/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmTryRunCommand.h" #include #include #include #include "cmsys/FStream.hxx" #include "cmArgumentParserTypes.h" #include "cmConfigureLog.h" #include "cmCoreTryCompile.h" #include "cmDuration.h" #include "cmExecutionStatus.h" #include "cmList.h" #include "cmMakefile.h" #include "cmMessageType.h" #include "cmRange.h" #include "cmState.h" #include "cmStateTypes.h" #include "cmStringAlgorithms.h" #include "cmSystemTools.h" #include "cmValue.h" #include "cmake.h" namespace { struct cmTryRunResult { bool VariableCached = true; std::string Variable; cm::optional Stdout; cm::optional Stderr; cm::optional ExitCode; }; #ifndef CMAKE_BOOTSTRAP void WriteTryRunEvent(cmConfigureLog& log, cmMakefile const& mf, cmTryCompileResult const& compileResult, cmTryRunResult const& runResult) { // Keep in sync with cmFileAPIConfigureLog's DumpEventKindNames. static const std::vector LogVersionsWithTryRunV1{ 1 }; if (log.IsAnyLogVersionEnabled(LogVersionsWithTryRunV1)) { log.BeginEvent("try_run-v1", mf); cmCoreTryCompile::WriteTryCompileEventFields(log, compileResult); log.BeginObject("runResult"_s); log.WriteValue("variable"_s, runResult.Variable); log.WriteValue("cached"_s, runResult.VariableCached); if (runResult.Stdout) { log.WriteLiteralTextBlock("stdout"_s, *runResult.Stdout); } if (runResult.Stderr) { log.WriteLiteralTextBlock("stderr"_s, *runResult.Stderr); } if (runResult.ExitCode) { try { log.WriteValue("exitCode"_s, std::stoi(*runResult.ExitCode)); } catch (std::invalid_argument const&) { log.WriteValue("exitCode"_s, *runResult.ExitCode); } } log.EndObject(); log.EndEvent(); } } #endif class TryRunCommandImpl : public cmCoreTryCompile { public: TryRunCommandImpl(cmMakefile* mf) : cmCoreTryCompile(mf) { } bool TryRunCode(std::vector const& args); void RunExecutable(const std::string& runArgs, cm::optional const& workDir, std::string* runOutputContents, std::string* runOutputStdOutContents, std::string* runOutputStdErrContents); void DoNotRunExecutable(const std::string& runArgs, cm::optional const& srcFile, std::string const& compileResultVariable, std::string* runOutputContents, std::string* runOutputStdOutContents, std::string* runOutputStdErrContents, bool stdOutErrRequired); bool NoCache; std::string RunResultVariable; }; bool TryRunCommandImpl::TryRunCode(std::vector const& argv) { this->RunResultVariable = argv[0]; cmCoreTryCompile::Arguments arguments = this->ParseArgs(cmMakeRange(argv).advance(1), true); if (!arguments) { return true; } this->NoCache = arguments.NoCache; // although they could be used together, don't allow it, because // using OUTPUT_VARIABLE makes crosscompiling harder if (arguments.OutputVariable && (arguments.CompileOutputVariable || arguments.RunOutputVariable || arguments.RunOutputStdOutVariable || arguments.RunOutputStdErrVariable)) { cmSystemTools::Error( "You cannot use OUTPUT_VARIABLE together with COMPILE_OUTPUT_VARIABLE " ", RUN_OUTPUT_VARIABLE, RUN_OUTPUT_STDOUT_VARIABLE or " "RUN_OUTPUT_STDERR_VARIABLE. " "Please use only COMPILE_OUTPUT_VARIABLE, RUN_OUTPUT_VARIABLE, " "RUN_OUTPUT_STDOUT_VARIABLE " "and/or RUN_OUTPUT_STDERR_VARIABLE."); return false; } if ((arguments.RunOutputStdOutVariable || arguments.RunOutputStdErrVariable) && arguments.RunOutputVariable) { cmSystemTools::Error( "You cannot use RUN_OUTPUT_STDOUT_VARIABLE or " "RUN_OUTPUT_STDERR_VARIABLE together " "with RUN_OUTPUT_VARIABLE. Please use only COMPILE_OUTPUT_VARIABLE or " "RUN_OUTPUT_STDOUT_VARIABLE and/or RUN_OUTPUT_STDERR_VARIABLE."); return false; } if (arguments.RunWorkingDirectory) { if (!cmSystemTools::MakeDirectory(*arguments.RunWorkingDirectory)) { cmSystemTools::Error(cmStrCat("Error creating working directory \"", *arguments.RunWorkingDirectory, "\".")); return false; } } bool captureRunOutput = false; if (arguments.OutputVariable) { captureRunOutput = true; } else if (arguments.CompileOutputVariable) { arguments.OutputVariable = arguments.CompileOutputVariable; } // Capture the split output for the configure log unless the caller // requests combined output to be captured by a variable. bool captureRunOutputStdOutErr = true; if (!arguments.RunOutputStdOutVariable && !arguments.RunOutputStdErrVariable) { if (arguments.RunOutputVariable) { captureRunOutput = true; captureRunOutputStdOutErr = false; } else if (arguments.OutputVariable) { captureRunOutputStdOutErr = false; } } // do the try compile cm::optional compileResult = this->TryCompileCode(arguments, cmStateEnums::EXECUTABLE); cmTryRunResult runResult; runResult.Variable = this->RunResultVariable; runResult.VariableCached = !arguments.NoCache; // now try running the command if it compiled if (compileResult && compileResult->ExitCode == 0) { if (this->OutputFile.empty()) { cmSystemTools::Error(this->FindErrorMessage); } else { std::string runArgs; if (arguments.RunArgs) { runArgs = cmStrCat(" ", cmJoin(*arguments.RunArgs, " ")); } // "run" it and capture the output std::string runOutputContents; std::string runOutputStdOutContents; std::string runOutputStdErrContents; if (this->Makefile->IsOn("CMAKE_CROSSCOMPILING") && !this->Makefile->IsDefinitionSet("CMAKE_CROSSCOMPILING_EMULATOR")) { // We only require the stdout/stderr cache entries if the project // actually asked for the values, not just for logging. bool const stdOutErrRequired = (arguments.RunOutputStdOutVariable || arguments.RunOutputStdErrVariable); this->DoNotRunExecutable( runArgs, arguments.SourceDirectoryOrFile, *arguments.CompileResultVariable, captureRunOutput ? &runOutputContents : nullptr, captureRunOutputStdOutErr ? &runOutputStdOutContents : nullptr, captureRunOutputStdOutErr ? &runOutputStdErrContents : nullptr, stdOutErrRequired); } else { this->RunExecutable( runArgs, arguments.RunWorkingDirectory, captureRunOutput ? &runOutputContents : nullptr, captureRunOutputStdOutErr ? &runOutputStdOutContents : nullptr, captureRunOutputStdOutErr ? &runOutputStdErrContents : nullptr); } if (captureRunOutputStdOutErr) { runResult.Stdout = runOutputStdOutContents; runResult.Stderr = runOutputStdErrContents; } else { runResult.Stdout = runOutputContents; } if (cmValue ec = this->Makefile->GetDefinition(this->RunResultVariable)) { runResult.ExitCode = *ec; } // now put the output into the variables if (arguments.RunOutputVariable) { this->Makefile->AddDefinition(*arguments.RunOutputVariable, runOutputContents); } if (arguments.RunOutputStdOutVariable) { this->Makefile->AddDefinition(*arguments.RunOutputStdOutVariable, runOutputStdOutContents); } if (arguments.RunOutputStdErrVariable) { this->Makefile->AddDefinition(*arguments.RunOutputStdErrVariable, runOutputStdErrContents); } if (arguments.OutputVariable && !arguments.CompileOutputVariable) { // if the TryCompileCore saved output in this outputVariable then // prepend that output to this output cmValue compileOutput = this->Makefile->GetDefinition(*arguments.OutputVariable); if (compileOutput) { runOutputContents = *compileOutput + runOutputContents; } this->Makefile->AddDefinition(*arguments.OutputVariable, runOutputContents); } } } #ifndef CMAKE_BOOTSTRAP if (compileResult && !arguments.NoLog) { cmMakefile const& mf = *(this->Makefile); if (cmConfigureLog* log = mf.GetCMakeInstance()->GetConfigureLog()) { WriteTryRunEvent(*log, mf, *compileResult, runResult); } } #endif // if we created a directory etc, then cleanup after ourselves if (!this->Makefile->GetCMakeInstance()->GetDebugTryCompile()) { this->CleanupFiles(this->BinaryDirectory); } return true; } void TryRunCommandImpl::RunExecutable(const std::string& runArgs, cm::optional const& workDir, std::string* out, std::string* stdOut, std::string* stdErr) { int retVal = -1; std::string finalCommand; const std::string& emulator = this->Makefile->GetSafeDefinition("CMAKE_CROSSCOMPILING_EMULATOR"); if (!emulator.empty()) { cmList emulatorWithArgs{ emulator }; finalCommand += cmSystemTools::ConvertToRunCommandPath(emulatorWithArgs[0]); finalCommand += " "; for (std::string const& arg : cmMakeRange(emulatorWithArgs).advance(1)) { finalCommand += "\""; finalCommand += arg; finalCommand += "\""; finalCommand += " "; } } finalCommand += cmSystemTools::ConvertToRunCommandPath(this->OutputFile); if (!runArgs.empty()) { finalCommand += runArgs; } bool worked = cmSystemTools::RunSingleCommand( finalCommand, stdOut || stdErr ? stdOut : out, stdOut || stdErr ? stdErr : out, &retVal, workDir ? workDir->c_str() : nullptr, cmSystemTools::OUTPUT_NONE, cmDuration::zero()); // set the run var std::string retStr; if (worked) { retStr = std::to_string(retVal); } else { retStr = "FAILED_TO_RUN"; } if (this->NoCache) { this->Makefile->AddDefinition(this->RunResultVariable, retStr); } else { this->Makefile->AddCacheDefinition(this->RunResultVariable, retStr, "Result of try_run()", cmStateEnums::INTERNAL); } } /* This is only used when cross compiling. Instead of running the executable, two cache variables are created which will hold the results the executable would have produced. */ void TryRunCommandImpl::DoNotRunExecutable( const std::string& runArgs, cm::optional const& srcFile, std::string const& compileResultVariable, std::string* out, std::string* stdOut, std::string* stdErr, bool stdOutErrRequired) { // copy the executable out of the CMakeFiles/ directory, so it is not // removed at the end of try_run() and the user can run it manually // on the target platform. std::string copyDest = cmStrCat(this->Makefile->GetHomeOutputDirectory(), "/CMakeFiles/", cmSystemTools::GetFilenameWithoutExtension(this->OutputFile), '-', this->RunResultVariable, cmSystemTools::GetFilenameExtension(this->OutputFile)); cmSystemTools::CopyFileAlways(this->OutputFile, copyDest); std::string resultFileName = cmStrCat(this->Makefile->GetHomeOutputDirectory(), "/TryRunResults.cmake"); std::string detailsString = cmStrCat("For details see ", resultFileName); std::string internalRunOutputName = this->RunResultVariable + "__TRYRUN_OUTPUT"; std::string internalRunOutputStdOutName = this->RunResultVariable + "__TRYRUN_OUTPUT_STDOUT"; std::string internalRunOutputStdErrName = this->RunResultVariable + "__TRYRUN_OUTPUT_STDERR"; bool error = false; if (!this->Makefile->GetDefinition(this->RunResultVariable)) { // if the variables doesn't exist, create it with a helpful error text // and mark it as advanced std::string comment = cmStrCat("Run result of try_run(), indicates whether the executable " "would have been able to run on its target platform.\n", detailsString); this->Makefile->AddCacheDefinition(this->RunResultVariable, "PLEASE_FILL_OUT-FAILED_TO_RUN", comment, cmStateEnums::STRING); cmState* state = this->Makefile->GetState(); cmValue existingValue = state->GetCacheEntryValue(this->RunResultVariable); if (existingValue) { state->SetCacheEntryProperty(this->RunResultVariable, "ADVANCED", "1"); } error = true; } // is the output from the executable used ? if (stdOutErrRequired) { if (!this->Makefile->GetDefinition(internalRunOutputStdOutName)) { // if the variables doesn't exist, create it with a helpful error text // and mark it as advanced std::string comment = cmStrCat( "Output of try_run(), contains the text, which the executable " "would have printed on stdout on its target platform.\n", detailsString); this->Makefile->AddCacheDefinition(internalRunOutputStdOutName, "PLEASE_FILL_OUT-NOTFOUND", comment, cmStateEnums::STRING); cmState* state = this->Makefile->GetState(); cmValue existing = state->GetCacheEntryValue(internalRunOutputStdOutName); if (existing) { state->SetCacheEntryProperty(internalRunOutputStdOutName, "ADVANCED", "1"); } error = true; } if (!this->Makefile->GetDefinition(internalRunOutputStdErrName)) { // if the variables doesn't exist, create it with a helpful error text // and mark it as advanced std::string comment = cmStrCat( "Output of try_run(), contains the text, which the executable " "would have printed on stderr on its target platform.\n", detailsString); this->Makefile->AddCacheDefinition(internalRunOutputStdErrName, "PLEASE_FILL_OUT-NOTFOUND", comment, cmStateEnums::STRING); cmState* state = this->Makefile->GetState(); cmValue existing = state->GetCacheEntryValue(internalRunOutputStdErrName); if (existing) { state->SetCacheEntryProperty(internalRunOutputStdErrName, "ADVANCED", "1"); } error = true; } } else if (out) { if (!this->Makefile->GetDefinition(internalRunOutputName)) { // if the variables doesn't exist, create it with a helpful error text // and mark it as advanced std::string comment = cmStrCat( "Output of try_run(), contains the text, which the executable " "would have printed on stdout and stderr on its target platform.\n", detailsString); this->Makefile->AddCacheDefinition(internalRunOutputName, "PLEASE_FILL_OUT-NOTFOUND", comment, cmStateEnums::STRING); cmState* state = this->Makefile->GetState(); cmValue existing = state->GetCacheEntryValue(internalRunOutputName); if (existing) { state->SetCacheEntryProperty(internalRunOutputName, "ADVANCED", "1"); } error = true; } } if (error) { static bool firstTryRun = true; cmsys::ofstream file(resultFileName.c_str(), firstTryRun ? std::ios::out : std::ios::app); if (file) { if (firstTryRun) { /* clang-format off */ file << "# This file was generated by CMake because it detected " "try_run() commands\n" "# in crosscompiling mode. It will be overwritten by the next " "CMake run.\n" "# Copy it to a safe location, set the variables to " "appropriate values\n" "# and use it then to preset the CMake cache (using -C).\n\n"; /* clang-format on */ } std::string comment = cmStrCat('\n', this->RunResultVariable, "\n indicates whether the executable would have been able " "to run on its\n" " target platform. If so, set ", this->RunResultVariable, " to\n" " the exit code (in many cases 0 for success), otherwise " "enter \"FAILED_TO_RUN\".\n"); if (stdOut || stdErr) { if (stdOut) { comment += internalRunOutputStdOutName; comment += "\n contains the text the executable " "would have printed on stdout.\n" " If the executable would not have been able to run, set "; comment += internalRunOutputStdOutName; comment += " empty.\n" " Otherwise check if the output is evaluated by the " "calling CMake code. If so,\n" " check what the source file would have printed when " "called with the given arguments.\n"; } if (stdErr) { comment += internalRunOutputStdErrName; comment += "\n contains the text the executable " "would have printed on stderr.\n" " If the executable would not have been able to run, set "; comment += internalRunOutputStdErrName; comment += " empty.\n" " Otherwise check if the output is evaluated by the " "calling CMake code. If so,\n" " check what the source file would have printed when " "called with the given arguments.\n"; } } else if (out) { comment += internalRunOutputName; comment += "\n contains the text the executable " "would have printed on stdout and stderr.\n" " If the executable would not have been able to run, set "; comment += internalRunOutputName; comment += " empty.\n" " Otherwise check if the output is evaluated by the " "calling CMake code. If so,\n" " check what the source file would have printed when " "called with the given arguments.\n"; } comment += "The "; comment += compileResultVariable; comment += " variable holds the build result for this try_run().\n\n"; if (srcFile) { comment += "Source file : "; comment += *srcFile + "\n"; } comment += "Executable : "; comment += copyDest + "\n"; comment += "Run arguments : "; comment += runArgs; comment += "\n"; comment += " Called from: " + this->Makefile->FormatListFileStack(); cmsys::SystemTools::ReplaceString(comment, "\n", "\n# "); file << comment << "\n\n"; file << "set( " << this->RunResultVariable << " \n \"" << this->Makefile->GetSafeDefinition(this->RunResultVariable) << "\"\n CACHE STRING \"Result from try_run\" FORCE)\n\n"; if (out) { file << "set( " << internalRunOutputName << " \n \"" << this->Makefile->GetSafeDefinition(internalRunOutputName) << "\"\n CACHE STRING \"Output from try_run\" FORCE)\n\n"; } file.close(); } firstTryRun = false; std::string errorMessage = cmStrCat("try_run() invoked in cross-compiling mode, " "please set the following cache variables " "appropriately:\n ", this->RunResultVariable, " (advanced)\n"); if (out) { errorMessage += " " + internalRunOutputName + " (advanced)\n"; } errorMessage += detailsString; cmSystemTools::Error(errorMessage); return; } if (stdOut || stdErr) { if (stdOut) { (*stdOut) = *this->Makefile->GetDefinition(internalRunOutputStdOutName); } if (stdErr) { (*stdErr) = *this->Makefile->GetDefinition(internalRunOutputStdErrName); } } else if (out) { (*out) = *this->Makefile->GetDefinition(internalRunOutputName); } } } bool cmTryRunCommand(std::vector const& args, cmExecutionStatus& status) { cmMakefile& mf = status.GetMakefile(); if (args.size() < 4) { mf.IssueMessage(MessageType::FATAL_ERROR, "The try_run() command requires at least 4 arguments."); return false; } if (mf.GetCMakeInstance()->GetWorkingMode() == cmake::FIND_PACKAGE_MODE) { mf.IssueMessage( MessageType::FATAL_ERROR, "The try_run() command is not supported in --find-package mode."); return false; } TryRunCommandImpl tr(&mf); return tr.TryRunCode(args); }