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|
/**
* Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
* SPDX-License-Identifier: Apache-2.0.
*/
#include <aws/http/private/proxy_impl.h>
#include <aws/common/encoding.h>
#include <aws/common/environment.h>
#include <aws/common/hash_table.h>
#include <aws/common/string.h>
#include <aws/http/connection_manager.h>
#include <aws/http/private/connection_impl.h>
#include <aws/http/proxy.h>
#include <aws/http/request_response.h>
#include <aws/io/channel.h>
#include <aws/io/logging.h>
#include <aws/io/tls_channel_handler.h>
#include <aws/io/uri.h>
#ifdef _MSC_VER
# pragma warning(disable : 4204) /* non-constant aggregate initializer */
# pragma warning(disable : 4232) /* function pointer to dll symbol */
#endif
AWS_STATIC_STRING_FROM_LITERAL(s_host_header_name, "Host");
AWS_STATIC_STRING_FROM_LITERAL(s_proxy_connection_header_name, "Proxy-Connection");
AWS_STATIC_STRING_FROM_LITERAL(s_proxy_connection_header_value, "Keep-Alive");
AWS_STATIC_STRING_FROM_LITERAL(s_options_method, "OPTIONS");
AWS_STATIC_STRING_FROM_LITERAL(s_star_path, "*");
AWS_STATIC_STRING_FROM_LITERAL(s_http_proxy_env_var, "HTTP_PROXY");
AWS_STATIC_STRING_FROM_LITERAL(s_http_proxy_env_var_low, "http_proxy");
AWS_STATIC_STRING_FROM_LITERAL(s_https_proxy_env_var, "HTTPS_PROXY");
AWS_STATIC_STRING_FROM_LITERAL(s_https_proxy_env_var_low, "https_proxy");
#ifndef BYO_CRYPTO
AWS_STATIC_STRING_FROM_LITERAL(s_proxy_no_verify_peer_env_var, "AWS_PROXY_NO_VERIFY_PEER");
#endif
static struct aws_http_proxy_system_vtable s_default_vtable = {
.setup_client_tls = &aws_channel_setup_client_tls,
};
static struct aws_http_proxy_system_vtable *s_vtable = &s_default_vtable;
void aws_http_proxy_system_set_vtable(struct aws_http_proxy_system_vtable *vtable) {
s_vtable = vtable;
}
void aws_http_proxy_user_data_destroy(struct aws_http_proxy_user_data *user_data) {
if (user_data == NULL) {
return;
}
aws_hash_table_clean_up(&user_data->alpn_string_map);
/*
* For tunneling connections, this is now internal and never surfaced to the user, so it's our responsibility
* to clean up the last reference.
*/
if (user_data->proxy_connection != NULL && user_data->proxy_config->connection_type == AWS_HPCT_HTTP_TUNNEL) {
aws_http_connection_release(user_data->proxy_connection);
user_data->proxy_connection = NULL;
}
aws_string_destroy(user_data->original_host);
if (user_data->proxy_config) {
aws_http_proxy_config_destroy(user_data->proxy_config);
}
if (user_data->original_tls_options) {
aws_tls_connection_options_clean_up(user_data->original_tls_options);
aws_mem_release(user_data->allocator, user_data->original_tls_options);
}
aws_http_proxy_negotiator_release(user_data->proxy_negotiator);
aws_client_bootstrap_release(user_data->original_bootstrap);
aws_mem_release(user_data->allocator, user_data);
}
struct aws_http_proxy_user_data *aws_http_proxy_user_data_new(
struct aws_allocator *allocator,
const struct aws_http_client_connection_options *orig_options,
aws_client_bootstrap_on_channel_event_fn *on_channel_setup,
aws_client_bootstrap_on_channel_event_fn *on_channel_shutdown) {
AWS_FATAL_ASSERT(orig_options->proxy_options != NULL);
/* make copy of options, and add defaults for missing optional structs */
struct aws_http_client_connection_options options = *orig_options;
struct aws_http1_connection_options default_http1_options;
AWS_ZERO_STRUCT(default_http1_options);
if (options.http1_options == NULL) {
options.http1_options = &default_http1_options;
}
struct aws_http2_connection_options default_http2_options;
AWS_ZERO_STRUCT(default_http2_options);
if (options.http2_options == NULL) {
options.http2_options = &default_http2_options;
}
struct aws_http2_setting *setting_array = NULL;
struct aws_http_proxy_user_data *user_data = NULL;
aws_mem_acquire_many(
options.allocator,
2,
&user_data,
sizeof(struct aws_http_proxy_user_data),
&setting_array,
options.http2_options->num_initial_settings * sizeof(struct aws_http2_setting));
AWS_ZERO_STRUCT(*user_data);
user_data->allocator = allocator;
user_data->state = AWS_PBS_SOCKET_CONNECT;
user_data->error_code = AWS_ERROR_SUCCESS;
user_data->connect_status_code = AWS_HTTP_STATUS_CODE_UNKNOWN;
user_data->original_bootstrap = aws_client_bootstrap_acquire(options.bootstrap);
if (options.socket_options != NULL) {
user_data->original_socket_options = *options.socket_options;
}
user_data->original_manual_window_management = options.manual_window_management;
user_data->original_initial_window_size = options.initial_window_size;
user_data->original_host = aws_string_new_from_cursor(allocator, &options.host_name);
if (user_data->original_host == NULL) {
goto on_error;
}
user_data->original_port = options.port;
user_data->proxy_config = aws_http_proxy_config_new_from_connection_options(allocator, &options);
if (user_data->proxy_config == NULL) {
goto on_error;
}
user_data->proxy_negotiator =
aws_http_proxy_strategy_create_negotiator(user_data->proxy_config->proxy_strategy, allocator);
if (user_data->proxy_negotiator == NULL) {
goto on_error;
}
if (options.tls_options) {
/* clone tls options, but redirect user data to what we're creating */
user_data->original_tls_options = aws_mem_calloc(allocator, 1, sizeof(struct aws_tls_connection_options));
if (user_data->original_tls_options == NULL ||
aws_tls_connection_options_copy(user_data->original_tls_options, options.tls_options)) {
goto on_error;
}
user_data->original_tls_options->user_data = user_data;
}
if (aws_http_alpn_map_init_copy(options.allocator, &user_data->alpn_string_map, options.alpn_string_map)) {
goto on_error;
}
user_data->original_http_on_setup = options.on_setup;
user_data->original_http_on_shutdown = options.on_shutdown;
user_data->original_channel_on_setup = on_channel_setup;
user_data->original_channel_on_shutdown = on_channel_shutdown;
user_data->requested_event_loop = options.requested_event_loop;
user_data->prior_knowledge_http2 = options.prior_knowledge_http2;
/* one and only one setup callback must be valid */
AWS_FATAL_ASSERT((user_data->original_http_on_setup == NULL) != (user_data->original_channel_on_setup == NULL));
/* one and only one shutdown callback must be valid */
AWS_FATAL_ASSERT(
(user_data->original_http_on_shutdown == NULL) != (user_data->original_channel_on_shutdown == NULL));
/* callback set must be self-consistent. Technically the second check is redundant given the previous checks */
AWS_FATAL_ASSERT((user_data->original_http_on_setup == NULL) == (user_data->original_http_on_shutdown == NULL));
AWS_FATAL_ASSERT(
(user_data->original_channel_on_setup == NULL) == (user_data->original_channel_on_shutdown == NULL));
user_data->original_user_data = options.user_data;
user_data->original_http1_options = *options.http1_options;
user_data->original_http2_options = *options.http2_options;
/* keep a copy of the settings array if it's not NULL */
if (options.http2_options->num_initial_settings > 0) {
memcpy(
setting_array,
options.http2_options->initial_settings_array,
options.http2_options->num_initial_settings * sizeof(struct aws_http2_setting));
user_data->original_http2_options.initial_settings_array = setting_array;
}
return user_data;
on_error:
AWS_LOGF_ERROR(
AWS_LS_HTTP_CONNECTION,
"(STATIC) Proxy connection failed to create user data with error %d(%s)",
aws_last_error(),
aws_error_str(aws_last_error()));
aws_http_proxy_user_data_destroy(user_data);
return NULL;
}
struct aws_http_proxy_user_data *aws_http_proxy_user_data_new_reset_clone(
struct aws_allocator *allocator,
struct aws_http_proxy_user_data *old_user_data) {
AWS_FATAL_ASSERT(old_user_data != NULL);
struct aws_http2_setting *setting_array = NULL;
struct aws_http_proxy_user_data *user_data = NULL;
aws_mem_acquire_many(
allocator,
2,
&user_data,
sizeof(struct aws_http_proxy_user_data),
&setting_array,
old_user_data->original_http2_options.num_initial_settings * sizeof(struct aws_http2_setting));
AWS_ZERO_STRUCT(*user_data);
user_data->allocator = allocator;
user_data->state = AWS_PBS_SOCKET_CONNECT;
user_data->error_code = AWS_ERROR_SUCCESS;
user_data->connect_status_code = AWS_HTTP_STATUS_CODE_UNKNOWN;
user_data->original_bootstrap = aws_client_bootstrap_acquire(old_user_data->original_bootstrap);
user_data->original_socket_options = old_user_data->original_socket_options;
user_data->original_manual_window_management = old_user_data->original_manual_window_management;
user_data->original_initial_window_size = old_user_data->original_initial_window_size;
user_data->prior_knowledge_http2 = old_user_data->prior_knowledge_http2;
user_data->original_host = aws_string_new_from_string(allocator, old_user_data->original_host);
if (user_data->original_host == NULL) {
goto on_error;
}
user_data->original_port = old_user_data->original_port;
user_data->proxy_config = aws_http_proxy_config_new_clone(allocator, old_user_data->proxy_config);
if (user_data->proxy_config == NULL) {
goto on_error;
}
user_data->proxy_negotiator = aws_http_proxy_negotiator_acquire(old_user_data->proxy_negotiator);
if (user_data->proxy_negotiator == NULL) {
goto on_error;
}
if (old_user_data->original_tls_options) {
/* clone tls options, but redirect user data to what we're creating */
user_data->original_tls_options = aws_mem_calloc(allocator, 1, sizeof(struct aws_tls_connection_options));
if (user_data->original_tls_options == NULL ||
aws_tls_connection_options_copy(user_data->original_tls_options, old_user_data->original_tls_options)) {
goto on_error;
}
user_data->original_tls_options->user_data = user_data;
}
if (aws_http_alpn_map_init_copy(allocator, &user_data->alpn_string_map, &old_user_data->alpn_string_map)) {
goto on_error;
}
user_data->original_http_on_setup = old_user_data->original_http_on_setup;
user_data->original_http_on_shutdown = old_user_data->original_http_on_shutdown;
user_data->original_channel_on_setup = old_user_data->original_channel_on_setup;
user_data->original_channel_on_shutdown = old_user_data->original_channel_on_shutdown;
user_data->original_user_data = old_user_data->original_user_data;
user_data->original_http1_options = old_user_data->original_http1_options;
user_data->original_http2_options = old_user_data->original_http2_options;
/* keep a copy of the settings array if it's not NULL */
if (old_user_data->original_http2_options.num_initial_settings > 0) {
memcpy(
setting_array,
old_user_data->original_http2_options.initial_settings_array,
old_user_data->original_http2_options.num_initial_settings * sizeof(struct aws_http2_setting));
user_data->original_http2_options.initial_settings_array = setting_array;
}
return user_data;
on_error:
AWS_LOGF_ERROR(
AWS_LS_HTTP_CONNECTION,
"(STATIC) Proxy connection failed to create user data with error %d(%s)",
aws_last_error(),
aws_error_str(aws_last_error()));
aws_http_proxy_user_data_destroy(user_data);
return NULL;
}
/*
* Examines the proxy user data state and determines whether to make an http-interface setup callback
* or a raw channel setup callback
*/
static void s_do_on_setup_callback(
struct aws_http_proxy_user_data *proxy_ud,
struct aws_http_connection *connection,
int error_code) {
if (proxy_ud->original_http_on_setup) {
proxy_ud->original_http_on_setup(connection, error_code, proxy_ud->original_user_data);
proxy_ud->original_http_on_setup = NULL;
}
if (proxy_ud->original_channel_on_setup) {
struct aws_channel *channel = NULL;
if (connection != NULL) {
channel = aws_http_connection_get_channel(connection);
}
proxy_ud->original_channel_on_setup(
proxy_ud->original_bootstrap, error_code, channel, proxy_ud->original_user_data);
proxy_ud->original_channel_on_setup = NULL;
}
}
/*
* Examines the proxy user data state and determines whether to make an http-interface shutdown callback
* or a raw channel shutdown callback
*/
static void s_do_on_shutdown_callback(struct aws_http_proxy_user_data *proxy_ud, int error_code) {
AWS_FATAL_ASSERT(proxy_ud->proxy_connection);
if (proxy_ud->original_http_on_shutdown) {
AWS_FATAL_ASSERT(proxy_ud->final_connection);
proxy_ud->original_http_on_shutdown(proxy_ud->final_connection, error_code, proxy_ud->original_user_data);
proxy_ud->original_http_on_shutdown = NULL;
}
if (proxy_ud->original_channel_on_shutdown) {
struct aws_channel *channel = aws_http_connection_get_channel(proxy_ud->proxy_connection);
proxy_ud->original_channel_on_shutdown(
proxy_ud->original_bootstrap, error_code, channel, proxy_ud->original_user_data);
proxy_ud->original_channel_on_shutdown = NULL;
}
}
/*
* Connection callback used ONLY by forwarding http proxy connections. After this,
* the connection is live and the user is notified
*/
static void s_aws_http_on_client_connection_http_forwarding_proxy_setup_fn(
struct aws_http_connection *connection,
int error_code,
void *user_data) {
struct aws_http_proxy_user_data *proxy_ud = user_data;
s_do_on_setup_callback(proxy_ud, connection, error_code);
if (error_code != AWS_ERROR_SUCCESS) {
aws_http_proxy_user_data_destroy(user_data);
} else {
/*
* The proxy connection and final connection are the same in forwarding proxy connections. This lets
* us unconditionally use fatal asserts on these being non-null regardless of proxy configuration.
*/
proxy_ud->proxy_connection = connection;
proxy_ud->final_connection = connection;
proxy_ud->state = AWS_PBS_SUCCESS;
}
}
/*
* Connection shutdown callback used by both http and https proxy connections. Only invokes
* user shutdown if the connection was successfully established. Otherwise, it invokes
* the user setup function with an error.
*/
static void s_aws_http_on_client_connection_http_proxy_shutdown_fn(
struct aws_http_connection *connection,
int error_code,
void *user_data) {
struct aws_http_proxy_user_data *proxy_ud = user_data;
if (proxy_ud->state == AWS_PBS_SUCCESS) {
AWS_LOGF_INFO(
AWS_LS_HTTP_CONNECTION,
"(%p) Proxy connection (channel %p) shutting down.",
(void *)connection,
(void *)aws_http_connection_get_channel(connection));
s_do_on_shutdown_callback(proxy_ud, error_code);
} else {
int ec = error_code;
if (ec == AWS_ERROR_SUCCESS) {
ec = proxy_ud->error_code;
}
if (ec == AWS_ERROR_SUCCESS) {
ec = AWS_ERROR_UNKNOWN;
}
AWS_LOGF_WARN(
AWS_LS_HTTP_CONNECTION,
"(%p) Error %d while connecting to \"%s\" via proxy.",
(void *)connection,
ec,
(char *)proxy_ud->original_host->bytes);
s_do_on_setup_callback(proxy_ud, NULL, ec);
}
aws_http_proxy_user_data_destroy(user_data);
}
/*
* On-any-error entry point that releases all resources involved in establishing the proxy connection.
* This must not be invoked any time after a successful setup callback.
*/
static void s_aws_http_proxy_user_data_shutdown(struct aws_http_proxy_user_data *user_data) {
user_data->state = AWS_PBS_FAILURE;
if (user_data->proxy_connection == NULL) {
s_do_on_setup_callback(user_data, NULL, user_data->error_code);
aws_http_proxy_user_data_destroy(user_data);
return;
}
if (user_data->connect_stream) {
aws_http_stream_release(user_data->connect_stream);
user_data->connect_stream = NULL;
}
if (user_data->connect_request) {
aws_http_message_destroy(user_data->connect_request);
user_data->connect_request = NULL;
}
struct aws_http_connection *http_connection = user_data->proxy_connection;
user_data->proxy_connection = NULL;
aws_channel_shutdown(http_connection->channel_slot->channel, user_data->error_code);
aws_http_connection_release(http_connection);
}
static struct aws_http_message *s_build_h1_proxy_connect_request(struct aws_http_proxy_user_data *user_data) {
struct aws_http_message *request = aws_http_message_new_request(user_data->allocator);
if (request == NULL) {
return NULL;
}
struct aws_byte_buf path_buffer;
AWS_ZERO_STRUCT(path_buffer);
if (aws_http_message_set_request_method(request, aws_http_method_connect)) {
goto on_error;
}
if (aws_byte_buf_init(&path_buffer, user_data->allocator, user_data->original_host->len + 10)) {
goto on_error;
}
struct aws_byte_cursor host_cursor = aws_byte_cursor_from_string(user_data->original_host);
if (aws_byte_buf_append(&path_buffer, &host_cursor)) {
goto on_error;
}
struct aws_byte_cursor colon_cursor = aws_byte_cursor_from_c_str(":");
if (aws_byte_buf_append(&path_buffer, &colon_cursor)) {
goto on_error;
}
char port_str[20] = "\0";
snprintf(port_str, sizeof(port_str), "%d", (int)user_data->original_port);
struct aws_byte_cursor port_cursor = aws_byte_cursor_from_c_str(port_str);
if (aws_byte_buf_append(&path_buffer, &port_cursor)) {
goto on_error;
}
struct aws_byte_cursor path_cursor = aws_byte_cursor_from_array(path_buffer.buffer, path_buffer.len);
if (aws_http_message_set_request_path(request, path_cursor)) {
goto on_error;
}
struct aws_http_header host_header = {
.name = aws_byte_cursor_from_string(s_host_header_name),
.value = aws_byte_cursor_from_array(path_buffer.buffer, path_buffer.len),
};
if (aws_http_message_add_header(request, host_header)) {
goto on_error;
}
struct aws_http_header keep_alive_header = {
.name = aws_byte_cursor_from_string(s_proxy_connection_header_name),
.value = aws_byte_cursor_from_string(s_proxy_connection_header_value),
};
if (aws_http_message_add_header(request, keep_alive_header)) {
goto on_error;
}
aws_byte_buf_clean_up(&path_buffer);
return request;
on_error:
AWS_LOGF_ERROR(
AWS_LS_HTTP_CONNECTION,
"(%p) TLS proxy connection failed to build CONNECT request with error %d(%s)",
(void *)user_data->proxy_connection,
aws_last_error(),
aws_error_str(aws_last_error()));
aws_byte_buf_clean_up(&path_buffer);
aws_http_message_destroy(request);
return NULL;
}
/*
* Builds the CONNECT request issued after proxy connection establishment, during the creation of
* tls-enabled proxy connections.
*/
static struct aws_http_message *s_build_proxy_connect_request(struct aws_http_proxy_user_data *user_data) {
struct aws_http_connection *proxy_connection = user_data->proxy_connection;
switch (proxy_connection->http_version) {
case AWS_HTTP_VERSION_1_1:
return s_build_h1_proxy_connect_request(user_data);
default:
aws_raise_error(AWS_ERROR_HTTP_UNSUPPORTED_PROTOCOL);
return NULL;
}
}
static int s_aws_http_on_incoming_body_tunnel_proxy(
struct aws_http_stream *stream,
const struct aws_byte_cursor *data,
void *user_data) {
(void)stream;
struct aws_http_proxy_user_data *context = user_data;
aws_http_proxy_negotiator_connect_on_incoming_body_fn *on_incoming_body =
context->proxy_negotiator->strategy_vtable.tunnelling_vtable->on_incoming_body_callback;
if (on_incoming_body != NULL) {
(*on_incoming_body)(context->proxy_negotiator, data);
}
aws_http_stream_update_window(stream, data->len);
return AWS_OP_SUCCESS;
}
static int s_aws_http_on_response_headers_tunnel_proxy(
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) {
(void)stream;
struct aws_http_proxy_user_data *context = user_data;
aws_http_proxy_negotiation_connect_on_incoming_headers_fn *on_incoming_headers =
context->proxy_negotiator->strategy_vtable.tunnelling_vtable->on_incoming_headers_callback;
if (on_incoming_headers != NULL) {
(*on_incoming_headers)(context->proxy_negotiator, header_block, header_array, num_headers);
}
return AWS_OP_SUCCESS;
}
/*
* Headers done callback for the CONNECT request made during tls proxy connections
*/
static int s_aws_http_on_incoming_header_block_done_tunnel_proxy(
struct aws_http_stream *stream,
enum aws_http_header_block header_block,
void *user_data) {
struct aws_http_proxy_user_data *context = user_data;
if (header_block == AWS_HTTP_HEADER_BLOCK_MAIN) {
int status_code = AWS_HTTP_STATUS_CODE_UNKNOWN;
aws_http_stream_get_incoming_response_status(stream, &status_code);
context->connect_status_code = (enum aws_http_status_code)status_code;
if (context->connect_status_code != AWS_HTTP_STATUS_CODE_200_OK) {
AWS_LOGF_ERROR(
AWS_LS_HTTP_CONNECTION,
"(%p) Proxy CONNECT request failed with status code %d",
(void *)context->proxy_connection,
context->connect_status_code);
context->error_code = AWS_ERROR_HTTP_PROXY_CONNECT_FAILED;
}
aws_http_proxy_negotiator_connect_status_fn *on_status =
context->proxy_negotiator->strategy_vtable.tunnelling_vtable->on_status_callback;
if (on_status != NULL) {
(*on_status)(context->proxy_negotiator, context->connect_status_code);
}
}
return AWS_OP_SUCCESS;
}
static int s_aws_http_apply_http_connection_to_proxied_channel(struct aws_http_proxy_user_data *context) {
AWS_FATAL_ASSERT(context->proxy_connection != NULL);
AWS_FATAL_ASSERT(context->original_http_on_setup != NULL);
struct aws_channel *channel = aws_http_connection_get_channel(context->proxy_connection);
struct aws_http_connection *connection = aws_http_connection_new_channel_handler(
context->allocator,
channel,
false,
context->original_tls_options != NULL,
context->original_manual_window_management,
context->prior_knowledge_http2,
context->original_initial_window_size,
context->alpn_string_map.p_impl == NULL ? NULL : &context->alpn_string_map,
&context->original_http1_options,
&context->original_http2_options,
context->original_user_data);
if (connection == NULL) {
AWS_LOGF_ERROR(
AWS_LS_HTTP_CONNECTION,
"static: Failed to create the client connection object, error %d (%s).",
aws_last_error(),
aws_error_name(aws_last_error()));
return AWS_OP_ERR;
}
AWS_LOGF_INFO(
AWS_LS_HTTP_CONNECTION,
"id=%p: " PRInSTR " client connection established.",
(void *)connection,
AWS_BYTE_CURSOR_PRI(aws_http_version_to_str(connection->http_version)));
context->final_connection = connection;
return AWS_OP_SUCCESS;
}
static void s_do_final_proxied_channel_setup(struct aws_http_proxy_user_data *proxy_ud) {
if (proxy_ud->original_http_on_setup != NULL) {
/*
* If we're transitioning to http with http setup/shutdown callbacks, try to apply a new http connection to
* the channel
*/
if (s_aws_http_apply_http_connection_to_proxied_channel(proxy_ud)) {
proxy_ud->error_code = aws_last_error();
s_aws_http_proxy_user_data_shutdown(proxy_ud);
return;
}
s_do_on_setup_callback(proxy_ud, proxy_ud->final_connection, AWS_ERROR_SUCCESS);
} else {
/*
* Otherwise invoke setup directly (which will end up being channel setup)
*/
s_do_on_setup_callback(proxy_ud, proxy_ud->proxy_connection, AWS_ERROR_SUCCESS);
}
/* Tell user of successful connection. */
proxy_ud->state = AWS_PBS_SUCCESS;
}
/*
* Tls negotiation callback for tls proxy connections
*/
static void s_on_origin_server_tls_negotation_result(
struct aws_channel_handler *handler,
struct aws_channel_slot *slot,
int error_code,
void *user_data) {
(void)handler;
(void)slot;
struct aws_http_proxy_user_data *context = user_data;
if (error_code != AWS_ERROR_SUCCESS) {
AWS_LOGF_ERROR(
AWS_LS_HTTP_CONNECTION,
"(%p) Proxy connection failed origin server TLS negotiation with error %d(%s)",
(void *)context->proxy_connection,
error_code,
aws_error_str(error_code));
context->error_code = error_code;
s_aws_http_proxy_user_data_shutdown(context);
return;
}
s_do_final_proxied_channel_setup(context);
}
static int s_create_tunneling_connection(struct aws_http_proxy_user_data *user_data);
static int s_make_proxy_connect_request(struct aws_http_proxy_user_data *user_data);
static void s_zero_callbacks(struct aws_http_proxy_user_data *proxy_ud) {
proxy_ud->original_http_on_shutdown = NULL;
proxy_ud->original_http_on_setup = NULL;
proxy_ud->original_channel_on_shutdown = NULL;
proxy_ud->original_channel_on_setup = NULL;
}
/*
* Stream done callback for the CONNECT request made during tls proxy connections
*/
static void s_aws_http_on_stream_complete_tunnel_proxy(
struct aws_http_stream *stream,
int error_code,
void *user_data) {
struct aws_http_proxy_user_data *context = user_data;
AWS_FATAL_ASSERT(stream == context->connect_stream);
if (context->error_code == AWS_ERROR_SUCCESS && error_code != AWS_ERROR_SUCCESS) {
context->error_code = error_code;
}
if (context->error_code != AWS_ERROR_SUCCESS) {
context->error_code = AWS_ERROR_HTTP_PROXY_CONNECT_FAILED;
if (context->connect_status_code == AWS_HTTP_STATUS_CODE_407_PROXY_AUTHENTICATION_REQUIRED) {
enum aws_http_proxy_negotiation_retry_directive retry_directive =
aws_http_proxy_negotiator_get_retry_directive(context->proxy_negotiator);
if (retry_directive == AWS_HPNRD_NEW_CONNECTION) {
struct aws_http_proxy_user_data *new_context =
aws_http_proxy_user_data_new_reset_clone(context->allocator, context);
if (new_context != NULL && s_create_tunneling_connection(new_context) == AWS_OP_SUCCESS) {
/*
* We successfully kicked off a new connection. By NULLing the callbacks on the old one, we can
* shut it down quietly without the user being notified. The new connection will notify the user
* based on its success or failure.
*/
s_zero_callbacks(context);
context->error_code = AWS_ERROR_HTTP_PROXY_CONNECT_FAILED_RETRYABLE;
}
} else if (retry_directive == AWS_HPNRD_CURRENT_CONNECTION) {
context->error_code = AWS_ERROR_SUCCESS;
if (s_make_proxy_connect_request(context) == AWS_OP_SUCCESS) {
return;
}
}
}
s_aws_http_proxy_user_data_shutdown(context);
return;
}
AWS_LOGF_INFO(
AWS_LS_HTTP_CONNECTION,
"(%p) Proxy connection made successful CONNECT request to \"%s\" via proxy",
(void *)context->proxy_connection,
context->original_host->bytes);
/*
* We're finished with these, let's release
*/
aws_http_stream_release(stream);
context->connect_stream = NULL;
aws_http_message_destroy(context->connect_request);
context->connect_request = NULL;
AWS_LOGF_INFO(
AWS_LS_HTTP_CONNECTION, "(%p) Beginning TLS negotiation through proxy", (void *)context->proxy_connection);
if (context->original_tls_options != NULL) {
/*
* Perform TLS negotiation to the origin server through proxy
*/
context->original_tls_options->on_negotiation_result = s_on_origin_server_tls_negotation_result;
context->state = AWS_PBS_TLS_NEGOTIATION;
struct aws_channel *channel = aws_http_connection_get_channel(context->proxy_connection);
struct aws_channel_slot *last_slot = aws_channel_get_first_slot(channel);
while (last_slot->adj_right != NULL) {
last_slot = last_slot->adj_right;
}
if (s_vtable->setup_client_tls(last_slot, context->original_tls_options)) {
AWS_LOGF_ERROR(
AWS_LS_HTTP_CONNECTION,
"(%p) Proxy connection failed to start TLS negotiation with error %d(%s)",
(void *)context->proxy_connection,
aws_last_error(),
aws_error_str(aws_last_error()));
s_aws_http_proxy_user_data_shutdown(context);
return;
}
} else {
s_do_final_proxied_channel_setup(context);
}
}
static void s_terminate_tunneling_connect(
struct aws_http_message *message,
int error_code,
void *internal_proxy_user_data) {
(void)message;
struct aws_http_proxy_user_data *proxy_ud = internal_proxy_user_data;
AWS_LOGF_ERROR(
AWS_LS_HTTP_CONNECTION,
"(%p) Tunneling proxy connection failed to create request stream for CONNECT request with error %d(%s)",
(void *)proxy_ud->proxy_connection,
error_code,
aws_error_str(error_code));
proxy_ud->error_code = error_code;
s_aws_http_proxy_user_data_shutdown(proxy_ud);
}
static void s_continue_tunneling_connect(struct aws_http_message *message, void *internal_proxy_user_data) {
struct aws_http_proxy_user_data *proxy_ud = internal_proxy_user_data;
struct aws_http_make_request_options request_options = {
.self_size = sizeof(request_options),
.request = message,
.user_data = proxy_ud,
.on_response_headers = s_aws_http_on_response_headers_tunnel_proxy,
.on_response_header_block_done = s_aws_http_on_incoming_header_block_done_tunnel_proxy,
.on_response_body = s_aws_http_on_incoming_body_tunnel_proxy,
.on_complete = s_aws_http_on_stream_complete_tunnel_proxy,
};
if (proxy_ud->connect_stream != NULL) {
aws_http_stream_release(proxy_ud->connect_stream);
}
proxy_ud->connect_stream = aws_http_connection_make_request(proxy_ud->proxy_connection, &request_options);
if (proxy_ud->connect_stream == NULL) {
goto on_error;
}
aws_http_stream_activate(proxy_ud->connect_stream);
return;
on_error:
s_aws_http_proxy_user_data_shutdown(proxy_ud);
}
/*
* Issues a CONNECT request on an http connection
*/
static int s_make_proxy_connect_request(struct aws_http_proxy_user_data *user_data) {
if (user_data->connect_request != NULL) {
aws_http_message_destroy(user_data->connect_request);
user_data->connect_request = NULL;
}
user_data->connect_request = s_build_proxy_connect_request(user_data);
if (user_data->connect_request == NULL) {
return AWS_OP_ERR;
}
(*user_data->proxy_negotiator->strategy_vtable.tunnelling_vtable->connect_request_transform)(
user_data->proxy_negotiator,
user_data->connect_request,
s_terminate_tunneling_connect,
s_continue_tunneling_connect,
user_data);
return AWS_OP_SUCCESS;
}
/*
* Connection setup callback for tunneling proxy connections.
*/
static void s_aws_http_on_client_connection_http_tunneling_proxy_setup_fn(
struct aws_http_connection *connection,
int error_code,
void *user_data) {
struct aws_http_proxy_user_data *proxy_ud = user_data;
proxy_ud->error_code = error_code;
if (error_code != AWS_ERROR_SUCCESS) {
goto on_error;
}
AWS_LOGF_INFO(AWS_LS_HTTP_CONNECTION, "(%p) Making CONNECT request to proxy", (void *)proxy_ud->proxy_connection);
proxy_ud->proxy_connection = connection;
proxy_ud->state = AWS_PBS_HTTP_CONNECT;
if (s_make_proxy_connect_request(proxy_ud)) {
goto on_error;
}
return;
on_error:
s_aws_http_proxy_user_data_shutdown(proxy_ud);
}
/*
* Checks for the special case when a request is an OPTIONS request with *
* path and no query params
*/
static bool s_is_star_path_options_method(const struct aws_http_message *request) {
struct aws_byte_cursor method_cursor;
if (aws_http_message_get_request_method(request, &method_cursor)) {
return false;
}
struct aws_byte_cursor options_cursor = aws_byte_cursor_from_string(s_options_method);
if (!aws_byte_cursor_eq_ignore_case(&method_cursor, &options_cursor)) {
return false;
}
struct aws_byte_cursor path_cursor;
if (aws_http_message_get_request_path(request, &path_cursor)) {
return false;
}
struct aws_byte_cursor star_cursor = aws_byte_cursor_from_string(s_star_path);
if (!aws_byte_cursor_eq_ignore_case(&path_cursor, &star_cursor)) {
return false;
}
return true;
}
/*
* Modifies a requests uri by transforming it to absolute form according to
* section 5.3.2 of rfc 7230
*
* We do this by parsing the existing uri and then rebuilding it as an
* absolute resource path (using the original connection options)
*/
int aws_http_rewrite_uri_for_proxy_request(
struct aws_http_message *request,
struct aws_http_proxy_user_data *proxy_user_data) {
int result = AWS_OP_ERR;
struct aws_uri target_uri;
AWS_ZERO_STRUCT(target_uri);
struct aws_byte_cursor path_cursor;
AWS_ZERO_STRUCT(path_cursor);
if (aws_http_message_get_request_path(request, &path_cursor)) {
goto done;
}
/* Pull out the original path/query */
struct aws_uri uri;
if (aws_uri_init_parse(&uri, proxy_user_data->allocator, &path_cursor)) {
goto done;
}
const struct aws_byte_cursor *actual_path_cursor = aws_uri_path(&uri);
const struct aws_byte_cursor *actual_query_cursor = aws_uri_query_string(&uri);
/* now rebuild the uri with scheme, host and port subbed in from the original connection options */
struct aws_uri_builder_options target_uri_builder;
AWS_ZERO_STRUCT(target_uri_builder);
target_uri_builder.scheme = aws_http_scheme_http;
target_uri_builder.path = *actual_path_cursor;
target_uri_builder.host_name = aws_byte_cursor_from_string(proxy_user_data->original_host);
target_uri_builder.port = proxy_user_data->original_port;
target_uri_builder.query_string = *actual_query_cursor;
if (aws_uri_init_from_builder_options(&target_uri, proxy_user_data->allocator, &target_uri_builder)) {
goto done;
}
struct aws_byte_cursor full_target_uri =
aws_byte_cursor_from_array(target_uri.uri_str.buffer, target_uri.uri_str.len);
/*
* By rfc 7230, Section 5.3.4, a star-pathed options request made through a proxy MUST be transformed (at the last
* proxy) back into a star-pathed request if the proxy request has an empty path and no query string. This
* is behavior we want to support. So from our side, we need to make sure that star-pathed options requests
* get translated into options requests with the authority as the uri and an empty path-query.
*
* Our URI transform always ends with a '/' which is technically not an empty path. To address this,
* the easiest thing to do is just detect if this was originally a star-pathed options request
* and drop the final '/' from the path.
*/
if (s_is_star_path_options_method(request)) {
if (full_target_uri.len > 0 && *(full_target_uri.ptr + full_target_uri.len - 1) == '/') {
full_target_uri.len -= 1;
}
}
/* mutate the request with the new path value */
if (aws_http_message_set_request_path(request, full_target_uri)) {
goto done;
}
result = AWS_OP_SUCCESS;
done:
aws_uri_clean_up(&target_uri);
aws_uri_clean_up(&uri);
return result;
}
/*
* Plaintext proxy request transformation function
*
* Rewrites the target uri to absolute form and injects any desired headers
*/
static int s_proxy_http_request_transform(struct aws_http_message *request, void *user_data) {
struct aws_http_proxy_user_data *proxy_ud = user_data;
if (aws_http_rewrite_uri_for_proxy_request(request, proxy_ud)) {
return AWS_OP_ERR;
}
if ((*proxy_ud->proxy_negotiator->strategy_vtable.forwarding_vtable->forward_request_transform)(
proxy_ud->proxy_negotiator, request)) {
return AWS_OP_ERR;
}
return AWS_OP_SUCCESS;
}
/*
* Top-level function to route a connection request through a proxy server, with no channel security
*/
static int s_aws_http_client_connect_via_forwarding_proxy(const struct aws_http_client_connection_options *options) {
AWS_FATAL_ASSERT(options->tls_options == NULL);
AWS_LOGF_INFO(
AWS_LS_HTTP_CONNECTION,
"(STATIC) Connecting to \"" PRInSTR "\" via proxy \"" PRInSTR "\"",
AWS_BYTE_CURSOR_PRI(options->host_name),
AWS_BYTE_CURSOR_PRI(options->proxy_options->host));
/* Create a wrapper user data that contains all proxy-related information, state, and user-facing callbacks */
struct aws_http_proxy_user_data *proxy_user_data =
aws_http_proxy_user_data_new(options->allocator, options, NULL, NULL);
if (proxy_user_data == NULL) {
return AWS_OP_ERR;
}
AWS_FATAL_ASSERT(options->proxy_options != NULL);
/* Fill in a new connection options pointing at the proxy */
struct aws_http_client_connection_options options_copy = *options;
options_copy.proxy_options = NULL;
options_copy.host_name = options->proxy_options->host;
options_copy.port = options->proxy_options->port;
options_copy.user_data = proxy_user_data;
options_copy.on_setup = s_aws_http_on_client_connection_http_forwarding_proxy_setup_fn;
options_copy.on_shutdown = s_aws_http_on_client_connection_http_proxy_shutdown_fn;
options_copy.tls_options = options->proxy_options->tls_options;
options_copy.requested_event_loop = options->requested_event_loop;
options_copy.prior_knowledge_http2 = false; /* ToDo, expose the protocol specific config for proxy connection. */
int result = aws_http_client_connect_internal(&options_copy, s_proxy_http_request_transform);
if (result == AWS_OP_ERR) {
AWS_LOGF_ERROR(
AWS_LS_HTTP_CONNECTION,
"(STATIC) Proxy http connection failed client connect with error %d(%s)",
aws_last_error(),
aws_error_str(aws_last_error()));
aws_http_proxy_user_data_destroy(proxy_user_data);
}
return result;
}
static int s_create_tunneling_connection(struct aws_http_proxy_user_data *user_data) {
struct aws_http_client_connection_options connect_options;
AWS_ZERO_STRUCT(connect_options);
connect_options.self_size = sizeof(struct aws_http_client_connection_options);
connect_options.allocator = user_data->allocator;
connect_options.bootstrap = user_data->original_bootstrap;
connect_options.host_name = aws_byte_cursor_from_buf(&user_data->proxy_config->host);
connect_options.port = user_data->proxy_config->port;
connect_options.socket_options = &user_data->original_socket_options;
connect_options.tls_options = user_data->proxy_config->tls_options;
connect_options.monitoring_options = NULL; /* ToDo */
connect_options.manual_window_management = user_data->original_manual_window_management;
connect_options.initial_window_size = user_data->original_initial_window_size;
connect_options.user_data = user_data;
connect_options.on_setup = s_aws_http_on_client_connection_http_tunneling_proxy_setup_fn;
connect_options.on_shutdown = s_aws_http_on_client_connection_http_proxy_shutdown_fn;
connect_options.http1_options = NULL; /* ToDo, expose the protocol specific config for proxy connection. */
connect_options.http2_options = NULL; /* ToDo */
connect_options.requested_event_loop = user_data->requested_event_loop;
int result = aws_http_client_connect(&connect_options);
if (result == AWS_OP_ERR) {
AWS_LOGF_ERROR(
AWS_LS_HTTP_CONNECTION,
"(STATIC) Proxy tunnel connection failed client connect with error %d(%s)",
aws_last_error(),
aws_error_str(aws_last_error()));
aws_http_proxy_user_data_destroy(user_data);
}
return result;
}
/*
* Top-level function to route a connection through a proxy server via a CONNECT request
*/
static int s_aws_http_client_connect_via_tunneling_proxy(
const struct aws_http_client_connection_options *options,
aws_client_bootstrap_on_channel_event_fn *on_channel_setup,
aws_client_bootstrap_on_channel_event_fn *on_channel_shutdown) {
AWS_FATAL_ASSERT(options->proxy_options != NULL);
AWS_LOGF_INFO(
AWS_LS_HTTP_CONNECTION,
"(STATIC) Connecting to \"" PRInSTR "\" through a tunnel via proxy \"" PRInSTR "\"",
AWS_BYTE_CURSOR_PRI(options->host_name),
AWS_BYTE_CURSOR_PRI(options->proxy_options->host));
/* Create a wrapper user data that contains all proxy-related information, state, and user-facing callbacks */
struct aws_http_proxy_user_data *user_data =
aws_http_proxy_user_data_new(options->allocator, options, on_channel_setup, on_channel_shutdown);
if (user_data == NULL) {
return AWS_OP_ERR;
}
return s_create_tunneling_connection(user_data);
}
static enum aws_http_proxy_connection_type s_determine_proxy_connection_type(
enum aws_http_proxy_connection_type proxy_connection_type,
bool is_tls_connection) {
if (proxy_connection_type != AWS_HPCT_HTTP_LEGACY) {
return proxy_connection_type;
}
if (is_tls_connection) {
return AWS_HPCT_HTTP_TUNNEL;
} else {
return AWS_HPCT_HTTP_FORWARD;
}
}
static int s_proxy_uri_init_from_env_variable(
struct aws_allocator *allocator,
const struct aws_http_client_connection_options *options,
struct aws_uri *proxy_uri,
bool *found) {
struct aws_string *proxy_uri_string = NULL;
*found = false;
if (options->tls_options) {
if (aws_get_environment_value(allocator, s_https_proxy_env_var_low, &proxy_uri_string) == AWS_OP_SUCCESS &&
proxy_uri_string != NULL) {
AWS_LOGF_DEBUG(AWS_LS_HTTP_CONNECTION, "https_proxy environment found");
} else if (
aws_get_environment_value(allocator, s_https_proxy_env_var, &proxy_uri_string) == AWS_OP_SUCCESS &&
proxy_uri_string != NULL) {
AWS_LOGF_DEBUG(AWS_LS_HTTP_CONNECTION, "HTTPS_PROXY environment found");
} else {
return AWS_OP_SUCCESS;
}
} else {
if (aws_get_environment_value(allocator, s_http_proxy_env_var_low, &proxy_uri_string) == AWS_OP_SUCCESS &&
proxy_uri_string != NULL) {
AWS_LOGF_DEBUG(AWS_LS_HTTP_CONNECTION, "http_proxy environment found");
} else if (
aws_get_environment_value(allocator, s_http_proxy_env_var, &proxy_uri_string) == AWS_OP_SUCCESS &&
proxy_uri_string != NULL) {
AWS_LOGF_DEBUG(AWS_LS_HTTP_CONNECTION, "HTTP_PROXY environment found");
} else {
return AWS_OP_SUCCESS;
}
}
struct aws_byte_cursor proxy_uri_cursor = aws_byte_cursor_from_string(proxy_uri_string);
if (aws_uri_init_parse(proxy_uri, allocator, &proxy_uri_cursor)) {
AWS_LOGF_ERROR(AWS_LS_HTTP_CONNECTION, "Could not parse found proxy URI.");
aws_string_destroy(proxy_uri_string);
return AWS_OP_ERR;
}
*found = true;
aws_string_destroy(proxy_uri_string);
return AWS_OP_SUCCESS;
}
static int s_connect_proxy(const struct aws_http_client_connection_options *options) {
if (aws_http_options_validate_proxy_configuration(options)) {
return AWS_OP_ERR;
}
enum aws_http_proxy_connection_type proxy_connection_type =
s_determine_proxy_connection_type(options->proxy_options->connection_type, options->tls_options != NULL);
switch (proxy_connection_type) {
case AWS_HPCT_HTTP_FORWARD:
return s_aws_http_client_connect_via_forwarding_proxy(options);
case AWS_HPCT_HTTP_TUNNEL:
return s_aws_http_client_connect_via_tunneling_proxy(options, NULL, NULL);
default:
return aws_raise_error(AWS_ERROR_UNIMPLEMENTED);
}
}
static int s_setup_proxy_tls_env_variable(
const struct aws_http_client_connection_options *options,
struct aws_tls_connection_options *default_tls_connection_options,
struct aws_http_proxy_options *proxy_options,
struct aws_uri *proxy_uri) {
(void)default_tls_connection_options;
(void)proxy_uri;
if (options->proxy_ev_settings->tls_options) {
proxy_options->tls_options = options->proxy_ev_settings->tls_options;
} else {
#ifdef BYO_CRYPTO
AWS_LOGF_ERROR(
AWS_LS_HTTP_CONNECTION,
"Failed making default TLS context because of BYO_CRYPTO, set up the tls_options for proxy_env_settings to "
"make it work.");
return AWS_OP_ERR;
#else
struct aws_tls_ctx *tls_ctx = NULL;
struct aws_tls_ctx_options tls_ctx_options;
AWS_ZERO_STRUCT(tls_ctx_options);
/* create a default tls options */
aws_tls_ctx_options_init_default_client(&tls_ctx_options, options->allocator);
struct aws_string *proxy_no_verify_peer_string = NULL;
if (aws_get_environment_value(
options->allocator, s_proxy_no_verify_peer_env_var, &proxy_no_verify_peer_string) == AWS_OP_SUCCESS &&
proxy_no_verify_peer_string != NULL) {
/* turn off the peer verification, if setup from envrionment variable. Mostly for testing. */
aws_tls_ctx_options_set_verify_peer(&tls_ctx_options, false);
aws_string_destroy(proxy_no_verify_peer_string);
}
tls_ctx = aws_tls_client_ctx_new(options->allocator, &tls_ctx_options);
aws_tls_ctx_options_clean_up(&tls_ctx_options);
if (!tls_ctx) {
AWS_LOGF_ERROR(AWS_LS_HTTP_CONNECTION, "Failed to create default TLS context.");
return AWS_OP_ERR;
}
aws_tls_connection_options_init_from_ctx(default_tls_connection_options, tls_ctx);
/* tls options hold a ref to the ctx */
aws_tls_ctx_release(tls_ctx);
if (aws_tls_connection_options_set_server_name(
default_tls_connection_options, options->allocator, &proxy_uri->host_name)) {
AWS_LOGF_ERROR(AWS_LS_HTTP_CONNECTION, "Failed set server name for TLS connection options.");
return AWS_OP_ERR;
}
proxy_options->tls_options = default_tls_connection_options;
#endif
}
return AWS_OP_SUCCESS;
}
static int s_connect_proxy_via_env_variable(const struct aws_http_client_connection_options *options) {
struct aws_http_proxy_options proxy_options;
AWS_ZERO_STRUCT(proxy_options);
struct aws_uri proxy_uri;
AWS_ZERO_STRUCT(proxy_uri);
struct aws_tls_connection_options default_tls_connection_options;
AWS_ZERO_STRUCT(default_tls_connection_options);
bool found = false;
bool success = false;
if (s_proxy_uri_init_from_env_variable(options->allocator, options, &proxy_uri, &found)) {
/* Envrionment is set but failed to parse it */
goto done;
}
if (found) {
proxy_options.host = proxy_uri.host_name;
proxy_options.port = proxy_uri.port;
proxy_options.connection_type = options->proxy_ev_settings->connection_type;
if (proxy_options.connection_type == AWS_HPCT_HTTP_LEGACY) {
if (options->tls_options) {
/* Use tunneling when main connection use TLS. */
proxy_options.connection_type = AWS_HPCT_HTTP_TUNNEL;
} else {
/* Use forwarding proxy when main connection use clear text. */
proxy_options.connection_type = AWS_HPCT_HTTP_FORWARD;
}
}
if (aws_byte_cursor_eq_ignore_case(&proxy_uri.scheme, &aws_http_scheme_https)) {
if (s_setup_proxy_tls_env_variable(options, &default_tls_connection_options, &proxy_options, &proxy_uri)) {
goto done;
}
}
/* Support basic authentication. */
if (proxy_uri.password.len) {
/* Has no empty password set */
struct aws_http_proxy_strategy_basic_auth_options config = {
.proxy_connection_type = proxy_options.connection_type,
.user_name = proxy_uri.user,
.password = proxy_uri.password,
};
proxy_options.proxy_strategy = aws_http_proxy_strategy_new_basic_auth(options->allocator, &config);
}
} else {
success = true;
goto done;
}
struct aws_http_client_connection_options copied_options = *options;
copied_options.proxy_options = &proxy_options;
if (s_connect_proxy(&copied_options)) {
goto done;
}
success = true;
done:
aws_tls_connection_options_clean_up(&default_tls_connection_options);
aws_http_proxy_strategy_release(proxy_options.proxy_strategy);
aws_uri_clean_up(&proxy_uri);
if (success && !found) {
/* Successfully, but no envrionment variable found. Connect without proxy */
return aws_http_client_connect_internal(options, NULL);
}
return success ? AWS_OP_SUCCESS : AWS_OP_ERR;
}
/*
* Dispatches a proxy-enabled connection request to the appropriate top-level connection function
*/
int aws_http_client_connect_via_proxy(const struct aws_http_client_connection_options *options) {
if (options->proxy_options == NULL && options->proxy_ev_settings &&
options->proxy_ev_settings->env_var_type == AWS_HPEV_ENABLE) {
return s_connect_proxy_via_env_variable(options);
}
return s_connect_proxy(options);
}
static struct aws_http_proxy_config *s_aws_http_proxy_config_new(
struct aws_allocator *allocator,
const struct aws_http_proxy_options *proxy_options,
enum aws_http_proxy_connection_type override_proxy_connection_type) {
AWS_FATAL_ASSERT(proxy_options != NULL);
struct aws_http_proxy_config *config = aws_mem_calloc(allocator, 1, sizeof(struct aws_http_proxy_config));
if (config == NULL) {
return NULL;
}
config->allocator = allocator;
config->connection_type = override_proxy_connection_type;
if (aws_byte_buf_init_copy_from_cursor(&config->host, allocator, proxy_options->host)) {
goto on_error;
}
if (proxy_options->tls_options) {
config->tls_options = aws_mem_calloc(allocator, 1, sizeof(struct aws_tls_connection_options));
if (aws_tls_connection_options_copy(config->tls_options, proxy_options->tls_options)) {
goto on_error;
}
}
config->port = proxy_options->port;
if (proxy_options->proxy_strategy != NULL) {
config->proxy_strategy = aws_http_proxy_strategy_acquire(proxy_options->proxy_strategy);
} else if (proxy_options->auth_type == AWS_HPAT_BASIC) {
struct aws_http_proxy_strategy_basic_auth_options basic_config;
AWS_ZERO_STRUCT(basic_config);
basic_config.proxy_connection_type = override_proxy_connection_type;
basic_config.user_name = proxy_options->auth_username;
basic_config.password = proxy_options->auth_password;
config->proxy_strategy = aws_http_proxy_strategy_new_basic_auth(allocator, &basic_config);
}
if (config->proxy_strategy == NULL) {
switch (override_proxy_connection_type) {
case AWS_HPCT_HTTP_FORWARD:
config->proxy_strategy = aws_http_proxy_strategy_new_forwarding_identity(allocator);
break;
case AWS_HPCT_HTTP_TUNNEL:
config->proxy_strategy = aws_http_proxy_strategy_new_tunneling_one_time_identity(allocator);
break;
default:
break;
}
if (config->proxy_strategy == NULL) {
goto on_error;
}
}
return config;
on_error:
aws_http_proxy_config_destroy(config);
return NULL;
}
struct aws_http_proxy_config *aws_http_proxy_config_new_from_connection_options(
struct aws_allocator *allocator,
const struct aws_http_client_connection_options *options) {
AWS_FATAL_ASSERT(options != NULL);
AWS_FATAL_ASSERT(options->proxy_options != NULL);
return s_aws_http_proxy_config_new(
allocator,
options->proxy_options,
s_determine_proxy_connection_type(options->proxy_options->connection_type, options->tls_options != NULL));
}
struct aws_http_proxy_config *aws_http_proxy_config_new_from_manager_options(
struct aws_allocator *allocator,
const struct aws_http_connection_manager_options *options) {
AWS_FATAL_ASSERT(options != NULL);
AWS_FATAL_ASSERT(options->proxy_options != NULL);
return s_aws_http_proxy_config_new(
allocator,
options->proxy_options,
s_determine_proxy_connection_type(
options->proxy_options->connection_type, options->tls_connection_options != NULL));
}
struct aws_http_proxy_config *aws_http_proxy_config_new_tunneling_from_proxy_options(
struct aws_allocator *allocator,
const struct aws_http_proxy_options *proxy_options) {
return s_aws_http_proxy_config_new(allocator, proxy_options, AWS_HPCT_HTTP_TUNNEL);
}
struct aws_http_proxy_config *aws_http_proxy_config_new_from_proxy_options(
struct aws_allocator *allocator,
const struct aws_http_proxy_options *proxy_options) {
if (proxy_options->connection_type == AWS_HPCT_HTTP_LEGACY) {
AWS_LOGF_ERROR(AWS_LS_HTTP_PROXY_NEGOTIATION, "LEGACY type is not supported to create proxy config");
return NULL;
}
return s_aws_http_proxy_config_new(allocator, proxy_options, proxy_options->connection_type);
}
struct aws_http_proxy_config *aws_http_proxy_config_new_from_proxy_options_with_tls_info(
struct aws_allocator *allocator,
const struct aws_http_proxy_options *proxy_options,
bool is_tls_connection) {
AWS_FATAL_ASSERT(proxy_options != NULL);
return s_aws_http_proxy_config_new(
allocator, proxy_options, s_determine_proxy_connection_type(proxy_options->connection_type, is_tls_connection));
}
struct aws_http_proxy_config *aws_http_proxy_config_new_clone(
struct aws_allocator *allocator,
const struct aws_http_proxy_config *proxy_config) {
AWS_FATAL_ASSERT(proxy_config != NULL);
struct aws_http_proxy_config *config = aws_mem_calloc(allocator, 1, sizeof(struct aws_http_proxy_config));
if (config == NULL) {
return NULL;
}
config->connection_type = proxy_config->connection_type;
if (aws_byte_buf_init_copy_from_cursor(&config->host, allocator, aws_byte_cursor_from_buf(&proxy_config->host))) {
goto on_error;
}
if (proxy_config->tls_options) {
config->tls_options = aws_mem_calloc(allocator, 1, sizeof(struct aws_tls_connection_options));
if (aws_tls_connection_options_copy(config->tls_options, proxy_config->tls_options)) {
goto on_error;
}
}
config->allocator = allocator;
config->port = proxy_config->port;
config->proxy_strategy = aws_http_proxy_strategy_acquire(proxy_config->proxy_strategy);
return config;
on_error:
aws_http_proxy_config_destroy(config);
return NULL;
}
void aws_http_proxy_config_destroy(struct aws_http_proxy_config *config) {
if (config == NULL) {
return;
}
aws_byte_buf_clean_up(&config->host);
if (config->tls_options) {
aws_tls_connection_options_clean_up(config->tls_options);
aws_mem_release(config->allocator, config->tls_options);
}
aws_http_proxy_strategy_release(config->proxy_strategy);
aws_mem_release(config->allocator, config);
}
void aws_http_proxy_options_init_from_config(
struct aws_http_proxy_options *options,
const struct aws_http_proxy_config *config) {
AWS_FATAL_ASSERT(options && config);
options->connection_type = config->connection_type;
options->host = aws_byte_cursor_from_buf(&config->host);
options->port = config->port;
options->tls_options = config->tls_options;
options->proxy_strategy = config->proxy_strategy;
}
int aws_http_options_validate_proxy_configuration(const struct aws_http_client_connection_options *options) {
if (options == NULL || options->proxy_options == NULL) {
return aws_raise_error(AWS_ERROR_INVALID_ARGUMENT);
}
enum aws_http_proxy_connection_type proxy_type = options->proxy_options->connection_type;
if (proxy_type == AWS_HPCT_HTTP_FORWARD && options->tls_options != NULL) {
return aws_raise_error(AWS_ERROR_INVALID_STATE);
}
struct aws_http_proxy_strategy *proxy_strategy = options->proxy_options->proxy_strategy;
if (proxy_strategy != NULL) {
if (proxy_strategy->proxy_connection_type != proxy_type) {
return aws_raise_error(AWS_ERROR_INVALID_STATE);
}
}
return AWS_OP_SUCCESS;
}
struct aws_proxied_socket_channel_user_data {
struct aws_allocator *allocator;
struct aws_client_bootstrap *bootstrap;
struct aws_channel *channel;
aws_client_bootstrap_on_channel_event_fn *original_setup_callback;
aws_client_bootstrap_on_channel_event_fn *original_shutdown_callback;
void *original_user_data;
};
static void s_proxied_socket_channel_user_data_destroy(struct aws_proxied_socket_channel_user_data *user_data) {
if (user_data == NULL) {
return;
}
aws_client_bootstrap_release(user_data->bootstrap);
aws_mem_release(user_data->allocator, user_data);
}
static struct aws_proxied_socket_channel_user_data *s_proxied_socket_channel_user_data_new(
struct aws_allocator *allocator,
struct aws_socket_channel_bootstrap_options *channel_options) {
struct aws_proxied_socket_channel_user_data *user_data =
aws_mem_calloc(allocator, 1, sizeof(struct aws_proxied_socket_channel_user_data));
if (user_data == NULL) {
return NULL;
}
user_data->allocator = allocator;
user_data->original_setup_callback = channel_options->setup_callback;
user_data->original_shutdown_callback = channel_options->shutdown_callback;
user_data->original_user_data = channel_options->user_data;
user_data->bootstrap = aws_client_bootstrap_acquire(channel_options->bootstrap);
return user_data;
}
static void s_http_proxied_socket_channel_setup(
struct aws_client_bootstrap *bootstrap,
int error_code,
struct aws_channel *channel,
void *user_data) {
(void)bootstrap;
struct aws_proxied_socket_channel_user_data *proxied_user_data = user_data;
if (error_code != AWS_ERROR_SUCCESS || channel == NULL) {
proxied_user_data->original_setup_callback(
proxied_user_data->bootstrap, error_code, NULL, proxied_user_data->original_user_data);
s_proxied_socket_channel_user_data_destroy(proxied_user_data);
return;
}
proxied_user_data->channel = channel;
proxied_user_data->original_setup_callback(
proxied_user_data->bootstrap,
AWS_ERROR_SUCCESS,
proxied_user_data->channel,
proxied_user_data->original_user_data);
}
static void s_http_proxied_socket_channel_shutdown(
struct aws_client_bootstrap *bootstrap,
int error_code,
struct aws_channel *channel,
void *user_data) {
(void)bootstrap;
(void)channel;
struct aws_proxied_socket_channel_user_data *proxied_user_data = user_data;
proxied_user_data->original_shutdown_callback(
proxied_user_data->bootstrap, error_code, proxied_user_data->channel, proxied_user_data->original_user_data);
s_proxied_socket_channel_user_data_destroy(proxied_user_data);
}
int aws_http_proxy_new_socket_channel(
struct aws_socket_channel_bootstrap_options *channel_options,
const struct aws_http_proxy_options *proxy_options) {
AWS_FATAL_ASSERT(channel_options != NULL && channel_options->bootstrap != NULL);
AWS_FATAL_ASSERT(proxy_options != NULL);
if (proxy_options->connection_type != AWS_HPCT_HTTP_TUNNEL) {
AWS_LOGF_ERROR(
AWS_LS_HTTP_PROXY_NEGOTIATION,
"Creating a raw protocol channel through an http proxy requires a tunneling proxy "
"configuration");
return aws_raise_error(AWS_ERROR_INVALID_ARGUMENT);
}
if (channel_options->tls_options == NULL) {
AWS_LOGF_ERROR(
AWS_LS_HTTP_PROXY_NEGOTIATION,
"Creating a raw protocol channel through an http proxy requires tls to the endpoint");
return aws_raise_error(AWS_ERROR_INVALID_ARGUMENT);
}
struct aws_allocator *allocator = channel_options->bootstrap->allocator;
struct aws_proxied_socket_channel_user_data *user_data =
s_proxied_socket_channel_user_data_new(allocator, channel_options);
struct aws_http_client_connection_options http_connection_options = AWS_HTTP_CLIENT_CONNECTION_OPTIONS_INIT;
http_connection_options.allocator = allocator;
http_connection_options.bootstrap = channel_options->bootstrap;
http_connection_options.host_name = aws_byte_cursor_from_c_str(channel_options->host_name);
http_connection_options.port = channel_options->port;
http_connection_options.socket_options = channel_options->socket_options;
http_connection_options.tls_options = channel_options->tls_options;
http_connection_options.proxy_options = proxy_options;
http_connection_options.user_data = user_data;
http_connection_options.on_setup = NULL; /* use channel callbacks, not http callbacks */
http_connection_options.on_shutdown = NULL; /* use channel callbacks, not http callbacks */
http_connection_options.requested_event_loop = channel_options->requested_event_loop;
if (s_aws_http_client_connect_via_tunneling_proxy(
&http_connection_options, s_http_proxied_socket_channel_setup, s_http_proxied_socket_channel_shutdown)) {
goto on_error;
}
return AWS_OP_SUCCESS;
on_error:
s_proxied_socket_channel_user_data_destroy(user_data);
return AWS_OP_ERR;
}
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