/*============================================================================ CMake - Cross Platform Makefile Generator Copyright 2000-2009 Kitware, Inc., Insight Software Consortium Distributed under the OSI-approved BSD License (the "License"); see accompanying file Copyright.txt for details. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the License for more information. ============================================================================*/ #include "cmCTestBuildAndTestHandler.h" #include "cmCTest.h" #include "cmCTestTestHandler.h" #include "cmGlobalGenerator.h" #include "cmSystemTools.h" #include "cmake.h" #include cmCTestBuildAndTestHandler::cmCTestBuildAndTestHandler() { this->BuildTwoConfig = false; this->BuildNoClean = false; this->BuildNoCMake = false; this->Timeout = 0; } void cmCTestBuildAndTestHandler::Initialize() { this->BuildTargets.clear(); this->Superclass::Initialize(); } const char* cmCTestBuildAndTestHandler::GetOutput() { return this->Output.c_str(); } int cmCTestBuildAndTestHandler::ProcessHandler() { this->Output = ""; std::string output; cmSystemTools::ResetErrorOccuredFlag(); int retv = this->RunCMakeAndTest(&this->Output); cmSystemTools::ResetErrorOccuredFlag(); return retv; } int cmCTestBuildAndTestHandler::RunCMake(std::string* outstring, std::ostringstream& out, std::string& cmakeOutString, std::string& cwd, cmake* cm) { unsigned int k; std::vector args; args.push_back(cmSystemTools::GetCMakeCommand()); args.push_back(this->SourceDir); if (!this->BuildGenerator.empty()) { std::string generator = "-G"; generator += this->BuildGenerator; args.push_back(generator); } if (!this->BuildGeneratorPlatform.empty()) { std::string platform = "-A"; platform += this->BuildGeneratorPlatform; args.push_back(platform); } if (!this->BuildGeneratorToolset.empty()) { std::string toolset = "-T"; toolset += this->BuildGeneratorToolset; args.push_back(toolset); } const char* config = CM_NULLPTR; if (!this->CTest->GetConfigType().empty()) { config = this->CTest->GetConfigType().c_str(); } #ifdef CMAKE_INTDIR if (!config) { config = CMAKE_INTDIR; } #endif if (config) { std::string btype = "-DCMAKE_BUILD_TYPE:STRING=" + std::string(config); args.push_back(btype); } for (k = 0; k < this->BuildOptions.size(); ++k) { args.push_back(this->BuildOptions[k]); } if (cm->Run(args) != 0) { out << "Error: cmake execution failed\n"; out << cmakeOutString << "\n"; // return to the original directory cmSystemTools::ChangeDirectory(cwd); if (outstring) { *outstring = out.str(); } else { cmCTestLog(this->CTest, ERROR_MESSAGE, out.str() << std::endl); } return 1; } // do another config? if (this->BuildTwoConfig) { if (cm->Run(args) != 0) { out << "Error: cmake execution failed\n"; out << cmakeOutString << "\n"; // return to the original directory cmSystemTools::ChangeDirectory(cwd); if (outstring) { *outstring = out.str(); } else { cmCTestLog(this->CTest, ERROR_MESSAGE, out.str() << std::endl); } return 1; } } out << "======== CMake output ======\n"; out << cmakeOutString; out << "======== End CMake output ======\n"; return 0; } void CMakeMessageCallback(const char* m, const char* /*unused*/, bool& /*unused*/, void* s) { std::string* out = (std::string*)s; *out += m; *out += "\n"; } void CMakeProgressCallback(const char* msg, float /*unused*/, void* s) { std::string* out = (std::string*)s; *out += msg; *out += "\n"; } void CMakeOutputCallback(const char* m, size_t len, void* s) { std::string* out = (std::string*)s; out->append(m, len); } class cmCTestBuildAndTestCaptureRAII { cmake& CM; public: cmCTestBuildAndTestCaptureRAII(cmake& cm, std::string& s) : CM(cm) { cmSystemTools::SetMessageCallback(CMakeMessageCallback, &s); cmSystemTools::SetStdoutCallback(CMakeOutputCallback, &s); cmSystemTools::SetStderrCallback(CMakeOutputCallback, &s); this->CM.SetProgressCallback(CMakeProgressCallback, &s); } ~cmCTestBuildAndTestCaptureRAII() { this->CM.SetProgressCallback(CM_NULLPTR, CM_NULLPTR); cmSystemTools::SetStderrCallback(CM_NULLPTR, CM_NULLPTR); cmSystemTools::SetStdoutCallback(CM_NULLPTR, CM_NULLPTR); cmSystemTools::SetMessageCallback(CM_NULLPTR, CM_NULLPTR); } }; int cmCTestBuildAndTestHandler::RunCMakeAndTest(std::string* outstring) { // if the generator and make program are not specified then it is an error if (this->BuildGenerator.empty()) { if (outstring) { *outstring = "--build-and-test requires that the generator " "be provided using the --build-generator " "command line option. "; } return 1; } cmake cm; cm.SetHomeDirectory(""); cm.SetHomeOutputDirectory(""); std::string cmakeOutString; cmCTestBuildAndTestCaptureRAII captureRAII(cm, cmakeOutString); static_cast(captureRAII); std::ostringstream out; if (this->CTest->GetConfigType().empty() && !this->ConfigSample.empty()) { // use the config sample to set the ConfigType std::string fullPath; std::string resultingConfig; std::vector extraPaths; std::vector failed; fullPath = cmCTestTestHandler::FindExecutable( this->CTest, this->ConfigSample.c_str(), resultingConfig, extraPaths, failed); if (!fullPath.empty() && !resultingConfig.empty()) { this->CTest->SetConfigType(resultingConfig.c_str()); } out << "Using config sample with results: " << fullPath << " and " << resultingConfig << std::endl; } // we need to honor the timeout specified, the timeout include cmake, build // and test time double clock_start = cmSystemTools::GetTime(); // make sure the binary dir is there std::string cwd = cmSystemTools::GetCurrentWorkingDirectory(); out << "Internal cmake changing into directory: " << this->BinaryDir << std::endl; if (!cmSystemTools::FileIsDirectory(this->BinaryDir)) { cmSystemTools::MakeDirectory(this->BinaryDir.c_str()); } cmSystemTools::ChangeDirectory(this->BinaryDir); if (this->BuildNoCMake) { // Make the generator available for the Build call below. cm.SetGlobalGenerator(cm.CreateGlobalGenerator(this->BuildGenerator)); cm.SetGeneratorPlatform(this->BuildGeneratorPlatform); cm.SetGeneratorToolset(this->BuildGeneratorToolset); // Load the cache to make CMAKE_MAKE_PROGRAM available. cm.LoadCache(this->BinaryDir); } else { // do the cmake step, no timeout here since it is not a sub process if (this->RunCMake(outstring, out, cmakeOutString, cwd, &cm)) { return 1; } } // do the build std::vector::iterator tarIt; if (this->BuildTargets.empty()) { this->BuildTargets.push_back(""); } for (tarIt = this->BuildTargets.begin(); tarIt != this->BuildTargets.end(); ++tarIt) { double remainingTime = 0; if (this->Timeout > 0) { remainingTime = this->Timeout - cmSystemTools::GetTime() + clock_start; if (remainingTime <= 0) { if (outstring) { *outstring = "--build-and-test timeout exceeded. "; } return 1; } } std::string output; const char* config = CM_NULLPTR; if (!this->CTest->GetConfigType().empty()) { config = this->CTest->GetConfigType().c_str(); } #ifdef CMAKE_INTDIR if (!config) { config = CMAKE_INTDIR; } #endif if (!config) { config = "Debug"; } int retVal = cm.GetGlobalGenerator()->Build( this->SourceDir, this->BinaryDir, this->BuildProject, *tarIt, output, this->BuildMakeProgram, config, !this->BuildNoClean, false, false, remainingTime); out << output; // if the build failed then return if (retVal) { if (outstring) { *outstring = out.str(); } return 1; } } if (outstring) { *outstring = out.str(); } // if no test was specified then we are done if (this->TestCommand.empty()) { return 0; } // now run the compiled test if we can find it // store the final location in fullPath std::string fullPath; std::string resultingConfig; std::vector extraPaths; // if this->ExecutableDirectory is set try that as well if (!this->ExecutableDirectory.empty()) { std::string tempPath = this->ExecutableDirectory; tempPath += "/"; tempPath += this->TestCommand; extraPaths.push_back(tempPath); } std::vector failed; fullPath = cmCTestTestHandler::FindExecutable(this->CTest, this->TestCommand.c_str(), resultingConfig, extraPaths, failed); if (!cmSystemTools::FileExists(fullPath.c_str())) { out << "Could not find path to executable, perhaps it was not built: " << this->TestCommand << "\n"; out << "tried to find it in these places:\n"; out << fullPath << "\n"; for (unsigned int i = 0; i < failed.size(); ++i) { out << failed[i] << "\n"; } if (outstring) { *outstring = out.str(); } else { cmCTestLog(this->CTest, ERROR_MESSAGE, out.str()); } // return to the original directory cmSystemTools::ChangeDirectory(cwd); return 1; } std::vector testCommand; testCommand.push_back(fullPath.c_str()); for (size_t k = 0; k < this->TestCommandArgs.size(); ++k) { testCommand.push_back(this->TestCommandArgs[k].c_str()); } testCommand.push_back(CM_NULLPTR); std::string outs; int retval = 0; // run the test from the this->BuildRunDir if set if (!this->BuildRunDir.empty()) { out << "Run test in directory: " << this->BuildRunDir << "\n"; cmSystemTools::ChangeDirectory(this->BuildRunDir); } out << "Running test command: \"" << fullPath << "\""; for (size_t k = 0; k < this->TestCommandArgs.size(); ++k) { out << " \"" << this->TestCommandArgs[k] << "\""; } out << "\n"; // how much time is remaining double remainingTime = 0; if (this->Timeout > 0) { remainingTime = this->Timeout - cmSystemTools::GetTime() + clock_start; if (remainingTime <= 0) { if (outstring) { *outstring = "--build-and-test timeout exceeded. "; } return 1; } } int runTestRes = this->CTest->RunTest(testCommand, &outs, &retval, CM_NULLPTR, remainingTime, CM_NULLPTR); if (runTestRes != cmsysProcess_State_Exited || retval != 0) { out << "Test command failed: " << testCommand[0] << "\n"; retval = 1; } out << outs << "\n"; if (outstring) { *outstring = out.str(); } else { cmCTestLog(this->CTest, OUTPUT, out.str() << std::endl); } return retval; } int cmCTestBuildAndTestHandler::ProcessCommandLineArguments( const std::string& currentArg, size_t& idx, const std::vector& allArgs) { // --build-and-test options if (currentArg.find("--build-and-test", 0) == 0 && idx < allArgs.size() - 1) { if (idx + 2 < allArgs.size()) { idx++; this->SourceDir = allArgs[idx]; idx++; this->BinaryDir = allArgs[idx]; // dir must exist before CollapseFullPath is called cmSystemTools::MakeDirectory(this->BinaryDir.c_str()); this->BinaryDir = cmSystemTools::CollapseFullPath(this->BinaryDir); this->SourceDir = cmSystemTools::CollapseFullPath(this->SourceDir); } else { cmCTestLog(this->CTest, ERROR_MESSAGE, "--build-and-test must have source and binary dir" << std::endl); return 0; } } if (currentArg.find("--build-target", 0) == 0 && idx < allArgs.size() - 1) { idx++; this->BuildTargets.push_back(allArgs[idx]); } if (currentArg.find("--build-nocmake", 0) == 0) { this->BuildNoCMake = true; } if (currentArg.find("--build-run-dir", 0) == 0 && idx < allArgs.size() - 1) { idx++; this->BuildRunDir = allArgs[idx]; } if (currentArg.find("--build-two-config", 0) == 0) { this->BuildTwoConfig = true; } if (currentArg.find("--build-exe-dir", 0) == 0 && idx < allArgs.size() - 1) { idx++; this->ExecutableDirectory = allArgs[idx]; } if (currentArg.find("--test-timeout", 0) == 0 && idx < allArgs.size() - 1) { idx++; this->Timeout = atof(allArgs[idx].c_str()); } if (currentArg == "--build-generator" && idx < allArgs.size() - 1) { idx++; this->BuildGenerator = allArgs[idx]; } if (currentArg == "--build-generator-platform" && idx < allArgs.size() - 1) { idx++; this->BuildGeneratorPlatform = allArgs[idx]; } if (currentArg == "--build-generator-toolset" && idx < allArgs.size() - 1) { idx++; this->BuildGeneratorToolset = allArgs[idx]; } if (currentArg.find("--build-project", 0) == 0 && idx < allArgs.size() - 1) { idx++; this->BuildProject = allArgs[idx]; } if (currentArg.find("--build-makeprogram", 0) == 0 && idx < allArgs.size() - 1) { idx++; this->BuildMakeProgram = allArgs[idx]; } if (currentArg.find("--build-config-sample", 0) == 0 && idx < allArgs.size() - 1) { idx++; this->ConfigSample = allArgs[idx]; } if (currentArg.find("--build-noclean", 0) == 0) { this->BuildNoClean = true; } if (currentArg.find("--build-options", 0) == 0) { while (idx + 1 < allArgs.size() && allArgs[idx + 1] != "--build-target" && allArgs[idx + 1] != "--test-command") { ++idx; this->BuildOptions.push_back(allArgs[idx]); } } if (currentArg.find("--test-command", 0) == 0 && idx < allArgs.size() - 1) { ++idx; this->TestCommand = allArgs[idx]; while (idx + 1 < allArgs.size()) { ++idx; this->TestCommandArgs.push_back(allArgs[idx]); } } return 1; }