// Berkeley Open Infrastructure for Network Computing // http://boinc.berkeley.edu // Copyright (C) 2005 University of California // // This is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; // either version 2.1 of the License, or (at your option) any later version. // // This software 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 Lesser General Public License for more details. // // To view the GNU Lesser General Public License visit // http://www.gnu.org/copyleft/lesser.html // or write to the Free Software Foundation, Inc., // 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA #if defined(__GNUG__) && !defined(__APPLE__) #pragma implementation "MainDocument.h" #endif #ifdef SANDBOX #include #endif #include "stdwx.h" #include "BOINCGUIApp.h" #include "BOINCBaseFrame.h" #include "MainDocument.h" #include "error_numbers.h" using std::string; CNetworkConnection::CNetworkConnection(CMainDocument* pDocument) : wxObject() { m_pDocument = pDocument; m_strConnectedComputerName = wxEmptyString; m_strConnectedComputerPassword = wxEmptyString; m_strNewComputerName = wxEmptyString; m_strNewComputerPassword = wxEmptyString; m_bFrameShutdownDetected = false; m_bConnectEvent = false; m_bConnected = false; m_bReconnecting = false; m_bForceReconnect = false; m_bReconnectOnError = false; } CNetworkConnection::~CNetworkConnection() { } void CNetworkConnection::GetLocalPassword(wxString& strPassword){ char buf[256]; FILE* f = fopen("gui_rpc_auth.cfg", "r"); if (!f) return; strcpy(buf, ""); fgets(buf, 256, f); fclose(f); int n = strlen(buf); if (n) { n--; if (buf[n]=='\n') { buf[n] = 0; } } strPassword = wxString(buf, wxConvUTF8); } void CNetworkConnection::Poll() { int retval; wxString strComputer = wxEmptyString; wxString strComputerPassword = wxEmptyString; if (IsReconnecting()) { wxLogTrace(wxT("Function Status"), wxT("CNetworkConnection::Poll - Reconnection Detected")); retval = m_pDocument->rpc.init_poll(); if (!retval) { wxLogTrace(wxT("Function Status"), wxT("CNetworkConnection::Poll - init_poll() returned ERR_CONNECT, now authorizing...")); // Wait until we can establish a connection to the core client before reading // the password so that the client has time to create one when it needs to. if (m_bUseDefaultPassword) { GetLocalPassword(m_strNewComputerPassword); m_bUseDefaultPassword = FALSE; } retval = m_pDocument->rpc.authorize(m_strNewComputerPassword.mb_str()); if (!retval) { wxLogTrace(wxT("Function Status"), wxT("CNetworkConnection::Poll - Connection Success")); SetStateSuccess(m_strNewComputerName, m_strNewComputerPassword); } else if (ERR_AUTHENTICATOR == retval) { wxLogTrace(wxT("Function Status"), wxT("CNetworkConnection::Poll - RPC Authorization - ERR_AUTHENTICATOR")); SetStateErrorAuthentication(); } else { wxLogTrace(wxT("Function Status"), wxT("CNetworkConnection::Poll - RPC Authorization Failed '%d'"), retval); SetStateError(); } } else if (ERR_RETRY != retval) { wxLogTrace(wxT("Function Status"), wxT("CNetworkConnection::Poll - RPC Connection Failed '%d'"), retval); SetStateError(); } } else if (IsConnectEventSignaled() || m_bReconnectOnError) { if ((m_bForceReconnect) || (!IsConnected() && m_bReconnectOnError)) { wxLogTrace(wxT("Function Status"), wxT("CNetworkConnection::Poll - Resetting Document State")); m_pDocument->ResetState(); wxLogTrace(wxT("Function Status"), wxT("CNetworkConnection::Poll - Setting connection state to reconnecting")); SetStateReconnecting(); } if (!IsConnected()) { // determine computer name and password to use. if (!m_strNewComputerName.empty()) { strComputer = m_strNewComputerName; strComputerPassword = m_strNewComputerPassword; } else { if (!m_strConnectedComputerName.empty()) { strComputer = m_strConnectedComputerName; strComputerPassword = m_strConnectedComputerPassword; } } // a host value of NULL is special cased as binding to the localhost and // if we are connecting to the localhost we need to retry the connection // for awhile so that the users can respond to firewall prompts. if (IsComputerNameLocal(strComputer)) { retval = m_pDocument->rpc.init_asynch(NULL, 60., true); } else { retval = m_pDocument->rpc.init_asynch(strComputer.mb_str(), 60., false); } if (!retval) { wxLogTrace(wxT("Function Status"), wxT("CNetworkConnection::Poll - RPC Initialization Called")); } else { wxLogTrace(wxT("Function Status"), wxT("CNetworkConnection::Poll - RPC Initialization Failed '%d'"), retval); SetStateError(); } } } } int CNetworkConnection::FrameShutdownDetected() { m_bFrameShutdownDetected = true; return 0; } int CNetworkConnection::GetConnectedComputerName(wxString& strMachine) { strMachine = m_strConnectedComputerName; return 0; } int CNetworkConnection::GetConnectingComputerName(wxString& strMachine) { strMachine = m_strNewComputerName; return 0; } bool CNetworkConnection::IsComputerNameLocal(const wxString& strMachine) { if (strMachine.empty()) { return true; } else if (wxT("localhost") == strMachine.Lower()) { return true; } else if (wxT("localhost.localdomain") == strMachine.Lower()) { return true; } else if (::wxGetHostName().Lower() == strMachine.Lower()) { return true; } else if (::wxGetFullHostName().Lower() == strMachine.Lower()) { return true; } return false; } int CNetworkConnection::SetComputer(const wxChar* szComputer, const wxChar* szPassword, const bool bUseDefaultPassword) { m_strNewComputerName.Empty(); m_strNewComputerPassword.Empty(); m_bUseDefaultPassword = FALSE; m_strNewComputerName = szComputer; m_strNewComputerPassword = szPassword; m_bUseDefaultPassword = bUseDefaultPassword; return 0; } void CNetworkConnection::SetStateErrorAuthentication() { CBOINCBaseFrame* pFrame = wxGetApp().GetFrame(); if (pFrame && !m_bFrameShutdownDetected) { wxASSERT(wxDynamicCast(pFrame, CBOINCBaseFrame)); m_bConnected = false; m_bReconnecting = false; m_bReconnectOnError = false; m_bConnectEvent = false; pFrame->ShowConnectionBadPasswordAlert(); } } void CNetworkConnection::SetStateError() { CBOINCBaseFrame* pFrame = wxGetApp().GetFrame(); if (pFrame && !m_bFrameShutdownDetected) { wxASSERT(wxDynamicCast(pFrame, CBOINCBaseFrame)); m_bConnected = false; m_bReconnecting = false; m_bReconnectOnError = false; m_bConnectEvent = false; pFrame->ShowConnectionFailedAlert(); } } void CNetworkConnection::SetStateReconnecting() { CBOINCBaseFrame* pFrame = wxGetApp().GetFrame(); if (pFrame && !m_bFrameShutdownDetected) { wxASSERT(wxDynamicCast(pFrame, CBOINCBaseFrame)); m_bConnected = false; m_bReconnectOnError = false; m_bForceReconnect = false; m_bReconnecting = true; } } void CNetworkConnection::SetStateSuccess(wxString& strComputer, wxString& strComputerPassword) { CBOINCBaseFrame* pFrame = wxGetApp().GetFrame(); if (pFrame && !m_bFrameShutdownDetected) { wxASSERT(wxDynamicCast(pFrame, CBOINCBaseFrame)); m_bConnected = true; m_bReconnecting = false; m_bReconnectOnError = true; m_strConnectedComputerName = strComputer; m_strConnectedComputerPassword = strComputerPassword; m_strNewComputerName = wxEmptyString; m_strNewComputerPassword = wxEmptyString; m_bConnectEvent = false; pFrame->FireConnect(); } } void CNetworkConnection::SetStateDisconnected() { CBOINCBaseFrame* pFrame = wxGetApp().GetFrame(); if (pFrame && !m_bFrameShutdownDetected) { wxASSERT(wxDynamicCast(pFrame, CBOINCBaseFrame)); m_bConnected = false; m_bReconnecting = false; } } IMPLEMENT_DYNAMIC_CLASS(CMainDocument, wxObject) CMainDocument::CMainDocument() { #ifdef __WIN32__ int retval; WSADATA wsdata; retval = WSAStartup(MAKEWORD(1, 1), &wsdata); if (retval) { wxLogTrace(wxT("Function Status"), wxT("CMainDocument::CMainDocument - Winsock Initialization Failure '%d'"), retval); } #endif m_iCachedActivityRunMode = 0; m_iCachedNetworkRunMode = 0; m_fProjectTotalResourceShare = 0.0; m_iMessageSequenceNumber = 0; m_bCachedStateLocked = false; m_dtCachedStateLockTimestamp = wxDateTime::Now(); m_dtCachedStateTimestamp = wxDateTime((time_t)0); m_dtCachedActivityStateTimestamp = wxDateTime((time_t)0); m_dtCachedActivityRunModeTimestamp = wxDateTime((time_t)0); m_dtCachedNetworkRunModeTimestamp = wxDateTime((time_t)0); m_dtCachedProjecStatusTimestamp = wxDateTime((time_t)0); m_dtCachedResultsTimestamp = wxDateTime((time_t)0); m_dtFileTransfersTimestamp = wxDateTime((time_t)0); m_dtResourceStatusTimestamp = wxDateTime((time_t)0); m_dtStatisticsStatusTimestamp = wxDateTime((time_t)0); m_dtCachedSimpleGUITimestamp = wxDateTime((time_t)0);//Added By MILOS } CMainDocument::~CMainDocument() { m_dtStatisticsStatusTimestamp = wxDateTime::Now(); m_dtResourceStatusTimestamp = wxDateTime::Now(); m_dtFileTransfersTimestamp = wxDateTime::Now(); m_dtCachedResultsTimestamp = wxDateTime::Now(); m_dtCachedProjecStatusTimestamp = wxDateTime::Now(); m_dtCachedNetworkRunModeTimestamp = wxDateTime::Now(); m_dtCachedActivityRunModeTimestamp = wxDateTime::Now(); m_dtCachedActivityStateTimestamp = wxDateTime::Now(); m_dtCachedStateTimestamp = wxDateTime::Now(); m_dtCachedStateLockTimestamp = wxDateTime::Now(); m_bCachedStateLocked = false; m_iMessageSequenceNumber = 0; m_fProjectTotalResourceShare = 0.0; m_iCachedActivityRunMode = 0; m_iCachedNetworkRunMode = 0; #ifdef __WIN32__ WSACleanup(); #endif } int CMainDocument::CachedStateUpdate() { CBOINCBaseFrame* pFrame = wxGetApp().GetFrame(); int retval = 0; wxTimeSpan ts(m_dtCachedStateLockTimestamp - m_dtCachedStateTimestamp); if (!m_bCachedStateLocked && IsConnected() && (ts.GetSeconds() > 3600)) { wxASSERT(wxDynamicCast(pFrame, CBOINCBaseFrame)); pFrame->UpdateStatusText(_("Retrieving system state; please wait...")); m_dtCachedStateTimestamp = m_dtCachedStateLockTimestamp; retval = rpc.get_state(state); if (retval) { wxLogTrace(wxT("Function Status"), wxT("CMainDocument::CachedStateUpdate - Get State Failed '%d'"), retval); m_pNetworkConnection->SetStateDisconnected(); } pFrame->UpdateStatusText(_("Retrieving host information; please wait...")); retval = rpc.get_host_info(host); if (retval) { wxLogTrace(wxT("Function Status"), wxT("CMainDocument::CachedStateUpdate - Get Host Information Failed '%d'"), retval); m_pNetworkConnection->SetStateDisconnected(); } pFrame->UpdateStatusText(wxEmptyString); } return retval; } int CMainDocument::OnInit() { int iRetVal = -1; // start the connect management thread m_pNetworkConnection = new CNetworkConnection(this); return iRetVal; } int CMainDocument::OnExit() { int iRetVal = 0; if (m_pNetworkConnection) { delete m_pNetworkConnection; m_pNetworkConnection = NULL; } return iRetVal; } int CMainDocument::OnPoll() { int iRetVal = 0; if (m_pNetworkConnection) { m_pNetworkConnection->Poll(); } return iRetVal; } int CMainDocument::OnRefreshState() { if (IsConnected()) { CachedStateUpdate(); } return 0; } int CMainDocument::ResetState() { rpc.close(); state.clear(); host.clear_host_info(); results.clear(); messages.clear(); ft.clear(); resource_status.clear(); proxy_info.clear(); m_dtCachedStateLockTimestamp = wxDateTime::Now(); m_dtCachedStateTimestamp = wxDateTime((time_t)0); m_iMessageSequenceNumber = 0; return 0; } int CMainDocument::Connect(const wxChar* szComputer, const wxChar* szComputerPassword, const bool bDisconnect, const bool bUseDefaultPassword) { if (bDisconnect) { m_pNetworkConnection->ForceReconnect(); } m_pNetworkConnection->SetComputer(szComputer, szComputerPassword, bUseDefaultPassword); m_pNetworkConnection->FireReconnectEvent(); return 0; } int CMainDocument::Reconnect() { m_pNetworkConnection->ForceReconnect(); m_pNetworkConnection->FireReconnectEvent(); return 0; } int CMainDocument::GetConnectedComputerName(wxString& strMachine) { m_pNetworkConnection->GetConnectedComputerName(strMachine); return 0; } int CMainDocument::GetConnectingComputerName(wxString& strMachine) { m_pNetworkConnection->GetConnectingComputerName(strMachine); return 0; } bool CMainDocument::IsComputerNameLocal(const wxString strMachine) { return m_pNetworkConnection->IsComputerNameLocal(strMachine); } bool CMainDocument::IsConnected() { return m_pNetworkConnection->IsConnected(); } bool CMainDocument::IsReconnecting() { return m_pNetworkConnection->IsReconnecting(); } int CMainDocument::CachedStateLock() { m_bCachedStateLocked = true; m_dtCachedStateLockTimestamp = wxDateTime::Now(); return 0; } int CMainDocument::CachedStateUnlock() { m_bCachedStateLocked = false; return 0; } int CMainDocument::FrameShutdownDetected() { return m_pNetworkConnection->FrameShutdownDetected(); } int CMainDocument::GetActivityRunMode(int& iMode) { int iRetVal = 0; if (IsConnected()) { wxTimeSpan ts(wxDateTime::Now() - m_dtCachedActivityRunModeTimestamp); if (ts.GetSeconds() > 2) { m_dtCachedActivityRunModeTimestamp = wxDateTime::Now(); iRetVal = rpc.get_run_mode(iMode); if (0 == iRetVal) { m_iCachedActivityRunMode = iMode; } } else { iMode = m_iCachedActivityRunMode; } } else { iRetVal = -1; } return iRetVal; } int CMainDocument::SetActivityRunMode(int iMode) { int iRetVal = 0; if (IsConnected()) { iRetVal = rpc.set_run_mode(iMode); if (0 == iRetVal) { m_dtCachedActivityRunModeTimestamp = wxDateTime::Now(); m_iCachedActivityRunMode = iMode; } } return iRetVal; } int CMainDocument::GetNetworkRunMode(int& iMode) { int iRetVal = 0; if (IsConnected()) { wxTimeSpan ts(wxDateTime::Now() - m_dtCachedNetworkRunModeTimestamp); if (ts.GetSeconds() > 2) { m_dtCachedNetworkRunModeTimestamp = wxDateTime::Now(); iRetVal = rpc.get_network_mode(iMode); if (0 == iRetVal) { m_iCachedNetworkRunMode = iMode; } } else { iMode = m_iCachedNetworkRunMode; } } else { iRetVal = -1; } return iRetVal; } int CMainDocument::SetNetworkRunMode(int iMode) { int iRetVal = 0; if (IsConnected()) { iRetVal = rpc.set_network_mode(iMode); if (0 == iRetVal) { m_dtCachedNetworkRunModeTimestamp = wxDateTime::Now(); m_iCachedNetworkRunMode = iMode; } } return iRetVal; } int CMainDocument::GetActivityState(bool& bActivitiesSuspended, bool& bNetworkSuspended) { int iRetVal = 0; wxTimeSpan ts(wxDateTime::Now() - m_dtCachedActivityStateTimestamp); if (ts.GetSeconds() > 2) { m_dtCachedActivityStateTimestamp = wxDateTime::Now(); if (IsConnected()) { iRetVal = rpc.get_activity_state(bActivitiesSuspended, bNetworkSuspended); if (0 == iRetVal) { m_iCachedActivitiesSuspended = bActivitiesSuspended; m_iCachedNetworkSuspended = bNetworkSuspended; } } } else { bActivitiesSuspended = m_iCachedActivitiesSuspended; bNetworkSuspended = m_iCachedNetworkSuspended; } return iRetVal; } int CMainDocument::ForceCacheUpdate() { m_dtCachedStateLockTimestamp = wxDateTime::Now(); m_dtCachedStateTimestamp = wxDateTime((time_t)0); return 0; } int CMainDocument::RunBenchmarks() { return rpc.run_benchmarks(); } int CMainDocument::CoreClientQuit() { return rpc.quit(); } bool CMainDocument::IsUserAuthorized() { #ifdef SANDBOX #ifdef _WIN32 return true; #else // ! _WIN32 group *grp; gid_t rgid, boinc_master_gid; char *userName, *groupMember; int i; static bool sIsAuthorized = false; if (sIsAuthorized) return true; // We already checked and OK'd current user grp = getgrnam(BOINC_MASTER_GROUP_NAME); if (grp) { boinc_master_gid = grp->gr_gid; rgid = getgid(); if (rgid == boinc_master_gid) { sIsAuthorized = true; // User's primary group is boinc_master return true; } userName = getlogin(); if (userName) { for (i=0; ; i++) { // Step through all users in group boinc_master groupMember = grp->gr_mem[i]; if (groupMember == NULL) break; // User is not a member of group boinc_master if (strcmp(userName, groupMember) == 0) { sIsAuthorized = true; // User is a member of group boinc_master return true; } } // for (i) } // if (userName) } // if grp #endif // ! _WIN32 #ifdef __WXMAC__ if (Mac_Authorize()) { // Run Mac Authentication dialog sIsAuthorized = true; // Authenticated by password return true; } #endif // __WXMAC__ return false; #else // ! SANDBOX #ifdef __WXMAC__ return Mac_Authorize(); // Run Mac Authentication dialog #else // ! __WXMAC__ return true; #endif // ! __WXMAC__ #endif // ! SANDBOX } int CMainDocument::CachedProjectStatusUpdate() { int iRetVal = 0; int i = 0; if (IsConnected()) { wxTimeSpan ts(wxDateTime::Now() - m_dtCachedProjecStatusTimestamp); if (ts.GetSeconds() > 0) { m_dtCachedProjecStatusTimestamp = wxDateTime::Now(); iRetVal = rpc.get_project_status(state); if (iRetVal) { wxLogTrace(wxT("Function Status"), wxT("CMainDocument::CachedProjectStatusUpdate - Get Project Status Failed '%d'"), iRetVal); ForceCacheUpdate(); } m_fProjectTotalResourceShare = 0.0; for (i=0; i < (long)state.projects.size(); i++) { m_fProjectTotalResourceShare += state.projects.at(i)->resource_share; } } } else { iRetVal = -1; } return iRetVal; } PROJECT* CMainDocument::project(unsigned int i) { PROJECT* pProject = NULL; // It is not safe to assume that the vector actually contains the data, // doing so will lead to those annoying dialogs about the list control // not being able to find list item such and such. In the worst case // scenario it'll lead to a crash, so for now we'll use the at() function // which will cause an exception which can be trapped and return a NULL // pointer when the exception is thrown. try { if (!state.projects.empty()) pProject = state.projects.at(i); } catch (std::out_of_range e) { pProject = NULL; } return pProject; } int CMainDocument::GetProjectCount() { int iCount = -1; CachedProjectStatusUpdate(); CachedStateUpdate(); if (!state.projects.empty()) iCount = state.projects.size(); return iCount; } int CMainDocument::ProjectAttach(const wxString& strURL, const wxString& strAccountKey) { return rpc.project_attach((const char*)strURL.mb_str(), (const char*)strAccountKey.mb_str()); } int CMainDocument::ProjectDetach(int iIndex) { PROJECT* pProject = NULL; int iRetVal = -1; pProject = project(iIndex); if (pProject) iRetVal = rpc.project_op((*pProject), "detach"); return iRetVal; } int CMainDocument::ProjectUpdate(int iIndex) { PROJECT* pProject = NULL; int iRetVal = -1; pProject = project(iIndex); if (pProject) iRetVal = rpc.project_op((*pProject), "update"); return iRetVal; } int CMainDocument::ProjectReset(int iIndex) { PROJECT* pProject = NULL; int iRetVal = -1; pProject = project(iIndex); if (pProject) iRetVal = rpc.project_op((*pProject), "reset"); return iRetVal; } int CMainDocument::ProjectSuspend(int iIndex) { PROJECT* pProject = NULL; int iRetVal = -1; pProject = project(iIndex); if (pProject) iRetVal = rpc.project_op((*pProject), "suspend"); return iRetVal; } int CMainDocument::ProjectResume(int iIndex) { PROJECT* pProject = NULL; int iRetVal = -1; pProject = project(iIndex); if (pProject) iRetVal = rpc.project_op((*pProject), "resume"); return iRetVal; } int CMainDocument::ProjectNoMoreWork(int iIndex) { PROJECT* pProject = NULL; int iRetVal = -1; pProject = project(iIndex); if (pProject) iRetVal = rpc.project_op((*pProject), "nomorework"); return iRetVal; } int CMainDocument::ProjectAllowMoreWork(int iIndex) { PROJECT* pProject = NULL; int iRetVal = -1; pProject = project(iIndex); if (pProject) iRetVal = rpc.project_op((*pProject), "allowmorework"); return iRetVal; } int CMainDocument::CachedResultsStatusUpdate() { int iRetVal = 0; if (IsConnected()) { wxTimeSpan ts(wxDateTime::Now() - m_dtCachedResultsTimestamp); if (ts.GetSeconds() > 0) { m_dtCachedResultsTimestamp = wxDateTime::Now(); iRetVal = rpc.get_results(results); if (iRetVal) { wxLogTrace(wxT("Function Status"), wxT("CMainDocument::CachedResultsStatusUpdate - Get Result Status Failed '%d'"), iRetVal); ForceCacheUpdate(); } } } else { iRetVal = -1; } return iRetVal; } RESULT* CMainDocument::result(unsigned int i) { RESULT* pResult = NULL; // It is not safe to assume that the vector actually contains the data, // doing so will lead to those annoying dialogs about the list control // not being able to find list item such and such. In the worst case // scenario it'll lead to a crash, so for now we'll use the at() function // which will cause an exception which can be trapped and return a NULL // pointer when the exception is thrown. try { if (!results.results.empty()) pResult = results.results.at(i); } catch (std::out_of_range e) { pResult = NULL; } return pResult; } int CMainDocument::GetWorkCount() { int iCount = -1; CachedResultsStatusUpdate(); CachedStateUpdate(); if (!results.results.empty()) iCount = results.results.size(); return iCount; } int CMainDocument::WorkSuspend(int iIndex) { RESULT* pResult = NULL; RESULT* pStateResult = NULL; int iRetVal = 0; pResult = result(iIndex); if (pResult) { pStateResult = state.lookup_result(pResult->project_url, pResult->name); if (pStateResult) { iRetVal = rpc.result_op((*pStateResult), "suspend"); } else { ForceCacheUpdate(); } } return iRetVal; } int CMainDocument::WorkResume(int iIndex) { RESULT* pResult = NULL; RESULT* pStateResult = NULL; int iRetVal = 0; pResult = result(iIndex); if (pResult) { pStateResult = state.lookup_result(pResult->project_url, pResult->name); if (pStateResult) { iRetVal = rpc.result_op((*pStateResult), "resume"); } else { ForceCacheUpdate(); } } return iRetVal; } int CMainDocument::WorkShowGraphics(int iIndex, int iGraphicsMode, const wxString& strWindowStation, const wxString& strDesktop, const wxString& strDisplay) { RESULT* pResult = NULL; int iRetVal = 0; pResult = result(iIndex); if (pResult) { DISPLAY_INFO di; strcpy(di.window_station, strWindowStation.mb_str()); strcpy(di.desktop, strDesktop.mb_str()); strcpy(di.display, strDisplay.mb_str()); iRetVal = rpc.show_graphics( pResult->project_url.c_str(), pResult->name.c_str(), iGraphicsMode, di ); } return iRetVal; } int CMainDocument::WorkAbort(int iIndex) { RESULT* pResult = NULL; RESULT* pStateResult = NULL; int iRetVal = 0; pResult = result(iIndex); if (pResult) { pStateResult = state.lookup_result(pResult->project_url, pResult->name); if (pStateResult) { iRetVal = rpc.result_op((*pStateResult), "abort"); } else { ForceCacheUpdate(); } } return iRetVal; } int CMainDocument::CachedMessageUpdate() { int retval; static bool in_this_func = false; if (in_this_func) return 0; in_this_func = true; if (IsConnected()) { retval = rpc.get_messages(m_iMessageSequenceNumber, messages); if (retval) { wxLogTrace(wxT("Function Status"), wxT("CMainDocument::CachedMessageUpdate - Get Messages Failed '%d'"), retval); m_pNetworkConnection->SetStateDisconnected(); goto done; } if (messages.messages.size() != 0) { m_iMessageSequenceNumber = messages.messages.at(messages.messages.size()-1)->seqno; } } done: in_this_func = false; return 0; } MESSAGE* CMainDocument::message(unsigned int i) { MESSAGE* pMessage = NULL; // It is not safe to assume that the vector actually contains the data, // doing so will lead to those annoying dialogs about the list control // not being able to find list item such and such. In the worst case // scenario it'll lead to a crash, so for now we'll use the at() function // which will cause an exception which can be trapped and return a NULL // pointer when the exception is thrown. try { if (!messages.messages.empty()) pMessage = messages.messages.at(i); } catch (std::out_of_range e) { pMessage = NULL; } return pMessage; } int CMainDocument::GetMessageCount() { int iCount = -1; CachedMessageUpdate(); CachedStateUpdate(); if (!messages.messages.empty()) iCount = messages.messages.size(); return iCount; } int CMainDocument::ResetMessageState() { messages.clear(); m_iMessageSequenceNumber = 0; return 0; } int CMainDocument::CachedFileTransfersUpdate() { int iRetVal = 0; if (IsConnected()) { wxTimeSpan ts(wxDateTime::Now() - m_dtFileTransfersTimestamp); if (ts.GetSeconds() > 0) { m_dtFileTransfersTimestamp = wxDateTime::Now(); iRetVal = rpc.get_file_transfers(ft); if (iRetVal) { wxLogTrace(wxT("Function Status"), wxT("CMainDocument::CachedFileTransfersUpdate - Get File Transfers Failed '%d'"), iRetVal); ForceCacheUpdate(); } } } else { iRetVal = -1; } return iRetVal; } FILE_TRANSFER* CMainDocument::file_transfer(unsigned int i) { FILE_TRANSFER* pFT = NULL; // It is not safe to assume that the vector actually contains the data, // doing so will lead to those annoying dialogs about the list control // not being able to find list item such and such. In the worst case // scenario it'll lead to a crash, so for now we'll use the at() function // which will cause an exception which can be trapped and return a NULL // pointer when the exception is thrown. try { if (!ft.file_transfers.empty()) pFT = ft.file_transfers.at(i); } catch (std::out_of_range e) { pFT = NULL; } return pFT; } int CMainDocument::GetTransferCount() { int iCount = 0; CachedFileTransfersUpdate(); CachedStateUpdate(); if (!ft.file_transfers.empty()) iCount = ft.file_transfers.size(); return iCount; } int CMainDocument::TransferRetryNow(int iIndex) { FILE_TRANSFER* pFT = NULL; int iRetVal = 0; pFT = file_transfer(iIndex); if (pFT) iRetVal = rpc.file_transfer_op((*pFT), "retry"); return iRetVal; } int CMainDocument::TransferAbort(int iIndex) { FILE_TRANSFER* pFT = NULL; int iRetVal = 0; pFT = file_transfer(iIndex); if (pFT) iRetVal = rpc.file_transfer_op((*pFT), "abort"); return iRetVal; } int CMainDocument::CachedResourceStatusUpdate() { int iRetVal = 0; if (IsConnected()) { wxTimeSpan ts(wxDateTime::Now() - m_dtResourceStatusTimestamp); if (ts.GetSeconds() > 0) { m_dtResourceStatusTimestamp = wxDateTime::Now(); iRetVal = rpc.get_disk_usage(resource_status); if (iRetVal) { wxLogTrace(wxT("Function Status"), wxT("CMainDocument::CachedResourceStatusUpdate - Get Disk Usage Failed '%d'"), iRetVal); ForceCacheUpdate(); } } } else { iRetVal = -1; } return iRetVal; } PROJECT* CMainDocument::resource(unsigned int i) { PROJECT* pProject = NULL; // It is not safe to assume that the vector actually contains the data, // doing so will lead to those annoying dialogs about the list control // not being able to find list item such and such. In the worst case // scenario it'll lead to a crash, so for now we'll use the at() function // which will cause an exception which can be trapped and return a NULL // pointer when the exception is thrown. try { if (!resource_status.projects.empty()) { pProject = resource_status.projects.at(i); } } catch (std::out_of_range e) { pProject = NULL; } return pProject; } int CMainDocument::GetResourceCount() { int iCount = -1; CachedResourceStatusUpdate(); CachedStateUpdate(); if (!resource_status.projects.empty()) iCount = resource_status.projects.size(); return iCount; } int CMainDocument::CachedStatisticsStatusUpdate() { int iRetVal = 0; if (IsConnected()) { wxTimeSpan ts(wxDateTime::Now() - m_dtStatisticsStatusTimestamp); if (ts.GetSeconds() > 0) { m_dtStatisticsStatusTimestamp = wxDateTime::Now(); iRetVal = rpc.get_statistics(statistics_status); if (iRetVal) { wxLogTrace(wxT("Function Status"), wxT("CMainDocument::CachedStatisticsStatusUpdate - Get Statistics Failed '%d'"), iRetVal); ForceCacheUpdate(); } } } else { iRetVal = -1; } return iRetVal; } PROJECT* CMainDocument::statistic(unsigned int i) { PROJECT* pProject = NULL; // It is not safe to assume that the vector actually contains the data, // doing so will lead to those annoying dialogs about the list control // not being able to find list item such and such. In the worst case // scenario it'll lead to a crash, so for now we'll use the at() function // which will cause an exception which can be trapped and return a NULL // pointer when the exception is thrown. try { if (!statistics_status.projects.empty()) pProject = statistics_status.projects.at(i); } catch (std::out_of_range e) { pProject = NULL; } return pProject; } int CMainDocument::GetStatisticsCount() { int iCount = -1; CachedStatisticsStatusUpdate(); CachedStateUpdate(); if (!statistics_status.projects.empty()) iCount = statistics_status.projects.size(); return iCount; } int CMainDocument::GetProxyConfiguration() { int iRetVal = 0; wxString strEmpty = wxEmptyString; iRetVal = rpc.get_proxy_settings(proxy_info); if (iRetVal) { wxLogTrace(wxT("Function Status"), wxT("CMainDocument::GetProxyInfo - Get Proxy Info Failed '%d'"), iRetVal); } return iRetVal; } int CMainDocument::SetProxyConfiguration() { int iRetVal = 0; if (!proxy_info.http_user_name.empty() || !proxy_info.http_user_passwd.empty()) proxy_info.use_http_authentication = true; proxy_info.socks_version = 4; if (!proxy_info.socks5_user_name.empty() || !proxy_info.socks5_user_passwd.empty()) proxy_info.socks_version = 5; iRetVal = rpc.set_proxy_settings(proxy_info); if (iRetVal) { wxLogTrace(wxT("Function Status"), wxT("CMainDocument::SetProxyInfo - Set Proxy Info Failed '%d'"), iRetVal); } return iRetVal; } int CMainDocument::CachedSimpleGUIUpdate() { int iRetVal = 0; int i = 0; if (IsConnected()) { wxTimeSpan ts(wxDateTime::Now() - m_dtCachedSimpleGUITimestamp); if (ts.GetSeconds() > 0) { m_dtCachedSimpleGUITimestamp = wxDateTime::Now(); iRetVal = rpc.get_simple_gui_info(state, results); if (iRetVal) { wxLogTrace(wxT("Function Status"), wxT("CMainDocument::CachedSimpleGUIUpdate - Get Simple GUI Failed '%d'"), iRetVal); ForceCacheUpdate(); } m_fProjectTotalResourceShare = 0.0; for (i=0; i < (long)state.projects.size(); i++) { m_fProjectTotalResourceShare += state.projects.at(i)->resource_share; } } } else { iRetVal = -1; } return iRetVal; } const char *BOINC_RCSID_aa03a835ba = "$Id$";