#include #include #include #include #include "console.h" #include "config.h" #include "engine.h" #include "linereader.h" const char *CConsole::CResult::GetString(unsigned Index) { if (Index < 0 || Index >= m_NumArgs) return ""; return m_apArgs[Index]; } int CConsole::CResult::GetInteger(unsigned Index) { if (Index < 0 || Index >= m_NumArgs) return 0; return str_toint(m_apArgs[Index]); } float CConsole::CResult::GetFloat(unsigned Index) { if (Index < 0 || Index >= m_NumArgs) return 0.0f; return str_tofloat(m_apArgs[Index]); } // the maximum number of tokens occurs in a string of length CONSOLE_MAX_STR_LENGTH with tokens size 1 separated by single spaces static char *SkipToBlank(char *pStr) { while(*pStr && (*pStr != ' ' && *pStr != '\t' && *pStr != '\n')) pStr++; return pStr; } int CConsole::ParseStart(CResult *pResult, const char *pString, int Length) { char *pStr; int Len = sizeof(pResult->m_aStringStorage); if(Length < Len) Len = Length; str_copy(pResult->m_aStringStorage, pString, Length); pStr = pResult->m_aStringStorage; // get command pStr = str_skip_whitespaces(pStr); pResult->m_pCommand = pStr; pStr = SkipToBlank(pStr); if(*pStr) { pStr[0] = 0; pStr++; } pResult->m_pArgsStart = pStr; return 0; } int CConsole::ParseArgs(CResult *pResult, const char *pFormat) { char Command; char *pStr; int Optional = 0; int Error = 0; pStr = pResult->m_pArgsStart; while(1) { // fetch command Command = *pFormat; pFormat++; if(!Command) break; if(Command == '?') Optional = 1; else { pStr = str_skip_whitespaces(pStr); if(!(*pStr)) // error, non optional command needs value { if(!Optional) Error = 1; break; } // add token if(*pStr == '"') { char *pDst; pStr++; pResult->AddArgument(pStr); pDst = pStr; // we might have to process escape data while(1) { if(pStr[0] == '"') break; else if(pStr[0] == '\\') { if(pStr[1] == '\\') pStr++; // skip due to escape else if(pStr[1] == '"') pStr++; // skip due to escape } else if(pStr[0] == 0) return 1; // return error *pDst = *pStr; pDst++; pStr++; } // write null termination *pDst = 0; pStr++; } else { pResult->AddArgument(pStr); if(Command == 'r') // rest of the string break; else if(Command == 'i') // validate int pStr = SkipToBlank(pStr); else if(Command == 'f') // validate float pStr = SkipToBlank(pStr); else if(Command == 's') // validate string pStr = SkipToBlank(pStr); if(pStr[0] != 0) // check for end of string { pStr[0] = 0; pStr++; } } } } return Error; } void CConsole::RegisterPrintCallback(FPrintCallback pfnPrintCallback, void *pUserData) { m_pfnPrintCallback = pfnPrintCallback; m_pPrintCallbackUserdata = pUserData; } void CConsole::Print(int Level, const char *pFrom, const char *pStr) { dbg_msg(pFrom ,"%s", pStr); if (Level <= g_Config.m_ConsoleOutputLevel && m_pfnPrintCallback) { char aBuf[1024]; str_format(aBuf, sizeof(aBuf), "[%s]: %s", pFrom, pStr); m_pfnPrintCallback(aBuf, m_pPrintCallbackUserdata); } } void CConsole::ExecuteLineStroked(int Stroke, const char *pStr, const int ClientLevel, const int ClientId) { CResult *pResult = new(&m_ExecutionQueue.m_pLast->m_Result) CResult; while(pStr && *pStr) { const char *pEnd = pStr; const char *pNextPart = 0; int InString = 0; while(*pEnd) { if(*pEnd == '"') InString ^= 1; else if(*pEnd == '\\') // escape sequences { if(pEnd[1] == '"') pEnd++; } else if(!InString) { if(*pEnd == ';') // command separator { pNextPart = pEnd+1; break; } else if(*pEnd == '#') // comment, no need to do anything more break; } pEnd++; } if(ParseStart(pResult, pStr, (pEnd-pStr) + 1) != 0) return; CCommand *pCommand = FindCommand(pResult->m_pCommand, m_FlagMask); if(pCommand) { int IsStrokeCommand = 0; if(pResult->m_pCommand[0] == '+') { // insert the stroke direction token pResult->AddArgument(m_paStrokeStr[Stroke]); IsStrokeCommand = 1; } if(Stroke || IsStrokeCommand) { if(ParseArgs(pResult, pCommand->m_pParams)) { char aBuf[256]; str_format(aBuf, sizeof(aBuf), "Invalid arguments... Usage: %s %s", pCommand->m_pName, pCommand->m_pParams); Print(OUTPUT_LEVEL_STANDARD, "Console", aBuf); } else if(m_StoreCommands && pCommand->m_Flags&CFGFLAG_STORE) { m_ExecutionQueue.m_pLast->m_pfnCommandCallback = pCommand->m_pfnCallback; m_ExecutionQueue.m_pLast->m_pCommandUserData = pCommand->m_pUserData; m_ExecutionQueue.AddEntry(); } else if(pCommand->m_Level <= ClientLevel) { pCommand->m_pfnCallback(pResult, pCommand->m_pUserData, ClientId); } else { char aBuf[256]; if (pCommand->m_Level == 100 && ClientLevel < 100) { str_format(aBuf, sizeof(aBuf), "You can't use this command: %s", pCommand->m_pName); } else { str_format(aBuf, sizeof(aBuf), "You have low level to use command: %s. Your level: %d. Need level: %d", pCommand->m_pName, ClientLevel, pCommand->m_Level); } Print(OUTPUT_LEVEL_STANDARD, "Console",aBuf); } } } else if(Stroke) { char aBuf[256]; str_format(aBuf, sizeof(aBuf), "No such command: %s.", pResult->m_pCommand); Print(OUTPUT_LEVEL_STANDARD, "Console", aBuf); } pStr = pNextPart; } } void CConsole::PossibleCommands(const char *pStr, int FlagMask, FPossibleCallback pfnCallback, void *pUser) { CCommand *pCommand; for(pCommand = m_pFirstCommand; pCommand; pCommand = pCommand->m_pNext) { if(pCommand->m_Flags&FlagMask) { if(str_find_nocase(pCommand->m_pName, pStr)) pfnCallback(pCommand->m_pName, pUser); } } } CConsole::CCommand *CConsole::FindCommand(const char *pName, int FlagMask) { CCommand *pCommand; for (pCommand = m_pFirstCommand; pCommand; pCommand = pCommand->m_pNext) { if(pCommand->m_Flags&FlagMask) { if(str_comp_nocase(pCommand->m_pName, pName) == 0) return pCommand; } } return 0x0; } void CConsole::ExecuteLine(const char *pStr, const int ClientLevel, const int ClientId) { CConsole::ExecuteLineStroked(1, pStr, ClientLevel, ClientId); // press it CConsole::ExecuteLineStroked(0, pStr, ClientLevel, ClientId); // then release it } void CConsole::ExecuteFile(const char *pFilename) { // make sure that this isn't being executed already for(CExecFile *pCur = m_pFirstExec; pCur; pCur = pCur->m_pPrev) if(str_comp(pFilename, pCur->m_pFilename) == 0) return; if(!m_pStorage) m_pStorage = Kernel()->RequestInterface(); if(!m_pStorage) return; // push this one to the stack CExecFile ThisFile; CExecFile *pPrev = m_pFirstExec; ThisFile.m_pFilename = pFilename; ThisFile.m_pPrev = m_pFirstExec; m_pFirstExec = &ThisFile; // exec the file IOHANDLE File = m_pStorage->OpenFile(pFilename, IOFLAG_READ); char aBuf[256]; if(File) { char *pLine; CLineReader lr; str_format(aBuf, sizeof(aBuf), "executing '%s'", pFilename); Print(IConsole::OUTPUT_LEVEL_STANDARD, "console", aBuf); lr.Init(File); while((pLine = lr.Get())) ExecuteLine(pLine, 4, -1); io_close(File); } else { str_format(aBuf, sizeof(aBuf), "failed to open '%s'", pFilename); Print(IConsole::OUTPUT_LEVEL_STANDARD, "console", aBuf); } m_pFirstExec = pPrev; } void CConsole::Con_Echo(IResult *pResult, void *pUserData, int ClientId) { ((CConsole*)pUserData)->Print(IConsole::OUTPUT_LEVEL_STANDARD, "Console", pResult->GetString(0)); } void CConsole::Con_Exec(IResult *pResult, void *pUserData, int ClientId) { ((CConsole*)pUserData)->ExecuteFile(pResult->GetString(0)); } struct CIntVariableData { IConsole *m_pConsole; int *m_pVariable; int m_Min; int m_Max; }; struct CStrVariableData { IConsole *m_pConsole; char *m_pStr; int m_MaxSize; }; static void IntVariableCommand(IConsole::IResult *pResult, void *pUserData, int ClientId) { CIntVariableData *pData = (CIntVariableData *)pUserData; if(pResult->NumArguments()) { int Val = pResult->GetInteger(0); // do clamping if(pData->m_Min != pData->m_Max) { if (Val < pData->m_Min) Val = pData->m_Min; if (pData->m_Max != 0 && Val > pData->m_Max) Val = pData->m_Max; } *(pData->m_pVariable) = Val; } else { char aBuf[1024]; str_format(aBuf, sizeof(aBuf), "Value: %d", *(pData->m_pVariable)); pData->m_pConsole->Print(IConsole::OUTPUT_LEVEL_STANDARD, "Console", aBuf); } } static void StrVariableCommand(IConsole::IResult *pResult, void *pUserData, int ClientId) { CStrVariableData *pData = (CStrVariableData *)pUserData; if(pResult->NumArguments()) str_copy(pData->m_pStr, pResult->GetString(0), pData->m_MaxSize); else { char aBuf[1024]; str_format(aBuf, sizeof(aBuf), "Value: %s", pData->m_pStr); pData->m_pConsole->Print(IConsole::OUTPUT_LEVEL_STANDARD, "Console", aBuf); } } CConsole::CConsole(int FlagMask) { m_FlagMask = FlagMask; m_StoreCommands = true; m_paStrokeStr[0] = "0"; m_paStrokeStr[1] = "1"; m_ExecutionQueue.Reset(); m_pFirstCommand = 0; m_pFirstExec = 0; m_pPrintCallbackUserdata = 0; m_pfnPrintCallback = 0; m_pStorage = 0; // register some basic commands Register("echo", "r", CFGFLAG_SERVER|CFGFLAG_CLIENT, Con_Echo, this, "Echo the text", 3); Register("exec", "r", CFGFLAG_SERVER|CFGFLAG_CLIENT, Con_Exec, this, "Execute the specified file", 3); // TODO: this should disappear #define MACRO_CONFIG_INT(Name,ScriptName,Def,Min,Max,Flags,Desc,Level) \ { \ static CIntVariableData Data = { this, &g_Config.m_##Name, Min, Max }; \ Register(#ScriptName, "?i", Flags, IntVariableCommand, &Data, Desc, Level); \ } #define MACRO_CONFIG_STR(Name,ScriptName,Len,Def,Flags,Desc,Level) \ { \ static CStrVariableData Data = { this, g_Config.m_##Name, Len }; \ Register(#ScriptName, "?r", Flags, StrVariableCommand, &Data, Desc, Level); \ } #include "config_variables.h" #undef MACRO_CONFIG_INT #undef MACRO_CONFIG_STR } void CConsole::ParseArguments(int NumArgs, const char **ppArguments) { for(int i = 0; i < NumArgs; i++) { // check for scripts to execute if(ppArguments[i][0] == '-' && ppArguments[i][1] == 'f' && ppArguments[i][2] == 0 && NumArgs - i > 1) { ExecuteFile(ppArguments[i+1]); i++; } else { // search arguments for overrides ExecuteLine(ppArguments[i], 100, -1); } } } void CConsole::Register(const char *pName, const char *pParams, int Flags, FCommandCallback pfnFunc, void *pUser, const char *pHelp, const int Level) { CCommand *pCommand = (CCommand *)mem_alloc(sizeof(CCommand), sizeof(void*)); pCommand->m_pfnCallback = pfnFunc; pCommand->m_pUserData = pUser; pCommand->m_pHelp = pHelp; pCommand->m_pName = pName; pCommand->m_pParams = pParams; pCommand->m_Flags = Flags; pCommand->m_Level = Level; pCommand->m_pNext = m_pFirstCommand; m_pFirstCommand = pCommand; } void CConsole::Con_Chain(IResult *pResult, void *pUserData, int ClientId) { CChain *pInfo = (CChain *)pUserData; pInfo->m_pfnChainCallback(pResult, pInfo->m_pUserData, pInfo->m_pfnCallback, pInfo->m_pCallbackUserData); } void CConsole::Chain(const char *pName, FChainCommandCallback pfnChainFunc, void *pUser) { CCommand *pCommand = FindCommand(pName, m_FlagMask); if(!pCommand) { char aBuf[256]; str_format(aBuf, sizeof(aBuf), "failed to chain '%s'", pName); Print(IConsole::OUTPUT_LEVEL_DEBUG, "console", aBuf); return; } CChain *pChainInfo = (CChain *)mem_alloc(sizeof(CChain), sizeof(void*)); // store info pChainInfo->m_pfnChainCallback = pfnChainFunc; pChainInfo->m_pUserData = pUser; pChainInfo->m_pfnCallback = pCommand->m_pfnCallback; pChainInfo->m_pCallbackUserData = pCommand->m_pUserData; // chain pCommand->m_pfnCallback = Con_Chain; pCommand->m_pUserData = pChainInfo; } void CConsole::StoreCommands(bool Store, int ClientId) { if(!Store) { for(CExecutionQueue::CQueueEntry *pEntry = m_ExecutionQueue.m_pFirst; pEntry != m_ExecutionQueue.m_pLast; pEntry = pEntry->m_pNext) pEntry->m_pfnCommandCallback(&pEntry->m_Result, pEntry->m_pCommandUserData, ClientId); m_ExecutionQueue.Reset(); } m_StoreCommands = Store; } IConsole::CCommandInfo *CConsole::GetCommandInfo(const char *pName, int FlagMask) { return FindCommand(pName, FlagMask); } extern IConsole *CreateConsole(int FlagMask) { return new CConsole(FlagMask); }