/** * Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. * SPDX-License-Identifier: Apache-2.0. */ #include #include #include /* * This is a simple aws_signable wrapper implementation for the aws_http_message struct */ struct aws_signable_http_request_impl { struct aws_http_message *request; struct aws_array_list headers; }; static int s_aws_signable_http_request_get_property( const struct aws_signable *signable, const struct aws_string *name, struct aws_byte_cursor *out_value) { struct aws_signable_http_request_impl *impl = signable->impl; AWS_ZERO_STRUCT(*out_value); /* * uri and method can be queried directly from the wrapper request */ if (aws_string_eq(name, g_aws_http_uri_property_name)) { aws_http_message_get_request_path(impl->request, out_value); } else if (aws_string_eq(name, g_aws_http_method_property_name)) { aws_http_message_get_request_method(impl->request, out_value); } else { return aws_raise_error(AWS_ERROR_INVALID_ARGUMENT); } return AWS_OP_SUCCESS; } static int s_aws_signable_http_request_get_property_list( const struct aws_signable *signable, const struct aws_string *name, struct aws_array_list **out_list) { struct aws_signable_http_request_impl *impl = signable->impl; *out_list = NULL; if (aws_string_eq(name, g_aws_http_headers_property_list_name)) { *out_list = &impl->headers; } else { return aws_raise_error(AWS_ERROR_UNSUPPORTED_OPERATION); } return AWS_OP_SUCCESS; } static int s_aws_signable_http_request_get_payload_stream( const struct aws_signable *signable, struct aws_input_stream **out_input_stream) { struct aws_signable_http_request_impl *impl = signable->impl; *out_input_stream = aws_http_message_get_body_stream(impl->request); return AWS_OP_SUCCESS; } static void s_aws_signable_http_request_destroy(struct aws_signable *signable) { if (signable == NULL) { return; } struct aws_signable_http_request_impl *impl = signable->impl; if (impl == NULL) { return; } aws_http_message_release(impl->request); aws_array_list_clean_up(&impl->headers); aws_mem_release(signable->allocator, signable); } static struct aws_signable_vtable s_signable_http_request_vtable = { .get_property = s_aws_signable_http_request_get_property, .get_property_list = s_aws_signable_http_request_get_property_list, .get_payload_stream = s_aws_signable_http_request_get_payload_stream, .destroy = s_aws_signable_http_request_destroy, }; struct aws_signable *aws_signable_new_http_request(struct aws_allocator *allocator, struct aws_http_message *request) { struct aws_signable *signable = NULL; struct aws_signable_http_request_impl *impl = NULL; aws_mem_acquire_many( allocator, 2, &signable, sizeof(struct aws_signable), &impl, sizeof(struct aws_signable_http_request_impl)); AWS_ZERO_STRUCT(*signable); AWS_ZERO_STRUCT(*impl); signable->allocator = allocator; signable->vtable = &s_signable_http_request_vtable; signable->impl = impl; /* * Copy the headers since they're not different types */ size_t header_count = aws_http_message_get_header_count(request); if (aws_array_list_init_dynamic( &impl->headers, allocator, header_count, sizeof(struct aws_signable_property_list_pair))) { goto on_error; } for (size_t i = 0; i < header_count; ++i) { struct aws_http_header header; aws_http_message_get_header(request, &header, i); struct aws_signable_property_list_pair property = {.name = header.name, .value = header.value}; aws_array_list_push_back(&impl->headers, &property); } impl->request = aws_http_message_acquire(request); return signable; on_error: aws_signable_destroy(signable); return NULL; }