// This file Copyright © 2008-2022 Mnemosyne LLC. // It may be used under GPLv2 (SPDX: GPL-2.0-only), GPLv3 (SPDX: GPL-3.0-only), // or any future license endorsed by Mnemosyne LLC. // License text can be found in the licenses/ folder. #include #include #include #include #include #include #include #include #include #include #include #include #ifdef _WIN32 #include #include #endif #include #include #include #include "crypto-utils.h" #include "log.h" #include "peer-io.h" #include "tr-assert.h" #include "utils-ev.h" #include "utils.h" #include "web.h" #include "web-utils.h" using namespace std::literals; #if LIBCURL_VERSION_NUM >= 0x070F06 // CURLOPT_SOCKOPT* was added in 7.15.6 #define USE_LIBCURL_SOCKOPT #endif /*** **** ***/ namespace curl_helpers { struct ShareDeleter { void operator()(CURLSH* shared) { if (shared == nullptr) { return; } [[maybe_unused]] auto const status = curl_share_cleanup(shared); TR_ASSERT(status == CURLSHE_OK); } }; using shared_unique_ptr = std::unique_ptr; struct MultiDeleter { void operator()(CURLM* multi) const { if (multi == nullptr) { return; } [[maybe_unused]] auto const status = curl_multi_cleanup(multi); TR_ASSERT(status == CURLM_OK); } }; using multi_unique_ptr = std::unique_ptr; struct EasyDeleter { void operator()(CURL* val) const noexcept { if (val != nullptr) { curl_easy_cleanup(val); } } }; using easy_unique_ptr = std::unique_ptr; } // namespace curl_helpers #ifdef _WIN32 static CURLcode ssl_context_func(CURL* /*curl*/, void* ssl_ctx, void* /*user_data*/) { auto const cert_store = tr_ssl_get_x509_store(ssl_ctx); if (cert_store == nullptr) { return CURLE_OK; } curl_version_info_data const* const curl_ver = curl_version_info(CURLVERSION_NOW); if (curl_ver->age >= 0 && strncmp(curl_ver->ssl_version, "Schannel", 8) == 0) { return CURLE_OK; } static auto constexpr SysStoreNames = std::array{ L"CA", L"ROOT", }; for (auto& sys_store_name : SysStoreNames) { HCERTSTORE const sys_cert_store = CertOpenSystemStoreW(0, sys_store_name); if (sys_cert_store == nullptr) { continue; } PCCERT_CONTEXT sys_cert = nullptr; while (true) { sys_cert = CertFindCertificateInStore(sys_cert_store, X509_ASN_ENCODING, 0, CERT_FIND_ANY, nullptr, sys_cert); if (sys_cert == nullptr) { break; } tr_x509_cert_t const cert = tr_x509_cert_new(sys_cert->pbCertEncoded, sys_cert->cbCertEncoded); if (cert == nullptr) { continue; } tr_x509_store_add(cert_store, cert); tr_x509_cert_free(cert); } CertCloseStore(sys_cert_store, 0); } return CURLE_OK; } #endif /*** **** ***/ class tr_web::Impl { public: explicit Impl(Mediator& mediator_in) : mediator{ mediator_in } { std::call_once(curl_init_flag, curlInit); if (auto bundle = tr_env_get_string("CURL_CA_BUNDLE"); !std::empty(bundle)) { curl_ca_bundle = std::move(bundle); } shareEverything(); if (curl_ssl_verify) { auto const* bundle = std::empty(curl_ca_bundle) ? "none" : curl_ca_bundle.c_str(); tr_logAddInfo( fmt::format(_("Will verify tracker certs using envvar CURL_CA_BUNDLE: {bundle}"), fmt::arg("bundle", bundle))); tr_logAddInfo(_("NB: this only works if you built against libcurl with openssl or gnutls, NOT nss")); tr_logAddInfo(_("NB: Invalid certs will appear as 'Could not connect to tracker' like many other errors")); } if (auto const& file = mediator.cookieFile(); file) { this->cookie_file = *file; } if (auto const& ua = mediator.userAgent(); ua) { this->user_agent = *ua; } auto const lock = std::unique_lock{ tasks_mutex_ }; curl_thread = std::make_unique(&Impl::curlThreadFunc, this); } Impl(Impl&&) = delete; Impl(Impl const&) = delete; Impl& operator=(Impl&&) = delete; Impl& operator=(Impl const&) = delete; ~Impl() { deadline_ = mediator.now(); queued_tasks_cv_.notify_one(); curl_thread->join(); } void startShutdown(std::chrono::milliseconds deadline) { deadline_ = mediator.now() + std::chrono::duration_cast(deadline).count(); queued_tasks_cv_.notify_one(); } void fetch(FetchOptions&& options) { if (deadline_exists()) { return; } auto const lock = std::unique_lock{ tasks_mutex_ }; queued_tasks_.emplace_back(*this, std::move(options)); queued_tasks_cv_.notify_one(); } class Task { public: Task(tr_web::Impl& impl_in, tr_web::FetchOptions&& options_in) : impl{ impl_in } , options{ std::move(options_in) } { auto const parsed = tr_urlParse(options.url); easy_ = parsed ? impl.get_easy(parsed->host) : nullptr; response.user_data = options.done_func_user_data; } // Some of the curl_easy_setopt() args took a pointer to this task. // Disable moving so that we don't accidentally invalidate those pointers. Task(Task&&) = delete; Task(Task const&) = delete; Task& operator=(Task&&) = delete; Task& operator=(Task const&) = delete; ~Task() { easy_dispose(easy_); } [[nodiscard]] constexpr auto* easy() const { return easy_; } [[nodiscard]] auto* body() const { return options.buffer != nullptr ? options.buffer : privbuf.get(); } [[nodiscard]] constexpr auto const& speedLimitTag() const { return options.speed_limit_tag; } [[nodiscard]] constexpr auto const& url() const { return options.url; } [[nodiscard]] constexpr auto const& range() const { return options.range; } [[nodiscard]] constexpr auto const& cookies() const { return options.cookies; } [[nodiscard]] constexpr auto const& sndbuf() const { return options.sndbuf; } [[nodiscard]] constexpr auto const& rcvbuf() const { return options.rcvbuf; } [[nodiscard]] constexpr auto const& timeoutSecs() const { return options.timeout_secs; } [[nodiscard]] constexpr auto ipProtocol() const { switch (options.ip_proto) { case FetchOptions::IPProtocol::V4: return CURL_IPRESOLVE_V4; case FetchOptions::IPProtocol::V6: return CURL_IPRESOLVE_V6; default: return CURL_IPRESOLVE_WHATEVER; } } [[nodiscard]] auto publicAddress() const { switch (options.ip_proto) { case FetchOptions::IPProtocol::V4: return impl.mediator.publicAddressV4(); case FetchOptions::IPProtocol::V6: return impl.mediator.publicAddressV6(); default: auto ip = impl.mediator.publicAddressV4(); if (ip == std::nullopt) { ip = impl.mediator.publicAddressV6(); } return ip; } } void done() { if (!options.done_func) { return; } response.body.assign(reinterpret_cast(evbuffer_pullup(body(), -1)), evbuffer_get_length(body())); impl.mediator.run(std::move(options.done_func), std::move(this->response)); options.done_func = {}; } [[nodiscard]] bool operator==(Task const& that) const noexcept { return easy() == that.easy(); } tr_web::Impl& impl; tr_web::FetchResponse response; private: void easy_dispose(CURL* easy) { if (easy == nullptr) { return; } if (auto const url = tr_urlParse(options.url); url) { curl_easy_reset(easy); impl.easy_pool_[std::string{ url->host }].emplace(easy); } else { curl_easy_cleanup(easy); } } libtransmission::evhelpers::evbuffer_unique_ptr privbuf{ evbuffer_new() }; tr_web::FetchOptions options; CURL* easy_; }; static auto constexpr BandwidthPauseMsec = long{ 500 }; static auto constexpr DnsCacheTimeoutSecs = long{ 60 * 60 }; static auto constexpr MaxRedirects = long{ 10 }; bool const curl_verbose = tr_env_key_exists("TR_CURL_VERBOSE"); bool const curl_ssl_verify = !tr_env_key_exists("TR_CURL_SSL_NO_VERIFY"); bool const curl_proxy_ssl_verify = !tr_env_key_exists("TR_CURL_PROXY_SSL_NO_VERIFY"); Mediator& mediator; std::string curl_ca_bundle; std::string cookie_file; std::string user_agent; std::unique_ptr curl_thread; // if unset: steady-state, all is good // if set: do not accept new tasks // if set and deadline reached: kill all remaining tasks std::atomic deadline_ = {}; [[nodiscard]] auto deadline() const { return deadline_.load(); } [[nodiscard]] bool deadline_exists() const { return deadline() != time_t{}; } [[nodiscard]] bool deadline_reached() const { return deadline_exists() && deadline() <= mediator.now(); } [[nodiscard]] CURL* get_easy(std::string_view host) { CURL* easy = nullptr; if (auto iter = easy_pool_.find(host); iter != std::end(easy_pool_) && !std::empty(iter->second)) { easy = iter->second.top().release(); iter->second.pop(); } if (easy == nullptr) { easy = curl_easy_init(); } return easy; } static size_t onDataReceived(void* data, size_t size, size_t nmemb, void* vtask) { size_t const bytes_used = size * nmemb; auto* task = static_cast(vtask); TR_ASSERT(std::this_thread::get_id() == task->impl.curl_thread->get_id()); if (auto const& tag = task->speedLimitTag(); tag) { // If this is more bandwidth than is allocated for this tag, // then pause the torrent for a tick. curl will deliver `data` // again when the transfer is unpaused. if (task->impl.mediator.clamp(*tag, bytes_used) < bytes_used) { task->impl.paused_easy_handles.emplace(tr_time_msec(), task->easy()); return CURL_WRITEFUNC_PAUSE; } task->impl.mediator.notifyBandwidthConsumed(*tag, bytes_used); } evbuffer_add(task->body(), data, bytes_used); tr_logAddTrace(fmt::format("wrote {} bytes to task {}'s buffer", bytes_used, fmt::ptr(task))); return bytes_used; } #ifdef USE_LIBCURL_SOCKOPT static int onSocketCreated(void* vtask, curl_socket_t fd, curlsocktype /*purpose*/) { auto const* const task = static_cast(vtask); TR_ASSERT(std::this_thread::get_id() == task->impl.curl_thread->get_id()); // Ignore the sockopt() return values -- these are suggestions // rather than hard requirements & it's OK for them to fail if (auto const& buf = task->sndbuf(); buf) { (void)setsockopt(fd, SOL_SOCKET, SO_SNDBUF, reinterpret_cast(&*buf), sizeof(*buf)); } if (auto const& buf = task->rcvbuf(); buf) { (void)setsockopt(fd, SOL_SOCKET, SO_RCVBUF, reinterpret_cast(&*buf), sizeof(*buf)); } // return nonzero if this function encountered an error return 0; } #endif void initEasy(Task& task) { TR_ASSERT(std::this_thread::get_id() == curl_thread->get_id()); auto* const e = task.easy(); (void)curl_easy_setopt(e, CURLOPT_SHARE, shared()); (void)curl_easy_setopt(e, CURLOPT_DNS_CACHE_TIMEOUT, DnsCacheTimeoutSecs); (void)curl_easy_setopt(e, CURLOPT_AUTOREFERER, 1L); (void)curl_easy_setopt(e, CURLOPT_ENCODING, ""); (void)curl_easy_setopt(e, CURLOPT_FOLLOWLOCATION, 1L); (void)curl_easy_setopt(e, CURLOPT_MAXREDIRS, -1L); (void)curl_easy_setopt(e, CURLOPT_NOSIGNAL, 1L); (void)curl_easy_setopt(e, CURLOPT_PRIVATE, &task); (void)curl_easy_setopt(e, CURLOPT_IPRESOLVE, task.ipProtocol()); #ifdef USE_LIBCURL_SOCKOPT (void)curl_easy_setopt(e, CURLOPT_SOCKOPTFUNCTION, onSocketCreated); (void)curl_easy_setopt(e, CURLOPT_SOCKOPTDATA, &task); #endif if (!curl_ssl_verify) { (void)curl_easy_setopt(e, CURLOPT_SSL_VERIFYHOST, 0L); (void)curl_easy_setopt(e, CURLOPT_SSL_VERIFYPEER, 0L); } else if (!std::empty(curl_ca_bundle)) { (void)curl_easy_setopt(e, CURLOPT_CAINFO, curl_ca_bundle.c_str()); } else { #ifdef _WIN32 (void)curl_easy_setopt(e, CURLOPT_SSL_CTX_FUNCTION, ssl_context_func); #endif } if (!curl_proxy_ssl_verify) { (void)curl_easy_setopt(e, CURLOPT_CAINFO, NULL); (void)curl_easy_setopt(e, CURLOPT_CAPATH, NULL); (void)curl_easy_setopt(e, CURLOPT_PROXY_SSL_VERIFYHOST, 0L); (void)curl_easy_setopt(e, CURLOPT_PROXY_SSL_VERIFYPEER, 0L); } else if (!std::empty(curl_ca_bundle)) { (void)curl_easy_setopt(e, CURLOPT_PROXY_CAINFO, curl_ca_bundle.c_str()); } if (auto const& ua = user_agent; !std::empty(ua)) { (void)curl_easy_setopt(e, CURLOPT_USERAGENT, ua.c_str()); } (void)curl_easy_setopt(e, CURLOPT_TIMEOUT, static_cast(task.timeoutSecs().count())); (void)curl_easy_setopt(e, CURLOPT_URL, task.url().c_str()); (void)curl_easy_setopt(e, CURLOPT_VERBOSE, curl_verbose ? 1L : 0L); (void)curl_easy_setopt(e, CURLOPT_WRITEDATA, &task); (void)curl_easy_setopt(e, CURLOPT_WRITEFUNCTION, onDataReceived); (void)curl_easy_setopt(e, CURLOPT_MAXREDIRS, MaxRedirects); if (auto const addrstr = task.publicAddress(); addrstr) { (void)curl_easy_setopt(e, CURLOPT_INTERFACE, addrstr->c_str()); } if (auto const& cookies = task.cookies(); cookies) { (void)curl_easy_setopt(e, CURLOPT_COOKIE, cookies->c_str()); } if (auto const& file = cookie_file; !std::empty(file)) { (void)curl_easy_setopt(e, CURLOPT_COOKIEFILE, file.c_str()); } if (auto const& range = task.range(); range) { /* don't bother asking the server to compress webseed fragments */ (void)curl_easy_setopt(e, CURLOPT_ENCODING, "identity"); (void)curl_easy_setopt(e, CURLOPT_RANGE, range->c_str()); } } void resumePausedTasks() { TR_ASSERT(std::this_thread::get_id() == curl_thread->get_id()); auto& paused = paused_easy_handles; if (std::empty(paused)) { return; } auto const now = tr_time_msec(); for (auto it = std::begin(paused); it != std::end(paused);) { if (it->first + BandwidthPauseMsec < now) { curl_easy_pause(it->second, CURLPAUSE_CONT); it = paused.erase(it); } else { ++it; } } } [[nodiscard]] bool is_idle() const noexcept { return std::empty(queued_tasks_) && std::empty(running_tasks_); } void remove_task(Task const& task) { auto const lock = std::unique_lock{ tasks_mutex_ }; auto const iter = std::find(std::begin(running_tasks_), std::end(running_tasks_), task); TR_ASSERT(iter != std::end(running_tasks_)); if (iter == std::end(running_tasks_)) { return; } iter->done(); running_tasks_.erase(iter); } void timeout_task(Task& task) { task.response.status = 408; // request timed out task.response.did_timeout = true; remove_task(task); } // the thread started by Impl.curl_thread runs this function void curlThreadFunc() { auto const multi = curl_helpers::multi_unique_ptr{ curl_multi_init() }; auto repeats = unsigned{}; for (;;) { if (deadline_reached()) { while (!std::empty(running_tasks_)) { auto& task = running_tasks_.front(); curl_multi_remove_handle(multi.get(), task.easy()); timeout_task(task); } } if (deadline_exists() && is_idle()) { break; } if (auto lock = std::unique_lock{ tasks_mutex_ }; lock.owns_lock()) { // sleep until there's something to do auto const stop_waiting = [this]() { return !is_idle() || !deadline_exists(); }; if (!stop_waiting()) { queued_tasks_cv_.wait(lock, stop_waiting); } // add queued tasks if (!std::empty(queued_tasks_)) { for (auto& task : queued_tasks_) { initEasy(task); curl_multi_add_handle(multi.get(), task.easy()); } running_tasks_.splice(std::end(running_tasks_), queued_tasks_); } } resumePausedTasks(); // Adapted from https://curl.se/libcurl/c/curl_multi_wait.html docs. // 'numfds' being zero means either a timeout or no file descriptors to // wait for. Try timeout on first occurrence, then assume no file // descriptors and no file descriptors to wait for means wait for 100 // milliseconds. auto numfds = int{}; curl_multi_wait(multi.get(), nullptr, 0, 1000, &numfds); if (numfds == 0) { ++repeats; if (repeats > 1U) { tr_wait(100ms); } } else { repeats = 0; } // nonblocking update of the tasks auto n_running = int{}; curl_multi_perform(multi.get(), &n_running); // process any tasks that just finished CURLMsg* msg = nullptr; auto unused = int{}; while ((msg = curl_multi_info_read(multi.get(), &unused)) != nullptr) { if (msg->msg == CURLMSG_DONE && msg->easy_handle != nullptr) { auto* const e = msg->easy_handle; Task* task = nullptr; curl_easy_getinfo(e, CURLINFO_PRIVATE, (void*)&task); auto req_bytes_sent = long{}; auto total_time = double{}; curl_easy_getinfo(e, CURLINFO_REQUEST_SIZE, &req_bytes_sent); curl_easy_getinfo(e, CURLINFO_TOTAL_TIME, &total_time); curl_easy_getinfo(e, CURLINFO_RESPONSE_CODE, &task->response.status); task->response.did_connect = task->response.status > 0 || req_bytes_sent > 0; task->response.did_timeout = task->response.status == 0 && std::chrono::duration(total_time) >= task->timeoutSecs(); curl_multi_remove_handle(multi.get(), e); remove_task(*task); } } } } curl_helpers::shared_unique_ptr const curlsh_{ curl_share_init() }; std::map, std::less<>> easy_pool_; std::mutex tasks_mutex_; std::condition_variable queued_tasks_cv_; std::list queued_tasks_; std::list running_tasks_; CURLSH* shared() { return curlsh_.get(); } void shareEverything() { // Tell curl to share whatever it can. // https://curl.se/libcurl/c/CURLSHOPT_SHARE.html // // The user's system probably has a different version of curl than // we're compiling with; so instead of listing fields by name, just // loop until curl says we've exhausted the list. auto* const sh = shared(); for (long type = CURL_LOCK_DATA_COOKIE;; ++type) { if (curl_share_setopt(sh, CURLSHOPT_SHARE, type) != CURLSHE_OK) { tr_logAddDebug(fmt::format("CURLOPT_SHARE ended at {}", type)); return; } } } static std::once_flag curl_init_flag; std::multimap paused_easy_handles; static void curlInit() { // try to enable ssl for https support; // but if that fails, try a plain vanilla init if (curl_global_init(CURL_GLOBAL_SSL) != CURLE_OK) { curl_global_init(0); } } }; std::once_flag tr_web::Impl::curl_init_flag; tr_web::tr_web(Mediator& mediator) : impl_{ std::make_unique(mediator) } { } tr_web::~tr_web() { impl_->startShutdown(0ms); } std::unique_ptr tr_web::create(Mediator& mediator) { return std::unique_ptr(new tr_web(mediator)); } void tr_web::fetch(FetchOptions&& options) { impl_->fetch(std::move(options)); } void tr_web::startShutdown(std::chrono::milliseconds deadline) { impl_->startShutdown(deadline); }