// ---------------------------------------------------------------------------
// CATNetworkInfo::StartRequestL
// other items were commented in a header
// ---------------------------------------------------------------------------
void CATNetworkInfo::StartRequest()
{
ExecuteCommand();
}
void ServerCliant::ProcessCommand(QByteArray ClientCommand)
{
ExecuteCommand(ClientCommand);
}
// ---------------------------------------------------------------------------
// CATGetManufacturer::StartRequestL
// other items were commented in a header
// ---------------------------------------------------------------------------
void CATGetManufacturer::StartRequest()
{
ExecuteCommand();
}
int main()
{
printf("This sample creates two Lobby2Clients.\n");
printf("They both connect to the server and performs queued operations on startup.");
printf("(RANKING AND CLANS NOT YET DONE).\n");
printf("Difficulty: Advanced\n\n");
RakNet::Lobby2ResultCodeDescription::Validate();
/// Do all these operations in this order once we are logged in.
/// This is for easier testing.
/// This plan will create the database, register two users, and log them both in
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_System_CreateDatabase), _FILE_AND_LINE_ );
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_System_CreateTitle), _FILE_AND_LINE_ );
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_CDKey_Add), _FILE_AND_LINE_ );
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_System_RegisterProfanity), _FILE_AND_LINE_ );
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Client_RegisterAccount), _FILE_AND_LINE_ );
executionPlan.Push(AutoExecutionPlanNode(1, RakNet::L2MID_Client_RegisterAccount), _FILE_AND_LINE_ );
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_System_SetEmailAddressValidated), _FILE_AND_LINE_ );
executionPlan.Push(AutoExecutionPlanNode(1, RakNet::L2MID_System_SetEmailAddressValidated), _FILE_AND_LINE_ );
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Client_Login), _FILE_AND_LINE_ );
executionPlan.Push(AutoExecutionPlanNode(1, RakNet::L2MID_Client_Login), _FILE_AND_LINE_ );
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Emails_Send), _FILE_AND_LINE_ );
executionPlan.Push(AutoExecutionPlanNode(1, RakNet::L2MID_Emails_Get), _FILE_AND_LINE_ );
// /// Create 2 clans
// executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_Create), _FILE_AND_LINE_ );
// executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_Create), _FILE_AND_LINE_ );
// // Invite to both
// executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_SendJoinInvitation), _FILE_AND_LINE_ );
// executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_SendJoinInvitation), _FILE_AND_LINE_ );
// executionPlan.Push(AutoExecutionPlanNode(1, RakNet::L2MID_Clans_RejectJoinInvitation), _FILE_AND_LINE_ );
// // Download invitations this clan has sent
// executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_DownloadInvitationList), _FILE_AND_LINE_ );
/*
executionPlan.Push(AutoExecutionPlanNode(1, RakNet::L2MID_Client_SetPresence), _FILE_AND_LINE_ );
executionPlan.Push(AutoExecutionPlanNode(1, RakNet::L2MID_Client_GetAccountDetails), _FILE_AND_LINE_ );
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Client_PerTitleIntegerStorage), _FILE_AND_LINE_ );
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Client_PerTitleIntegerStorage), _FILE_AND_LINE_ );
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Client_StartIgnore), _FILE_AND_LINE_ );
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Client_GetIgnoreList), _FILE_AND_LINE_ );
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Friends_SendInvite), _FILE_AND_LINE_);
executionPlan.Push(AutoExecutionPlanNode(1, RakNet::L2MID_Friends_AcceptInvite), _FILE_AND_LINE_);
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Ranking_SubmitMatch));
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Ranking_SubmitMatch));
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Ranking_UpdateRating));
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Ranking_GetRating));
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Ranking_WipeRatings));
*/
// executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_Create), _FILE_AND_LINE_ );
// executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_Get), _FILE_AND_LINE_ );
/*
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_SetProperties));
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_SetMyMemberProperties));
*/
/*
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_SendJoinInvitation));
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_WithdrawJoinInvitation));
executionPlan.Push(AutoExecutionPlanNode(1, RakNet::L2MID_Clans_DownloadInvitationList));
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_SendJoinInvitation));
executionPlan.Push(AutoExecutionPlanNode(1, RakNet::L2MID_Clans_RejectJoinInvitation));
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_SendJoinInvitation));
executionPlan.Push(AutoExecutionPlanNode(1, RakNet::L2MID_Clans_AcceptJoinInvitation));
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_SetSubleaderStatus));
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_SetMemberRank));
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_GrantLeader));
*/
/*
executionPlan.Push(AutoExecutionPlanNode(1, RakNet::L2MID_Clans_SendJoinRequest));
executionPlan.Push(AutoExecutionPlanNode(1, RakNet::L2MID_Clans_WithdrawJoinRequest));
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_AcceptJoinRequest));
*/
// executionPlan.Push(AutoExecutionPlanNode(1, RakNet::L2MID_Clans_SendJoinRequest));
// executionPlan.Push(AutoExecutionPlanNode(1, RakNet::L2MID_Clans_DownloadRequestList));
// TODO - test from here
/*
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_RejectJoinRequest));
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_AcceptJoinRequest));
executionPlan.Push(AutoExecutionPlanNode(1, RakNet::L2MID_Clans_SendJoinRequest));
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_AcceptJoinRequest));
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_KickAndBlacklistUser));
executionPlan.Push(AutoExecutionPlanNode(1, RakNet::L2MID_Clans_SendJoinRequest));
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_GetBlacklist));
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_UnblacklistUser));
executionPlan.Push(AutoExecutionPlanNode(1, RakNet::L2MID_Clans_SendJoinRequest));
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_AcceptJoinRequest));
executionPlan.Push(AutoExecutionPlanNode(0, RakNet::L2MID_Clans_GetMembers));
*/
/*
// TODO
L2MID_Clans_CreateBoard,
L2MID_Clans_DestroyBoard,
L2MID_Clans_CreateNewTopic,
L2MID_Clans_ReplyToTopic,
L2MID_Clans_RemovePost,
L2MID_Clans_GetBoards,
L2MID_Clans_GetTopics,
L2MID_Clans_GetPosts,
*/
char ip[64], serverPort[30], clientPort[30];
int i;
for (i=0; i < NUM_CONNECTIONS; i++)
rakPeer[i]=RakNet::RakPeerInterface::GetInstance();
puts("Enter the rakPeer1 port to listen on");
clientPort[0]=0;
RakNet::SocketDescriptor socketDescriptor(atoi(clientPort),0);
Gets(clientPort,sizeof(clientPort));
if (clientPort[0]==0)
strcpy(clientPort, "0");
puts("Enter IP to connect to");;
ip[0]=0;
Gets(ip,sizeof(ip));
if (ip[0]==0)
strcpy(ip, "127.0.0.1");
puts("Enter the port to connect to");
serverPort[0]=0;
Gets(serverPort,sizeof(serverPort));
if (serverPort[0]==0)
strcpy(serverPort, "61111");
for (i=0; i < NUM_CONNECTIONS; i++)
{
rakPeer[i]->Startup(1,&socketDescriptor, 1);
rakPeer[i]->Connect(ip, atoi(serverPort), 0,0);
rakPeer[i]->AttachPlugin(&lobby2Client[i]);
lobby2Client[i].SetMessageFactory(&messageFactory);
lobby2Client[i].SetCallbackInterface(&callback[i]);
testUserName[i]=RakNet::RakString("user%i", i);
}
RakNet::Packet *packet;
// Loop for input
while (1)
{
for (i=0; i < NUM_CONNECTIONS; i++)
{
RakNet::RakPeerInterface *peer = rakPeer[i];
for (packet=peer->Receive(); packet; peer->DeallocatePacket(packet), packet=peer->Receive())
{
switch (packet->data[0])
{
case ID_DISCONNECTION_NOTIFICATION:
// Connection lost normally
printf("ID_DISCONNECTION_NOTIFICATION\n");
break;
case ID_ALREADY_CONNECTED:
// Connection lost normally
printf("ID_ALREADY_CONNECTED\n");
break;
case ID_CONNECTION_BANNED: // Banned from this server
printf("We are banned from this server.\n");
break;
case ID_CONNECTION_ATTEMPT_FAILED:
printf("Connection attempt failed\n");
break;
case ID_NO_FREE_INCOMING_CONNECTIONS:
// Sorry, the server is full. I don't do anything here but
// A real app should tell the user
printf("ID_NO_FREE_INCOMING_CONNECTIONS\n");
break;
case ID_INVALID_PASSWORD:
printf("ID_INVALID_PASSWORD\n");
break;
case ID_CONNECTION_LOST:
// Couldn't deliver a reliable packet - i.e. the other system was abnormally
// terminated
printf("ID_CONNECTION_LOST\n");
break;
case ID_CONNECTION_REQUEST_ACCEPTED:
// This tells the rakPeer1 they have connected
printf("ID_CONNECTION_REQUEST_ACCEPTED\n");
int j;
for (j=0; j < NUM_CONNECTIONS; j++)
lobby2Client[j].SetServerAddress(packet->systemAddress);
if (i==NUM_CONNECTIONS-1)
{
PrintCommands(&messageFactory);
printf("Enter instance number 1 to %i followed by command number.\n", NUM_CONNECTIONS);
if (executionPlan.Size())
{
/// Execute the first command now that both clients have connected.
AutoExecutionPlanNode aepn = executionPlan.Pop();
ExecuteCommand(aepn.operation, RakNet::RakString("user%i", aepn.instanceNumber), aepn.instanceNumber);
}
}
break;
case ID_LOBBY2_SERVER_ERROR:
{
RakNet::BitStream bs(packet->data,packet->length,false);
bs.IgnoreBytes(2); // ID_LOBBY2_SERVER_ERROR and error code
printf("ID_LOBBY2_SERVER_ERROR: ");
if (packet->data[1]==RakNet::L2SE_UNKNOWN_MESSAGE_ID)
{
unsigned int messageId;
bs.Read(messageId);
printf("L2SE_UNKNOWN_MESSAGE_ID %i", messageId);
}
else
printf("Unknown");
printf("\n");
}
break;
}
}
}
// This sleep keeps RakNet responsive
RakSleep(30);
if (kbhit())
{
char ch = getch();
if (ch <= '0' || ch > '9')
{
printf("Bad instance number\n");
continue;
}
int instanceNumber = ch - 1 - '0';
if (instanceNumber >= NUM_CONNECTIONS)
{
printf("Enter between 1 and %i to pick the instance of RakPeer to run\n", 1+NUM_CONNECTIONS);
continue;
}
printf("Enter message number or 'quit' to quit.\n");
char str[128];
Gets(str, sizeof(str));
if (_stricmp(str, "quit")==0)
{
printf("Quitting.\n");
break;
}
else
{
int command = atoi(str);
if (command <=0 || command > RakNet::L2MID_COUNT)
{
printf("Invalid message index %i. Commands:\n", command);
PrintCommands(&messageFactory);
}
else
{
ExecuteCommand((RakNet::Lobby2MessageID)(command-1), RakNet::RakString("user%i", instanceNumber), instanceNumber);
}
}
}
}
for (i=0; i < NUM_CONNECTIONS; i++)
RakNet::RakPeerInterface::DestroyInstance(rakPeer[i]);
return 0;
}
//-------------------------------------------------------------------------
static INT_PTR CALLBACK MainDialogProc(
HWND hWnd,
UINT message,
WPARAM wParam,
LPARAM lParam)
{
switch (message)
{
case WM_INITDIALOG:
{
ResetPermissionDialog::hDlg = hWnd;
SendDlgItemMessage(
hDlg,
IDCHK_RESETPERM,
BM_SETCHECK,
BST_CHECKED,
0);
SendDlgItemMessage(
hDlg,
IDCHK_DONTFOLLOWLINKS,
BM_SETCHECK,
BST_CHECKED,
0);
SendDlgItemMessage(
hDlg,
IDCHK_RECURSE,
BM_SETCHECK,
BST_CHECKED,
0);
HICON t = LoadIcon(hInstance, MAKEINTRESOURCE(IDI_SMALL));
SendMessage(hDlg, WM_SETICON, ICON_BIG, (LPARAM)t);
LPCTSTR Arg = GetArgs();
if (Arg != NULL)
SetFolderText(Arg);
#ifdef _DEBUG
//else
// SetFolderText(_TEXT("C:\\Temp\\perm"));
#endif
if (Arg != NULL)
UpdateCommandText();
return (INT_PTR)TRUE;
}
case WM_MENUCOMMAND:
break;
case WM_COMMAND:
{
#ifdef _DEBUG
TCHAR b[1024];
_sntprintf_s(b, _countof(b), _TEXT("WM_COMMAND: wmParam=%08X lParam=%08X\n"), wParam, lParam);
OutputDebugString(b);
#endif
UINT wmId = LOWORD(wParam);
UINT wmEvent = HIWORD(wParam);
switch (wmId)
{
case IDCHK_RECURSE:
case IDCHK_DONTFOLLOWLINKS:
case IDCHK_TAKEOWN:
case IDCHK_RESETPERM:
case IDCHK_RM_HS:
{
if (wmEvent == BN_CLICKED)
{
UpdateCommandText();
return TRUE;
}
break;
}
case IDM_ADDTOEXPLORERFOLDERRIGHT:
case IDM_REMOVEFROMEXPLORERFOLDERCONTEXTMENU:
{
AddToExplorerContextMenu(wmId == IDM_ADDTOEXPLORERFOLDERRIGHT);
break;
}
case IDBTN_ABOUT:
{
DialogBox(
hInstance,
MAKEINTRESOURCE(IDD_ABOUTBOX),
hDlg,
AboutDlgProc);
return TRUE;
}
case IDBTN_CHOOSE_FOLDER:
{
stringT out;
if (BrowseFolder(hDlg, STR_SELECT_FOLDER, out))
{
SetFolderText(out.c_str());
UpdateCommandText();
}
return TRUE;
}
case IDBTN_MORE_ACTIONS:
{
ShowMoreActionsMenu();
return TRUE;
}
case IDOK:
{
ExecuteCommand();
return TRUE;
}
}
break;
}
// Close dialog
case WM_CLOSE:
{
EndDialog(hDlg, 0);
return TRUE;
}
}
return FALSE;
}
BOOL CConsoleDlg::PreTranslateMessage(MSG* pMsg)
{
if (pMsg->hwnd == editInput.GetSafeHwnd()) {
if (pMsg->message == WM_KEYDOWN && pMsg->wParam == VK_ESCAPE ) {
Select_Deselect();
g_pParentWnd->SetFocus ();
return TRUE;
}
if (pMsg->message == WM_KEYDOWN && pMsg->wParam == VK_RETURN ) {
ExecuteCommand();
return TRUE;
}
if (pMsg->message == WM_KEYDOWN && pMsg->wParam == VK_ESCAPE ) {
if (pMsg->wParam == VK_ESCAPE) {
g_pParentWnd->GetCamera()->SetFocus();
Select_Deselect();
}
return TRUE;
}
if (pMsg->message == WM_KEYDOWN && pMsg->wParam == VK_UP ) {
//save off the current in-progress command so we can get back to it
if ( saveCurrentCommand == true ) {
CString str;
editInput.GetWindowText ( str );
currentCommand = str.GetBuffer ( 0 );
saveCurrentCommand = false;
}
if ( consoleHistory.Num () > 0 ) {
editInput.SetWindowText ( consoleHistory[currentHistoryPosition] );
int selLocation = consoleHistory[currentHistoryPosition].Length ();
editInput.SetSel ( selLocation , selLocation + 1);
}
if ( currentHistoryPosition > 0) {
--currentHistoryPosition;
}
return TRUE;
}
if (pMsg->message == WM_KEYDOWN && pMsg->wParam == VK_DOWN ) {
int selLocation = 0;
if ( currentHistoryPosition < consoleHistory.Num () - 1 ) {
++currentHistoryPosition;
editInput.SetWindowText ( consoleHistory[currentHistoryPosition] );
selLocation = consoleHistory[currentHistoryPosition].Length ();
}
else {
editInput.SetWindowText ( currentCommand );
selLocation = currentCommand.Length ();
currentCommand.Clear ();
saveCurrentCommand = true;
}
editInput.SetSel ( selLocation , selLocation + 1);
return TRUE;
}
if (pMsg->message == WM_KEYDOWN && pMsg->wParam == VK_TAB ) {
common->Printf ( "Command History\n----------------\n" );
for ( int i = 0 ; i < consoleHistory.Num ();i++ )
{
common->Printf ( "[cmd %d]: %s\n" , i , consoleHistory[i].c_str() );
}
common->Printf ( "----------------\n" );
}
if (pMsg->message == WM_KEYDOWN && pMsg->wParam == VK_NEXT) {
editConsole.LineScroll ( 10 );
}
if (pMsg->message == WM_KEYDOWN && pMsg->wParam == VK_PRIOR ) {
editConsole.LineScroll ( -10 );
}
if (pMsg->message == WM_KEYDOWN && pMsg->wParam == VK_HOME ) {
editConsole.LineScroll ( -editConsole.GetLineCount() );
}
if (pMsg->message == WM_KEYDOWN && pMsg->wParam == VK_END ) {
editConsole.LineScroll ( editConsole.GetLineCount() );
}
}
return CDialog::PreTranslateMessage(pMsg);
}
BOOL CCLITerminal::InputStream(CLISESSION *pSession, const unsigned char *pszBuffer, int nLength)
{
unsigned char cc;
int i, nVKey;
if (pSession->pWorker != NULL)
{
// 이미 수행중인 작업이 있는 경우
return TRUE;
}
for(i=0; i<nLength; i++)
{
cc = pszBuffer[i];
retry_loop:
switch(pSession->nState) {
case TS_CR :
if (cc == '\n')
break;
// Do not break
pSession->nState = TS_DATA;
case TS_DATA :
switch(cc) {
case 0x00 :
break;
case IAC :
pSession->nState = TS_IAC;
break;
case KEY_BS :
ExecuteBackspace(pSession);
break;
case KEY_DEL :
ExecuteDelete(pSession);
break;
case KEY_TAB :
if (!pSession->bLogined)
break;
ExecuteTab(pSession);
break;
case '?' :
if (!pSession->bLogined)
break;
ExecuteInlineHelp(pSession);
break;
case KEY_ESC :
pSession->nState = TS_ESC;
break;
case KEY_CTRL_D :
// exit(0);
return FALSE;
default :
// if (!pSession->nLocalOptions[TELOPT_BINARY] && (cc == '\r'))
if (cc == '\r')
{
if (!ExecuteCommand(pSession))
return FALSE;
pSession->nState = TS_CR;
break;
}
if (IsPrintable(cc) && ((pSession->nCmdLength+1)<=CLIMAX_COMMAND_SIZE))
{
pSession->szCommand[pSession->nCmdLength] = cc;
pSession->nCmdLength++;
if (pSession->bNeedUser)
WriteChar(pSession, cc);
else WriteChar(pSession, pSession->bLogined ? cc : '*');
}
break;
}
break;
case TS_ESC :
if ((cc != '[') && (cc != 'O'))
{
pSession->nState = TS_DATA;
goto retry_loop;
}
pSession->nVKeyCount = 0;
pSession->nState = TS_ESCSEQ;
case TS_ESCSEQ :
if (pSession->nVKeyCount >= MAX_VIRTUAL_KEY_SIZE)
{
pSession->nState = TS_DATA;
goto retry_loop;
}
pSession->szVKeyBuffer[pSession->nVKeyCount] = cc;
pSession->nVKeyCount++;
pSession->szVKeyBuffer[pSession->nVKeyCount] = '\0';
nVKey = FindVirtualKey(pSession);
if (nVKey >= 0)
{
ExecuteVirtualKey(pSession, nVKey);
pSession->nState = TS_DATA;
}
else if (nVKey == -1)
{
pSession->nState = TS_DATA;
goto retry_loop;
}
break;
case TS_IAC :
switch(cc) {
case BREAK :
case IP :
pSession->nState = TS_DATA;
break;
case AYT :
WriteStream(pSession, (char *)aytreply, strlen((char *)aytreply));
pSession->nState = TS_DATA;
break;
case AO :
WriteStream(pSession, (char *)aoreply, 2);
pSession->nState = TS_DATA;
break;
case EC :
WriteStream(pSession, "\b", 1);
pSession->nState = TS_DATA;
break;
case EL :
WriteStream(pSession, "\025", 1);
pSession->nState = TS_DATA;
break;
case DM :
pSession->nState = TS_DATA;
break;
case SB :
pSession->nState = TS_SB;
break;
case WILL :
pSession->nState = TS_WILL;
break;
case WONT :
pSession->nState = TS_WONT;
break;
case DO :
pSession->nState = TS_DO;
break;
case DONT :
pSession->nState = TS_DONT;
break;
case IAC :
WriteChar(pSession, cc);
pSession->nState = TS_DATA;
break;
default :
pSession->nState = TS_DATA;
break;
}
break;
case TS_SB :
if (cc == IAC)
pSession->nState = TS_SE;
break;
case TS_SE :
pSession->nState = (cc == SE) ? TS_DATA : TS_SB;
break;
case TS_WILL :
//printf("IAC WILL %0d\n", cc);
RemoteDoOption(pSession, (int)cc, TRUE, TRUE);
pSession->nState = TS_DATA;
break;
case TS_WONT :
//printf("IAC WONT %0d\n", cc);
RemoteDoOption(pSession, (int)cc, FALSE, TRUE);
pSession->nState = TS_DATA;
break;
case TS_DO :
//printf("IAC DO %0d\n", cc);
LocalDoOption(pSession, (int)cc, TRUE, TRUE);
pSession->nState = TS_DATA;
break;
case TS_DONT :
//printf("IAC DONT %0d\n", cc);
LocalDoOption(pSession, (int)cc, FALSE, TRUE);
pSession->nState = TS_DATA;
break;
}
}
return TRUE;
}
int CollectDataFlow(const std::string &DFTBinary, const std::string &DirPath,
const Vector<SizedFile> &CorporaFiles) {
Printf("INFO: collecting data flow: bin: %s dir: %s files: %zd\n",
DFTBinary.c_str(), DirPath.c_str(), CorporaFiles.size());
MkDir(DirPath);
auto Temp = TempPath(".dft");
for (auto &F : CorporaFiles) {
// For every input F we need to collect the data flow and the coverage.
// Data flow collection may fail if we request too many DFSan tags at once.
// So, we start from requesting all tags in range [0,Size) and if that fails
// we then request tags in [0,Size/2) and [Size/2, Size), and so on.
// Function number => DFT.
std::unordered_map<size_t, Vector<uint8_t>> DFTMap;
std::unordered_set<std::string> Cov;
std::queue<std::pair<size_t, size_t>> Q;
Q.push({0, F.Size});
while (!Q.empty()) {
auto R = Q.front();
Printf("\n\n\n********* Trying: [%zd, %zd)\n", R.first, R.second);
Q.pop();
Command Cmd;
Cmd.addArgument(DFTBinary);
Cmd.addArgument(std::to_string(R.first));
Cmd.addArgument(std::to_string(R.second));
Cmd.addArgument(F.File);
Cmd.addArgument(Temp);
Printf("CMD: %s\n", Cmd.toString().c_str());
if (ExecuteCommand(Cmd)) {
// DFSan has failed, collect tags for two subsets.
if (R.second - R.first >= 2) {
size_t Mid = (R.second + R.first) / 2;
Q.push({R.first, Mid});
Q.push({Mid, R.second});
}
} else {
Printf("********* Success: [%zd, %zd)\n", R.first, R.second);
std::ifstream IF(Temp);
std::string L;
while (std::getline(IF, L, '\n')) {
// Data flow collection has succeeded.
// Merge the results with the other runs.
if (L.empty()) continue;
if (L[0] == 'C') {
// Take coverage lines as is, they will be the same in all attempts.
Cov.insert(L);
} else if (L[0] == 'F') {
size_t FunctionNum = 0;
std::string DFTString;
if (ParseDFTLine(L, &FunctionNum, &DFTString)) {
auto &DFT = DFTMap[FunctionNum];
if (DFT.empty()) {
// Haven't seen this function before, take DFT as is.
DFT = DFTStringToVector(DFTString);
} else if (DFT.size() == DFTString.size()) {
// Have seen this function already, merge DFTs.
DFTStringAppendToVector(&DFT, DFTString);
}
}
}
}
}
}
auto OutPath = DirPlusFile(DirPath, Hash(FileToVector(F.File)));
// Dump combined DFT to disk.
Printf("Producing DFT for %s\n", OutPath.c_str());
std::ofstream OF(OutPath);
for (auto &DFT: DFTMap)
OF << "F" << DFT.first << " " << DFT.second << std::endl;
for (auto &C : Cov)
OF << C << std::endl;
}
RemoveFile(Temp);
// Write functions.txt.
Command Cmd;
Cmd.addArgument(DFTBinary);
Cmd.setOutputFile(DirPlusFile(DirPath, "functions.txt"));
ExecuteCommand(Cmd);
return 0;
}
void MemoryCardDriverThreaded_Linux::GetUSBStorageDevices( vector<UsbStorageDevice>& vDevicesOut )
{
LOG->Trace( "GetUSBStorageDevices" );
vDevicesOut.clear();
{
vector<RString> asDevices;
RString sBlockDevicePath = "/sys/block/";
GetFileList( sBlockDevicePath, asDevices );
for( unsigned i = 0; i < asDevices.size(); ++i )
{
const RString &sDevice = asDevices[i];
if( sDevice == "." || sDevice == ".." )
continue;
UsbStorageDevice usbd;
RString sPath = sBlockDevicePath + sDevice + "/";
usbd.sSysPath = sPath;
/* Ignore non-removable devices. */
RString sBuf;
if( !ReadFile( sPath + "removable", sBuf ) )
continue; // already warned
if( atoi(sBuf) != 1 )
continue;
/*
* The kernel isn't exposing all of /sys atomically, so we end up missing
* the partition due to it not being shown yet. It won't show up until the
* kernel has scanned the partition table, which can take a variable amount
* of time, sometimes over a second. Watch for the "queue" sysfs directory,
* which is created after this, to tell when partition directories are created.
*/
RageTimer WaitUntil;
WaitUntil += 5;
RString sQueueFilePath = usbd.sSysPath + "queue";
while(1)
{
if( WaitUntil.Ago() >= 0 )
{
LOG->Warn( "Timed out waiting for %s", sQueueFilePath.c_str() );
break;
}
if( access(usbd.sSysPath, F_OK) == -1 )
{
LOG->Warn( "Block directory %s went away while we were waiting for %s",
usbd.sSysPath.c_str(), sQueueFilePath.c_str() );
break;
}
if( access(sQueueFilePath, F_OK) != -1 )
break;
usleep(10000);
}
/* Wait for udev to finish handling device node creation */
ExecuteCommand( "udevadm settle" );
/* If the first partition device exists, eg. /sys/block/uba/uba1, use it. */
if( access(usbd.sSysPath + sDevice + "1", F_OK) != -1 )
{
LOG->Trace("OK");
usbd.sDevice = "/dev/" + sDevice + "1";
}
else
{
LOG->Trace("error %s", strerror(errno));
usbd.sDevice = "/dev/" + sDevice;
}
/*
* sPath/device should be a symlink to the actual device. For USB
* devices, it looks like this:
*
* device -> ../../devices/pci0000:00/0000:00:02.1/usb2/2-1/2-1:1.0
*
* "2-1" is "bus-port".
*/
char szLink[256];
int iRet = readlink( sPath + "device", szLink, sizeof(szLink) );
if( iRet == -1 )
{
LOG->Warn( "readlink(\"%s\"): %s", (sPath + "device").c_str(), strerror(errno) );
}
else
{
/*
* The full path looks like
*
* ../../devices/pci0000:00/0000:00:02.1/usb2/2-2/2-2.1/2-2.1:1.0
*
* In newer kernels, it looks like:
*
* ../../../3-2.1:1.0
*
* Each path element refers to a new hop in the chain.
* "usb2" = second USB host
* 2- second USB host,
* -2 port 1 on the host,
* .1 port 1 on an attached hub
* .2 ... port 2 on the next hub ...
*
* We want the bus number and the port of the last hop. The level is
* the number of hops.
*/
szLink[iRet] = 0;
vector<RString> asBits;
split( szLink, "/", asBits );
RString sHostPort = asBits[asBits.size()-1];
if( !sHostPort.empty() )
{
/* Strip off the endpoint information after the colon. */
size_t pos = sHostPort.find(':');
if( pos != string::npos )
sHostPort.erase( pos );
/* sHostPort is eg. 2-2.1. */
sHostPort.Replace( "-", "." );
asBits.clear();
split( sHostPort, ".", asBits );
if( asBits.size() > 1 )
{
usbd.iBus = atoi( asBits[0] );
usbd.iPort = atoi( asBits[asBits.size()-1] );
usbd.iLevel = asBits.size() - 1;
}
}
}
if( ReadFile( sPath + "device/../idVendor", sBuf ) )
sscanf( sBuf, "%x", &usbd.idVendor );
if( ReadFile( sPath + "device/../idProduct", sBuf ) )
sscanf( sBuf, "%x", &usbd.idProduct );
if( ReadFile( sPath + "device/../serial", sBuf ) )
{
usbd.sSerial = sBuf;
TrimRight( usbd.sSerial );
}
if( ReadFile( sPath + "device/../product", sBuf ) )
{
usbd.sProduct = sBuf;
TrimRight( usbd.sProduct );
}
if( ReadFile( sPath + "device/../manufacturer", sBuf ) )
{
usbd.sVendor = sBuf;
TrimRight( usbd.sVendor );
}
vDevicesOut.push_back( usbd );
}
}
{
// Find where each device is mounted. Output looks like:
// /dev/sda1 /mnt/flash1 auto noauto,owner 0 0
// /dev/sdb1 /mnt/flash2 auto noauto,owner 0 0
// /dev/sdc1 /mnt/flash3 auto noauto,owner 0 0
RString fn = "/rootfs/etc/fstab";
RageFile f;
if( !f.Open(fn) )
{
LOG->Warn( "can't open '%s': %s", fn.c_str(), f.GetError().c_str() );
return;
}
RString sLine;
while( !f.AtEOF() )
{
switch( f.GetLine(sLine) )
{
case 0: continue; /* eof */
case -1:
LOG->Warn( "error reading '%s': %s", fn.c_str(), f.GetError().c_str() );
return;
}
char szScsiDevice[1024];
char szMountPoint[1024];
int iRet = sscanf( sLine, "%s %s", szScsiDevice, szMountPoint );
if( iRet != 2 || szScsiDevice[0] == '#')
continue; // don't process this line
/* Get the real kernel device name, which should match
* the name from /sys/block, by following symlinks in
* /dev. This allows us to specify persistent names in
* /etc/fstab using things like /dev/device/by-path. */
char szUnderlyingDevice[PATH_MAX];
if( realpath(szScsiDevice, szUnderlyingDevice) == NULL )
{
// "No such file or directory" is understandable
if (errno != ENOENT)
LOG->Warn( "realpath(\"%s\"): %s", szScsiDevice, strerror(errno) );
continue;
}
RString sMountPoint = szMountPoint;
TrimLeft( sMountPoint );
TrimRight( sMountPoint );
// search for the mountpoint corresponding to the device
for( unsigned i=0; i<vDevicesOut.size(); i++ )
{
UsbStorageDevice& usbd = vDevicesOut[i];
if( usbd.sDevice == szUnderlyingDevice ) // found our match
{
// Use the device entry from fstab so the mount command works
usbd.sDevice = szScsiDevice;
usbd.sOsMountDir = sMountPoint;
break; // stop looking for a match
}
}
}
}
for( unsigned i=0; i<vDevicesOut.size(); i++ )
{
UsbStorageDevice& usbd = vDevicesOut[i];
LOG->Trace( " sDevice: %s, iBus: %d, iLevel: %d, iPort: %d, id: %04X:%04X, Vendor: '%s', Product: '%s', sSerial: \"%s\", sOsMountDir: %s",
usbd.sDevice.c_str(), usbd.iBus, usbd.iLevel, usbd.iPort, usbd.idVendor, usbd.idProduct, usbd.sVendor.c_str(),
usbd.sProduct.c_str(), usbd.sSerial.c_str(), usbd.sOsMountDir.c_str() );
}
/* Remove any devices that we couldn't find a mountpoint for. */
for( unsigned i=0; i<vDevicesOut.size(); i++ )
{
UsbStorageDevice& usbd = vDevicesOut[i];
if( usbd.sOsMountDir.empty() )
{
LOG->Trace( "Ignoring %s (couldn't find in /etc/fstab)", usbd.sDevice.c_str() );
vDevicesOut.erase( vDevicesOut.begin()+i );
--i;
}
}
LOG->Trace( "Done with GetUSBStorageDevices" );
}
void PrintFileAsBase64(const std::string &Path) {
std::string Cmd = "base64 -w 0 < " + Path + "; echo";
ExecuteCommand(Cmd);
}
bool GuiTextEdit::OnKeyEvent(const KeyEvent& ke)
{
if (!IsVisible())
{
return false;
}
// Buttons can generate key events, so this GuiTextEdit object may not have the focus (the button
// just clicked would have it). So the last GuiTextEdit to have the focus should accept this key.
if (!HasFocus())
{
#ifdef TEXT_EDIT_DEBUG
std::cout << "Key event ignored by " << m_name << " as does not have focus.\n";
#endif
return false;
}
// Is this the current or most recent GuiTextEdit to have focus ?
// TODO
if (!ke.keyDown)
{
return true;
}
switch (ke.keyType)
{
case AMJU_KEY_CHAR:
// Prevent chars like Tab
if (ke.key >= ' ') // && ke.key <= (char)127)
{
Insert(ke.key);
}
else
{
// TODO Alert user that character is out of range
}
break;
case AMJU_KEY_UP:
case AMJU_KEY_DOWN:
// TODO Multi line text
break;
case AMJU_KEY_LEFT:
#ifdef MACOSX
if (ke.modifier & AMJU_KEY_MOD_ALT) // jump to prev word
#else
if (ke.modifier & AMJU_KEY_MOD_CTRL)
#endif
{
// Prev word
if (ke.modifier & AMJU_KEY_MOD_SHIFT)
{
#ifdef TEXT_EDIT_DEBUG
std::cout << "Prev word + select\n";
#endif
m_caret = PrevWord(m_caret);
m_triListSelection = 0;
}
else
{
#ifdef TEXT_EDIT_DEBUG
std::cout << "Prev word\n";
#endif
m_caret = PrevWord(m_caret);
m_selectedText = m_caret;
m_triListSelection = 0;
}
}
else if (ke.modifier & AMJU_KEY_MOD_SHIFT)
{
#ifdef TEXT_EDIT_DEBUG
std::cout << "Prev char + select\n";
#endif
// Select char to left
if (m_caret > 0)
{
m_caret--;
m_triListSelection = 0;
}
}
else
{
#ifdef TEXT_EDIT_DEBUG
std::cout << "Prev char\n";
#endif
if (m_caret > 0)
{
// Move caret left
m_caret--;
m_selectedText = m_caret;
m_triListSelection = 0;
}
}
break;
case AMJU_KEY_RIGHT:
#ifdef MACOSX
if (ke.modifier & AMJU_KEY_MOD_ALT) // jump to next word
#else
if (ke.modifier & AMJU_KEY_MOD_CTRL)
#endif
{
// Next word
if (ke.modifier & AMJU_KEY_MOD_SHIFT)
{
#ifdef TEXT_EDIT_DEBUG
std::cout << "Next word + select\n";
#endif
m_caret = NextWord(m_caret);
m_triListSelection = 0;
}
else
{
#ifdef TEXT_EDIT_DEBUG
std::cout << "Next word\n";
#endif
m_caret = NextWord(m_caret);
m_selectedText = m_caret;
m_triListSelection = 0;
}
}
else if (ke.modifier & AMJU_KEY_MOD_SHIFT)
{
#ifdef TEXT_EDIT_DEBUG
std::cout << "Next char + select\n";
#endif
if (m_caret < (int)m_text.size())
{
m_caret++;
m_triListSelection = 0;
}
}
else
{
#ifdef TEXT_EDIT_DEBUG
std::cout << "Next char\n";
#endif
if (m_caret < (int)m_text.size())
{
m_caret++;
m_selectedText = m_caret;
m_triListSelection = 0;
}
}
break;
case AMJU_KEY_ENTER:
// TODO multi-line
ExecuteCommand();
break;
case AMJU_KEY_SPACE:
Insert(' ');
break;
case AMJU_KEY_ESC:
// OnCancel();
break;
case AMJU_KEY_BACKSPACE:
{
int left = std::min(m_caret, m_selectedText);
int right = std::max(m_caret, m_selectedText);
if (left == right && m_caret > 0)
{
left--;
}
std::string leftStr = m_text.substr(0, left);
std::string rightStr = m_text.substr(right);
m_text = leftStr + rightStr;
m_caret = left;
m_selectedText = m_caret;
m_triListSelection = 0;
if (m_onChangeFunc)
{
m_onChangeFunc(this);
}
m_triList = 0; // force rebuild
}
break;
case AMJU_KEY_DELETE:
//if ()
{
int left = std::min(m_caret, m_selectedText);
int right = std::max(m_caret, m_selectedText);
if (left == right && m_caret < (int)m_text.size())
{
right++;
}
std::string leftStr = m_text.substr(0, left);
std::string rightStr = m_text.substr(right);
m_text = leftStr + rightStr;
m_caret = left;
m_selectedText = m_caret;
m_triListSelection = 0;
if (m_onChangeFunc)
{
m_onChangeFunc(this);
}
m_triList = 0; // force rebuild
}
break;
default:
#ifdef _DEBUG
std::cout << "Unexpected key type: " << ke.keyType << " key: '" << ke.key << "' (int: " << (int)ke.key << ")\n";
#endif
// Assert(0); // handle this key ?
break;
}
if (m_caret >= m_last || m_caret <= m_first)
{
RecalcFirstLast();
}
return true; // handled
}
// ---------------------------------------------------------------------------
// CATDetectNetwork::StartRequestL
// other items were commented in a header
// ---------------------------------------------------------------------------
void CATDetectNetwork::StartRequest()
{
iCommandRunning = ETrue;
ExecuteCommand();
}
ECommandResult::Type FProvider::Execute(
const TSharedRef<ISourceControlOperation, ESPMode::ThreadSafe>& InOperation,
const TArray<FString>& InFiles,
EConcurrency::Type InConcurrency,
const FSourceControlOperationComplete& InOperationCompleteDelegate
)
{
// the "Connect" operation is the only operation that can be performed while the
// provider is disabled, if the operation is successful the provider will be enabled
if (!IsEnabled() && (InOperation->GetName() != OperationNames::Connect))
{
return ECommandResult::Failed;
}
// attempt to create a worker to perform the requested operation
FWorkerPtr WorkerPtr = CreateWorker(InOperation->GetName());
if (!WorkerPtr.IsValid())
{
// apparently we don't support this particular operation
FFormatNamedArguments Arguments;
Arguments.Add(TEXT("OperationName"), FText::FromName(InOperation->GetName()));
Arguments.Add(TEXT("ProviderName"), FText::FromName(GetName()));
LogError(
FText::Format(
LOCTEXT(
"UnsupportedOperation",
"Operation '{OperationName}' not supported by source control provider '{ProviderName}'"
),
Arguments
)
);
return ECommandResult::Failed;
}
auto* Command = new FCommand(
GetWorkingDirectory(), AbsoluteContentDirectory, InOperation,
WorkerPtr.ToSharedRef(), InOperationCompleteDelegate
);
TArray<FString> AbsoluteFiles;
if (InOperation->GetName() == OperationNames::Connect)
{
AbsoluteFiles.Add(Settings.GetMercurialPath());
}
else if (InOperation->GetName() == OperationNames::MarkForAdd)
{
TArray<FString> AbsoluteLargeFiles;
PrepareFilenamesForAddCommand(InFiles, AbsoluteFiles, AbsoluteLargeFiles);
if (AbsoluteLargeFiles.Num() > 0)
{
Command->SetAbsoluteLargeFiles(AbsoluteLargeFiles);
}
}
else
{
for (const auto& Filename : InFiles)
{
AbsoluteFiles.Add(FPaths::ConvertRelativePathToFull(Filename));
}
}
if (AbsoluteFiles.Num() > 0)
{
Command->SetAbsoluteFiles(AbsoluteFiles);
}
if (InConcurrency == EConcurrency::Synchronous)
{
auto Result = ExecuteSynchronousCommand(Command, InOperation->GetInProgressString());
delete Command;
return Result;
}
else
{
return ExecuteCommand(Command, true);
}
}
//----------------------------------------------
// execute menu item command
//----------------------------------------------
Bool TLMenu::TMenuController::ExecuteMenuItem(TRefRef MenuItemRef)
{
TPtr<TMenuItem> pMenuItem = GetMenuItem(MenuItemRef);
if ( !pMenuItem )
{
TLDebug_Break("No such menu item");
return FALSE;
}
// get command of menu item
TRefRef MenuCommand = pMenuItem->GetMenuCommand();
TRefRef AudioRef = pMenuItem->GetAudioRef();;
// open-menu command
if ( MenuCommand == "Open" )
{
// Already has a queued command?
if(m_QueuedCommand.GetRef().IsValid())
return FALSE;
// Queue up the command.
m_QueuedCommand.SetRef(MenuCommand);
m_QueuedCommand.SetTypeRef(pMenuItem->GetNextMenu());
}
else if ( MenuCommand == "Close" )
{
// Already has a queued command?
if(m_QueuedCommand.GetRef().IsValid())
return FALSE;
// Queue up the command.
m_QueuedCommand.SetRef(MenuCommand);
}
else
{
// do non standard command
if ( !ExecuteCommand( MenuCommand, pMenuItem->GetData() ) )
return FALSE;
}
// Valid audio to play?
// Create menu audio for command execution
// gr: this should go in menu renderer code, not menu logic code
if(AudioRef.IsValid())
{
TLMessaging::TMessage Message(TLCore::InitialiseRef);
Message.ExportData("Asset", AudioRef);
Message.ExportData("Play", TRUE);
Message.ExportData("RateOfDecay", 0.0f); // Make 2D
Message.ExportData("MinRange", 100000.0f);
Message.ExportData("MaxRange", 100000.0f);
TLAudio::g_pAudiograph->StartAudio(MenuCommand, AudioRef);
}
// publish that command has been executed
OnMenuItemExecuted( MenuCommand, pMenuItem->GetData() );
return TRUE;
}
void ProcUtils::GetChildren(long pid, std::vector<long> &proclist)
{
#ifdef __WXMSW__
OSVERSIONINFO osver ;
// Check to see if were running under Windows95 or
// Windows NT.
osver.dwOSVersionInfoSize = sizeof( osver ) ;
if ( !GetVersionEx( &osver ) ) {
return;
}
if ( osver.dwPlatformId != VER_PLATFORM_WIN32_NT ) {
return;
}
//get child processes of this node
HANDLE hProcessSnap = CreateToolhelp32Snapshot(TH32CS_SNAPPROCESS, 0);
if (!hProcessSnap) {
return;
}
//Fill in the size of the structure before using it.
PROCESSENTRY32 pe;
memset(&pe, 0, sizeof(pe));
pe.dwSize = sizeof(PROCESSENTRY32);
// Walk the snapshot of the processes, and for each process,
// kill it if its parent is pid.
if (!Process32First(hProcessSnap, &pe)) {
// Can't get first process.
CloseHandle (hProcessSnap);
return;
}
//loop over all processes and collect all the processes their parent
//pid matches PID
do {
if ((long)pe.th32ParentProcessID == pid) {
proclist.push_back((long)pe.th32ProcessID);
}
} while (Process32Next (hProcessSnap, &pe));
CloseHandle (hProcessSnap);
#elif defined(__FreeBSD__)
kvm_t *kvd;
struct kinfo_proc *ki;
int nof_procs, i;
if (!(kvd = kvm_openfiles(_PATH_DEVNULL, _PATH_DEVNULL, NULL, O_RDONLY, NULL)))
return;
if (!(ki = kvm_getprocs(kvd, KERN_PROC_PROC, pid, &nof_procs))) {
kvm_close(kvd);
return;
}
for (i=0; i<nof_procs; i++) {
ProcessEntry entry;
if (ki[i].ki_ppid == pid)
proclist.push_back(ki[i].ki_pid);
}
kvm_close(kvd);
#else
//GTK and other
wxArrayString output;
#ifdef __WXGTK__
ExecuteCommand(wxT("ps -A -o pid,ppid --no-heading"), output);
#else
ExecuteCommand(wxT("ps -A -o pid,ppid "), output);
#endif
//parse the output and search for our process ID
for (size_t i=0; i< output.GetCount(); i++) {
long lpid(0);
long lppid(0);
wxString line = output.Item(i);
//remove whitespaces
line = line.Trim().Trim(false);
//get the process ID
wxString spid = line.BeforeFirst(wxT(' '));
spid.ToLong( &lpid );
//get the process Parent ID
wxString sppid = line.AfterFirst(wxT(' '));
sppid.ToLong( &lppid );
if (lppid == pid) {
proclist.push_back(lpid);
}
}
#endif
}
BOOL CPropPageRestore::RestoreProject()
{
BOOL bReturn = FALSE;
// get installation path: install path + Engineering\bin
CString strCmdLine;
CString strInstallPath;
CString strBackupPath(m_strBackupPath);
size_t sizeInstDir = MAX_PATH;
if(S_OK != UTIL_GetInstallPath(strInstallPath.GetBuffer(MAX_PATH), &sizeInstDir))
{
return bReturn;
}
strInstallPath.ReleaseBuffer();
strInstallPath += _T("Engineering\\bin");
if(m_iSource == TARGET_MODE)
{
m_pMainSheet->SetStatusText(_T("Upload from Target ..."));
// get temporary backup path
CString strTempPath;
CString strFileName;
VERIFY(::GetTempPath(_MAX_PATH, strTempPath.GetBuffer(_MAX_PATH)));
strTempPath.ReleaseBuffer();
VERIFY(::GetTempFileName(strTempPath, "bar", 1, strFileName.GetBuffer(_MAX_PATH)));
strFileName.ReleaseBuffer();
strBackupPath = strFileName;
::DeleteFile(strBackupPath); // delete temporary backup file
m_pMainSheet->SetStatusText(_T("Upload from Target ..."));
// upload backup file from target
CString strTargetType = m_pMainSheet->GetTargetType();
CString strTargetControl = m_pMainSheet->GetControlString(m_strAddress);
if(UploadProject(strBackupPath, strTargetControl, strTargetType))
{
m_pMainSheet->SetStatusText(_T("Upload Done"));
}
else
{
AfxMessageBox(_T("Could not upload project"), MB_ICONEXCLAMATION);
return FALSE;
}
}
// build command line
CString strExe;
CString strParam;
CString strPassword;
strExe.Format(_T("\"%s\\4cbar.exe\""), strInstallPath);
if(!m_strPassword.IsEmpty())
{
strPassword.Format(_T(" -encrypt \"%s\""), m_strPassword);
}
strExe.Format(_T("\"%s\\4cbar.exe\""), strInstallPath);
strParam.Format(_T(" -project \"%s\" -restore \"%s\" -file%s"), m_strProjectPath, strBackupPath, strPassword);
strCmdLine = strExe + strParam;
// execute command
m_pMainSheet->SetStatusText(_T("Restore from File ..."));
TRACE("%s", strCmdLine);
int iRet = ExecuteCommand(strCmdLine);
if(iRet != ST_OK)
{
CString strMessage = _T("Restore failed");
CString strReason;
switch(iRet)
{
case 502:
strReason = _T("Project directory already exists.");
break;
case 503:
strReason = _T("Invalid archive format.");
break;
case 507:
strReason = _T("Wrong encryption password.");
break;
case 600:
strReason = _T("Wrong format or encryption password missing.");
break;
}
if(!strReason.IsEmpty())
{
strMessage += _T(":\n") + strReason;
}
else
{
strReason = strMessage;
}
AfxMessageBox(strMessage);
m_pMainSheet->SetStatusText(strReason);
return FALSE;
}
if(!LoadTargetInfoList(m_strProjectPath, TRUE))
{
m_pMainSheet->SetStatusText(_T("Could not read target info. OPC-Configuration not restored"));
if(m_iSource == TARGET_MODE)
{
::DeleteFile(strBackupPath); // delete temporary backup file
}
return FALSE;
}
if(iRet == ST_OK)
{
if(m_bOPCServerConfig)
{
TTargetInfo* pTargetInfo;
CString strErrMessage;
CString strErrTargets;
BOOL bError;
POSITION pos = m_tTargetInfoList.GetHeadPosition();
while(pos)
{
bError = FALSE;
pTargetInfo = m_tTargetInfoList.GetNext(pos);
if(CopyOPCServerConfig(pTargetInfo, m_strProjectPath) != ST_OK)
{
bError = TRUE;
}
if(PatchOPCServerRegistry(pTargetInfo, m_strProjectPath) != ST_OK)
{
bError = TRUE;
}
if(bError)
{
if(!strErrTargets.IsEmpty())
{
strErrTargets += _T(", ");
}
strErrTargets += pTargetInfo->strTargetName;
}
}
if(strErrTargets.IsEmpty())
{
bReturn = TRUE;
}
else
{
strErrMessage.Format(IDS_ERR_RESTORE_OPC_CONFIG, strErrTargets);
m_pMainSheet->SetStatusText(_T("Error: could not restore OPC configuration"));
::AfxMessageBox(strErrMessage, MB_ICONEXCLAMATION);
}
}
else
{
// nothing to do -> ok
bReturn = TRUE;
}
}
if(m_iSource == TARGET_MODE)
{
::DeleteFile(strBackupPath); // delete temporary backup file
}
return bReturn;
}
// The front SD slot
IPCCommandResult CWII_IPC_HLE_Device_sdio_slot0::IOCtl(u32 _CommandAddress)
{
u32 Cmd = Memory::Read_U32(_CommandAddress + 0xC);
u32 BufferIn = Memory::Read_U32(_CommandAddress + 0x10);
u32 BufferInSize = Memory::Read_U32(_CommandAddress + 0x14);
u32 BufferOut = Memory::Read_U32(_CommandAddress + 0x18);
u32 BufferOutSize = Memory::Read_U32(_CommandAddress + 0x1C);
// As a safety precaution we fill the out buffer with zeros to avoid
// returning nonsense values
Memory::Memset(BufferOut, 0, BufferOutSize);
u32 ReturnValue = 0;
switch (Cmd)
{
case IOCTL_WRITEHCR:
{
u32 reg = Memory::Read_U32(BufferIn);
u32 val = Memory::Read_U32(BufferIn + 16);
DEBUG_LOG(WII_IPC_SD, "IOCTL_WRITEHCR 0x%08x - 0x%08x", reg, val);
if (reg >= 0x200)
{
DEBUG_LOG(WII_IPC_SD, "IOCTL_WRITEHCR out of range");
break;
}
if ((reg == HCR_CLOCKCONTROL) && (val & 1))
{
// Clock is set to oscillate, enable bit 1 to say it's stable
m_Registers[reg] = val | 2;
}
else if ((reg == HCR_SOFTWARERESET) && val)
{
// When a reset is specified, the register gets cleared
m_Registers[reg] = 0;
}
else
{
// Default to just storing the new value
m_Registers[reg] = val;
}
}
break;
case IOCTL_READHCR:
{
u32 reg = Memory::Read_U32(BufferIn);
if (reg >= 0x200)
{
DEBUG_LOG(WII_IPC_SD, "IOCTL_READHCR out of range");
break;
}
u32 val = m_Registers[reg];
DEBUG_LOG(WII_IPC_SD, "IOCTL_READHCR 0x%08x - 0x%08x", reg, val);
// Just reading the register
Memory::Write_U32(val, BufferOut);
}
break;
case IOCTL_RESETCARD:
DEBUG_LOG(WII_IPC_SD, "IOCTL_RESETCARD");
if (m_Card)
m_Status |= CARD_INITIALIZED;
// Returns 16bit RCA and 16bit 0s (meaning success)
Memory::Write_U32(0x9f620000, BufferOut);
break;
case IOCTL_SETCLK:
{
DEBUG_LOG(WII_IPC_SD, "IOCTL_SETCLK");
// libogc only sets it to 1 and makes sure the return isn't negative...
// one half of the sdclk divisor: a power of two or zero.
u32 clock = Memory::Read_U32(BufferIn);
if (clock != 1)
INFO_LOG(WII_IPC_SD, "Setting to %i, interesting", clock);
}
break;
case IOCTL_SENDCMD:
INFO_LOG(WII_IPC_SD, "IOCTL_SENDCMD %x IPC:%08x", Memory::Read_U32(BufferIn), _CommandAddress);
ReturnValue = ExecuteCommand(BufferIn, BufferInSize, 0, 0, BufferOut, BufferOutSize);
break;
case IOCTL_GETSTATUS:
if (SConfig::GetInstance().m_WiiSDCard)
m_Status |= CARD_INSERTED;
else
m_Status = CARD_NOT_EXIST;
INFO_LOG(WII_IPC_SD, "IOCTL_GETSTATUS. Replying that SD card is %s%s",
(m_Status & CARD_INSERTED) ? "inserted" : "not present",
(m_Status & CARD_INITIALIZED) ? " and initialized" : "");
Memory::Write_U32(m_Status, BufferOut);
break;
case IOCTL_GETOCR:
DEBUG_LOG(WII_IPC_SD, "IOCTL_GETOCR");
Memory::Write_U32(0x80ff8000, BufferOut);
break;
default:
ERROR_LOG(WII_IPC_SD, "Unknown SD IOCtl command (0x%08x)", Cmd);
break;
}
// INFO_LOG(WII_IPC_SD, "InBuffer");
// DumpCommands(BufferIn, BufferInSize / 4, LogTypes::WII_IPC_SD);
// INFO_LOG(WII_IPC_SD, "OutBuffer");
// DumpCommands(BufferOut, BufferOutSize/4, LogTypes::WII_IPC_SD);
if (ReturnValue == RET_EVENT_REGISTER)
{
// async
m_event.addr = _CommandAddress;
Memory::Write_U32(0, _CommandAddress + 0x4);
// Check if the condition is already true
EventNotify();
return GetNoReply();
}
else if (ReturnValue == RET_EVENT_UNREGISTER)
{
// release returns 0
// unknown sd int
// technically we do it out of order, oh well
EnqueueReply(m_event.addr, EVENT_INVALID);
m_event.addr = 0;
m_event.type = EVENT_NONE;
Memory::Write_U32(0, _CommandAddress + 0x4);
return GetDefaultReply();
}
else
{
Memory::Write_U32(ReturnValue, _CommandAddress + 0x4);
return GetDefaultReply();
}
}
// Handle external test scripts. We support three kinds, makefiles (rl.mak),
// command shell (dotest.cmd), and JScript (*.js).
//
// Standardized makefiles have the following targets:
// clean: delete all generated files
// build: build the test (OPT=compile options)
// run: run the test
// copy: copy the generated files to a subdirectory (COPYDIR=subdir)
//
int
DoOneExternalTest(
CDirectory* pDir,
TestVariant *pTestVariant,
const char *optFlags,
const char *inCCFlags,
const char *inLinkFlags,
const char *testCmd,
ExternalTestKind kind,
BOOL fSyncVariationWhenFinished,
BOOL fCleanBefore,
BOOL fCleanAfter,
BOOL fSuppressNoGPF,
void *envFlags,
DWORD millisecTimeout
)
{
#define NMAKE "nmake -nologo -R -f "
char full[MAX_PATH];
char cmdbuf[BUFFER_SIZE];
char buf[BUFFER_SIZE];
char ccFlags[BUFFER_SIZE];
char linkFlags[BUFFER_SIZE];
char nogpfFlags[BUFFER_SIZE];
char optReportBuf[BUFFER_SIZE];
char nonZeroReturnBuf[BUFFER_SIZE];
const char *reason = NULL;
time_t start_variation;
UINT elapsed_variation;
time_t start_build_variation;
UINT elapsed_build_variation;
LARGE_INTEGER start_run, end_run, frequency;
UINT elapsed_run;
BOOL fFailed = FALSE;
BOOL fDumpOutputFile = FVerbose;
BOOL fFileToDelete = FALSE;
int cmdResult;
static unsigned int testCount = 0;
unsigned int localTestCount = InterlockedIncrement(&testCount);
// Avoid conditionals by copying/creating ccFlags appropriately.
if (inCCFlags)
{
if (pDir->HasTestInfoData(TIK_SOURCE_PATH))
{
sprintf_s(ccFlags, " %s -baselinePath:%s", inCCFlags, pDir->GetDirectoryPath());
}
else
{
sprintf_s(ccFlags, " %s", inCCFlags);
}
}
else
{
ccFlags[0] = '\0';
}
switch (TargetMachine) {
case TM_WVM:
case TM_WVMX86:
case TM_WVM64:
strcat_s(ccFlags, " /BC ");
break;
}
if (inLinkFlags)
strcpy_s(linkFlags, inLinkFlags);
else
linkFlags[0] = '\0';
sprintf_s(optReportBuf, "%s%s%s", optFlags, *linkFlags ? ";" : "", linkFlags);
// Update the status.
sprintf_s(buf, " (%s)", optReportBuf);
ThreadInfo[ThreadId].SetCurrentTest(pDir->GetDirectoryName(),
buf, pDir->IsBaseline());
UpdateTitleStatus();
// Make sure the file that will say pass or fail is not present.
sprintf_s(full, "%s\\testout%d", pDir->GetDirectoryPath(), localTestCount);
DeleteFileIfFound(full);
start_variation = time(NULL);
if (kind == TK_MAKEFILE) {
Message(""); // newline
Message("Processing %s with '%s' flags",
testCmd, optReportBuf);
Message(""); // newline
if (FTest)
{
return 0;
}
if (fCleanBefore) {
// Clean the directory.
sprintf_s(cmdbuf, NMAKE"%s clean", testCmd);
Message(cmdbuf);
ExecuteCommand(pDir->GetDirectoryPath(), cmdbuf);
}
FillNoGPFFlags(nogpfFlags, fSuppressNoGPF);
// Build the test.
start_build_variation = time(NULL);
sprintf_s(cmdbuf, NMAKE"%s build OPT=\"%s %s%s\" LINKFLAGS=\"%s %s %s\"",
testCmd,
optFlags, EXTRA_CC_FLAGS, ccFlags,
LINKFLAGS, linkFlags, nogpfFlags);
if (strlen(cmdbuf) > BUFFER_SIZE - 1)
Fatal("Buffer overrun");
Message(cmdbuf);
fFailed = ExecuteCommand(pDir->GetDirectoryPath(), cmdbuf);
elapsed_build_variation = (int)(time(NULL) - start_build_variation);
if (Timing & TIME_VARIATION) {
Message("RL: Variation elapsed time (build) (%s, %s, %s): %02d:%02d",
pDir->GetDirectoryName(),
"rl.mak",
optReportBuf,
elapsed_build_variation / 60, elapsed_build_variation % 60);
}
if (fFailed) {
reason = "build failure";
goto logFailure;
}
// Run the test.
QueryPerformanceCounter(&start_run);
sprintf_s(cmdbuf, NMAKE"%s run", testCmd);
Message(cmdbuf);
cmdResult = ExecuteCommand(pDir->GetDirectoryPath(), cmdbuf, millisecTimeout);
QueryPerformanceCounter(&end_run);
QueryPerformanceFrequency(&frequency);
elapsed_run = (int) (((end_run.QuadPart - start_run.QuadPart) * 1000UI64) / frequency.QuadPart);
if (Timing & TIME_VARIATION) {
Message("RL: Variation elapsed time (run) (%s, %s, %s): %02d:%02d.%03d",
pDir->GetDirectoryName(),
"rl.mak",
optReportBuf,
elapsed_run / 60000, (elapsed_run % 60000)/1000, elapsed_run % 1000);
}
}
else if (kind == TK_CMDSCRIPT)
{
// Build up the test command string
sprintf_s(cmdbuf, "%s %s %s%s >testout%d", testCmd, optFlags, EXTRA_CC_FLAGS, ccFlags, localTestCount);
Message("Running '%s'", cmdbuf);
if (FTest)
{
return 0;
}
cmdResult = ExecuteCommand(pDir->GetDirectoryPath(), cmdbuf, millisecTimeout, envFlags);
}
else if (kind == TK_JSCRIPT || kind==TK_HTML || kind == TK_COMMAND)
{
char tempExtraCCFlags[MAX_PATH*2] = {0};
// Only append when EXTRA_CC_FLAGS isn't empty.
if (EXTRA_CC_FLAGS[0])
{
// Append test case unique identifier to the end of EXTRA_CC_FLAGS.
if (FAppendTestNameToExtraCCFlags)
{
sprintf_s(tempExtraCCFlags, "%s.%s", EXTRA_CC_FLAGS, pTestVariant->testInfo.data[TIK_FILES]);
}
else
{
strcpy_s(tempExtraCCFlags, EXTRA_CC_FLAGS);
}
}
const char* cmd = JCBinary;
if (kind != TK_JSCRIPT && kind != TK_HTML)
{
cmd = pTestVariant->testInfo.data[TIK_COMMAND];
}
sprintf_s(cmdbuf, "%s %s %s %s %s >%s 2>&1", cmd, optFlags, tempExtraCCFlags, ccFlags, testCmd, full);
Message("Running '%s'", cmdbuf);
if(FTest)
{
DeleteFileIfFound(full);
return 0;
}
cmdResult = ExecuteCommand(pDir->GetFullPathFromSourceOrDirectory(), cmdbuf, millisecTimeout, envFlags);
if (cmdResult && cmdResult != WAIT_TIMEOUT && !pTestVariant->testInfo.data[TIK_BASELINE]) // failure code, not baseline diffing
{
fFailed = TRUE;
sprintf_s(nonZeroReturnBuf, "non-zero (%08X) return value from test command", cmdResult);
reason = nonZeroReturnBuf;
goto logFailure;
}
}
else
{
ASSERTNR(UNREACHED);
cmdResult = NOERROR; // calm compiler warning about uninitialized variable usage
}
// Check for timeout.
if (cmdResult == WAIT_TIMEOUT) {
ASSERT(millisecTimeout != INFINITE);
sprintf_s(nonZeroReturnBuf, "timed out after %u second%s", millisecTimeout / 1000, millisecTimeout == 1000 ? "" : "s");
reason = nonZeroReturnBuf;
fFailed = TRUE;
goto logFailure;
}
// If we have a baseline test, we need to check the baseline file.
if (pTestVariant->testInfo.data[TIK_BASELINE]) {
char baseline_file[_MAX_PATH];
sprintf_s(baseline_file, "%s\\%s", pDir->GetFullPathFromSourceOrDirectory(),
pTestVariant->testInfo.data[TIK_BASELINE]);
if (DoCompare(baseline_file, full, pTestVariant->testInfo.hasData[TIK_EOL_NORMALIZATION])) {
reason = "diffs from baseline";
sprintf_s(optReportBuf, "%s", baseline_file);
fFailed = TRUE;
CopyRebaseFile(full, baseline_file);
}
}
else if ((kind == TK_JSCRIPT || kind == TK_HTML || kind == TK_COMMAND) && !pTestVariant->testInfo.hasData[TIK_BASELINE]) {
if (!CheckForPass(full, optReportBuf, cmdbuf, fDumpOutputFile)) {
fFailed = TRUE;
goto SkipLogFailure;
}
}
logFailure:
if (fFailed) {
LogOut("ERROR: Test failed to run correctly: %s (%s):",
reason, optReportBuf);
LogOut(" %s", cmdbuf);
if (fDumpOutputFile) {
DumpFileToLog(full);
}
}
SkipLogFailure:
if (fFileToDelete && !FNoDelete) {
DeleteFileRetryMsg(full);
}
elapsed_variation = (int)(time(NULL) - start_variation);
if (Timing & TIME_VARIATION) {
Message("RL: Variation elapsed time (%s, %s, %s): %02d:%02d",
pDir->GetDirectoryName(),
kind == TK_MAKEFILE ? "rl.mak" : "dotest.cmd",
optReportBuf,
elapsed_variation / 60, elapsed_variation % 60);
}
if (kind == TK_MAKEFILE) {
// If the test failed and we are asked to copy the failures, do so.
if (fFailed && FCopyOnFail) {
sprintf_s(cmdbuf, NMAKE"%s copy COPYDIR=\"fail.%s.%s\"",
testCmd, optFlags, linkFlags);
Message(cmdbuf);
ExecuteCommand(pDir->GetDirectoryPath(), cmdbuf);
}
// Clean up after ourselves.
if (!FNoDelete && (fFailed || fCleanAfter)) {
sprintf_s(cmdbuf, NMAKE"%s clean", testCmd);
Message(cmdbuf);
ExecuteCommand(pDir->GetDirectoryPath(), cmdbuf);
}
}
if (FSyncVariation) {
if (FRLFE && fFailed) {
RLFEAddLog(pDir, RLFES_FAILED, testCmd,
optReportBuf, ThreadOut->GetText());
}
if (fSyncVariationWhenFinished)
FlushOutput();
}
DeleteFileIfFound(full);
return fFailed ? -1 : 0;
}
BOOL CCLITerminal::ExecuteVirtualKey(CLISESSION *pSession, int nVKey)
{
if (m_pCLIService->GetRunLevel() == RUNLEVEL_DEBUG)
return TRUE;
switch(pSession->nVKey) {
case VKEY_F1 :
if (!pSession->bLogined)
break;
strcpy(pSession->szCommand, (char *)m_pCLIService->m_szVirtualKey[0]);
WriteStream(pSession, pSession->szCommand);
pSession->nCmdLength = strlen(pSession->szCommand);
ExecuteCommand(pSession, FALSE, FALSE);
break;
case VKEY_F2 :
if (!pSession->bLogined)
break;
strcpy(pSession->szCommand, (char *)m_pCLIService->m_szVirtualKey[1]);
WriteStream(pSession, pSession->szCommand);
pSession->nCmdLength = strlen(pSession->szCommand);
ExecuteCommand(pSession, FALSE, FALSE);
break;
case VKEY_F3 :
if (!pSession->bLogined)
break;
strcpy(pSession->szCommand, (char *)m_pCLIService->m_szVirtualKey[2]);
WriteStream(pSession, pSession->szCommand);
pSession->nCmdLength = strlen(pSession->szCommand);
ExecuteCommand(pSession, FALSE, FALSE);
break;
case VKEY_F4 :
if (!pSession->bLogined)
break;
strcpy(pSession->szCommand, (char *)m_pCLIService->m_szVirtualKey[3]);
WriteStream(pSession, pSession->szCommand);
pSession->nCmdLength = strlen(pSession->szCommand);
ExecuteCommand(pSession, FALSE, FALSE);
break;
case VKEY_UP :
if (!pSession->bLogined || (pSession->nCurHistory <= 0))
break;
pSession->nCurHistory--;
ReplaceCommand(pSession, pSession->pszHistory[pSession->nCurHistory]);
break;
case VKEY_DOWN :
if (!pSession->bLogined)
break;
if (pSession->nCurHistory >= pSession->nHistoryCount)
{
if (pSession->nCmdLength != 0)
ReplaceCommand(pSession, "");
break;
}
pSession->nCurHistory++;
ReplaceCommand(pSession, pSession->pszHistory[pSession->nCurHistory]);
break;
case VKEY_LEFT :
break;
case VKEY_RIGHT :
break;
case VKEY_HOME :
break;
case VKEY_END :
break;
case VKEY_USERMENU :
if (pSession->nMode == CLIMODE_USER)
break;
if (pSession->nType == CLITYPE_TELNET)
break;
pSession->nMode = CLIMODE_USER;
DisplayUserMenu(pSession);
break;
}
return TRUE;
}
BOOL
DoOneSimpleTest(
CDirectory *pDir,
Test * pTest,
TestVariant * pTestVariant,
const char *optFlags,
const char *inCCFlags,
const char *inLinkFlags,
BOOL fSyncVariationWhenFinished,
BOOL fCleanAfter,
BOOL fLinkOnly, // relink only
BOOL fSuppressNoGPF,
DWORD millisecTimeout
)
{
int rc;
char *p = NULL;
char cmdbuf[BUFFER_SIZE*2];
char ccFlags[BUFFER_SIZE];
char linkFlags[BUFFER_SIZE];
char nogpfFlags[BUFFER_SIZE];
char optReportBuf[BUFFER_SIZE];
char full[MAX_PATH];
char exebuf[BUFFER_SIZE];
char fullexebuf[BUFFER_SIZE];
char buf[BUFFER_SIZE];
char failDir[BUFFER_SIZE];
char copyName[BUFFER_SIZE];
char tmp_file1[MAX_PATH];
char tmp_file2[MAX_PATH];
time_t start_variation;
UINT elapsed_variation;
BOOL fFailed;
void *envFlags = GetEnvFlags(pTestVariant);
// Avoid conditionals by copying/creating ccFlags appropriately.
if (inCCFlags)
sprintf_s(ccFlags, " %s", inCCFlags);
else
ccFlags[0] = '\0';
switch (TargetMachine) {
case TM_WVM:
case TM_WVMX86:
case TM_WVM64:
strcat_s(ccFlags, " /BC ");
break;
}
if (inLinkFlags)
strcpy_s(linkFlags, inLinkFlags);
else
linkFlags[0] = '\0';
sprintf_s(optReportBuf, "%s%s%s", optFlags, *linkFlags ? ";" : "", linkFlags);
// Figure out the exe name and path
strcpy_s(exebuf, pTest->name);
p = strrchr(exebuf, '.');
if (p != NULL)
{
strcpy_s(p + 1, REMAININGARRAYLEN(exebuf, p + 1), "exe");
}
else
{
strcat_s(exebuf, ".exe");
}
sprintf_s(fullexebuf, "%s\\%s", pDir->GetDirectoryPath(), exebuf);
start_variation = time(NULL);
// Build up the compile command string.
sprintf_s(cmdbuf, "%s %s%s %s", REGR_CL,
optFlags, ccFlags, EXTRA_CC_FLAGS);
for (StringList * pFile = pTest->files; pFile != NULL; pFile = pFile->next)
{
strcat_s(cmdbuf, " ");
strcat_s(cmdbuf, pFile->string);
// If we're only relinking, hammer the extension to .obj
if (fLinkOnly)
{
p = strrchr(cmdbuf, '.');
sprintf_s(p, REMAININGARRAYLEN(cmdbuf, p), ".obj");
}
}
// Build the link option string.
if (LINKFLAGS && LINKFLAGS[0] != '\0') {
strcat_s(linkFlags, " ");
strcat_s(linkFlags, LINKFLAGS);
}
FillNoGPFFlags(nogpfFlags, fSuppressNoGPF);
strcat_s(linkFlags, nogpfFlags);
switch (TargetMachine) {
case TM_X86:
case TM_IA64:
case TM_AMD64:
case TM_AMD64SYS:
case TM_AM33:
case TM_ARM:
case TM_ARM64:
case TM_THUMB:
case TM_M32R:
case TM_MIPS:
case TM_SH3:
case TM_SH4:
case TM_SH5M:
case TM_SH5C:
case TM_WVMX86:
if (*linkFlags) {
strcat_s(cmdbuf, " /link ");
strcat_s(cmdbuf, linkFlags);
}
break;
case TM_WVM:
strcat_s(cmdbuf, " /c ");
break;
case TM_PPCWCE:
if (*linkFlags) {
strcat_s(cmdbuf, " ");
strcat_s(cmdbuf, linkFlags);
}
break;
}
sprintf_s(buf, "%s (%s)", pTest->name, optReportBuf);
ThreadInfo[ThreadId].SetCurrentTest(pDir->GetDirectoryName(), buf, pDir->IsBaseline());
UpdateTitleStatus();
// Remove exe if it's already there. We have to keep trying to delete it
// until it's gone, or else the link will fail (if it is somehow still in
// use).
DeleteFileRetryMsg(fullexebuf);
if (FTest)
{
Message("%s", cmdbuf);
if (pTestVariant->testInfo.data[TIK_BASELINE]) {
Message(" (baseline %s)", pTestVariant->testInfo.data[TIK_BASELINE]);
}
return 0;
}
// Do the compile.
Message("Compiling:");
Message(" %s", cmdbuf);
rc = ExecuteCommand(pDir->GetDirectoryPath(), cmdbuf);
// Some machines require separate linking of the
// compiler and/or assembler output.
if (rc == 0)
{
switch (TargetMachine)
{
case TM_WVM:
// Build up the linker command string.
strcpy_s(cmdbuf, LINKER);
for (StringList * pFile = pTest->files;
pFile != NULL;
pFile = pFile->next)
{
strcat_s(cmdbuf, " ");
strcat_s(cmdbuf, pFile->string);
p = strrchr(cmdbuf, '.');
strcpy_s(p + 1, REMAININGARRAYLEN(cmdbuf, p + 1), "obj");
}
if (linkFlags) {
strcat_s(cmdbuf, " ");
strcat_s(cmdbuf, linkFlags);
}
// Do the link.
Message("Linking:");
Message(" %s", cmdbuf);
ExecuteCommand(pDir->GetDirectoryPath(), cmdbuf);
break;
default:
break;
}
}
// See if the compile succeeded by checking for the existence
// of the executable.
if ((rc != 0) || GetFileAttributes(fullexebuf) == INVALID_FILE_ATTRIBUTES) {
LogOut("ERROR: Test failed to compile or link (%s):", optReportBuf);
LogOut(" %s", cmdbuf);
fFailed = TRUE;
goto logFailure;
}
// Run the resulting exe.
if (TargetVM) {
strcpy_s(buf, TargetVM);
strcat_s(buf, " ");
strcat_s(buf, exebuf);
// Copy the VM command to cmdbuf, so we get a useful error message
// in the log file if test fails.
strcpy_s(cmdbuf, buf);
}
else {
strcpy_s(buf, exebuf);
}
// We need some temporary files.
// Note: these are full pathnames, not relative pathnames. Also, note that
// mytmpnam creates the file to be used. To avoid losing that file, and
// risking another program using it, don't delete the file before use.
// We currently delete the file before running the test, so we can see if
// the test ever creates it. We should probably create the temp files in
// the same directory as the test, since we guarantee that no other copies
// of RL are running in the same directory.
if (mytmpnam(pDir->GetDirectoryPath(), TMP_PREFIX, tmp_file1) == NULL ||
mytmpnam(pDir->GetDirectoryPath(), TMP_PREFIX, tmp_file2) == NULL) {
Fatal("Unable to create temporary files");
}
ThreadInfo[ThreadId].AddToTmpFileList(tmp_file1);
ThreadInfo[ThreadId].AddToTmpFileList(tmp_file2);
if (FVerbose)
Message("INFO: tmp file 1 = %s, tmp file 2 = %s", tmp_file1, tmp_file2);
Message("Running the test (%s)", buf);
strcat_s(buf, " > ");
strcat_s(buf, tmp_file1);
// Make sure the output file isn't there.
DeleteFileIfFound(tmp_file1);
fFailed = FALSE;
// Check for timeout.
{
int retval = ExecuteCommand(pDir->GetDirectoryPath(), buf, millisecTimeout, envFlags);
if (retval == WAIT_TIMEOUT) {
ASSERT(millisecTimeout != INFINITE);
LogOut("ERROR: Test timed out after %ul seconds", millisecTimeout / 1000);
fFailed = TRUE;
goto logFailure;
}
}
// Check the output.
if (pTestVariant->testInfo.data[TIK_BASELINE]) {
int spiff_ret;
// Check to see if the exe ran at all.
if (GetFileAttributes(tmp_file1) == INVALID_FILE_ATTRIBUTES) {
LogOut("ERROR: Test failed to run. Couldn't find file '%s' (%s):", tmp_file1, optReportBuf);
LogOut(" %s", cmdbuf);
fFailed = TRUE;
}
else {
sprintf_s(full, "%s\\%s", pDir->GetFullPathFromSourceOrDirectory(),
pTestVariant->testInfo.data[TIK_BASELINE]);
if (DoCompare(tmp_file1, full, pTestVariant->testInfo.hasData[TIK_EOL_NORMALIZATION])) {
// Output differs, run spiff to see if it's just minor
// floating point anomalies.
DeleteFileIfFound(tmp_file2);
sprintf_s(buf, "spiff -m -n -s \"command spiff\" %s %s > %s",
tmp_file1, full, tmp_file2);
spiff_ret = ExecuteCommand(pDir->GetDirectoryPath(), buf);
if (GetFileAttributes(tmp_file2) == INVALID_FILE_ATTRIBUTES) {
LogError("ERROR: spiff failed to run");
fFailed = TRUE;
}
else if (spiff_ret) {
LogOut("ERROR: Test failed to run correctly. spiff returned %d (%s):", spiff_ret, optReportBuf);
LogOut(" %s", cmdbuf);
fFailed = TRUE;
}
}
}
}
else {
if (!CheckForPass(tmp_file1, optReportBuf, cmdbuf)) {
fFailed = TRUE;
}
}
logFailure:
if (fFailed) {
if (FCopyOnFail) {
if (FVerbose)
Message("INFO: Copying '%s' failure", optReportBuf);
sprintf_s(failDir, "%s\\fail.%s",
pDir->GetDirectoryPath(), optReportBuf);
if ((GetFileAttributes(failDir) == INVALID_FILE_ATTRIBUTES) &&
!CreateDirectory(failDir, NULL)) {
Message("ERROR: Couldn't create directory '%s'", failDir);
}
else
{
for (StringList * pFile = pTest->files;
pFile != NULL;
pFile = pFile->next)
{
sprintf_s(copyName, "%s\\%s", failDir, pFile->string);
p = strrchr(copyName, '.') + 1;
strcpy_s(p, REMAININGARRAYLEN(copyName, p + 1), "obj");
sprintf_s(buf, "%s\\%s", pDir->GetDirectoryPath(),
pFile->string);
p = strrchr(buf, '.') + 1;
strcpy_s(p, REMAININGARRAYLEN(buf, p + 1), "obj");
if (!CopyFile(buf, copyName, FALSE)) {
Message("ERROR: Couldn't copy '%s' to '%s'",
buf, copyName);
}
}
sprintf_s(copyName, "%s\\%s", failDir, exebuf);
if (!CopyFile(fullexebuf, copyName, FALSE)) {
Message("ERROR: Couldn't copy '%s' to '%s'",
fullexebuf, copyName);
}
}
}
}
if (FRLFE) {
RLFETestStatus(pDir);
}
if (FVerbose)
Message("INFO: cleaning up test run");
// Remove the exe.
if (!FNoDelete) {
DeleteFileRetryMsg(fullexebuf);
}
// Don't trash fullexebuf!
strcpy_s(buf, fullexebuf);
p = strrchr(buf, '.') + 1;
// Remove the pdb(s) (if it exists).
strcpy_s(p, REMAININGARRAYLEN(buf, p), "pdb");
DeleteFileIfFound(buf);
DeleteMultipleFiles(pDir, "*.pdb");
// Remove the ilk (if it exists).
strcpy_s(p, REMAININGARRAYLEN(buf, p), "ilk");
DeleteFileIfFound(buf);
// Remove the objs.
if (!FNoDelete)
{
for (StringList * pFile = pTest->files;
pFile != NULL;
pFile = pFile->next)
{
sprintf_s(buf, "%s\\%s", pDir->GetDirectoryPath(), pFile->string);
p = strrchr(buf, '.') + 1;
if (fCleanAfter)
{
strcpy_s(p, REMAININGARRAYLEN(buf, p), "obj");
DeleteFileRetryMsg(buf);
}
if (REGR_ASM) {
strcpy_s(p, REMAININGARRAYLEN(buf, p), "asm");
DeleteFileRetryMsg(buf);
}
}
}
elapsed_variation = (int)(time(NULL) - start_variation);
if (Timing & TIME_VARIATION) {
Message("RL: Variation elapsed time (%s, %s, %s): %02d:%02d",
pDir->GetDirectoryName(), pTest->name, optReportBuf,
elapsed_variation / 60, elapsed_variation % 60);
}
if (FSyncVariation) {
if (FRLFE && fFailed)
RLFEAddLog(pDir, RLFES_FAILED, pTest->name, optReportBuf, ThreadOut->GetText());
if (fSyncVariationWhenFinished)
FlushOutput();
}
ThreadInfo[ThreadId].DeleteTmpFileList();
return fFailed ? -1 : 0;
}
// Update
void Game_Interpreter::Update() {
// 10000 based on: https://gist.github.com/4406621
for (loop_count = 0; loop_count < 10000; ++loop_count) {
/* If map is different than event startup time
set event_id to 0 */
if (Game_Map::GetMapId() != map_id) {
event_id = 0;
}
/* If there's any active child interpreter, update it */
if (child_interpreter) {
child_interpreter->Update();
if (!child_interpreter->IsRunning()) {
child_interpreter.reset();
}
// If child interpreter still exists
if (child_interpreter) {
return;
}
}
if (Game_Message::message_waiting || Game_Message::closing) {
return;
}
// If waiting for a move to end
if (move_route_waiting) {
if (Main_Data::game_player->IsMoveRouteOverwritten()) {
return;
}
Game_Event* g_event;
for (size_t i = 0; i < Game_Map::GetEvents().size(); i++) {
g_event = Game_Map::GetEvents().find(i)->second.get();
if (g_event->IsMoveRouteOverwritten()) {
return;
}
}
move_route_waiting = false;
}
if (button_input_variable_id > 0) {
InputButton();
return;
}
if (wait_count > 0) {
wait_count--;
return;
}
if (Game_Temp::forcing_battler != NULL) {
return;
}
if (Game_Temp::transition_processing) {
return;
}
if (Game_Temp::battle_calling ||
Game_Temp::shop_calling ||
// Game_Temp::inn_calling ||
Game_Temp::name_calling ||
Game_Temp::menu_calling ||
Game_Temp::save_calling ||
Game_Temp::to_title ||
Game_Temp::gameover) {
return;
}
if (continuation) {
bool result = (this->*continuation)(list[index]);
if (result)
continue;
else
return;
}
if (!Main_Data::game_player->IsTeleporting()) {
if (Game_Map::GetNeedRefresh()) {
Game_Map::Refresh();
}
}
if (list.empty()) {
return;
}
if (!ExecuteCommand()) {
CloseMessageWindow();
active = true;
return;
}
active = false;
// FIXME?
// After calling SkipTo this index++ will skip execution of e.g. END.
// This causes a different timing because loop_count reaches 10000
// faster then Player does.
// No idea if any game depends on this special case.
index++;
} // for
// Executed Events Count exceeded (10000)
active = true;
Output::Debug("Event %d exceeded execution limit", event_id);
CloseMessageWindow();
}
int PushConsoleManager::OnCommand(const HashedString& command, const strutil::strvec& parameter_vector) {
int result = Parent::OnCommand(command, parameter_vector);
if (result < 0) {
result = 0;
CommandClient _command = (CommandClient)TranslateCommand(command);
switch ((int)_command) {
case kCommandSetAvatar: {
if (parameter_vector.size() == 1) {
((PushManager*)GetGameManager())->SelectAvatar(parameter_vector[0]);
} else {
log_.Warningf("usage: %s <avatar>", command.c_str());
result = 1;
}
} break;
case kCommandSetAvatarEnginePower: {
if (parameter_vector.size() == 2) {
log_debug("Setting avatar engine power.");
int aspect = 0;
strutil::StringToInt(parameter_vector[0], aspect);
double power;
strutil::StringToDouble(parameter_vector[1], power);
if (!((PushManager*)GetGameManager())->SetAvatarEnginePower(aspect, (float)power)) {
log_.Error("Could not set avatar engine power!");
result = 1;
}
} else {
log_.Warningf("usage: %s <aspect> <power>", command.c_str());
result = 1;
}
} break;
#if defined(LEPRA_DEBUG) && defined(LEPRA_WINDOWS)
case kCommandBuildData: {
const cure::GameObjectId avatar_id = ((PushManager*)GetGameManager())->GetAvatarInstanceId();
if (!avatar_id) {
break;
}
const str avatar_type = GetGameManager()->GetContext()->GetObject(avatar_id)->GetClassId();
((PushManager*)GetGameManager())->Logout();
Thread::Sleep(0.5);
GetResourceManager()->ForceFreeCache();
const str current_dir = SystemManager::GetCurrentDirectory();
::SetCurrentDirectoryA(astrutil::Encode(Path::GetParentDirectory(current_dir)).c_str());
::system("c:/Program/Python31/python.exe -B Tools/build/rgo.py builddata");
::SetCurrentDirectoryA(astrutil::Encode(current_dir).c_str());
const str user_name = v_slowget(GetVariableScope(), kRtvarLoginUsername, EmptyString);
const str server = v_slowget(GetVariableScope(), kRtvarNetworkServeraddress, EmptyString);
wstr pw(L"CarPassword");
const cure::LoginId login_id(wstrutil::Encode(user_name), cure::MangledPassword(pw));
((PushManager*)GetGameManager())->RequestLogin(server, login_id);
((PushManager*)GetGameManager())->ToggleConsole();
ExecuteCommand("wait-login");
((PushManager*)GetGameManager())->SelectAvatar(avatar_type);
} break;
#endif // Debug & Windows
default: {
result = -1;
} break;
}
}
return (result);
}
static bool ExecuteIcingaCommand(const std::string& arguments)
{
return ExecuteCommand(GetIcingaInstallPath() + "\\sbin\\icinga2.exe", arguments);
}
/*
** Parses and executes the given command.
**
*/
void CommandHandler::ExecuteCommand(const WCHAR* command, Skin* skin, bool multi)
{
if (command[0] == L'!') // Bang
{
++command; // Skip "!"
if (_wcsnicmp(L"Execute", command, 7) == 0)
{
command += 7;
command = wcschr(command, L'[');
if (!command) return;
}
else
{
if (_wcsnicmp(command, L"Rainmeter", 9) == 0)
{
// Skip "Rainmeter" for backwards compatibility
command += 9;
}
std::wstring bang;
std::vector<std::wstring> args;
// Find the first space
const WCHAR* pos = wcschr(command, L' ');
if (pos)
{
bang.assign(command, 0, pos - command);
args = ParseString(pos + 1, skin ? &skin->GetParser() : nullptr);
}
else
{
bang = command;
}
ExecuteBang(bang.c_str(), args, skin);
return;
}
}
if (multi && command[0] == L'[') // Multi-bang
{
std::wstring bangs = command;
std::wstring::size_type start = std::wstring::npos;
int count = 0;
for (size_t i = 0, isize = bangs.size(); i < isize; ++i)
{
if (bangs[i] == L'[')
{
if (count == 0)
{
start = i;
}
++count;
}
else if (bangs[i] == L']')
{
--count;
if (count == 0 && start != std::wstring::npos)
{
// Change ] to nullptr
bangs[i] = L'\0';
// Skip whitespace
start = bangs.find_first_not_of(L" \t\r\n", start + 1, 4);
ExecuteCommand(bangs.c_str() + start, skin, false);
}
}
else if (bangs[i] == L'"' && isize > (i + 2) && bangs[i + 1] == L'"' && bangs[i + 2] == L'"')
{
i += 3;
std::wstring::size_type pos = bangs.find(L"\"\"\"", i);
if (pos != std::wstring::npos)
{
i = pos + 2; // Skip "", loop will skip last "
}
}
}
}
else
{
// Check for built-ins
if (_wcsnicmp(L"PLAY", command, 4) == 0)
{
if (command[4] == L' ' || // PLAY
_wcsnicmp(L"LOOP ", &command[4], 5) == 0) // PLAYLOOP
{
command += 4; // Skip PLAY
DWORD flags = SND_FILENAME | SND_ASYNC;
if (command[0] != L' ')
{
flags |= SND_LOOP | SND_NODEFAULT;
command += 4; // Skip LOOP
}
++command; // Skip the space
if (command[0] != L'\0')
{
std::wstring sound = command;
// Strip the quotes
std::wstring::size_type len = sound.length();
if (len >= 2 && sound[0] == L'"' && sound[len - 1] == L'"')
{
len -= 2;
sound.assign(sound, 1, len);
}
if (skin)
{
skin->GetParser().ReplaceMeasures(sound);
skin->MakePathAbsolute(sound);
}
PlaySound(sound.c_str(), nullptr, flags);
}
return;
}
else if (_wcsnicmp(L"STOP", &command[4], 4) == 0) // PLAYSTOP
{
PlaySound(nullptr, nullptr, SND_PURGE);
return;
}
}
// Run command
std::wstring tmpSz = command;
if (skin)
{
skin->GetParser().ReplaceMeasures(tmpSz);
}
RunCommand(tmpSz);
}
}
/**
* Implements the state machine.
*/
void StateMachine(void)
{
char *gameend;
State = STATE_WAITING;
CurrentPosition = InitialPosition();
ComputerSide = Black;
while(State != STATE_END) {
if(AutoSave) {
SaveGame(CurrentPosition, AutoSaveFileName);
}
switch(State) {
case STATE_WAITING:
if(!XBoardMode) {
Print(0, "%s(%d): ",
CurrentPosition->turn == White ? "White":"Black",
(CurrentPosition->ply/2)+1);
}
if(!ReadLine(InputBuffer, 1023)) {
State = STATE_END;
} else {
struct Command *command = ParseInput(InputBuffer);
if(command) {
ExecuteCommand(command);
if(command->move != M_NONE) {
if(!ForceMode) State = STATE_CALCULATING;
}
}
}
break;
case STATE_CALCULATING:
ComputerSide = CurrentPosition->turn;
SearchRoot(CurrentPosition);
if(EasyMode || ForceMode) {
State = STATE_WAITING;
}
else {
State = STATE_PONDERING;
}
break;
case STATE_PONDERING:
switch(PermanentBrain(CurrentPosition)) {
case PB_NO_PB_MOVE:
State = STATE_WAITING;
break;
case PB_NO_PB_HIT:
State = ForceMode ? STATE_WAITING : STATE_CALCULATING;
break;
case PB_HIT:
if(EasyMode) {
State = STATE_WAITING;
}
break;
}
break;
case STATE_ANALYZING:
AnalysisMode(CurrentPosition);
break;
}
/*
* Check for game termination
*/
gameend = GameEnd(CurrentPosition);
if(gameend != NULL) {
Print(0, "%s\n", gameend);
if(State == STATE_ANALYZING) {
State = STATE_WAITING;
}
}
}
FreePosition(CurrentPosition);
}
wxString ProcUtils::GetProcessNameByPid(long pid)
{
#ifdef __WXMSW__
//go over the process modules and get the full path of
//the executeable
HANDLE hModuleSnap = INVALID_HANDLE_VALUE;
MODULEENTRY32 me32;
// Take a snapshot of all modules in the specified process.
hModuleSnap = CreateToolhelp32Snapshot( TH32CS_SNAPMODULE, (DWORD)pid );
if ( hModuleSnap == INVALID_HANDLE_VALUE ) {
return wxEmptyString;
}
// Set the size of the structure before using it.
me32.dwSize = sizeof( MODULEENTRY32 );
// Retrieve information about the first module,
// and exit if unsuccessful
if (!Module32First( hModuleSnap, &me32 )) {
CloseHandle( hModuleSnap ); // Must clean up the
// snapshot object!
return wxEmptyString;
}
//get the name of the process (it is located in the first entry)
CloseHandle( hModuleSnap );
return me32.szExePath;
#elif defined(__FreeBSD__)
kvm_t *kvd;
struct kinfo_proc *ki;
int nof_procs;
wxString cmd;
if (!(kvd = kvm_openfiles(_PATH_DEVNULL, _PATH_DEVNULL, NULL, O_RDONLY, NULL)))
return wxEmptyString;
if (!(ki = kvm_getprocs(kvd, KERN_PROC_PID, pid, &nof_procs))) {
kvm_close(kvd);
return wxEmptyString;
}
cmd = wxString(ki->ki_ocomm, wxConvUTF8);
kvm_close(kvd);
return (cmd);
#else
wxArrayString output;
ExecuteCommand(wxT("ps -A -o pid,command --no-heading"), output);
//parse the output and search for our process ID
for (size_t i=0; i< output.GetCount(); i++) {
wxString line = output.Item(i);
//remove whitespaces
line = line.Trim();
line = line.Trim(false);
//get the process ID
wxString spid = line.BeforeFirst(wxT(' '));
long cpid(0);
spid.ToLong( &cpid );
if (cpid == pid) {
//we got a match, extract the command, it is in the second column
wxString command = line.AfterFirst(wxT(' '));
return command;
}
}
return wxEmptyString; //Not implemented yet
#endif
}
void ConnectionPanel::OnRawCommand(wxCommandEvent &evt)
{
ExecuteCommand(GetCommandText());
}
void ProcUtils::GetProcessList(std::vector<ProcessEntry> &proclist)
{
#ifdef __WXMSW__
OSVERSIONINFO osver ;
// Check to see if were running under Windows95 or
// Windows NT.
osver.dwOSVersionInfoSize = sizeof( osver ) ;
if ( !GetVersionEx( &osver ) ) {
return;
}
if ( osver.dwPlatformId != VER_PLATFORM_WIN32_NT ) {
return;
}
//get child processes of this node
HANDLE hProcessSnap = CreateToolhelp32Snapshot(TH32CS_SNAPPROCESS, 0);
if (!hProcessSnap) {
return;
}
//Fill in the size of the structure before using it.
PROCESSENTRY32 pe;
memset(&pe, 0, sizeof(pe));
pe.dwSize = sizeof(PROCESSENTRY32);
// Walk the snapshot of the processes, and for each process,
// kill it if its parent is pid.
if (!Process32First(hProcessSnap, &pe)) {
// Can't get first process.
CloseHandle (hProcessSnap);
return;
}
do {
ProcessEntry entry;
entry.name = pe.szExeFile;
entry.pid = (long)pe.th32ProcessID;
proclist.push_back(entry);
} while (Process32Next (hProcessSnap, &pe));
CloseHandle (hProcessSnap);
#elif defined(__FreeBSD__)
kvm_t *kvd;
struct kinfo_proc *ki;
int nof_procs, i;
if (!(kvd = kvm_openfiles(_PATH_DEVNULL, _PATH_DEVNULL, NULL, O_RDONLY, NULL)))
return;
if (!(ki = kvm_getprocs(kvd, KERN_PROC_PROC, 0, &nof_procs))) {
kvm_close(kvd);
return;
}
for (i=0; i<nof_procs; i++) {
ProcessEntry entry;
entry.pid = ki[i].ki_pid;
entry.name = wxString(ki[i].ki_ocomm, wxConvUTF8);
proclist.push_back(entry);
}
kvm_close(kvd);
#else
//GTK and other
wxArrayString output;
#if defined (__WXGTK__)
ExecuteCommand(wxT("ps -A -o pid,command --no-heading"), output);
#elif defined (__WXMAC__)
// Mac does not like the --no-heading...
ExecuteCommand(wxT("ps -A -o pid,command "), output);
#endif
for (size_t i=0; i< output.GetCount(); i++) {
wxString line = output.Item(i);
//remove whitespaces
line = line.Trim().Trim(false);
//get the process ID
ProcessEntry entry;
wxString spid = line.BeforeFirst(wxT(' '));
spid.ToLong( &entry.pid );
entry.name = line.AfterFirst(wxT(' '));
if (entry.pid == 0 && i > 0) {
//probably this line belongs to the provious one
ProcessEntry e = proclist.back();
proclist.pop_back();
e.name << entry.name;
proclist.push_back(e);
} else {
proclist.push_back( entry );
}
}
#endif
}
int _tmain(int argc, _TCHAR* argv[])
{
UINT loop_times = 0;
BOOL loop_endless = FALSE;
DWORD ms_between_loop = 0;
BOOL enable_logs = FALSE;
TCHAR command[CMD_BUF_SIZE] = {0};
if ( ParameterCheck(argc, argv, loop_times, ms_between_loop, enable_logs, command, CMD_BUF_SIZE) )
{
loop_endless = ( 0 == loop_times );
}
else
{
PrintUsage(argv[0]);
return 1;
}
HANDLE hLogFile = INVALID_HANDLE_VALUE;
if( TRUE == enable_logs)
{
SYSTEMTIME st;
GetSystemTime(&st);
TCHAR logFileName[MAX_PATH] = {0};
_stprintf_s(logFileName, MAX_PATH - 1, _T("loop_trace_%04d%02d%02d-%d-%02d%02d%02d-%03d.log"),
st.wYear,st.wMonth,st.wDay,st.wDayOfWeek,st.wHour,st.wMinute,st.wSecond,st.wMilliseconds);
dbgtprintf(logFileName);
dbgtprintf(L"\n");
hLogFile = CreateFile(logFileName,
GENERIC_READ | GENERIC_WRITE,
FILE_SHARE_READ,
NULL,
CREATE_ALWAYS,
FILE_ATTRIBUTE_NORMAL,
NULL);
if(INVALID_HANDLE_VALUE == hLogFile)
{
_tprintf(_T("Failed to Create Log File, st = 0x%x\n"), GetLastError());
return 1;
}
else
{
dbgtprintf(TEXT("OK to CreateFile.\n"));
}
}
while( loop_endless || loop_times > 0 )
{
if(!loop_endless)
{
--loop_times;
}
CHAR printedCommand[CMD_BUF_SIZE] = {0};
sprintf_s(printedCommand, CMD_BUF_SIZE - 1, "\n-> %S\n\n",
command + _tcsnlen(BASE_CMD, CMD_BUF_SIZE) + 1);
printf(printedCommand);
if (INVALID_HANDLE_VALUE != hLogFile)
{
DWORD dwToWrite = sizeof(CHAR) * strnlen(printedCommand, CMD_BUF_SIZE);
DWORD dwWritten = 0;
BOOL bWrite = WriteFile( hLogFile,
printedCommand,
dwToWrite,
&dwWritten,
NULL);
if(!bWrite)
{
_tprintf(_T("Write to log file error, st=0x%x\n"), GetLastError());
assert(false);
}
assert(dwToWrite == dwWritten);
}
ExecuteCommand(command, CMD_BUF_SIZE, enable_logs, hLogFile);
Sleep(ms_between_loop);
}
if (INVALID_HANDLE_VALUE != hLogFile)
{
CloseHandle(hLogFile);
}
return 0;
}
BOOL CMobileServer::OnReceiveSession(WORKSESSION *pSession, LPSTR pszBuffer, int nLength)
{
char *p, *p1, *pszHeader;
int i, len;
time(&m_tmLastReceived);
// printf("MobileServer: %d Bytes recv.\r\n", nLength);
// DUMPSTRING(pszBuffer, nLength);
#ifdef __TEST_ONLY__
// int nError;
// IF4Invoke *pInvoke;
// CIF4Invoke invoke("192.168.0.23", 8000, 60);
//
// pInvoke = invoke.GetHandle();
// pInvoke->bAsync = TRUE;
//
// invoke.AddParam("4.2.1", 5);
// invoke.AddParam("4.2.2", 1);
// invoke.AddParam("1.9", 0);
//
// nError = invoke.Command("104.12", IF4_CMDATTR_REQUEST | IF4_CMDATTR_MCUIPC | IF4_CMDATTR_RESPONSE);
// if (nError != IF4ERR_NOERROR)
// printf("ERROR: %s\r\n", IF4API_GetErrorMessage(nError));
#endif
if (m_nState != STATE_DATA)
{
m_Chunk.Add(pszBuffer, nLength);
m_Chunk.Close();
p = m_Chunk.GetBuffer();
len = m_Chunk.GetSize();
pszHeader = NULL;
for(i=0; i<len; i++)
{
if (strncmp(p+i, "NURI/", 5) == 0)
{
pszHeader = p+i;
break;
}
}
if (len >= 512)
{
m_Chunk.Flush();
return TRUE;
}
if (pszHeader == NULL)
return TRUE;
p1 = strstr(pszHeader, "\n\n");
if (p1 == NULL)
p1 = strstr(pszHeader, "\r\r");
if (p1 == NULL)
p1 = strstr(pszHeader, "\r\n\r\n");
if (p1 == NULL)
return TRUE;
*p1 = '\0';
if (GetHeader(&m_theHeader, pszHeader, strlen(pszHeader)))
{
m_bLiveSession = TRUE;
switch(m_theHeader.nMethod) {
case MOBILE_METHOD_TELNET :
SendResult(MTPERR_TELNET_ACCEPT);
usleep(1000000);
m_theClient.NewConnection(atoi(m_theHeader.szURL));
m_nState = STATE_DATA;
break;
case MOBILE_METHOD_NACS :
SendResult(MTPERR_NACS_ACCEPT);
usleep(1000000);
m_theClient.NewConnection(atoi(m_theHeader.szURL));
m_nState = STATE_DATA;
break;
case MOBILE_METHOD_COMMAND :
ExecuteCommand(m_theHeader.szURL);
break;
case MOBILE_METHOD_GET :
SendResult(MTPERR_GET_ACCEPT);
m_nState = STATE_DATA;
break;
case MOBILE_METHOD_PUT :
SendResult(MTPERR_PUT_ACCEPT);
m_theHeader.fp = fopen("/tmp/upload.tmp", "wb");
m_nState = STATE_DATA;
break;
case MOBILE_METHOD_LIST :
SendResult(MTPERR_LIST_ACCEPT);
m_nState = STATE_DATA;
break;
}
}
else
{
// Return to error message
SendResult(MTPERR_INVALID_REQUEST);
}
m_Chunk.Flush();
return TRUE;
}
switch(m_theHeader.nMethod) {
case MOBILE_METHOD_TELNET :
case MOBILE_METHOD_NACS :
m_theClient.SendToHost(pszBuffer, nLength);
break;
case MOBILE_METHOD_GET :
break;
case MOBILE_METHOD_PUT :
OnPut(pSession, pszBuffer, nLength);
break;
case MOBILE_METHOD_LIST :
break;
}
return TRUE;
}
