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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/environment.h>
#include <aws/common/logging.h>
#include <aws/common/string.h>
#include <aws/io/tls_channel_handler.h>
#include <aws/io/uri.h>
#define DEFAULT_CREDENTIAL_PROVIDER_REFRESH_MS (15 * 60 * 1000)
#if defined(_MSC_VER)
# pragma warning(disable : 4204)
/*
* For designated initialization: .providers = providers,
* of aws_credentials_provider_chain_options in function
* aws_credentials_provider_new_chain_default
*/
# pragma warning(disable : 4221)
#endif /* _MSC_VER */
AWS_STATIC_STRING_FROM_LITERAL(s_ecs_creds_env_relative_uri, "AWS_CONTAINER_CREDENTIALS_RELATIVE_URI");
AWS_STATIC_STRING_FROM_LITERAL(s_ecs_creds_env_full_uri, "AWS_CONTAINER_CREDENTIALS_FULL_URI");
AWS_STATIC_STRING_FROM_LITERAL(s_ecs_creds_env_token, "AWS_CONTAINER_AUTHORIZATION_TOKEN");
AWS_STATIC_STRING_FROM_LITERAL(s_ecs_host, "169.254.170.2");
AWS_STATIC_STRING_FROM_LITERAL(s_ec2_creds_env_disable, "AWS_EC2_METADATA_DISABLED");
/**
* ECS and IMDS credentials providers are mutually exclusive,
* ECS has higher priority
*/
static struct aws_credentials_provider *s_aws_credentials_provider_new_ecs_or_imds(
struct aws_allocator *allocator,
const struct aws_credentials_provider_shutdown_options *shutdown_options,
struct aws_client_bootstrap *bootstrap,
struct aws_tls_ctx *tls_ctx) {
struct aws_byte_cursor auth_token_cursor;
AWS_ZERO_STRUCT(auth_token_cursor);
struct aws_credentials_provider *ecs_or_imds_provider = NULL;
struct aws_string *ecs_relative_uri = NULL;
struct aws_string *ecs_full_uri = NULL;
struct aws_string *ec2_imds_disable = NULL;
struct aws_string *ecs_token = NULL;
if (aws_get_environment_value(allocator, s_ecs_creds_env_relative_uri, &ecs_relative_uri) != AWS_OP_SUCCESS ||
aws_get_environment_value(allocator, s_ecs_creds_env_full_uri, &ecs_full_uri) != AWS_OP_SUCCESS ||
aws_get_environment_value(allocator, s_ec2_creds_env_disable, &ec2_imds_disable) != AWS_OP_SUCCESS ||
aws_get_environment_value(allocator, s_ecs_creds_env_token, &ecs_token) != AWS_OP_SUCCESS) {
AWS_LOGF_ERROR(
AWS_LS_AUTH_CREDENTIALS_PROVIDER,
"Failed reading environment variables during default credentials provider chain initialization.");
goto clean_up;
}
if (ecs_token && ecs_token->len) {
auth_token_cursor = aws_byte_cursor_from_string(ecs_token);
}
/*
* ToDo: the uri choice logic should be done in the ecs provider init logic. As it stands, it's a nightmare
* to try and use the ecs provider anywhere outside the default chain.
*/
if (ecs_relative_uri && ecs_relative_uri->len) {
struct aws_credentials_provider_ecs_options ecs_options = {
.shutdown_options = *shutdown_options,
.bootstrap = bootstrap,
.host = aws_byte_cursor_from_string(s_ecs_host),
.path_and_query = aws_byte_cursor_from_string(ecs_relative_uri),
.tls_ctx = NULL,
.auth_token = auth_token_cursor,
};
ecs_or_imds_provider = aws_credentials_provider_new_ecs(allocator, &ecs_options);
} else if (ecs_full_uri && ecs_full_uri->len) {
struct aws_uri uri;
struct aws_byte_cursor uri_cstr = aws_byte_cursor_from_string(ecs_full_uri);
if (AWS_OP_ERR == aws_uri_init_parse(&uri, allocator, &uri_cstr)) {
goto clean_up;
}
struct aws_credentials_provider_ecs_options ecs_options = {
.shutdown_options = *shutdown_options,
.bootstrap = bootstrap,
.host = uri.host_name,
.path_and_query = uri.path_and_query,
.tls_ctx = aws_byte_cursor_eq_c_str_ignore_case(&(uri.scheme), "HTTPS") ? tls_ctx : NULL,
.auth_token = auth_token_cursor,
.port = uri.port,
};
ecs_or_imds_provider = aws_credentials_provider_new_ecs(allocator, &ecs_options);
aws_uri_clean_up(&uri);
} else if (ec2_imds_disable == NULL || aws_string_eq_c_str_ignore_case(ec2_imds_disable, "false")) {
struct aws_credentials_provider_imds_options imds_options = {
.shutdown_options = *shutdown_options,
.bootstrap = bootstrap,
};
ecs_or_imds_provider = aws_credentials_provider_new_imds(allocator, &imds_options);
}
clean_up:
aws_string_destroy(ecs_relative_uri);
aws_string_destroy(ecs_full_uri);
aws_string_destroy(ec2_imds_disable);
aws_string_destroy(ecs_token);
return ecs_or_imds_provider;
}
struct default_chain_callback_data {
struct aws_allocator *allocator;
struct aws_credentials_provider *default_chain_provider;
aws_on_get_credentials_callback_fn *original_callback;
void *original_user_data;
};
static struct default_chain_callback_data *s_create_callback_data(
struct aws_credentials_provider *provider,
aws_on_get_credentials_callback_fn *callback,
void *user_data) {
struct default_chain_callback_data *callback_data =
aws_mem_calloc(provider->allocator, 1, sizeof(struct default_chain_callback_data));
if (callback_data == NULL) {
return NULL;
}
callback_data->allocator = provider->allocator;
callback_data->default_chain_provider = provider;
callback_data->original_callback = callback;
callback_data->original_user_data = user_data;
aws_credentials_provider_acquire(provider);
return callback_data;
}
static void s_destroy_callback_data(struct default_chain_callback_data *callback_data) {
aws_credentials_provider_release(callback_data->default_chain_provider);
aws_mem_release(callback_data->allocator, callback_data);
}
struct aws_credentials_provider_default_chain_impl {
struct aws_atomic_var shutdowns_remaining;
struct aws_credentials_provider *cached_provider;
};
static void s_aws_provider_default_chain_callback(
struct aws_credentials *credentials,
int error_code,
void *user_data) {
struct default_chain_callback_data *callback_data = user_data;
struct aws_credentials_provider *provider = callback_data->default_chain_provider;
if (credentials != NULL) {
AWS_LOGF_INFO(
AWS_LS_AUTH_CREDENTIALS_PROVIDER,
"(id=%p) Default chain credentials provider successfully sourced credentials",
(void *)provider);
} else {
AWS_LOGF_ERROR(
AWS_LS_AUTH_CREDENTIALS_PROVIDER,
"(id=%p) Default chain credentials provider failed to source credentials with error %d(%s)",
(void *)provider,
error_code,
aws_error_debug_str(error_code));
}
callback_data->original_callback(credentials, error_code, callback_data->original_user_data);
s_destroy_callback_data(callback_data);
}
static int s_credentials_provider_default_chain_get_credentials_async(
struct aws_credentials_provider *provider,
aws_on_get_credentials_callback_fn callback,
void *user_data) {
struct aws_credentials_provider_default_chain_impl *impl = provider->impl;
AWS_LOGF_DEBUG(
AWS_LS_AUTH_CREDENTIALS_PROVIDER,
"(id=%p) Credentials provider chain get credentials dispatch",
(void *)provider);
struct default_chain_callback_data *callback_data = s_create_callback_data(provider, callback, user_data);
if (callback_data == NULL) {
return AWS_OP_ERR;
}
int result = aws_credentials_provider_get_credentials(
impl->cached_provider, s_aws_provider_default_chain_callback, callback_data);
if (result != AWS_OP_SUCCESS) {
s_destroy_callback_data(callback_data);
}
return result;
}
static void s_on_sub_provider_shutdown_completed(void *user_data) {
struct aws_credentials_provider *provider = user_data;
struct aws_credentials_provider_default_chain_impl *impl = provider->impl;
size_t remaining = aws_atomic_fetch_sub(&impl->shutdowns_remaining, 1);
if (remaining != 1) {
return;
}
/* Invoke our own shutdown callback */
aws_credentials_provider_invoke_shutdown_callback(provider);
aws_mem_release(provider->allocator, provider);
}
static void s_credentials_provider_default_chain_destroy(struct aws_credentials_provider *provider) {
struct aws_credentials_provider_default_chain_impl *impl = provider->impl;
if (impl == NULL) {
return;
}
aws_credentials_provider_release(impl->cached_provider);
s_on_sub_provider_shutdown_completed(provider);
}
static struct aws_credentials_provider_vtable s_aws_credentials_provider_default_chain_vtable = {
.get_credentials = s_credentials_provider_default_chain_get_credentials_async,
.destroy = s_credentials_provider_default_chain_destroy,
};
/*
* Default provider chain implementation
*/
struct aws_credentials_provider *aws_credentials_provider_new_chain_default(
struct aws_allocator *allocator,
const struct aws_credentials_provider_chain_default_options *options) {
struct aws_credentials_provider *provider = NULL;
struct aws_credentials_provider_default_chain_impl *impl = NULL;
aws_mem_acquire_many(
allocator,
2,
&provider,
sizeof(struct aws_credentials_provider),
&impl,
sizeof(struct aws_credentials_provider_default_chain_impl));
if (!provider) {
return NULL;
}
AWS_ZERO_STRUCT(*provider);
AWS_ZERO_STRUCT(*impl);
aws_credentials_provider_init_base(provider, allocator, &s_aws_credentials_provider_default_chain_vtable, impl);
provider->shutdown_options = options->shutdown_options;
/* 1 shutdown call from the provider's destroy itself */
aws_atomic_init_int(&impl->shutdowns_remaining, 1);
struct aws_credentials_provider_shutdown_options sub_provider_shutdown_options;
AWS_ZERO_STRUCT(sub_provider_shutdown_options);
sub_provider_shutdown_options.shutdown_callback = s_on_sub_provider_shutdown_completed;
sub_provider_shutdown_options.shutdown_user_data = provider;
struct aws_tls_ctx *tls_ctx = NULL;
struct aws_credentials_provider *environment_provider = NULL;
struct aws_credentials_provider *profile_provider = NULL;
struct aws_credentials_provider *sts_provider = NULL;
struct aws_credentials_provider *ecs_or_imds_provider = NULL;
struct aws_credentials_provider *chain_provider = NULL;
struct aws_credentials_provider *cached_provider = NULL;
if (options->tls_ctx) {
tls_ctx = aws_tls_ctx_acquire(options->tls_ctx);
} else {
#ifdef BYO_CRYPTO
aws_raise_error(AWS_ERROR_INVALID_ARGUMENT);
AWS_LOGF_ERROR(AWS_LS_AUTH_CREDENTIALS_PROVIDER, "TLS context must be provided to credentials provider.");
goto on_error;
#else
AWS_LOGF_INFO(
AWS_LS_AUTH_CREDENTIALS_PROVIDER,
"(id=%p): TLS context not provided, initializing a new one for credentials provider.",
(void *)provider);
struct aws_tls_ctx_options tls_options;
aws_tls_ctx_options_init_default_client(&tls_options, allocator);
tls_ctx = aws_tls_client_ctx_new(allocator, &tls_options);
aws_tls_ctx_options_clean_up(&tls_options);
if (!tls_ctx) {
AWS_LOGF_ERROR(
AWS_LS_AUTH_CREDENTIALS_PROVIDER,
"(id=%p): failed to create a TLS context with error %s",
(void *)provider,
aws_error_debug_str(aws_last_error()));
goto on_error;
}
#endif /* BYO_CRYPTO */
}
enum { providers_size = 4 };
struct aws_credentials_provider *providers[providers_size];
AWS_ZERO_ARRAY(providers);
size_t index = 0;
struct aws_credentials_provider_environment_options environment_options;
AWS_ZERO_STRUCT(environment_options);
environment_provider = aws_credentials_provider_new_environment(allocator, &environment_options);
if (environment_provider == NULL) {
goto on_error;
}
providers[index++] = environment_provider;
struct aws_credentials_provider_profile_options profile_options;
AWS_ZERO_STRUCT(profile_options);
profile_options.bootstrap = options->bootstrap;
profile_options.tls_ctx = tls_ctx;
profile_options.shutdown_options = sub_provider_shutdown_options;
profile_options.profile_collection_cached = options->profile_collection_cached;
profile_provider = aws_credentials_provider_new_profile(allocator, &profile_options);
if (profile_provider != NULL) {
providers[index++] = profile_provider;
/* 1 shutdown call from the profile provider's shutdown */
aws_atomic_fetch_add(&impl->shutdowns_remaining, 1);
}
struct aws_credentials_provider_sts_web_identity_options sts_options;
AWS_ZERO_STRUCT(sts_options);
sts_options.bootstrap = options->bootstrap;
sts_options.tls_ctx = tls_ctx;
sts_options.shutdown_options = sub_provider_shutdown_options;
sts_options.config_profile_collection_cached = options->profile_collection_cached;
sts_provider = aws_credentials_provider_new_sts_web_identity(allocator, &sts_options);
if (sts_provider != NULL) {
providers[index++] = sts_provider;
/* 1 shutdown call from the web identity provider's shutdown */
aws_atomic_fetch_add(&impl->shutdowns_remaining, 1);
}
ecs_or_imds_provider = s_aws_credentials_provider_new_ecs_or_imds(
allocator, &sub_provider_shutdown_options, options->bootstrap, tls_ctx);
if (ecs_or_imds_provider != NULL) {
providers[index++] = ecs_or_imds_provider;
/* 1 shutdown call from the imds or ecs provider's shutdown */
aws_atomic_fetch_add(&impl->shutdowns_remaining, 1);
}
AWS_FATAL_ASSERT(index <= providers_size);
struct aws_credentials_provider_chain_options chain_options = {
.provider_count = index,
.providers = providers,
};
chain_provider = aws_credentials_provider_new_chain(allocator, &chain_options);
if (chain_provider == NULL) {
goto on_error;
}
/*
* Transfer ownership
*/
aws_credentials_provider_release(environment_provider);
aws_credentials_provider_release(profile_provider);
aws_credentials_provider_release(sts_provider);
aws_credentials_provider_release(ecs_or_imds_provider);
struct aws_credentials_provider_cached_options cached_options = {
.source = chain_provider,
.refresh_time_in_milliseconds = DEFAULT_CREDENTIAL_PROVIDER_REFRESH_MS,
};
cached_provider = aws_credentials_provider_new_cached(allocator, &cached_options);
if (cached_provider == NULL) {
goto on_error;
}
/*
* Transfer ownership
*/
aws_credentials_provider_release(chain_provider);
impl->cached_provider = cached_provider;
/* Subproviders have their own reference to the tls_ctx now */
aws_tls_ctx_release(tls_ctx);
return provider;
on_error:
/*
* Have to be a bit more careful than normal with this clean up pattern since the chain/cache will
* recursively destroy the other providers via ref release.
*
* Technically, the cached_provider can never be non-null here, but let's handle it anyways
* in case someone does something weird in the future.
*/
if (cached_provider) {
aws_credentials_provider_release(cached_provider);
} else if (chain_provider) {
aws_credentials_provider_release(chain_provider);
} else {
aws_credentials_provider_release(ecs_or_imds_provider);
aws_credentials_provider_release(profile_provider);
aws_credentials_provider_release(sts_provider);
aws_credentials_provider_release(environment_provider);
}
aws_tls_ctx_release(tls_ctx);
aws_mem_release(allocator, provider);
return NULL;
}
|