#include #include #include #include "fetcher.h" CFetchTask::CFetchTask(bool canTimeout, bool useDDNetCA) { m_pNext = NULL; m_CanTimeout = canTimeout; m_UseDDNetCA = useDDNetCA; } CFetcher::CFetcher() { m_pStorage = NULL; m_pHandle = NULL; m_Lock = lock_create(); sphore_init(&m_Queued); m_pFirst = NULL; m_pLast = NULL; m_Running = true; } bool CFetcher::Init() { m_pStorage = Kernel()->RequestInterface(); if(!curl_global_init(CURL_GLOBAL_DEFAULT) && (m_pHandle = curl_easy_init())) return true; return false; } CFetcher::~CFetcher() { if(m_pThHandle) { m_Running = false; sphore_signal(&m_Queued); thread_wait(m_pThHandle); } lock_destroy(m_Lock); sphore_destroy(&m_Queued); if(m_pHandle) curl_easy_cleanup(m_pHandle); curl_global_cleanup(); } void CFetcher::QueueAdd(CFetchTask *pTask, const char *pUrl, const char *pDest, int StorageType, void *pUser, COMPFUNC pfnCompCb, PROGFUNC pfnProgCb) { str_copy(pTask->m_aUrl, pUrl, sizeof(pTask->m_aUrl)); str_copy(pTask->m_aDest, pDest, sizeof(pTask->m_aDest)); pTask->m_StorageType = StorageType; pTask->m_pfnProgressCallback = pfnProgCb; pTask->m_pfnCompCallback = pfnCompCb; pTask->m_pUser = pUser; pTask->m_Size = pTask->m_Progress = 0; pTask->m_Abort = false; lock_wait(m_Lock); if(!m_pThHandle) { m_pThHandle = thread_init(&FetcherThread, this); } if(!m_pFirst) { m_pFirst = pTask; m_pLast = m_pFirst; } else { m_pLast->m_pNext = pTask; m_pLast = pTask; } pTask->m_State = CFetchTask::STATE_QUEUED; lock_unlock(m_Lock); sphore_signal(&m_Queued); } void CFetcher::Escape(char *pBuf, size_t size, const char *pStr) { char *pEsc = curl_easy_escape(0, pStr, 0); str_copy(pBuf, pEsc, size); curl_free(pEsc); } void CFetcher::FetcherThread(void *pUser) { CFetcher *pFetcher = (CFetcher *)pUser; dbg_msg("fetcher", "thread started..."); while(pFetcher->m_Running) { sphore_wait(&pFetcher->m_Queued); lock_wait(pFetcher->m_Lock); CFetchTask *pTask = pFetcher->m_pFirst; if(pTask) pFetcher->m_pFirst = pTask->m_pNext; lock_unlock(pFetcher->m_Lock); if(pTask) { dbg_msg("fetcher", "task got %s -> %s", pTask->m_aUrl, pTask->m_aDest); pFetcher->FetchFile(pTask); if(pTask->m_pfnCompCallback) pTask->m_pfnCompCallback(pTask, pTask->m_pUser); } } } void CFetcher::FetchFile(CFetchTask *pTask) { char aPath[512]; if(pTask->m_StorageType == -2) m_pStorage->GetBinaryPath(pTask->m_aDest, aPath, sizeof(aPath)); else m_pStorage->GetCompletePath(pTask->m_StorageType, pTask->m_aDest, aPath, sizeof(aPath)); if(fs_makedir_rec_for(aPath) < 0) dbg_msg("fetcher", "i/o error, cannot create folder for: %s", aPath); IOHANDLE File = io_open(aPath, IOFLAG_WRITE); if(!File) { dbg_msg("fetcher", "i/o error, cannot open file: %s", pTask->m_aDest); pTask->m_State = CFetchTask::STATE_ERROR; return; } char aErr[CURL_ERROR_SIZE]; curl_easy_setopt(m_pHandle, CURLOPT_ERRORBUFFER, aErr); //curl_easy_setopt(m_pHandle, CURLOPT_VERBOSE, 1L); if(pTask->m_CanTimeout) { curl_easy_setopt(m_pHandle, CURLOPT_CONNECTTIMEOUT_MS, (long)g_Config.m_ClHTTPConnectTimeoutMs); curl_easy_setopt(m_pHandle, CURLOPT_LOW_SPEED_LIMIT, (long)g_Config.m_ClHTTPLowSpeedLimit); curl_easy_setopt(m_pHandle, CURLOPT_LOW_SPEED_TIME, (long)g_Config.m_ClHTTPLowSpeedTime); } else { curl_easy_setopt(m_pHandle, CURLOPT_CONNECTTIMEOUT_MS, 0); curl_easy_setopt(m_pHandle, CURLOPT_LOW_SPEED_LIMIT, 0); curl_easy_setopt(m_pHandle, CURLOPT_LOW_SPEED_TIME, 0); } curl_easy_setopt(m_pHandle, CURLOPT_FOLLOWLOCATION, 1L); curl_easy_setopt(m_pHandle, CURLOPT_MAXREDIRS, 4L); curl_easy_setopt(m_pHandle, CURLOPT_FAILONERROR, 1L); if(pTask->m_UseDDNetCA) { char aCAFile[512]; m_pStorage->GetBinaryPath("data/ca-ddnet.pem", aCAFile, sizeof aCAFile); curl_easy_setopt(m_pHandle, CURLOPT_CAINFO, aCAFile); } curl_easy_setopt(m_pHandle, CURLOPT_URL, pTask->m_aUrl); curl_easy_setopt(m_pHandle, CURLOPT_WRITEDATA, File); curl_easy_setopt(m_pHandle, CURLOPT_WRITEFUNCTION, &CFetcher::WriteToFile); curl_easy_setopt(m_pHandle, CURLOPT_NOPROGRESS, 0); curl_easy_setopt(m_pHandle, CURLOPT_PROGRESSDATA, pTask); curl_easy_setopt(m_pHandle, CURLOPT_PROGRESSFUNCTION, &CFetcher::ProgressCallback); curl_easy_setopt(m_pHandle, CURLOPT_NOSIGNAL, 1L); dbg_msg("fetcher", "downloading %s", pTask->m_aDest); pTask->m_State = CFetchTask::STATE_RUNNING; int ret = curl_easy_perform(m_pHandle); io_close(File); if(ret != CURLE_OK) { dbg_msg("fetcher", "task failed. libcurl error: %s", aErr); pTask->m_State = (ret == CURLE_ABORTED_BY_CALLBACK) ? CFetchTask::STATE_ABORTED : CFetchTask::STATE_ERROR; } else { dbg_msg("fetcher", "task done %s", pTask->m_aDest); pTask->m_State = CFetchTask::STATE_DONE; } } size_t CFetcher::WriteToFile(char *pData, size_t size, size_t nmemb, void *pFile) { return io_write((IOHANDLE)pFile, pData, size*nmemb); } int CFetcher::ProgressCallback(void *pUser, double DlTotal, double DlCurr, double UlTotal, double UlCurr) { CFetchTask *pTask = (CFetchTask *)pUser; pTask->m_Current = DlCurr; pTask->m_Size = DlTotal; pTask->m_Progress = (100 * DlCurr) / (DlTotal ? DlTotal : 1); if(pTask->m_pfnProgressCallback) pTask->m_pfnProgressCallback(pTask, pTask->m_pUser); return pTask->m_Abort ? -1 : 0; }