/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmCustomCommandGenerator.h" #include #include #include #include #include #include #include #include "cmCryptoHash.h" #include "cmCustomCommand.h" #include "cmCustomCommandLines.h" #include "cmGeneratorExpression.h" #include "cmGeneratorTarget.h" #include "cmGlobalGenerator.h" #include "cmList.h" #include "cmLocalGenerator.h" #include "cmMakefile.h" #include "cmStateTypes.h" #include "cmStringAlgorithms.h" #include "cmSystemTools.h" #include "cmTransformDepfile.h" #include "cmValue.h" namespace { std::string EvaluateSplitConfigGenex( cm::string_view input, cmGeneratorExpression const& ge, cmLocalGenerator* lg, bool useOutputConfig, std::string const& outputConfig, std::string const& commandConfig, cmGeneratorTarget const* target, std::set>>* utils = nullptr) { std::string result; while (!input.empty()) { // Copy non-genex content directly to the result. std::string::size_type pos = input.find("$<"); result += input.substr(0, pos); if (pos == std::string::npos) { break; } input = input.substr(pos); // Find the balanced end of this regex. size_t nestingLevel = 1; for (pos = 2; pos < input.size(); ++pos) { cm::string_view cur = input.substr(pos); if (cmHasLiteralPrefix(cur, "$<")) { ++nestingLevel; ++pos; continue; } if (cmHasLiteralPrefix(cur, ">")) { --nestingLevel; if (nestingLevel == 0) { ++pos; break; } } } // Split this genex from following input. cm::string_view genex = input.substr(0, pos); input = input.substr(pos); // Convert an outer COMMAND_CONFIG or OUTPUT_CONFIG to the matching config. std::string const* config = useOutputConfig ? &outputConfig : &commandConfig; if (nestingLevel == 0) { static cm::string_view const COMMAND_CONFIG = "$ cge = ge.Parse(std::string(genex)); result += cge->Evaluate(lg, *config, target); // Record targets referenced by the genex. if (utils) { // Use a cross-dependency if we referenced the command config. bool const cross = !useOutputConfig; for (cmGeneratorTarget* gt : cge->GetTargets()) { utils->emplace(BT>( { gt->GetName(), cross }, cge->GetBacktrace())); } } } return result; } std::vector EvaluateDepends(std::vector const& paths, cmGeneratorExpression const& ge, cmLocalGenerator* lg, std::string const& outputConfig, std::string const& commandConfig) { std::vector depends; for (std::string const& p : paths) { std::string const& ep = EvaluateSplitConfigGenex(p, ge, lg, /*useOutputConfig=*/true, /*outputConfig=*/outputConfig, /*commandConfig=*/commandConfig, /*target=*/nullptr); cm::append(depends, cmList{ ep }); } for (std::string& p : depends) { if (cmSystemTools::FileIsFullPath(p)) { p = cmSystemTools::CollapseFullPath(p); } else { cmSystemTools::ConvertToUnixSlashes(p); } } return depends; } std::vector EvaluateOutputs(std::vector const& paths, cmGeneratorExpression const& ge, cmLocalGenerator* lg, std::string const& config) { std::vector outputs; for (std::string const& p : paths) { std::unique_ptr cge = ge.Parse(p); cm::append(outputs, lg->ExpandCustomCommandOutputPaths(*cge, config)); } return outputs; } std::string EvaluateDepfile(std::string const& path, cmGeneratorExpression const& ge, cmLocalGenerator* lg, std::string const& config) { std::unique_ptr cge = ge.Parse(path); return cge->Evaluate(lg, config); } std::string EvaluateComment(const char* comment, cmGeneratorExpression const& ge, cmLocalGenerator* lg, std::string const& config) { std::unique_ptr cge = ge.Parse(comment); return cge->Evaluate(lg, config); } } cmCustomCommandGenerator::cmCustomCommandGenerator( cmCustomCommand const& cc, std::string config, cmLocalGenerator* lg, bool transformDepfile, cm::optional crossConfig, std::function computeInternalDepfile) : CC(&cc) , OutputConfig(crossConfig ? *crossConfig : config) , CommandConfig(std::move(config)) , Target(cc.GetTarget()) , LG(lg) , OldStyle(cc.GetEscapeOldStyle()) , MakeVars(cc.GetEscapeAllowMakeVars()) , EmulatorsWithArguments(cc.GetCommandLines().size()) , ComputeInternalDepfile(std::move(computeInternalDepfile)) { cmGeneratorExpression ge(*lg->GetCMakeInstance(), cc.GetBacktrace()); cmGeneratorTarget const* target{ lg->FindGeneratorTargetToUse( this->Target) }; bool const distinctConfigs = this->OutputConfig != this->CommandConfig; const cmCustomCommandLines& cmdlines = this->CC->GetCommandLines(); for (cmCustomCommandLine const& cmdline : cmdlines) { cmCustomCommandLine argv; // For the command itself, we default to the COMMAND_CONFIG. bool useOutputConfig = false; for (std::string const& clarg : cmdline) { std::string parsed_arg = EvaluateSplitConfigGenex( clarg, ge, this->LG, useOutputConfig, this->OutputConfig, this->CommandConfig, target, &this->Utilities); if (this->CC->GetCommandExpandLists()) { cm::append(argv, cmList{ parsed_arg }); } else { argv.push_back(std::move(parsed_arg)); } if (distinctConfigs) { // For remaining arguments, we default to the OUTPUT_CONFIG. useOutputConfig = true; } } if (!argv.empty()) { // If the command references an executable target by name, // collect the target to add a target-level dependency on it. cmGeneratorTarget* gt = this->LG->FindGeneratorTargetToUse(argv.front()); if (gt && gt->GetType() == cmStateEnums::EXECUTABLE) { // GetArgv0Location uses the command config, so use a cross-dependency. bool const cross = true; this->Utilities.emplace(BT>( { gt->GetName(), cross }, cc.GetBacktrace())); } } else { // Later code assumes at least one entry exists, but expanding // lists on an empty command may have left this empty. // FIXME: Should we define behavior for removing empty commands? argv.emplace_back(); } this->CommandLines.push_back(std::move(argv)); } if (transformDepfile && !this->CommandLines.empty() && !cc.GetDepfile().empty() && this->LG->GetGlobalGenerator()->DepfileFormat()) { cmCustomCommandLine argv; argv.push_back(cmSystemTools::GetCMakeCommand()); argv.emplace_back("-E"); argv.emplace_back("cmake_transform_depfile"); argv.push_back(this->LG->GetGlobalGenerator()->GetName()); switch (*this->LG->GetGlobalGenerator()->DepfileFormat()) { case cmDepfileFormat::GccDepfile: argv.emplace_back("gccdepfile"); break; case cmDepfileFormat::MakeDepfile: argv.emplace_back("makedepfile"); break; case cmDepfileFormat::MSBuildAdditionalInputs: argv.emplace_back("MSBuildAdditionalInputs"); break; } argv.push_back(this->LG->GetSourceDirectory()); argv.push_back(this->LG->GetCurrentSourceDirectory()); argv.push_back(this->LG->GetBinaryDirectory()); argv.push_back(this->LG->GetCurrentBinaryDirectory()); argv.push_back(this->GetFullDepfile()); argv.push_back(this->GetInternalDepfile()); this->CommandLines.push_back(std::move(argv)); } this->Outputs = EvaluateOutputs(cc.GetOutputs(), ge, this->LG, this->OutputConfig); this->Byproducts = EvaluateOutputs(cc.GetByproducts(), ge, this->LG, this->OutputConfig); this->Depends = EvaluateDepends(cc.GetDepends(), ge, this->LG, this->OutputConfig, this->CommandConfig); const std::string& workingdirectory = this->CC->GetWorkingDirectory(); if (!workingdirectory.empty()) { this->WorkingDirectory = EvaluateSplitConfigGenex( workingdirectory, ge, this->LG, true, this->OutputConfig, this->CommandConfig, target); // Convert working directory to a full path. if (!this->WorkingDirectory.empty()) { std::string const& build_dir = this->LG->GetCurrentBinaryDirectory(); this->WorkingDirectory = cmSystemTools::CollapseFullPath(this->WorkingDirectory, build_dir); } } this->FillEmulatorsWithArguments(); } unsigned int cmCustomCommandGenerator::GetNumberOfCommands() const { return static_cast(this->CommandLines.size()); } void cmCustomCommandGenerator::FillEmulatorsWithArguments() { if (!this->LG->GetMakefile()->IsOn("CMAKE_CROSSCOMPILING")) { return; } for (unsigned int c = 0; c < this->GetNumberOfCommands(); ++c) { std::string const& argv0 = this->CommandLines[c][0]; cmGeneratorTarget* target = this->LG->FindGeneratorTargetToUse(argv0); if (target && target->GetType() == cmStateEnums::EXECUTABLE && !target->IsImported()) { cmValue emulator_property = target->GetProperty("CROSSCOMPILING_EMULATOR"); if (!emulator_property) { continue; } cmExpandList(*emulator_property, this->EmulatorsWithArguments[c]); } } } std::vector cmCustomCommandGenerator::GetCrossCompilingEmulator( unsigned int c) const { if (c >= this->EmulatorsWithArguments.size()) { return std::vector(); } return this->EmulatorsWithArguments[c]; } const char* cmCustomCommandGenerator::GetArgv0Location(unsigned int c) const { std::string const& argv0 = this->CommandLines[c][0]; cmGeneratorTarget* target = this->LG->FindGeneratorTargetToUse(argv0); if (target && target->GetType() == cmStateEnums::EXECUTABLE && (target->IsImported() || target->GetProperty("CROSSCOMPILING_EMULATOR") || !this->LG->GetMakefile()->IsOn("CMAKE_CROSSCOMPILING"))) { return target->GetLocation(this->CommandConfig).c_str(); } return nullptr; } bool cmCustomCommandGenerator::HasOnlyEmptyCommandLines() const { for (cmCustomCommandLine const& ccl : this->CommandLines) { for (std::string const& cl : ccl) { if (!cl.empty()) { return false; } } } return true; } std::string cmCustomCommandGenerator::GetCommand(unsigned int c) const { std::vector emulator = this->GetCrossCompilingEmulator(c); if (!emulator.empty()) { return emulator[0]; } if (const char* location = this->GetArgv0Location(c)) { return std::string(location); } return this->CommandLines[c][0]; } static std::string escapeForShellOldStyle(const std::string& str) { std::string result; #if defined(_WIN32) && !defined(__CYGWIN__) // if there are spaces std::string temp = str; if (temp.find(" ") != std::string::npos && temp.find("\"") == std::string::npos) { result = cmStrCat('"', str, '"'); return result; } return str; #else for (const char* ch = str.c_str(); *ch != '\0'; ++ch) { if (*ch == ' ') { result += '\\'; } result += *ch; } return result; #endif } void cmCustomCommandGenerator::AppendArguments(unsigned int c, std::string& cmd) const { unsigned int offset = 1; std::vector emulator = this->GetCrossCompilingEmulator(c); if (!emulator.empty()) { for (unsigned j = 1; j < emulator.size(); ++j) { cmd += " "; if (this->OldStyle) { cmd += escapeForShellOldStyle(emulator[j]); } else { cmd += this->LG->EscapeForShell(emulator[j], this->MakeVars, false, false, this->MakeVars && this->LG->IsNinjaMulti()); } } offset = 0; } cmCustomCommandLine const& commandLine = this->CommandLines[c]; for (unsigned int j = offset; j < commandLine.size(); ++j) { std::string arg; if (const char* location = j == 0 ? this->GetArgv0Location(c) : nullptr) { // GetCommand returned the emulator instead of the argv0 location, // so transform the latter now. arg = location; } else { arg = commandLine[j]; } cmd += " "; if (this->OldStyle) { cmd += escapeForShellOldStyle(arg); } else { cmd += this->LG->EscapeForShell(arg, this->MakeVars, false, false, this->MakeVars && this->LG->IsNinjaMulti()); } } } std::string cmCustomCommandGenerator::GetDepfile() const { const auto& depfile = this->CC->GetDepfile(); if (depfile.empty()) { return ""; } cmGeneratorExpression ge(*this->LG->GetCMakeInstance(), this->CC->GetBacktrace()); return EvaluateDepfile(depfile, ge, this->LG, this->OutputConfig); } std::string cmCustomCommandGenerator::GetFullDepfile() const { std::string depfile = this->GetDepfile(); if (depfile.empty()) { return ""; } if (!cmSystemTools::FileIsFullPath(depfile)) { depfile = cmStrCat(this->LG->GetCurrentBinaryDirectory(), '/', depfile); } return cmSystemTools::CollapseFullPath(depfile); } std::string cmCustomCommandGenerator::GetInternalDepfileName( const std::string& /*config*/, const std::string& depfile) const { cmCryptoHash hash(cmCryptoHash::AlgoSHA256); std::string extension; switch (*this->LG->GetGlobalGenerator()->DepfileFormat()) { case cmDepfileFormat::GccDepfile: case cmDepfileFormat::MakeDepfile: extension = ".d"; break; case cmDepfileFormat::MSBuildAdditionalInputs: extension = ".AdditionalInputs"; break; } return cmStrCat(this->LG->GetBinaryDirectory(), "/CMakeFiles/d/", hash.HashString(depfile), extension); } std::string cmCustomCommandGenerator::GetInternalDepfile() const { std::string depfile = this->GetFullDepfile(); if (depfile.empty()) { return ""; } if (this->ComputeInternalDepfile) { return this->ComputeInternalDepfile(this->OutputConfig, depfile); } return this->GetInternalDepfileName(this->OutputConfig, depfile); } cm::optional cmCustomCommandGenerator::GetComment() const { const char* comment = this->CC->GetComment(); if (!comment) { return cm::nullopt; } if (!*comment) { return std::string(); } cmGeneratorExpression ge(*this->LG->GetCMakeInstance(), this->CC->GetBacktrace()); return EvaluateComment(comment, ge, this->LG, this->OutputConfig); } std::string cmCustomCommandGenerator::GetWorkingDirectory() const { return this->WorkingDirectory; } std::vector const& cmCustomCommandGenerator::GetOutputs() const { return this->Outputs; } std::vector const& cmCustomCommandGenerator::GetByproducts() const { return this->Byproducts; } std::vector const& cmCustomCommandGenerator::GetDepends() const { return this->Depends; } std::set>> const& cmCustomCommandGenerator::GetUtilities() const { return this->Utilities; }