aws_ref_count_release(&stream_manager->external_ref_count);
}
return NULL;
}
void aws_http2_stream_manager_acquire_stream(
struct aws_http2_stream_manager *stream_manager,
const struct aws_http2_stream_manager_acquire_stream_options *acquire_stream_option) {
AWS_PRECONDITION(stream_manager);
AWS_PRECONDITION(acquire_stream_option);
AWS_PRECONDITION(acquire_stream_option->callback);
AWS_PRECONDITION(acquire_stream_option->options);
struct aws_http2_stream_management_transaction work;
struct aws_h2_sm_pending_stream_acquisition *pending_stream_acquisition = s_new_pending_stream_acquisition(
stream_manager->allocator,
acquire_stream_option->options,
acquire_stream_option->callback,
acquire_stream_option->user_data);
STREAM_MANAGER_LOGF(
TRACE, stream_manager, "Stream Manager creates acquisition:%p for user", (void *)pending_stream_acquisition);
s_aws_stream_management_transaction_init(&work, stream_manager);
{ /* BEGIN CRITICAL SECTION */
s_lock_synced_data(stream_manager);
/* it's use after free crime */
AWS_FATAL_ASSERT(stream_manager->synced_data.state != AWS_H2SMST_DESTROYING);
aws_linked_list_push_back(
&stream_manager->synced_data.pending_stream_acquisitions, &pending_stream_acquisition->node);
s_sm_count_increase_synced(stream_manager, AWS_SMCT_PENDING_ACQUISITION, 1);
s_aws_http2_stream_manager_build_transaction_synced(&work);
s_unlock_synced_data(stream_manager);
} /* END CRITICAL SECTION */
s_aws_http2_stream_manager_execute_transaction(&work);
}
static size_t s_get_available_streams_num_from_connection_set(const struct aws_random_access_set *set) {
size_t all_available_streams_num = 0;
size_t ideal_connection_num = aws_random_access_set_get_size(set);
for (size_t i = 0; i < ideal_connection_num; i++) {
struct aws_h2_sm_connection *sm_connection = NULL;
AWS_FATAL_ASSERT(aws_random_access_set_random_get_ptr_index(set, (void **)&sm_connection, i) == AWS_OP_SUCCESS);
uint32_t available_streams = sm_connection->max_concurrent_streams - sm_connection->num_streams_assigned;
all_available_streams_num += (size_t)available_streams;
}
return all_available_streams_num;
}
void aws_http2_stream_manager_fetch_metrics(
const struct aws_http2_stream_manager *stream_manager,
struct aws_http_manager_metrics *out_metrics) {
AWS_PRECONDITION(stream_manager);
AWS_PRECONDITION(out_metrics);
{ /* BEGIN CRITICAL SECTION */
s_lock_synced_data((struct aws_http2_stream_manager *)(void *)stream_manager);
size_t all_available_streams_num = 0;
all_available_streams_num +=
s_get_available_streams_num_from_connection_set(&stream_manager->synced_data.ideal_available_set);
all_available_streams_num +=
s_get_available_streams_num_from_connection_set(&stream_manager->synced_data.nonideal_available_set);
out_metrics->pending_concurrency_acquires =
stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_PENDING_ACQUISITION];
out_metrics->available_concurrency = all_available_streams_num;
out_metrics->leased_concurrency = stream_manager->synced_data.internal_refcount_stats[AWS_SMCT_OPEN_STREAM];
s_unlock_synced_data((struct aws_http2_stream_manager *)(void *)stream_manager);
} /* END CRITICAL SECTION */
}
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