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/**
* Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
* SPDX-License-Identifier: Apache-2.0.
*/
#include <aws/auth/credentials.h>
#include <aws/auth/private/credentials_utils.h>
#include <aws/common/clock.h>
#include <aws/common/mutex.h>
#include <aws/common/time.h>
#include <inttypes.h>
/*
ToDo: credentials expiration environment overrides
AWS_STATIC_STRING_FROM_LITERAL(s_credential_expiration_env_var, "AWS_CREDENTIAL_EXPIRATION");
*/
#define REFRESH_CREDENTIALS_EARLY_DURATION_SECONDS 10
struct aws_credentials_provider_cached {
struct aws_credentials_provider *source;
struct aws_credentials *cached_credentials;
struct aws_mutex lock;
uint64_t refresh_interval_in_ns;
uint64_t next_refresh_time;
aws_io_clock_fn *high_res_clock_fn;
aws_io_clock_fn *system_clock_fn;
struct aws_linked_list pending_queries;
};
static void s_aws_credentials_query_list_notify_and_clean_up(
struct aws_linked_list *query_list,
struct aws_allocator *allocator,
struct aws_credentials *credentials,
int error_code) {
while (!aws_linked_list_empty(query_list)) {
struct aws_linked_list_node *node = aws_linked_list_pop_front(query_list);
struct aws_credentials_query *query = AWS_CONTAINER_OF(node, struct aws_credentials_query, node);
query->callback(credentials, error_code, query->user_data);
aws_credentials_query_clean_up(query);
aws_mem_release(allocator, query);
}
}
static void s_swap_cached_credentials(
struct aws_credentials_provider *provider,
struct aws_credentials *new_credentials) {
struct aws_credentials_provider_cached *cached_provider = provider->impl;
aws_credentials_release(cached_provider->cached_credentials);
cached_provider->cached_credentials = new_credentials;
if (cached_provider->cached_credentials != NULL) {
aws_credentials_acquire(cached_provider->cached_credentials);
AWS_LOGF_DEBUG(
AWS_LS_AUTH_CREDENTIALS_PROVIDER,
"(id=%p) Cached credentials provider succesfully sourced credentials on refresh",
(void *)provider);
} else {
AWS_LOGF_DEBUG(
AWS_LS_AUTH_CREDENTIALS_PROVIDER,
"(id=%p) Cached credentials provider was unable to source credentials on refresh",
(void *)provider);
}
}
static void s_cached_credentials_provider_get_credentials_async_callback(
struct aws_credentials *credentials,
int error_code,
void *user_data) {
struct aws_credentials_provider *provider = user_data;
struct aws_credentials_provider_cached *impl = provider->impl;
aws_mutex_lock(&impl->lock);
/*
* Move pending queries so that we can do notifications outside the lock
*/
struct aws_linked_list pending_queries;
aws_linked_list_init(&pending_queries);
aws_linked_list_swap_contents(&pending_queries, &impl->pending_queries);
uint64_t next_refresh_time_in_ns = UINT64_MAX;
uint64_t high_res_now = 0;
if (!impl->high_res_clock_fn(&high_res_now)) {
if (impl->refresh_interval_in_ns > 0) {
next_refresh_time_in_ns = high_res_now + impl->refresh_interval_in_ns;
}
uint64_t credentials_expiration_timepoint_seconds = UINT64_MAX;
if (credentials != NULL) {
credentials_expiration_timepoint_seconds = aws_credentials_get_expiration_timepoint_seconds(credentials);
}
/*
* If the sourced credentials have an explicit expiration time, we should always use that time
* rather than the much cruder, mechanical refresh setting on the caching wrapper.
*/
if (credentials_expiration_timepoint_seconds < UINT64_MAX) {
uint64_t system_now = 0;
if (!impl->system_clock_fn(&system_now)) {
uint64_t system_now_seconds =
aws_timestamp_convert(system_now, AWS_TIMESTAMP_NANOS, AWS_TIMESTAMP_SECS, NULL);
if (credentials_expiration_timepoint_seconds >=
system_now_seconds + REFRESH_CREDENTIALS_EARLY_DURATION_SECONDS) {
next_refresh_time_in_ns = high_res_now;
next_refresh_time_in_ns += aws_timestamp_convert(
credentials_expiration_timepoint_seconds - system_now_seconds -
REFRESH_CREDENTIALS_EARLY_DURATION_SECONDS,
AWS_TIMESTAMP_SECS,
AWS_TIMESTAMP_NANOS,
NULL);
}
}
}
}
impl->next_refresh_time = next_refresh_time_in_ns;
AWS_LOGF_DEBUG(
AWS_LS_AUTH_CREDENTIALS_PROVIDER,
"(id=%p) Cached credentials provider next refresh time set to %" PRIu64,
(void *)provider,
impl->next_refresh_time);
s_swap_cached_credentials(provider, credentials);
aws_mutex_unlock(&impl->lock);
AWS_LOGF_DEBUG(
AWS_LS_AUTH_CREDENTIALS_PROVIDER,
"(id=%p) Cached credentials provider notifying pending queries of new credentials",
(void *)provider);
s_aws_credentials_query_list_notify_and_clean_up(&pending_queries, provider->allocator, credentials, error_code);
}
static int s_cached_credentials_provider_get_credentials_async(
struct aws_credentials_provider *provider,
aws_on_get_credentials_callback_fn callback,
void *user_data) {
struct aws_credentials_provider_cached *impl = provider->impl;
uint64_t current_time = 0;
impl->high_res_clock_fn(¤t_time);
bool should_submit_query = false;
bool perform_callback = false;
struct aws_credentials *credentials = NULL;
aws_mutex_lock(&impl->lock);
if (impl->cached_credentials != NULL && current_time < impl->next_refresh_time) {
perform_callback = true;
credentials = impl->cached_credentials;
aws_credentials_acquire(credentials);
} else {
struct aws_credentials_query *query =
aws_mem_acquire(provider->allocator, sizeof(struct aws_credentials_query));
if (query != NULL) {
aws_credentials_query_init(query, provider, callback, user_data);
should_submit_query = aws_linked_list_empty(&impl->pending_queries);
aws_linked_list_push_back(&impl->pending_queries, &query->node);
} else {
perform_callback = true;
}
}
aws_mutex_unlock(&impl->lock);
if (should_submit_query) {
AWS_LOGF_INFO(
AWS_LS_AUTH_CREDENTIALS_PROVIDER,
"(id=%p) Cached credentials provider has expired credentials. Requerying.",
(void *)provider);
aws_credentials_provider_get_credentials(
impl->source, s_cached_credentials_provider_get_credentials_async_callback, provider);
} else if (!perform_callback) {
AWS_LOGF_DEBUG(
AWS_LS_AUTH_CREDENTIALS_PROVIDER,
"(id=%p) Cached credentials provider has expired credentials. Waiting on existing query.",
(void *)provider);
}
if (perform_callback) {
if (credentials != NULL) {
AWS_LOGF_DEBUG(
AWS_LS_AUTH_CREDENTIALS_PROVIDER,
"(id=%p) Cached credentials provider successfully sourced from cache",
(void *)provider);
} else {
AWS_LOGF_DEBUG(
AWS_LS_AUTH_CREDENTIALS_PROVIDER,
"(id=%p) Cached credentials provider failed to source credentials while skipping requery",
(void *)provider);
}
callback(credentials, (credentials != NULL) ? AWS_ERROR_SUCCESS : aws_last_error(), user_data);
aws_credentials_release(credentials);
}
return AWS_OP_SUCCESS;
}
static void s_cached_credentials_provider_destroy(struct aws_credentials_provider *provider) {
struct aws_credentials_provider_cached *impl = provider->impl;
if (impl == NULL) {
return;
}
aws_credentials_provider_release(impl->source);
/* Invoke our own shutdown callback */
aws_credentials_provider_invoke_shutdown_callback(provider);
if (impl->cached_credentials != NULL) {
aws_credentials_release(impl->cached_credentials);
}
aws_mutex_clean_up(&impl->lock);
aws_mem_release(provider->allocator, provider);
}
static struct aws_credentials_provider_vtable s_aws_credentials_provider_cached_vtable = {
.get_credentials = s_cached_credentials_provider_get_credentials_async,
.destroy = s_cached_credentials_provider_destroy,
};
struct aws_credentials_provider *aws_credentials_provider_new_cached(
struct aws_allocator *allocator,
const struct aws_credentials_provider_cached_options *options) {
AWS_ASSERT(options->source != NULL);
struct aws_credentials_provider *provider = NULL;
struct aws_credentials_provider_cached *impl = NULL;
aws_mem_acquire_many(
allocator,
2,
&provider,
sizeof(struct aws_credentials_provider),
&impl,
sizeof(struct aws_credentials_provider_cached));
if (!provider) {
return NULL;
}
AWS_ZERO_STRUCT(*provider);
AWS_ZERO_STRUCT(*impl);
aws_credentials_provider_init_base(provider, allocator, &s_aws_credentials_provider_cached_vtable, impl);
if (aws_mutex_init(&impl->lock)) {
goto on_error;
}
aws_linked_list_init(&impl->pending_queries);
impl->source = options->source;
aws_credentials_provider_acquire(impl->source);
if (options->refresh_time_in_milliseconds > 0) {
impl->refresh_interval_in_ns = aws_timestamp_convert(
options->refresh_time_in_milliseconds, AWS_TIMESTAMP_MILLIS, AWS_TIMESTAMP_NANOS, NULL);
} else {
/*
* TODO: query AWS_CREDENTIAL_EXPIRATION for a refresh override
*
* This must be an ISO 8601 time interval which we don't have a parser for yet (one could be cobbled
* together from the existing timestamp parser). Does not seem important enough to get bogged down in atm.
* Punting for now.
*/
impl->refresh_interval_in_ns = 0;
}
if (options->high_res_clock_fn != NULL) {
impl->high_res_clock_fn = options->high_res_clock_fn;
} else {
impl->high_res_clock_fn = &aws_high_res_clock_get_ticks;
}
if (options->system_clock_fn != NULL) {
impl->system_clock_fn = options->system_clock_fn;
} else {
impl->system_clock_fn = &aws_sys_clock_get_ticks;
}
provider->shutdown_options = options->shutdown_options;
return provider;
on_error:
aws_credentials_provider_destroy(provider);
return NULL;
}
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