Esempio n. 1
0
void ListBinCommand::Execute()
{
	SNZBListRequest ListRequest;
	if (!ReceiveRequest(&ListRequest, sizeof(ListRequest)))
	{
		return;
	}

	SNZBListResponse ListResponse;
	memset(&ListResponse, 0, sizeof(ListResponse));
	ListResponse.m_MessageBase.m_iSignature = htonl(NZBMESSAGE_SIGNATURE);
	ListResponse.m_MessageBase.m_iStructSize = htonl(sizeof(ListResponse));
	ListResponse.m_iEntrySize = htonl(sizeof(SNZBListResponseFileEntry));
	ListResponse.m_bRegExValid = 0;

	char* buf = NULL;
	int bufsize = 0;

	if (ntohl(ListRequest.m_bFileList))
	{
		eRemoteMatchMode eMatchMode = (eRemoteMatchMode)ntohl(ListRequest.m_iMatchMode);
		bool bMatchGroup = ntohl(ListRequest.m_bMatchGroup);
		const char* szPattern = ListRequest.m_szPattern;

		RegEx *pRegEx = NULL;
		if (eMatchMode == eRemoteMatchModeRegEx)
		{
			pRegEx = new RegEx(szPattern);
			ListResponse.m_bRegExValid = pRegEx->IsValid();
		}

		// Make a data structure and copy all the elements of the list into it
		DownloadQueue* pDownloadQueue = g_pQueueCoordinator->LockQueue();

		// calculate required buffer size for nzbs
		int iNrNZBEntries = pDownloadQueue->GetNZBInfoList()->size();
		int iNrPPPEntries = 0;
		bufsize += iNrNZBEntries * sizeof(SNZBListResponseNZBEntry);
		for (NZBInfoList::iterator it = pDownloadQueue->GetNZBInfoList()->begin(); it != pDownloadQueue->GetNZBInfoList()->end(); it++)
		{
			NZBInfo* pNZBInfo = *it;
			bufsize += strlen(pNZBInfo->GetFilename()) + 1;
			bufsize += strlen(pNZBInfo->GetName()) + 1;
			bufsize += strlen(pNZBInfo->GetDestDir()) + 1;
			bufsize += strlen(pNZBInfo->GetCategory()) + 1;
			bufsize += strlen(pNZBInfo->GetQueuedFilename()) + 1;
			// align struct to 4-bytes, needed by ARM-processor (and may be others)
			bufsize += bufsize % 4 > 0 ? 4 - bufsize % 4 : 0;

			// calculate required buffer size for pp-parameters
			for (NZBParameterList::iterator it = pNZBInfo->GetParameters()->begin(); it != pNZBInfo->GetParameters()->end(); it++)
			{
				NZBParameter* pNZBParameter = *it;
				bufsize += sizeof(SNZBListResponsePPPEntry);
				bufsize += strlen(pNZBParameter->GetName()) + 1;
				bufsize += strlen(pNZBParameter->GetValue()) + 1;
				// align struct to 4-bytes, needed by ARM-processor (and may be others)
				bufsize += bufsize % 4 > 0 ? 4 - bufsize % 4 : 0;
				iNrPPPEntries++;
			}
		}

		// calculate required buffer size for files
		int iNrFileEntries = pDownloadQueue->GetFileQueue()->size();
		bufsize += iNrFileEntries * sizeof(SNZBListResponseFileEntry);
		for (FileQueue::iterator it = pDownloadQueue->GetFileQueue()->begin(); it != pDownloadQueue->GetFileQueue()->end(); it++)
		{
			FileInfo* pFileInfo = *it;
			bufsize += strlen(pFileInfo->GetSubject()) + 1;
			bufsize += strlen(pFileInfo->GetFilename()) + 1;
			// align struct to 4-bytes, needed by ARM-processor (and may be others)
			bufsize += bufsize % 4 > 0 ? 4 - bufsize % 4 : 0;
		}

		buf = (char*) malloc(bufsize);
		char* bufptr = buf;

		// write nzb entries
		for (NZBInfoList::iterator it = pDownloadQueue->GetNZBInfoList()->begin(); it != pDownloadQueue->GetNZBInfoList()->end(); it++)
		{
			unsigned long iSizeHi, iSizeLo;
			NZBInfo* pNZBInfo = *it;
			SNZBListResponseNZBEntry* pListAnswer = (SNZBListResponseNZBEntry*) bufptr;
			Util::SplitInt64(pNZBInfo->GetSize(), &iSizeHi, &iSizeLo);
			pListAnswer->m_iSizeLo				= htonl(iSizeLo);
			pListAnswer->m_iSizeHi				= htonl(iSizeHi);
			pListAnswer->m_bMatch				= htonl(bMatchGroup && (!pRegEx || pRegEx->Match(pNZBInfo->GetName())));
			pListAnswer->m_iFilenameLen			= htonl(strlen(pNZBInfo->GetFilename()) + 1);
			pListAnswer->m_iNameLen				= htonl(strlen(pNZBInfo->GetName()) + 1);
			pListAnswer->m_iDestDirLen			= htonl(strlen(pNZBInfo->GetDestDir()) + 1);
			pListAnswer->m_iCategoryLen			= htonl(strlen(pNZBInfo->GetCategory()) + 1);
			pListAnswer->m_iQueuedFilenameLen	= htonl(strlen(pNZBInfo->GetQueuedFilename()) + 1);
			bufptr += sizeof(SNZBListResponseNZBEntry);
			strcpy(bufptr, pNZBInfo->GetFilename());
			bufptr += ntohl(pListAnswer->m_iFilenameLen);
			strcpy(bufptr, pNZBInfo->GetName());
			bufptr += ntohl(pListAnswer->m_iNameLen);
			strcpy(bufptr, pNZBInfo->GetDestDir());
			bufptr += ntohl(pListAnswer->m_iDestDirLen);
			strcpy(bufptr, pNZBInfo->GetCategory());
			bufptr += ntohl(pListAnswer->m_iCategoryLen);
			strcpy(bufptr, pNZBInfo->GetQueuedFilename());
			bufptr += ntohl(pListAnswer->m_iQueuedFilenameLen);
			// align struct to 4-bytes, needed by ARM-processor (and may be others)
			if ((size_t)bufptr % 4 > 0)
			{
				pListAnswer->m_iQueuedFilenameLen = htonl(ntohl(pListAnswer->m_iQueuedFilenameLen) + 4 - (size_t)bufptr % 4);
				memset(bufptr, 0, 4 - (size_t)bufptr % 4); //suppress valgrind warning "uninitialized data"
				bufptr += 4 - (size_t)bufptr % 4;
			}
		}

		// write ppp entries
		int iNZBIndex = 1;
		for (NZBInfoList::iterator it = pDownloadQueue->GetNZBInfoList()->begin(); it != pDownloadQueue->GetNZBInfoList()->end(); it++, iNZBIndex++)
		{
			NZBInfo* pNZBInfo = *it;
			for (NZBParameterList::iterator it = pNZBInfo->GetParameters()->begin(); it != pNZBInfo->GetParameters()->end(); it++)
			{
				NZBParameter* pNZBParameter = *it;
				SNZBListResponsePPPEntry* pListAnswer = (SNZBListResponsePPPEntry*) bufptr;
				pListAnswer->m_iNZBIndex	= htonl(iNZBIndex);
				pListAnswer->m_iNameLen		= htonl(strlen(pNZBParameter->GetName()) + 1);
				pListAnswer->m_iValueLen	= htonl(strlen(pNZBParameter->GetValue()) + 1);
				bufptr += sizeof(SNZBListResponsePPPEntry);
				strcpy(bufptr, pNZBParameter->GetName());
				bufptr += ntohl(pListAnswer->m_iNameLen);
				strcpy(bufptr, pNZBParameter->GetValue());
				bufptr += ntohl(pListAnswer->m_iValueLen);
				// align struct to 4-bytes, needed by ARM-processor (and may be others)
				if ((size_t)bufptr % 4 > 0)
				{
					pListAnswer->m_iValueLen = htonl(ntohl(pListAnswer->m_iValueLen) + 4 - (size_t)bufptr % 4);
					memset(bufptr, 0, 4 - (size_t)bufptr % 4); //suppress valgrind warning "uninitialized data"
					bufptr += 4 - (size_t)bufptr % 4;
				}
			}
		}

		// write file entries
		for (FileQueue::iterator it = pDownloadQueue->GetFileQueue()->begin(); it != pDownloadQueue->GetFileQueue()->end(); it++)
		{
			unsigned long iSizeHi, iSizeLo;
			FileInfo* pFileInfo = *it;
			SNZBListResponseFileEntry* pListAnswer = (SNZBListResponseFileEntry*) bufptr;
			pListAnswer->m_iID = htonl(pFileInfo->GetID());

			int iNZBIndex = 0;
			for (unsigned int i = 0; i < pDownloadQueue->GetNZBInfoList()->size(); i++)
			{
				iNZBIndex++;
				if (pDownloadQueue->GetNZBInfoList()->at(i) == pFileInfo->GetNZBInfo())
				{
					break;
				}
			}
			pListAnswer->m_iNZBIndex		= htonl(iNZBIndex);

			if (pRegEx && !bMatchGroup)
			{
				char szFilename[MAX_PATH];
				snprintf(szFilename, sizeof(szFilename) - 1, "%s/%s", pFileInfo->GetNZBInfo()->GetName(), Util::BaseFileName(pFileInfo->GetFilename()));
				pListAnswer->m_bMatch = htonl(pRegEx->Match(szFilename));
			}

			Util::SplitInt64(pFileInfo->GetSize(), &iSizeHi, &iSizeLo);
			pListAnswer->m_iFileSizeLo		= htonl(iSizeLo);
			pListAnswer->m_iFileSizeHi		= htonl(iSizeHi);
			Util::SplitInt64(pFileInfo->GetRemainingSize(), &iSizeHi, &iSizeLo);
			pListAnswer->m_iRemainingSizeLo	= htonl(iSizeLo);
			pListAnswer->m_iRemainingSizeHi	= htonl(iSizeHi);
			pListAnswer->m_bFilenameConfirmed = htonl(pFileInfo->GetFilenameConfirmed());
			pListAnswer->m_bPaused			= htonl(pFileInfo->GetPaused());
			pListAnswer->m_iActiveDownloads	= htonl(pFileInfo->GetActiveDownloads());
			pListAnswer->m_iPriority		= htonl(pFileInfo->GetPriority());
			pListAnswer->m_iSubjectLen		= htonl(strlen(pFileInfo->GetSubject()) + 1);
			pListAnswer->m_iFilenameLen		= htonl(strlen(pFileInfo->GetFilename()) + 1);
			bufptr += sizeof(SNZBListResponseFileEntry);
			strcpy(bufptr, pFileInfo->GetSubject());
			bufptr += ntohl(pListAnswer->m_iSubjectLen);
			strcpy(bufptr, pFileInfo->GetFilename());
			bufptr += ntohl(pListAnswer->m_iFilenameLen);
			// align struct to 4-bytes, needed by ARM-processor (and may be others)
			if ((size_t)bufptr % 4 > 0)
			{
				pListAnswer->m_iFilenameLen = htonl(ntohl(pListAnswer->m_iFilenameLen) + 4 - (size_t)bufptr % 4);
				memset(bufptr, 0, 4 - (size_t)bufptr % 4); //suppress valgrind warning "uninitialized data"
				bufptr += 4 - (size_t)bufptr % 4;
			}
		}

		g_pQueueCoordinator->UnlockQueue();

		if (pRegEx)
		{
			delete pRegEx;
		}

		ListResponse.m_iNrTrailingNZBEntries = htonl(iNrNZBEntries);
		ListResponse.m_iNrTrailingPPPEntries = htonl(iNrPPPEntries);
		ListResponse.m_iNrTrailingFileEntries = htonl(iNrFileEntries);
		ListResponse.m_iTrailingDataLength = htonl(bufsize);
	}

	if (htonl(ListRequest.m_bServerState))
	{
		unsigned long iSizeHi, iSizeLo;
		ListResponse.m_iDownloadRate = htonl((int)(g_pQueueCoordinator->CalcCurrentDownloadSpeed() * 1024));
		Util::SplitInt64(g_pQueueCoordinator->CalcRemainingSize(), &iSizeHi, &iSizeLo);
		ListResponse.m_iRemainingSizeHi = htonl(iSizeHi);
		ListResponse.m_iRemainingSizeLo = htonl(iSizeLo);
		ListResponse.m_iDownloadLimit = htonl((int)(g_pOptions->GetDownloadRate() * 1024));
		ListResponse.m_bDownloadPaused = htonl(g_pOptions->GetPauseDownload());
		ListResponse.m_bDownload2Paused = htonl(g_pOptions->GetPauseDownload2());
		ListResponse.m_bPostPaused = htonl(g_pOptions->GetPausePostProcess());
		ListResponse.m_bScanPaused = htonl(g_pOptions->GetPauseScan());
		ListResponse.m_iThreadCount = htonl(Thread::GetThreadCount() - 1); // not counting itself
		PostQueue* pPostQueue = g_pQueueCoordinator->LockQueue()->GetPostQueue();
		ListResponse.m_iPostJobCount = htonl(pPostQueue->size());
		g_pQueueCoordinator->UnlockQueue();

		int iUpTimeSec, iDnTimeSec;
		long long iAllBytes;
		bool bStandBy;
		g_pQueueCoordinator->CalcStat(&iUpTimeSec, &iDnTimeSec, &iAllBytes, &bStandBy);
		ListResponse.m_iUpTimeSec = htonl(iUpTimeSec);
		ListResponse.m_iDownloadTimeSec = htonl(iDnTimeSec);
		ListResponse.m_bDownloadStandBy = htonl(bStandBy);
		Util::SplitInt64(iAllBytes, &iSizeHi, &iSizeLo);
		ListResponse.m_iDownloadedBytesHi = htonl(iSizeHi);
		ListResponse.m_iDownloadedBytesLo = htonl(iSizeLo);
	}

	// Send the request answer
	send(m_iSocket, (char*) &ListResponse, sizeof(ListResponse), 0);

	// Send the data
	if (bufsize > 0)
	{
		send(m_iSocket, buf, bufsize, 0);
	}

	if (buf)
	{
		free(buf);
	}
}
Esempio n. 2
0
void QueueCoordinator::ArticleCompleted(ArticleDownloader* pArticleDownloader)
{
    debug("Article downloaded");

    FileInfo* pFileInfo = pArticleDownloader->GetFileInfo();
    NZBInfo* pNZBInfo = pFileInfo->GetNZBInfo();
    ArticleInfo* pArticleInfo = pArticleDownloader->GetArticleInfo();
    bool bRetry = false;
    bool fileCompleted = false;

    DownloadQueue* pDownloadQueue = DownloadQueue::Lock();

    if (pArticleDownloader->GetStatus() == ArticleDownloader::adFinished)
    {
        pArticleInfo->SetStatus(ArticleInfo::aiFinished);
        pFileInfo->SetSuccessSize(pFileInfo->GetSuccessSize() + pArticleInfo->GetSize());
        pNZBInfo->SetCurrentSuccessSize(pNZBInfo->GetCurrentSuccessSize() + pArticleInfo->GetSize());
        pNZBInfo->SetParCurrentSuccessSize(pNZBInfo->GetParCurrentSuccessSize() + (pFileInfo->GetParFile() ? pArticleInfo->GetSize() : 0));
        pFileInfo->SetSuccessArticles(pFileInfo->GetSuccessArticles() + 1);
        pNZBInfo->SetCurrentSuccessArticles(pNZBInfo->GetCurrentSuccessArticles() + 1);
    }
    else if (pArticleDownloader->GetStatus() == ArticleDownloader::adFailed)
    {
        pArticleInfo->SetStatus(ArticleInfo::aiFailed);
        pFileInfo->SetFailedSize(pFileInfo->GetFailedSize() + pArticleInfo->GetSize());
        pNZBInfo->SetCurrentFailedSize(pNZBInfo->GetCurrentFailedSize() + pArticleInfo->GetSize());
        pNZBInfo->SetParCurrentFailedSize(pNZBInfo->GetParCurrentFailedSize() + (pFileInfo->GetParFile() ? pArticleInfo->GetSize() : 0));
        pFileInfo->SetFailedArticles(pFileInfo->GetFailedArticles() + 1);
        pNZBInfo->SetCurrentFailedArticles(pNZBInfo->GetCurrentFailedArticles() + 1);
    }
    else if (pArticleDownloader->GetStatus() == ArticleDownloader::adRetry)
    {
        pArticleInfo->SetStatus(ArticleInfo::aiUndefined);
        bRetry = true;
    }

    if (!bRetry)
    {
        pFileInfo->SetRemainingSize(pFileInfo->GetRemainingSize() - pArticleInfo->GetSize());
        pNZBInfo->SetRemainingSize(pNZBInfo->GetRemainingSize() - pArticleInfo->GetSize());
        if (pFileInfo->GetPaused())
        {
            pNZBInfo->SetPausedSize(pNZBInfo->GetPausedSize() - pArticleInfo->GetSize());
        }
        pFileInfo->SetCompletedArticles(pFileInfo->GetCompletedArticles() + 1);
        fileCompleted = (int)pFileInfo->GetArticles()->size() == pFileInfo->GetCompletedArticles();
        pFileInfo->GetServerStats()->ListOp(pArticleDownloader->GetServerStats(), ServerStatList::soAdd);
        pNZBInfo->GetCurrentServerStats()->ListOp(pArticleDownloader->GetServerStats(), ServerStatList::soAdd);
        pFileInfo->SetPartialChanged(true);
    }

    if (!pFileInfo->GetFilenameConfirmed() &&
            pArticleDownloader->GetStatus() == ArticleDownloader::adFinished &&
            pArticleDownloader->GetArticleFilename())
    {
        pFileInfo->SetFilename(pArticleDownloader->GetArticleFilename());
        pFileInfo->SetFilenameConfirmed(true);
        if (g_pOptions->GetDupeCheck() &&
                pNZBInfo->GetDupeMode() != dmForce &&
                !pNZBInfo->GetManyDupeFiles() &&
                Util::FileExists(pNZBInfo->GetDestDir(), pFileInfo->GetFilename()))
        {
            warn("File \"%s\" seems to be duplicate, cancelling download and deleting file from queue", pFileInfo->GetFilename());
            fileCompleted = false;
            pFileInfo->SetAutoDeleted(true);
            DeleteQueueEntry(pDownloadQueue, pFileInfo);
        }
    }

    pNZBInfo->SetDownloadedSize(pNZBInfo->GetDownloadedSize() + pArticleDownloader->GetDownloadedSize());

    bool deleteFileObj = false;

    if (fileCompleted && !pFileInfo->GetDeleted())
    {
        // all jobs done
        DownloadQueue::Unlock();
        pArticleDownloader->CompleteFileParts();
        pDownloadQueue = DownloadQueue::Lock();
        deleteFileObj = true;
    }

    CheckHealth(pDownloadQueue, pFileInfo);

    bool hasOtherDownloaders = false;
    for (ActiveDownloads::iterator it = m_ActiveDownloads.begin(); it != m_ActiveDownloads.end(); it++)
    {
        ArticleDownloader* pDownloader = *it;
        if (pDownloader != pArticleDownloader && pDownloader->GetFileInfo() == pFileInfo)
        {
            hasOtherDownloaders = true;
            break;
        }
    }
    deleteFileObj |= pFileInfo->GetDeleted() && !hasOtherDownloaders;

    // remove downloader from downloader list
    m_ActiveDownloads.erase(std::find(m_ActiveDownloads.begin(), m_ActiveDownloads.end(), pArticleDownloader));

    pFileInfo->SetActiveDownloads(pFileInfo->GetActiveDownloads() - 1);
    pNZBInfo->SetActiveDownloads(pNZBInfo->GetActiveDownloads() - 1);

    if (deleteFileObj)
    {
        DeleteFileInfo(pDownloadQueue, pFileInfo, fileCompleted);
        pDownloadQueue->Save();
    }

    DownloadQueue::Unlock();
}