// Copyright 2014 The Chromium OS Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include #include namespace brillo { namespace http { namespace { static_assert(CURLOPTTYPE_LONG == 0 && CURLOPTTYPE_OBJECTPOINT == 10000 && CURLOPTTYPE_FUNCTIONPOINT == 20000 && CURLOPTTYPE_OFF_T == 30000, "CURL option types are expected to be multiples of 10000"); inline bool VerifyOptionType(CURLoption option, int expected_type) { int option_type = (static_cast(option) / 10000) * 10000; return (option_type == expected_type); } } // anonymous namespace CurlApi::CurlApi() { curl_global_init(CURL_GLOBAL_ALL); } CurlApi::~CurlApi() { curl_global_cleanup(); } CURL* CurlApi::EasyInit() { return curl_easy_init(); } void CurlApi::EasyCleanup(CURL* curl) { curl_easy_cleanup(curl); } CURLcode CurlApi::EasySetOptInt(CURL* curl, CURLoption option, int value) { CHECK(VerifyOptionType(option, CURLOPTTYPE_LONG)) << "Only options that expect a LONG data type must be specified here"; // CURL actually uses "long" type, so have to make sure we feed it what it // expects. // NOLINTNEXTLINE(runtime/int) return curl_easy_setopt(curl, option, static_cast(value)); } CURLcode CurlApi::EasySetOptStr(CURL* curl, CURLoption option, const std::string& value) { CHECK(VerifyOptionType(option, CURLOPTTYPE_OBJECTPOINT)) << "Only options that expect a STRING data type must be specified here"; return curl_easy_setopt(curl, option, value.c_str()); } CURLcode CurlApi::EasySetOptPtr(CURL* curl, CURLoption option, void* value) { CHECK(VerifyOptionType(option, CURLOPTTYPE_OBJECTPOINT)) << "Only options that expect a pointer data type must be specified here"; return curl_easy_setopt(curl, option, value); } CURLcode CurlApi::EasySetOptCallback(CURL* curl, CURLoption option, intptr_t address) { CHECK(VerifyOptionType(option, CURLOPTTYPE_FUNCTIONPOINT)) << "Only options that expect a function pointers must be specified here"; return curl_easy_setopt(curl, option, address); } CURLcode CurlApi::EasySetOptOffT(CURL* curl, CURLoption option, curl_off_t value) { CHECK(VerifyOptionType(option, CURLOPTTYPE_OFF_T)) << "Only options that expect a large data size must be specified here"; return curl_easy_setopt(curl, option, value); } CURLcode CurlApi::EasyPerform(CURL* curl) { return curl_easy_perform(curl); } CURLcode CurlApi::EasyGetInfoInt(CURL* curl, CURLINFO info, int* value) const { CHECK_EQ(CURLINFO_LONG, info & CURLINFO_TYPEMASK) << "Wrong option type"; long data = 0; // NOLINT(runtime/int) - curl expects a long here. CURLcode code = curl_easy_getinfo(curl, info, &data); if (code == CURLE_OK) *value = static_cast(data); return code; } CURLcode CurlApi::EasyGetInfoDbl(CURL* curl, CURLINFO info, double* value) const { CHECK_EQ(CURLINFO_DOUBLE, info & CURLINFO_TYPEMASK) << "Wrong option type"; return curl_easy_getinfo(curl, info, value); } CURLcode CurlApi::EasyGetInfoStr(CURL* curl, CURLINFO info, std::string* value) const { CHECK_EQ(CURLINFO_STRING, info & CURLINFO_TYPEMASK) << "Wrong option type"; char* data = nullptr; CURLcode code = curl_easy_getinfo(curl, info, &data); if (code == CURLE_OK) *value = data; return code; } CURLcode CurlApi::EasyGetInfoPtr(CURL* curl, CURLINFO info, void** value) const { // CURL uses "string" type for generic pointer info. Go figure. CHECK_EQ(CURLINFO_STRING, info & CURLINFO_TYPEMASK) << "Wrong option type"; return curl_easy_getinfo(curl, info, value); } std::string CurlApi::EasyStrError(CURLcode code) const { return curl_easy_strerror(code); } CURLM* CurlApi::MultiInit() { return curl_multi_init(); } CURLMcode CurlApi::MultiCleanup(CURLM* multi_handle) { return curl_multi_cleanup(multi_handle); } CURLMsg* CurlApi::MultiInfoRead(CURLM* multi_handle, int* msgs_in_queue) { return curl_multi_info_read(multi_handle, msgs_in_queue); } CURLMcode CurlApi::MultiAddHandle(CURLM* multi_handle, CURL* curl_handle) { return curl_multi_add_handle(multi_handle, curl_handle); } CURLMcode CurlApi::MultiRemoveHandle(CURLM* multi_handle, CURL* curl_handle) { return curl_multi_remove_handle(multi_handle, curl_handle); } CURLMcode CurlApi::MultiSetSocketCallback(CURLM* multi_handle, curl_socket_callback socket_callback, void* userp) { CURLMcode code = curl_multi_setopt(multi_handle, CURLMOPT_SOCKETFUNCTION, socket_callback); if (code != CURLM_OK) return code; return curl_multi_setopt(multi_handle, CURLMOPT_SOCKETDATA, userp); } CURLMcode CurlApi::MultiSetTimerCallback( CURLM* multi_handle, curl_multi_timer_callback timer_callback, void* userp) { CURLMcode code = curl_multi_setopt(multi_handle, CURLMOPT_TIMERFUNCTION, timer_callback); if (code != CURLM_OK) return code; return curl_multi_setopt(multi_handle, CURLMOPT_TIMERDATA, userp); } CURLMcode CurlApi::MultiAssign(CURLM* multi_handle, curl_socket_t sockfd, void* sockp) { return curl_multi_assign(multi_handle, sockfd, sockp); } CURLMcode CurlApi::MultiSocketAction(CURLM* multi_handle, curl_socket_t s, int ev_bitmask, int* running_handles) { return curl_multi_socket_action(multi_handle, s, ev_bitmask, running_handles); } std::string CurlApi::MultiStrError(CURLMcode code) const { return curl_multi_strerror(code); } CURLMcode CurlApi::MultiPerform(CURLM* multi_handle, int* running_handles) { return curl_multi_perform(multi_handle, running_handles); } CURLMcode CurlApi::MultiWait(CURLM* multi_handle, curl_waitfd extra_fds[], unsigned int extra_nfds, int timeout_ms, int* numfds) { return curl_multi_wait(multi_handle, extra_fds, extra_nfds, timeout_ms, numfds); } } // namespace http } // namespace brillo