/* * Copyright (C) 2003-2014 The Music Player Daemon Project * http://www.musicpd.org * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include "config.h" #include "CurlInputPlugin.hxx" #include "../InputStream.hxx" #include "../InputPlugin.hxx" #include "config/ConfigGlobal.hxx" #include "config/ConfigData.hxx" #include "tag/Tag.hxx" #include "tag/TagBuilder.hxx" #include "IcyMetaDataParser.hxx" #include "event/SocketMonitor.hxx" #include "event/TimeoutMonitor.hxx" #include "event/Call.hxx" #include "IOThread.hxx" #include "util/ASCII.hxx" #include "util/CharUtil.hxx" #include "util/NumberParser.hxx" #include "util/CircularBuffer.hxx" #include "util/HugeAllocator.hxx" #include "util/Error.hxx" #include "util/Domain.hxx" #include "Log.hxx" #include #if defined(WIN32) #include #else #include #endif #include #include #if LIBCURL_VERSION_NUM < 0x071200 #error libcurl is too old #endif /** * Do not buffer more than this number of bytes. It should be a * reasonable limit that doesn't make low-end machines suffer too * much, but doesn't cause stuttering on high-latency lines. */ static const size_t CURL_MAX_BUFFERED = 512 * 1024; /** * Resume the stream at this number of bytes after it has been paused. */ static const size_t CURL_RESUME_AT = 384 * 1024; struct CurlInputStream final : public InputStream { /* some buffers which were passed to libcurl, which we have too free */ char range[32]; struct curl_slist *request_headers; /** the curl handles */ CURL *easy; /** * A buffer where input_curl_writefunction() appends * to, and input_curl_read() reads from. */ CircularBuffer buffer; /** * Is the connection currently paused? That happens when the * buffer was getting too large. It will be unpaused when the * buffer is below the threshold again. */ bool paused; /** error message provided by libcurl */ char error_buffer[CURL_ERROR_SIZE]; /** parser for icy-metadata */ IcyMetaDataParser icy; /** the stream name from the icy-name response header */ std::string meta_name; /** the tag object ready to be requested via InputStream::ReadTag() */ Tag *tag; Error postponed_error; CurlInputStream(const char *_url, Mutex &_mutex, Cond &_cond, void *_buffer) :InputStream(input_plugin_curl, _url, _mutex, _cond), request_headers(nullptr), buffer((uint8_t *)_buffer, CURL_MAX_BUFFERED), paused(false), tag(nullptr) {} ~CurlInputStream(); CurlInputStream(const CurlInputStream &) = delete; CurlInputStream &operator=(const CurlInputStream &) = delete; static InputStream *Open(const char *url, Mutex &mutex, Cond &cond, Error &error); bool Check(Error &error); bool IsEOF() const { return easy == nullptr && buffer.IsEmpty(); } bool Seek(InputPlugin::offset_type offset, int whence, Error &error); Tag *ReadTag(); bool IsAvailable() const { return postponed_error.IsDefined() || easy == nullptr || !buffer.IsEmpty(); } size_t Read(void *ptr, size_t size, Error &error); bool InitEasy(Error &error); /** * Frees the current "libcurl easy" handle, and everything * associated with it. * * Runs in the I/O thread. */ void FreeEasy(); /** * Frees the current "libcurl easy" handle, and everything associated * with it. * * The mutex must not be locked. */ void FreeEasyIndirect(); void HeaderReceived(const char *name, std::string &&value); size_t DataReceived(const void *ptr, size_t size); void Resume(); bool FillBuffer(Error &error); /** * Returns the number of bytes stored in the buffer. * * The caller must lock the mutex. */ gcc_pure size_t GetTotalBufferSize() const { return buffer.GetSize(); } void CopyIcyTag(); /** * A HTTP request is finished. * * Runs in the I/O thread. The caller must not hold locks. */ void RequestDone(CURLcode result, long status); }; class CurlMulti; /** * Monitor for one socket created by CURL. */ class CurlSocket final : SocketMonitor { CurlMulti &multi; public: CurlSocket(CurlMulti &_multi, EventLoop &_loop, int _fd) :SocketMonitor(_fd, _loop), multi(_multi) {} ~CurlSocket() { /* TODO: sometimes, CURL uses CURL_POLL_REMOVE after closing the socket, and sometimes, it uses CURL_POLL_REMOVE just to move the (still open) connection to the pool; in the first case, Abandon() would be most appropriate, but it breaks the second case - is that a CURL bug? is there a better solution? */ } /** * Callback function for CURLMOPT_SOCKETFUNCTION. */ static int SocketFunction(CURL *easy, curl_socket_t s, int action, void *userp, void *socketp); virtual bool OnSocketReady(unsigned flags) override; private: static constexpr int FlagsToCurlCSelect(unsigned flags) { return (flags & (READ | HANGUP) ? CURL_CSELECT_IN : 0) | (flags & WRITE ? CURL_CSELECT_OUT : 0) | (flags & ERROR ? CURL_CSELECT_ERR : 0); } gcc_const static unsigned CurlPollToFlags(int action) { switch (action) { case CURL_POLL_NONE: return 0; case CURL_POLL_IN: return READ; case CURL_POLL_OUT: return WRITE; case CURL_POLL_INOUT: return READ|WRITE; } assert(false); gcc_unreachable(); } }; /** * Manager for the global CURLM object. */ class CurlMulti final : private TimeoutMonitor { CURLM *const multi; public: CurlMulti(EventLoop &_loop, CURLM *_multi); ~CurlMulti() { curl_multi_cleanup(multi); } bool Add(CurlInputStream *c, Error &error); void Remove(CurlInputStream *c); /** * Check for finished HTTP responses. * * Runs in the I/O thread. The caller must not hold locks. */ void ReadInfo(); void Assign(curl_socket_t fd, CurlSocket &cs) { curl_multi_assign(multi, fd, &cs); } void SocketAction(curl_socket_t fd, int ev_bitmask); void InvalidateSockets() { SocketAction(CURL_SOCKET_TIMEOUT, 0); } /** * This is a kludge to allow pausing/resuming a stream with * libcurl < 7.32.0. Read the curl_easy_pause manpage for * more information. */ void ResumeSockets() { int running_handles; curl_multi_socket_all(multi, &running_handles); } private: static int TimerFunction(CURLM *multi, long timeout_ms, void *userp); virtual void OnTimeout() override; }; /** * libcurl version number encoded in a 24 bit integer. */ static unsigned curl_version_num; /** libcurl should accept "ICY 200 OK" */ static struct curl_slist *http_200_aliases; /** HTTP proxy settings */ static const char *proxy, *proxy_user, *proxy_password; static unsigned proxy_port; static CurlMulti *curl_multi; static constexpr Domain http_domain("http"); static constexpr Domain curl_domain("curl"); static constexpr Domain curlm_domain("curlm"); CurlMulti::CurlMulti(EventLoop &_loop, CURLM *_multi) :TimeoutMonitor(_loop), multi(_multi) { curl_multi_setopt(multi, CURLMOPT_SOCKETFUNCTION, CurlSocket::SocketFunction); curl_multi_setopt(multi, CURLMOPT_SOCKETDATA, this); curl_multi_setopt(multi, CURLMOPT_TIMERFUNCTION, TimerFunction); curl_multi_setopt(multi, CURLMOPT_TIMERDATA, this); } /** * Find a request by its CURL "easy" handle. * * Runs in the I/O thread. No lock needed. */ gcc_pure static CurlInputStream * input_curl_find_request(CURL *easy) { assert(io_thread_inside()); void *p; CURLcode code = curl_easy_getinfo(easy, CURLINFO_PRIVATE, &p); if (code != CURLE_OK) return nullptr; return (CurlInputStream *)p; } inline void CurlInputStream::Resume() { assert(io_thread_inside()); if (paused) { paused = false; curl_easy_pause(easy, CURLPAUSE_CONT); if (curl_version_num < 0x072000) /* libcurl older than 7.32.0 does not update its sockets after curl_easy_pause(); force libcurl to do it now */ curl_multi->ResumeSockets(); curl_multi->InvalidateSockets(); } } int CurlSocket::SocketFunction(gcc_unused CURL *easy, curl_socket_t s, int action, void *userp, void *socketp) { CurlMulti &multi = *(CurlMulti *)userp; CurlSocket *cs = (CurlSocket *)socketp; assert(io_thread_inside()); if (action == CURL_POLL_REMOVE) { delete cs; return 0; } if (cs == nullptr) { cs = new CurlSocket(multi, io_thread_get(), s); multi.Assign(s, *cs); } else { #ifdef USE_EPOLL /* when using epoll, we need to unregister the socket each time this callback is invoked, because older CURL versions may omit the CURL_POLL_REMOVE call when the socket has been closed and recreated with the same file number (bug found in CURL 7.26, CURL 7.33 not affected); in that case, epoll refuses the EPOLL_CTL_MOD because it does not know the new socket yet */ cs->Cancel(); #endif } unsigned flags = CurlPollToFlags(action); if (flags != 0) cs->Schedule(flags); return 0; } bool CurlSocket::OnSocketReady(unsigned flags) { assert(io_thread_inside()); multi.SocketAction(Get(), FlagsToCurlCSelect(flags)); return true; } /** * Runs in the I/O thread. No lock needed. */ inline bool CurlMulti::Add(CurlInputStream *c, Error &error) { assert(io_thread_inside()); assert(c != nullptr); assert(c->easy != nullptr); CURLMcode mcode = curl_multi_add_handle(multi, c->easy); if (mcode != CURLM_OK) { error.Format(curlm_domain, mcode, "curl_multi_add_handle() failed: %s", curl_multi_strerror(mcode)); return false; } InvalidateSockets(); return true; } /** * Call input_curl_easy_add() in the I/O thread. May be called from * any thread. Caller must not hold a mutex. */ static bool input_curl_easy_add_indirect(CurlInputStream *c, Error &error) { assert(c != nullptr); assert(c->easy != nullptr); bool result; BlockingCall(io_thread_get(), [c, &error, &result](){ result = curl_multi->Add(c, error); }); return result; } inline void CurlMulti::Remove(CurlInputStream *c) { curl_multi_remove_handle(multi, c->easy); } void CurlInputStream::FreeEasy() { assert(io_thread_inside()); if (easy == nullptr) return; curl_multi->Remove(this); curl_easy_cleanup(easy); easy = nullptr; curl_slist_free_all(request_headers); request_headers = nullptr; } void CurlInputStream::FreeEasyIndirect() { BlockingCall(io_thread_get(), [this](){ FreeEasy(); curl_multi->InvalidateSockets(); }); assert(easy == nullptr); } inline void CurlInputStream::RequestDone(CURLcode result, long status) { assert(io_thread_inside()); assert(!postponed_error.IsDefined()); FreeEasy(); const ScopeLock protect(mutex); if (result != CURLE_OK) { postponed_error.Format(curl_domain, result, "curl failed: %s", error_buffer); } else if (status < 200 || status >= 300) { postponed_error.Format(http_domain, status, "got HTTP status %ld", status); } SetReady(); } static void input_curl_handle_done(CURL *easy_handle, CURLcode result) { CurlInputStream *c = input_curl_find_request(easy_handle); assert(c != nullptr); long status = 0; curl_easy_getinfo(easy_handle, CURLINFO_RESPONSE_CODE, &status); c->RequestDone(result, status); } void CurlMulti::SocketAction(curl_socket_t fd, int ev_bitmask) { int running_handles; CURLMcode mcode = curl_multi_socket_action(multi, fd, ev_bitmask, &running_handles); if (mcode != CURLM_OK) FormatError(curlm_domain, "curl_multi_socket_action() failed: %s", curl_multi_strerror(mcode)); ReadInfo(); } /** * Check for finished HTTP responses. * * Runs in the I/O thread. The caller must not hold locks. */ inline void CurlMulti::ReadInfo() { assert(io_thread_inside()); CURLMsg *msg; int msgs_in_queue; while ((msg = curl_multi_info_read(multi, &msgs_in_queue)) != nullptr) { if (msg->msg == CURLMSG_DONE) input_curl_handle_done(msg->easy_handle, msg->data.result); } } int CurlMulti::TimerFunction(gcc_unused CURLM *_multi, long timeout_ms, void *userp) { CurlMulti &multi = *(CurlMulti *)userp; assert(_multi == multi.multi); if (timeout_ms < 0) { multi.Cancel(); return 0; } if (timeout_ms >= 0 && timeout_ms < 10) /* CURL 7.21.1 likes to report "timeout=0", which means we're running in a busy loop. Quite a bad idea to waste so much CPU. Let's use a lower limit of 10ms. */ timeout_ms = 10; multi.Schedule(timeout_ms); return 0; } void CurlMulti::OnTimeout() { SocketAction(CURL_SOCKET_TIMEOUT, 0); } /* * InputPlugin methods * */ static InputPlugin::InitResult input_curl_init(const config_param ¶m, Error &error) { CURLcode code = curl_global_init(CURL_GLOBAL_ALL); if (code != CURLE_OK) { error.Format(curl_domain, code, "curl_global_init() failed: %s", curl_easy_strerror(code)); return InputPlugin::InitResult::UNAVAILABLE; } const auto version_info = curl_version_info(CURLVERSION_FIRST); if (version_info != nullptr) { FormatDebug(curl_domain, "version %s", version_info->version); if (version_info->features & CURL_VERSION_SSL) FormatDebug(curl_domain, "with %s", version_info->ssl_version); curl_version_num = version_info->version_num; } http_200_aliases = curl_slist_append(http_200_aliases, "ICY 200 OK"); proxy = param.GetBlockValue("proxy"); proxy_port = param.GetBlockValue("proxy_port", 0u); proxy_user = param.GetBlockValue("proxy_user"); proxy_password = param.GetBlockValue("proxy_password"); if (proxy == nullptr) { /* deprecated proxy configuration */ proxy = config_get_string(CONF_HTTP_PROXY_HOST, nullptr); proxy_port = config_get_positive(CONF_HTTP_PROXY_PORT, 0); proxy_user = config_get_string(CONF_HTTP_PROXY_USER, nullptr); proxy_password = config_get_string(CONF_HTTP_PROXY_PASSWORD, ""); } CURLM *multi = curl_multi_init(); if (multi == nullptr) { curl_slist_free_all(http_200_aliases); curl_global_cleanup(); error.Set(curl_domain, 0, "curl_multi_init() failed"); return InputPlugin::InitResult::UNAVAILABLE; } curl_multi = new CurlMulti(io_thread_get(), multi); return InputPlugin::InitResult::SUCCESS; } static void input_curl_finish(void) { BlockingCall(io_thread_get(), [](){ delete curl_multi; }); curl_slist_free_all(http_200_aliases); curl_global_cleanup(); } CurlInputStream::~CurlInputStream() { delete tag; FreeEasyIndirect(); buffer.Clear(); HugeFree(buffer.Write().data, CURL_MAX_BUFFERED); } inline bool CurlInputStream::Check(Error &error) { bool success = !postponed_error.IsDefined(); if (!success) { error = std::move(postponed_error); postponed_error.Clear(); } return success; } static bool input_curl_check(InputStream *is, Error &error) { CurlInputStream &c = *(CurlInputStream *)is; return c.Check(error); } inline Tag * CurlInputStream::ReadTag() { Tag *result = tag; tag = nullptr; return result; } static Tag * input_curl_tag(InputStream *is) { CurlInputStream &c = *(CurlInputStream *)is; return c.ReadTag(); } inline bool CurlInputStream::FillBuffer(Error &error) { while (easy != nullptr && buffer.IsEmpty()) cond.wait(mutex); if (postponed_error.IsDefined()) { error = std::move(postponed_error); postponed_error.Clear(); return false; } return !buffer.IsEmpty(); } static size_t read_from_buffer(IcyMetaDataParser &icy, CircularBuffer &buffer, void *dest0, size_t length) { uint8_t *dest = (uint8_t *)dest0; size_t nbytes = 0; while (true) { auto r = buffer.Read(); if (r.IsEmpty()) break; if (r.size > length) r.size = length; size_t chunk = icy.Data(r.size); if (chunk > 0) { memcpy(dest, r.data, chunk); buffer.Consume(chunk); nbytes += chunk; dest += chunk; length -= chunk; if (length == 0) break; } r = buffer.Read(); if (r.IsEmpty()) break; chunk = icy.Meta(r.data, r.size); if (chunk > 0) { buffer.Consume(chunk); if (length == 0) break; } } return nbytes; } inline void CurlInputStream::CopyIcyTag() { Tag *new_tag = icy.ReadTag(); if (new_tag == nullptr) return; delete tag; if (!meta_name.empty() && !new_tag->HasType(TAG_NAME)) { TagBuilder tag_builder(std::move(*new_tag)); tag_builder.AddItem(TAG_NAME, meta_name.c_str()); *new_tag = tag_builder.Commit(); } tag = new_tag; } static bool input_curl_available(InputStream *is) { const CurlInputStream &c = *(const CurlInputStream *)is; return c.IsAvailable(); } inline size_t CurlInputStream::Read(void *ptr, size_t read_size, Error &error) { size_t nbytes; do { /* fill the buffer */ if (!FillBuffer(error)) return 0; nbytes = read_from_buffer(icy, buffer, ptr, read_size); } while (nbytes == 0); if (icy.IsDefined()) CopyIcyTag(); offset += (InputPlugin::offset_type)nbytes; if (paused && GetTotalBufferSize() < CURL_RESUME_AT) { mutex.unlock(); BlockingCall(io_thread_get(), [this](){ Resume(); }); mutex.lock(); } return nbytes; } static size_t input_curl_read(InputStream *is, void *ptr, size_t size, Error &error) { CurlInputStream &c = *(CurlInputStream *)is; return c.Read(ptr, size, error); } static void input_curl_close(InputStream *is) { CurlInputStream *c = (CurlInputStream *)is; delete c; } static bool input_curl_eof(gcc_unused InputStream *is) { const CurlInputStream &c = *(const CurlInputStream *)is; return c.IsEOF(); } inline void CurlInputStream::HeaderReceived(const char *name, std::string &&value) { if (StringEqualsCaseASCII(name, "accept-ranges")) { /* a stream with icy-metadata is not seekable */ if (!icy.IsDefined()) seekable = true; } else if (StringEqualsCaseASCII(name, "content-length")) { size = offset + ParseUint64(value.c_str()); } else if (StringEqualsCaseASCII(name, "content-type")) { SetMimeType(std::move(value)); } else if (StringEqualsCaseASCII(name, "icy-name") || StringEqualsCaseASCII(name, "ice-name") || StringEqualsCaseASCII(name, "x-audiocast-name")) { meta_name = std::move(value); delete tag; TagBuilder tag_builder; tag_builder.AddItem(TAG_NAME, meta_name.c_str()); tag = tag_builder.CommitNew(); } else if (StringEqualsCaseASCII(name, "icy-metaint")) { if (icy.IsDefined()) return; size_t icy_metaint = ParseUint64(value.c_str()); FormatDebug(curl_domain, "icy-metaint=%zu", icy_metaint); if (icy_metaint > 0) { icy.Start(icy_metaint); /* a stream with icy-metadata is not seekable */ seekable = false; } } } /** called by curl when new data is available */ static size_t input_curl_headerfunction(void *ptr, size_t size, size_t nmemb, void *stream) { CurlInputStream &c = *(CurlInputStream *)stream; size *= nmemb; const char *header = (const char *)ptr; const char *end = header + size; char name[64]; const char *value = (const char *)memchr(header, ':', size); if (value == nullptr || (size_t)(value - header) >= sizeof(name)) return size; memcpy(name, header, value - header); name[value - header] = 0; /* skip the colon */ ++value; /* strip the value */ while (value < end && IsWhitespaceOrNull(*value)) ++value; while (end > value && IsWhitespaceOrNull(end[-1])) --end; c.HeaderReceived(name, std::string(value, end)); return size; } inline size_t CurlInputStream::DataReceived(const void *ptr, size_t received_size) { assert(received_size > 0); const ScopeLock protect(mutex); if (received_size > buffer.GetSpace()) { paused = true; return CURL_WRITEFUNC_PAUSE; } auto w = buffer.Write(); assert(!w.IsEmpty()); size_t nbytes = std::min(w.size, received_size); memcpy(w.data, ptr, nbytes); buffer.Append(nbytes); const size_t remaining = received_size - nbytes; if (remaining > 0) { w = buffer.Write(); assert(!w.IsEmpty()); assert(w.size >= remaining); memcpy(w.data, (const uint8_t *)ptr + nbytes, remaining); buffer.Append(received_size); } ready = true; cond.broadcast(); return received_size; } /** called by curl when new data is available */ static size_t input_curl_writefunction(void *ptr, size_t size, size_t nmemb, void *stream) { CurlInputStream &c = *(CurlInputStream *)stream; size *= nmemb; if (size == 0) return 0; return c.DataReceived(ptr, size); } bool CurlInputStream::InitEasy(Error &error) { easy = curl_easy_init(); if (easy == nullptr) { error.Set(curl_domain, "curl_easy_init() failed"); return false; } curl_easy_setopt(easy, CURLOPT_PRIVATE, (void *)this); curl_easy_setopt(easy, CURLOPT_USERAGENT, "Music Player Daemon " VERSION); curl_easy_setopt(easy, CURLOPT_HEADERFUNCTION, input_curl_headerfunction); curl_easy_setopt(easy, CURLOPT_WRITEHEADER, this); curl_easy_setopt(easy, CURLOPT_WRITEFUNCTION, input_curl_writefunction); curl_easy_setopt(easy, CURLOPT_WRITEDATA, this); curl_easy_setopt(easy, CURLOPT_HTTP200ALIASES, http_200_aliases); curl_easy_setopt(easy, CURLOPT_FOLLOWLOCATION, 1); curl_easy_setopt(easy, CURLOPT_NETRC, 1); curl_easy_setopt(easy, CURLOPT_MAXREDIRS, 5); curl_easy_setopt(easy, CURLOPT_FAILONERROR, true); curl_easy_setopt(easy, CURLOPT_ERRORBUFFER, error_buffer); curl_easy_setopt(easy, CURLOPT_NOPROGRESS, 1l); curl_easy_setopt(easy, CURLOPT_NOSIGNAL, 1l); curl_easy_setopt(easy, CURLOPT_CONNECTTIMEOUT, 10l); if (proxy != nullptr) curl_easy_setopt(easy, CURLOPT_PROXY, proxy); if (proxy_port > 0) curl_easy_setopt(easy, CURLOPT_PROXYPORT, (long)proxy_port); if (proxy_user != nullptr && proxy_password != nullptr) { char proxy_auth_str[1024]; snprintf(proxy_auth_str, sizeof(proxy_auth_str), "%s:%s", proxy_user, proxy_password); curl_easy_setopt(easy, CURLOPT_PROXYUSERPWD, proxy_auth_str); } CURLcode code = curl_easy_setopt(easy, CURLOPT_URL, GetURI()); if (code != CURLE_OK) { error.Format(curl_domain, code, "curl_easy_setopt() failed: %s", curl_easy_strerror(code)); return false; } request_headers = nullptr; request_headers = curl_slist_append(request_headers, "Icy-Metadata: 1"); curl_easy_setopt(easy, CURLOPT_HTTPHEADER, request_headers); return true; } inline bool CurlInputStream::Seek(InputPlugin::offset_type new_offset, int whence, Error &error) { assert(IsReady()); if (whence == SEEK_SET && new_offset == offset) /* no-op */ return true; if (!IsSeekable()) return false; /* calculate the absolute offset */ switch (whence) { case SEEK_SET: break; case SEEK_CUR: new_offset += offset; break; case SEEK_END: if (size < 0) /* stream size is not known */ return false; new_offset += size; break; default: return false; } if (new_offset < 0) return false; /* check if we can fast-forward the buffer */ while (new_offset > offset) { auto r = buffer.Read(); if (r.IsEmpty()) break; const size_t nbytes = new_offset - offset < (InputPlugin::offset_type)r.size ? new_offset - offset : r.size; buffer.Consume(nbytes); offset += nbytes; } if (new_offset == offset) return true; /* close the old connection and open a new one */ mutex.unlock(); FreeEasyIndirect(); buffer.Clear(); offset = new_offset; if (offset == size) { /* seek to EOF: simulate empty result; avoid triggering a "416 Requested Range Not Satisfiable" response */ return true; } if (!InitEasy(error)) return false; /* send the "Range" header */ if (offset > 0) { sprintf(range, "%lld-", (long long)offset); curl_easy_setopt(easy, CURLOPT_RANGE, range); } ready = false; if (!input_curl_easy_add_indirect(this, error)) return false; mutex.lock(); WaitReady(); if (postponed_error.IsDefined()) { error = std::move(postponed_error); postponed_error.Clear(); return false; } return true; } static bool input_curl_seek(InputStream *is, InputPlugin::offset_type offset, int whence, Error &error) { CurlInputStream &c = *(CurlInputStream *)is; return c.Seek(offset, whence, error); } inline InputStream * CurlInputStream::Open(const char *url, Mutex &mutex, Cond &cond, Error &error) { void *buffer = HugeAllocate(CURL_MAX_BUFFERED); if (buffer == nullptr) { error.Set(curl_domain, "Out of memory"); return nullptr; } CurlInputStream *c = new CurlInputStream(url, mutex, cond, buffer); if (!c->InitEasy(error) || !input_curl_easy_add_indirect(c, error)) { delete c; return nullptr; } return c; } static InputStream * input_curl_open(const char *url, Mutex &mutex, Cond &cond, Error &error) { if (memcmp(url, "http://", 7) != 0 && memcmp(url, "https://", 8) != 0) return nullptr; return CurlInputStream::Open(url, mutex, cond, error); } const struct InputPlugin input_plugin_curl = { "curl", input_curl_init, input_curl_finish, input_curl_open, input_curl_close, input_curl_check, nullptr, input_curl_tag, input_curl_available, input_curl_read, input_curl_eof, input_curl_seek, };