/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmAddCustomCommandCommand.h" #include #include #include #include "cmCustomCommand.h" #include "cmCustomCommandLines.h" #include "cmGlobalGenerator.h" #include "cmMakefile.h" #include "cmPolicies.h" #include "cmSourceFile.h" #include "cmSystemTools.h" #include "cmTarget.h" #include "cmake.h" class cmExecutionStatus; // cmAddCustomCommandCommand bool cmAddCustomCommandCommand::InitialPass( std::vector const& args, cmExecutionStatus&) { /* Let's complain at the end of this function about the lack of a particular arg. For the moment, let's say that COMMAND, and either TARGET or SOURCE are required. */ if (args.size() < 4) { this->SetError("called with wrong number of arguments."); return false; } std::string source, target, main_dependency, working, depfile; std::string comment_buffer; const char* comment = nullptr; std::vector depends, outputs, output, byproducts; bool verbatim = false; bool append = false; bool uses_terminal = false; bool command_expand_lists = false; std::string implicit_depends_lang; cmCustomCommand::ImplicitDependsList implicit_depends; // Accumulate one command line at a time. cmCustomCommandLine currentLine; // Save all command lines. cmCustomCommandLines commandLines; cmTarget::CustomCommandType cctype = cmTarget::POST_BUILD; enum tdoing { doing_source, doing_command, doing_target, doing_depends, doing_implicit_depends_lang, doing_implicit_depends_file, doing_main_dependency, doing_output, doing_outputs, doing_byproducts, doing_comment, doing_working_directory, doing_depfile, doing_nothing }; tdoing doing = doing_nothing; #define MAKE_STATIC_KEYWORD(KEYWORD) \ static const std::string key##KEYWORD = #KEYWORD MAKE_STATIC_KEYWORD(APPEND); MAKE_STATIC_KEYWORD(ARGS); MAKE_STATIC_KEYWORD(BYPRODUCTS); MAKE_STATIC_KEYWORD(COMMAND); MAKE_STATIC_KEYWORD(COMMAND_EXPAND_LISTS); MAKE_STATIC_KEYWORD(COMMENT); MAKE_STATIC_KEYWORD(DEPENDS); MAKE_STATIC_KEYWORD(DEPFILE); MAKE_STATIC_KEYWORD(IMPLICIT_DEPENDS); MAKE_STATIC_KEYWORD(MAIN_DEPENDENCY); MAKE_STATIC_KEYWORD(OUTPUT); MAKE_STATIC_KEYWORD(OUTPUTS); MAKE_STATIC_KEYWORD(POST_BUILD); MAKE_STATIC_KEYWORD(PRE_BUILD); MAKE_STATIC_KEYWORD(PRE_LINK); MAKE_STATIC_KEYWORD(SOURCE); MAKE_STATIC_KEYWORD(TARGET); MAKE_STATIC_KEYWORD(USES_TERMINAL); MAKE_STATIC_KEYWORD(VERBATIM); MAKE_STATIC_KEYWORD(WORKING_DIRECTORY); #undef MAKE_STATIC_KEYWORD static std::unordered_set keywords; if (keywords.empty()) { keywords.insert(keyAPPEND); keywords.insert(keyARGS); keywords.insert(keyBYPRODUCTS); keywords.insert(keyCOMMAND); keywords.insert(keyCOMMAND_EXPAND_LISTS); keywords.insert(keyCOMMENT); keywords.insert(keyDEPENDS); keywords.insert(keyDEPFILE); keywords.insert(keyIMPLICIT_DEPENDS); keywords.insert(keyMAIN_DEPENDENCY); keywords.insert(keyOUTPUT); keywords.insert(keyOUTPUTS); keywords.insert(keyPOST_BUILD); keywords.insert(keyPRE_BUILD); keywords.insert(keyPRE_LINK); keywords.insert(keySOURCE); keywords.insert(keyTARGET); keywords.insert(keyUSES_TERMINAL); keywords.insert(keyVERBATIM); keywords.insert(keyWORKING_DIRECTORY); } for (std::string const& copy : args) { if (keywords.count(copy)) { if (copy == keySOURCE) { doing = doing_source; } else if (copy == keyCOMMAND) { doing = doing_command; // Save the current command before starting the next command. if (!currentLine.empty()) { commandLines.push_back(currentLine); currentLine.clear(); } } else if (copy == keyPRE_BUILD) { cctype = cmTarget::PRE_BUILD; } else if (copy == keyPRE_LINK) { cctype = cmTarget::PRE_LINK; } else if (copy == keyPOST_BUILD) { cctype = cmTarget::POST_BUILD; } else if (copy == keyVERBATIM) { verbatim = true; } else if (copy == keyAPPEND) { append = true; } else if (copy == keyUSES_TERMINAL) { uses_terminal = true; } else if (copy == keyCOMMAND_EXPAND_LISTS) { command_expand_lists = true; } else if (copy == keyTARGET) { doing = doing_target; } else if (copy == keyARGS) { // Ignore this old keyword. } else if (copy == keyDEPENDS) { doing = doing_depends; } else if (copy == keyOUTPUTS) { doing = doing_outputs; } else if (copy == keyOUTPUT) { doing = doing_output; } else if (copy == keyBYPRODUCTS) { doing = doing_byproducts; } else if (copy == keyWORKING_DIRECTORY) { doing = doing_working_directory; } else if (copy == keyMAIN_DEPENDENCY) { doing = doing_main_dependency; } else if (copy == keyIMPLICIT_DEPENDS) { doing = doing_implicit_depends_lang; } else if (copy == keyCOMMENT) { doing = doing_comment; } else if (copy == keyDEPFILE) { doing = doing_depfile; if (this->Makefile->GetGlobalGenerator()->GetName() != "Ninja") { this->SetError("Option DEPFILE not supported by " + this->Makefile->GetGlobalGenerator()->GetName()); return false; } } } else { std::string filename; switch (doing) { case doing_output: case doing_outputs: case doing_byproducts: if (!cmSystemTools::FileIsFullPath(copy)) { // This is an output to be generated, so it should be // under the build tree. CMake 2.4 placed this under the // source tree. However the only case that this change // will break is when someone writes // // add_custom_command(OUTPUT out.txt ...) // // and later references "${CMAKE_CURRENT_SOURCE_DIR}/out.txt". // This is fairly obscure so we can wait for someone to // complain. filename = this->Makefile->GetCurrentBinaryDirectory(); filename += "/"; } filename += copy; cmSystemTools::ConvertToUnixSlashes(filename); break; case doing_source: // We do not want to convert the argument to SOURCE because // that option is only available for backward compatibility. // Old-style use of this command may use the SOURCE==TARGET // trick which we must preserve. If we convert the source // to a full path then it will no longer equal the target. default: break; } if (cmSystemTools::FileIsFullPath(filename)) { filename = cmSystemTools::CollapseFullPath(filename); } switch (doing) { case doing_depfile: depfile = copy; break; case doing_working_directory: working = copy; break; case doing_source: source = copy; break; case doing_output: output.push_back(filename); break; case doing_main_dependency: main_dependency = copy; break; case doing_implicit_depends_lang: implicit_depends_lang = copy; doing = doing_implicit_depends_file; break; case doing_implicit_depends_file: { // An implicit dependency starting point is also an // explicit dependency. std::string dep = copy; cmSystemTools::ConvertToUnixSlashes(dep); depends.push_back(dep); // Add the implicit dependency language and file. implicit_depends.emplace_back(implicit_depends_lang, dep); // Switch back to looking for a language. doing = doing_implicit_depends_lang; } break; case doing_command: currentLine.push_back(copy); break; case doing_target: target = copy; break; case doing_depends: { std::string dep = copy; cmSystemTools::ConvertToUnixSlashes(dep); depends.push_back(std::move(dep)); } break; case doing_outputs: outputs.push_back(filename); break; case doing_byproducts: byproducts.push_back(filename); break; case doing_comment: comment_buffer = copy; comment = comment_buffer.c_str(); break; default: this->SetError("Wrong syntax. Unknown type of argument."); return false; } } } // Store the last command line finished. if (!currentLine.empty()) { commandLines.push_back(currentLine); currentLine.clear(); } // At this point we could complain about the lack of arguments. For // the moment, let's say that COMMAND, TARGET are always required. if (output.empty() && target.empty()) { this->SetError("Wrong syntax. A TARGET or OUTPUT must be specified."); return false; } if (source.empty() && !target.empty() && !output.empty()) { this->SetError( "Wrong syntax. A TARGET and OUTPUT can not both be specified."); return false; } if (append && output.empty()) { this->SetError("given APPEND option with no OUTPUT."); return false; } // Make sure the output names and locations are safe. if (!this->CheckOutputs(output) || !this->CheckOutputs(outputs) || !this->CheckOutputs(byproducts)) { return false; } // Check for an append request. if (append) { // Lookup an existing command. if (cmSourceFile* sf = this->Makefile->GetSourceFileWithOutput(output[0])) { if (cmCustomCommand* cc = sf->GetCustomCommand()) { cc->AppendCommands(commandLines); cc->AppendDepends(depends); cc->AppendImplicitDepends(implicit_depends); return true; } } // No command for this output exists. std::ostringstream e; e << "given APPEND option with output\n\"" << output[0] << "\"\nwhich is not already a custom command output."; this->SetError(e.str()); return false; } // Convert working directory to a full path. if (!working.empty()) { const std::string& build_dir = this->Makefile->GetCurrentBinaryDirectory(); working = cmSystemTools::CollapseFullPath(working, build_dir); } // Choose which mode of the command to use. bool escapeOldStyle = !verbatim; if (source.empty() && output.empty()) { // Source is empty, use the target. std::vector no_depends; this->Makefile->AddCustomCommandToTarget( target, byproducts, no_depends, commandLines, cctype, comment, working.c_str(), escapeOldStyle, uses_terminal, depfile, command_expand_lists); } else if (target.empty()) { // Target is empty, use the output. this->Makefile->AddCustomCommandToOutput( output, byproducts, depends, main_dependency, commandLines, comment, working.c_str(), false, escapeOldStyle, uses_terminal, command_expand_lists, depfile); // Add implicit dependency scanning requests if any were given. if (!implicit_depends.empty()) { bool okay = false; if (cmSourceFile* sf = this->Makefile->GetSourceFileWithOutput(output[0])) { if (cmCustomCommand* cc = sf->GetCustomCommand()) { okay = true; cc->SetImplicitDepends(implicit_depends); } } if (!okay) { std::ostringstream e; e << "could not locate source file with a custom command producing \"" << output[0] << "\" even though this command tried to create it!"; this->SetError(e.str()); return false; } } } else if (!byproducts.empty()) { this->SetError("BYPRODUCTS may not be specified with SOURCE signatures"); return false; } else if (uses_terminal) { this->SetError("USES_TERMINAL may not be used with SOURCE signatures"); return false; } else { bool issueMessage = true; std::ostringstream e; cmake::MessageType messageType = cmake::AUTHOR_WARNING; switch (this->Makefile->GetPolicyStatus(cmPolicies::CMP0050)) { case cmPolicies::WARN: e << cmPolicies::GetPolicyWarning(cmPolicies::CMP0050) << "\n"; break; case cmPolicies::OLD: issueMessage = false; break; case cmPolicies::REQUIRED_ALWAYS: case cmPolicies::REQUIRED_IF_USED: case cmPolicies::NEW: messageType = cmake::FATAL_ERROR; break; } if (issueMessage) { e << "The SOURCE signatures of add_custom_command are no longer " "supported."; this->Makefile->IssueMessage(messageType, e.str()); if (messageType == cmake::FATAL_ERROR) { return false; } } // Use the old-style mode for backward compatibility. this->Makefile->AddCustomCommandOldStyle(target, outputs, depends, source, commandLines, comment); } return true; } bool cmAddCustomCommandCommand::CheckOutputs( const std::vector& outputs) { for (std::string const& o : outputs) { // Make sure the file will not be generated into the source // directory during an out of source build. if (!this->Makefile->CanIWriteThisFile(o)) { std::string e = "attempted to have a file \"" + o + "\" in a source directory as an output of custom command."; this->SetError(e); cmSystemTools::SetFatalErrorOccured(); return false; } // Make sure the output file name has no invalid characters. std::string::size_type pos = o.find_first_of("#<>"); if (pos != std::string::npos) { std::ostringstream msg; msg << "called with OUTPUT containing a \"" << o[pos] << "\". This character is not allowed."; this->SetError(msg.str()); return false; } } return true; }