Source/cmExecuteProcessCommand.cxx - third_party/github.com/Kitware/CMake - Git at Google

 /* Distributed under the OSI-approved BSD 3-Clause License.  See accompanying
    file Copyright.txt or https://cmake.org/licensing for details.  */
 #include "cmExecuteProcessCommand.h"

 #include <cstdint>
 #include <cstdio>
 #include <iostream>
 #include <map>
 #include <memory>
 #include <sstream>
 #include <utility>
 #include <vector>

 #include <cm/string_view>
 #include <cmext/algorithm>
 #include <cmext/string_view>

 #include <cm3p/uv.h>

 #include "cmArgumentParser.h"
 #include "cmExecutionStatus.h"
 #include "cmList.h"
 #include "cmMakefile.h"
 #include "cmMessageType.h"
 #include "cmProcessOutput.h"
 #include "cmStringAlgorithms.h"
 #include "cmSystemTools.h"
 #include "cmUVHandlePtr.h"
 #include "cmUVProcessChain.h"
 #include "cmUVStream.h"

 namespace {
 bool cmExecuteProcessCommandIsWhitespace(char c)
 {
   return (cmIsSpace(c) || c == '\n' || c == '\r');
 }

 void cmExecuteProcessCommandFixText(std::vector<char>& output,
                                     bool strip_trailing_whitespace);
 void cmExecuteProcessCommandAppend(std::vector<char>& output, const char* data,
                                    std::size_t length);
 }

 // cmExecuteProcessCommand
 bool cmExecuteProcessCommand(std::vector<std::string> const& args,
                              cmExecutionStatus& status)
 {
   if (args.empty()) {
     status.SetError("called with incorrect number of arguments");
     return false;
   }

   struct Arguments : public ArgumentParser::ParseResult
   {
     std::vector<std::vector<std::string>> Commands;
     std::string OutputVariable;
     std::string ErrorVariable;
     std::string ResultVariable;
     std::string ResultsVariable;
     std::string WorkingDirectory;
     std::string InputFile;
     std::string OutputFile;
     std::string ErrorFile;
     std::string Timeout;
     std::string CommandEcho;
     bool OutputQuiet = false;
     bool ErrorQuiet = false;
     bool OutputStripTrailingWhitespace = false;
     bool ErrorStripTrailingWhitespace = false;
     bool EchoOutputVariable = false;
     bool EchoErrorVariable = false;
     std::string Encoding;
     std::string CommandErrorIsFatal;
   };

   static auto const parser =
     cmArgumentParser<Arguments>{}
       .Bind("COMMAND"_s, &Arguments::Commands)
       .Bind("COMMAND_ECHO"_s, &Arguments::CommandEcho)
       .Bind("OUTPUT_VARIABLE"_s, &Arguments::OutputVariable)
       .Bind("ERROR_VARIABLE"_s, &Arguments::ErrorVariable)
       .Bind("RESULT_VARIABLE"_s, &Arguments::ResultVariable)
       .Bind("RESULTS_VARIABLE"_s, &Arguments::ResultsVariable)
       .Bind("WORKING_DIRECTORY"_s, &Arguments::WorkingDirectory)
       .Bind("INPUT_FILE"_s, &Arguments::InputFile)
       .Bind("OUTPUT_FILE"_s, &Arguments::OutputFile)
       .Bind("ERROR_FILE"_s, &Arguments::ErrorFile)
       .Bind("TIMEOUT"_s, &Arguments::Timeout)
       .Bind("OUTPUT_QUIET"_s, &Arguments::OutputQuiet)
       .Bind("ERROR_QUIET"_s, &Arguments::ErrorQuiet)
       .Bind("OUTPUT_STRIP_TRAILING_WHITESPACE"_s,
             &Arguments::OutputStripTrailingWhitespace)
       .Bind("ERROR_STRIP_TRAILING_WHITESPACE"_s,
             &Arguments::ErrorStripTrailingWhitespace)
       .Bind("ENCODING"_s, &Arguments::Encoding)
       .Bind("ECHO_OUTPUT_VARIABLE"_s, &Arguments::EchoOutputVariable)
       .Bind("ECHO_ERROR_VARIABLE"_s, &Arguments::EchoErrorVariable)
       .Bind("COMMAND_ERROR_IS_FATAL"_s, &Arguments::CommandErrorIsFatal);

   std::vector<std::string> unparsedArguments;
   Arguments const arguments = parser.Parse(args, &unparsedArguments);

   if (arguments.MaybeReportError(status.GetMakefile())) {
     return true;
   }
   if (!unparsedArguments.empty()) {
     status.SetError(" given unknown argument \"" + unparsedArguments.front() +
                     "\".");
     return false;
   }

   std::string inputFilename = arguments.InputFile;
   std::string outputFilename = arguments.OutputFile;
   std::string errorFilename = arguments.ErrorFile;
   if (!arguments.WorkingDirectory.empty()) {
     if (!inputFilename.empty()) {
       inputFilename = cmSystemTools::CollapseFullPath(
         inputFilename, arguments.WorkingDirectory);
     }
     if (!outputFilename.empty()) {
       outputFilename = cmSystemTools::CollapseFullPath(
         outputFilename, arguments.WorkingDirectory);
     }
     if (!errorFilename.empty()) {
       errorFilename = cmSystemTools::CollapseFullPath(
         errorFilename, arguments.WorkingDirectory);
     }
   }

   if (!status.GetMakefile().CanIWriteThisFile(outputFilename)) {
     status.SetError("attempted to output into a file: " + outputFilename +
                     " into a source directory.");
     cmSystemTools::SetFatalErrorOccurred();
     return false;
   }

   // Check for commands given.
   if (arguments.Commands.empty()) {
     status.SetError(" called with no COMMAND argument.");
     return false;
   }
   for (std::vector<std::string> const& cmd : arguments.Commands) {
     if (cmd.empty()) {
       status.SetError(" given COMMAND argument with no value.");
       return false;
     }
   }

   // Parse the timeout string.
   double timeout = -1;
   if (!arguments.Timeout.empty()) {
     if (sscanf(arguments.Timeout.c_str(), "%lg", &timeout) != 1) {
       status.SetError(" called with TIMEOUT value that could not be parsed.");
       return false;
     }
   }

   if (!arguments.CommandErrorIsFatal.empty()) {
     if (arguments.CommandErrorIsFatal != "ANY"_s &&
         arguments.CommandErrorIsFatal != "LAST"_s) {
       status.SetError("COMMAND_ERROR_IS_FATAL option can be ANY or LAST");
       return false;
     }
   }
   // Create a process instance.
   cmUVProcessChainBuilder builder;

   // Set the command sequence.
   for (std::vector<std::string> const& cmd : arguments.Commands) {
     builder.AddCommand(cmd);
   }

   // Set the process working directory.
   if (!arguments.WorkingDirectory.empty()) {
     builder.SetWorkingDirectory(arguments.WorkingDirectory);
   }

   // Check the output variables.
   std::unique_ptr<FILE, int (*)(FILE*)> inputFile(nullptr, fclose);
   if (!inputFilename.empty()) {
     inputFile.reset(cmsys::SystemTools::Fopen(inputFilename, "rb"));
     if (inputFile) {
       builder.SetExternalStream(cmUVProcessChainBuilder::Stream_INPUT,
                                 inputFile.get());
     }
   } else {
     builder.SetExternalStream(cmUVProcessChainBuilder::Stream_INPUT, stdin);
   }

   std::unique_ptr<FILE, int (*)(FILE*)> outputFile(nullptr, fclose);
   if (!outputFilename.empty()) {
     outputFile.reset(cmsys::SystemTools::Fopen(outputFilename, "wb"));
     if (outputFile) {
       builder.SetExternalStream(cmUVProcessChainBuilder::Stream_OUTPUT,
                                 outputFile.get());
     }
   } else {
     if (arguments.OutputVariable == arguments.ErrorVariable &&
         !arguments.ErrorVariable.empty()) {
       builder.SetMergedBuiltinStreams();
     } else {
       builder.SetBuiltinStream(cmUVProcessChainBuilder::Stream_OUTPUT);
     }
   }

   std::unique_ptr<FILE, int (*)(FILE*)> errorFile(nullptr, fclose);
   if (!errorFilename.empty()) {
     if (errorFilename == outputFilename) {
       if (outputFile) {
         builder.SetExternalStream(cmUVProcessChainBuilder::Stream_ERROR,
                                   outputFile.get());
       }
     } else {
       errorFile.reset(cmsys::SystemTools::Fopen(errorFilename, "wb"));
       if (errorFile) {
         builder.SetExternalStream(cmUVProcessChainBuilder::Stream_ERROR,
                                   errorFile.get());
       }
     }
   } else if (arguments.ErrorVariable.empty() ||
              (!arguments.ErrorVariable.empty() &&
               arguments.OutputVariable != arguments.ErrorVariable)) {
     builder.SetBuiltinStream(cmUVProcessChainBuilder::Stream_ERROR);
   }

   // Set the timeout if any.
   int64_t timeoutMillis = static_cast<int64_t>(timeout * 1000.0);

   bool echo_stdout = false;
   bool echo_stderr = false;
   bool echo_output_from_variable = true;
   std::string echo_output = status.GetMakefile().GetSafeDefinition(
     "CMAKE_EXECUTE_PROCESS_COMMAND_ECHO");
   if (!arguments.CommandEcho.empty()) {
     echo_output_from_variable = false;
     echo_output = arguments.CommandEcho;
   }

   if (!echo_output.empty()) {
     if (echo_output == "STDERR") {
       echo_stderr = true;
     } else if (echo_output == "STDOUT") {
       echo_stdout = true;
     } else if (echo_output != "NONE") {
       std::string error;
       if (echo_output_from_variable) {
         error = "CMAKE_EXECUTE_PROCESS_COMMAND_ECHO set to '";
       } else {
         error = " called with '";
       }
       error += echo_output;
       error += "' expected STDERR|STDOUT|NONE";
       if (!echo_output_from_variable) {
         error += " for COMMAND_ECHO.";
       }
       status.GetMakefile().IssueMessage(MessageType::FATAL_ERROR, error);
       return true;
     }
   }
   if (echo_stdout || echo_stderr) {
     std::string command;
     for (const auto& cmd : arguments.Commands) {
       command += "'";
       command += cmJoin(cmd, "' '");
       command += "'";
       command += "\n";
     }
     if (echo_stdout) {
       std::cout << command;
     } else if (echo_stderr) {
       std::cerr << command;
     }
   }
   // Start the process.
   auto chain = builder.Start();

   bool timedOut = false;
   cm::uv_timer_ptr timer;

   if (timeoutMillis >= 0) {
     timer.init(chain.GetLoop(), &timedOut);
     timer.start(
       [](uv_timer_t* handle) {
         auto* timeoutPtr = static_cast<bool*>(handle->data);
         *timeoutPtr = true;
       },
       timeoutMillis, 0);
   }

   // Read the process output.
   struct ReadData
   {
     bool Finished = false;
     std::vector<char> Output;
     cm::uv_pipe_ptr Stream;
   };
   ReadData outputData;
   ReadData errorData;
   cmProcessOutput processOutput(
     cmProcessOutput::FindEncoding(arguments.Encoding));
   std::string strdata;

   std::unique_ptr<cmUVStreamReadHandle> outputHandle;
   if (chain.OutputStream() >= 0) {
     outputData.Stream.init(chain.GetLoop(), 0);
     uv_pipe_open(outputData.Stream, chain.OutputStream());
     outputHandle = cmUVStreamRead(
       outputData.Stream,
       [&arguments, &processOutput, &outputData,
        &strdata](std::vector<char> data) {
         if (!arguments.OutputQuiet) {
           if (arguments.OutputVariable.empty() ||
               arguments.EchoOutputVariable) {
             processOutput.DecodeText(data.data(), data.size(), strdata, 1);
             cmSystemTools::Stdout(strdata);
           }
           if (!arguments.OutputVariable.empty()) {
             cmExecuteProcessCommandAppend(outputData.Output, data.data(),
                                           data.size());
           }
         }
       },
       [&outputData]() { outputData.Finished = true; });
   } else {
     outputData.Finished = true;
   }
   std::unique_ptr<cmUVStreamReadHandle> errorHandle;
   if (chain.ErrorStream() >= 0 &&
       chain.ErrorStream() != chain.OutputStream()) {
     errorData.Stream.init(chain.GetLoop(), 0);
     uv_pipe_open(errorData.Stream, chain.ErrorStream());
     errorHandle = cmUVStreamRead(
       errorData.Stream,
       [&arguments, &processOutput, &errorData,
        &strdata](std::vector<char> data) {
         if (!arguments.ErrorQuiet) {
           if (arguments.ErrorVariable.empty() || arguments.EchoErrorVariable) {
             processOutput.DecodeText(data.data(), data.size(), strdata, 2);
             cmSystemTools::Stderr(strdata);
           }
           if (!arguments.ErrorVariable.empty()) {
             cmExecuteProcessCommandAppend(errorData.Output, data.data(),
                                           data.size());
           }
         }
       },
       [&errorData]() { errorData.Finished = true; });
   } else {
     errorData.Finished = true;
   }

   while (chain.Valid() && !timedOut &&
          !(chain.Finished() && outputData.Finished && errorData.Finished)) {
     uv_run(&chain.GetLoop(), UV_RUN_ONCE);
   }
   if (!arguments.OutputQuiet &&
       (arguments.OutputVariable.empty() || arguments.EchoOutputVariable)) {
     processOutput.DecodeText(std::string(), strdata, 1);
     if (!strdata.empty()) {
       cmSystemTools::Stdout(strdata);
     }
   }
   if (!arguments.ErrorQuiet &&
       (arguments.ErrorVariable.empty() || arguments.EchoErrorVariable)) {
     processOutput.DecodeText(std::string(), strdata, 2);
     if (!strdata.empty()) {
       cmSystemTools::Stderr(strdata);
     }
   }

   // All output has been read.
   processOutput.DecodeText(outputData.Output, outputData.Output);
   processOutput.DecodeText(errorData.Output, errorData.Output);

   // Fix the text in the output strings.
   cmExecuteProcessCommandFixText(outputData.Output,
                                  arguments.OutputStripTrailingWhitespace);
   cmExecuteProcessCommandFixText(errorData.Output,
                                  arguments.ErrorStripTrailingWhitespace);

   // Store the output obtained.
   if (!arguments.OutputVariable.empty() && !outputData.Output.empty()) {
     status.GetMakefile().AddDefinition(arguments.OutputVariable,
                                        outputData.Output.data());
   }
   if (arguments.ErrorVariable != arguments.OutputVariable &&
       !arguments.ErrorVariable.empty() && !errorData.Output.empty()) {
     status.GetMakefile().AddDefinition(arguments.ErrorVariable,
                                        errorData.Output.data());
   }

   // Store the result of running the process.
   if (!arguments.ResultVariable.empty()) {
     if (timedOut) {
       status.GetMakefile().AddDefinition(arguments.ResultVariable,
                                          "Process terminated due to timeout");
     } else {
       auto const* lastStatus = chain.GetStatus().back();
       auto exception = lastStatus->GetException();
       if (exception.first == cmUVProcessChain::ExceptionCode::None) {
         status.GetMakefile().AddDefinition(
           arguments.ResultVariable,
           std::to_string(static_cast<int>(lastStatus->ExitStatus)));
       } else {
         status.GetMakefile().AddDefinition(arguments.ResultVariable,
                                            exception.second);
       }
     }
   }
   // Store the result of running the processes.
   if (!arguments.ResultsVariable.empty()) {
     if (timedOut) {
       status.GetMakefile().AddDefinition(arguments.ResultsVariable,
                                          "Process terminated due to timeout");
     } else {
       std::vector<std::string> res;
       for (auto const* processStatus : chain.GetStatus()) {
         auto exception = processStatus->GetException();
         if (exception.first == cmUVProcessChain::ExceptionCode::None) {
           res.emplace_back(
             std::to_string(static_cast<int>(processStatus->ExitStatus)));
         } else {
           res.emplace_back(exception.second);
         }
       }
       status.GetMakefile().AddDefinition(arguments.ResultsVariable,
                                          cmList::to_string(res));
     }
   }

   auto queryProcessStatusByIndex = [&chain](std::size_t index) -> std::string {
     auto const& processStatus = chain.GetStatus(index);
     auto exception = processStatus.GetException();
     if (exception.first == cmUVProcessChain::ExceptionCode::None) {
       if (processStatus.ExitStatus) {
         return cmStrCat("Child return code: ", processStatus.ExitStatus);
       }
       return "";
     }
     return cmStrCat("Abnormal exit with child return code: ",
                     exception.second);
   };

   if (arguments.CommandErrorIsFatal == "ANY"_s) {
     bool ret = true;
     if (timedOut) {
       status.SetError("Process terminated due to timeout");
       ret = false;
     } else {
       std::map<std::size_t, std::string> failureIndices;
       auto statuses = chain.GetStatus();
       for (std::size_t i = 0; i < statuses.size(); ++i) {
         std::string processStatus = queryProcessStatusByIndex(i);
         if (!processStatus.empty()) {
           failureIndices[i] = processStatus;
         }
       }
       if (!failureIndices.empty()) {
         std::ostringstream oss;
         oss << "failed command indexes:\n";
         for (auto const& e : failureIndices) {
           oss << "  " << e.first + 1 << ": \"" << e.second << "\"\n";
         }
         status.SetError(oss.str());
         ret = false;
       }
     }

     if (!ret) {
       cmSystemTools::SetFatalErrorOccurred();
       return false;
     }
   }

   if (arguments.CommandErrorIsFatal == "LAST"_s) {
     bool ret = true;
     if (timedOut) {
       status.SetError("Process terminated due to timeout");
       ret = false;
     } else {
       auto const& lastStatus = chain.GetStatus(arguments.Commands.size() - 1);
       auto exception = lastStatus.GetException();
       if (exception.first != cmUVProcessChain::ExceptionCode::None) {
         status.SetError(cmStrCat("Abnormal exit: ", exception.second));
         ret = false;
       } else {
         int lastIndex = static_cast<int>(arguments.Commands.size() - 1);
         const std::string processStatus = queryProcessStatusByIndex(lastIndex);
         if (!processStatus.empty()) {
           status.SetError("last command failed");
           ret = false;
         }
       }
     }
     if (!ret) {
       cmSystemTools::SetFatalErrorOccurred();
       return false;
     }
   }

   return true;
 }

 namespace {
 void cmExecuteProcessCommandFixText(std::vector<char>& output,
                                     bool strip_trailing_whitespace)
 {
   // Remove \0 characters and the \r part of \r\n pairs.
   unsigned int in_index = 0;
   unsigned int out_index = 0;
   while (in_index < output.size()) {
     char c = output[in_index++];
     if ((c != '\r' ||
          !(in_index < output.size() && output[in_index] == '\n')) &&
         c != '\0') {
       output[out_index++] = c;
     }
   }

   // Remove trailing whitespace if requested.
   if (strip_trailing_whitespace) {
     while (out_index > 0 &&
            cmExecuteProcessCommandIsWhitespace(output[out_index - 1])) {
       --out_index;
     }
   }

   // Shrink the vector to the size needed.
   output.resize(out_index);

   // Put a terminator on the text string.
   output.push_back('\0');
 }

 void cmExecuteProcessCommandAppend(std::vector<char>& output, const char* data,
                                    std::size_t length)
 {
 #if defined(__APPLE__)
   // HACK on Apple to work around bug with inserting at the
   // end of an empty vector.  This resulted in random failures
   // that were hard to reproduce.
   if (output.empty() && length > 0) {
     output.push_back(data[0]);
     ++data;
     --length;
   }
 #endif
   cm::append(output, data, data + length);
 }
 }
	/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying
	file Copyright.txt or https://cmake.org/licensing for details. */
	#include "cmExecuteProcessCommand.h"

	#include <cstdint>
	#include <cstdio>
	#include <iostream>
	#include <map>
	#include <memory>
	#include <sstream>
	#include <utility>
	#include <vector>

	#include <cm/string_view>
	#include <cmext/algorithm>
	#include <cmext/string_view>

	#include <cm3p/uv.h>

	#include "cmArgumentParser.h"
	#include "cmExecutionStatus.h"
	#include "cmList.h"
	#include "cmMakefile.h"
	#include "cmMessageType.h"
	#include "cmProcessOutput.h"
	#include "cmStringAlgorithms.h"
	#include "cmSystemTools.h"
	#include "cmUVHandlePtr.h"
	#include "cmUVProcessChain.h"
	#include "cmUVStream.h"

	namespace {
	bool cmExecuteProcessCommandIsWhitespace(char c)
	{
	return (cmIsSpace(c) \|\| c == '\n' \|\| c == '\r');
	}

	void cmExecuteProcessCommandFixText(std::vector<char>& output,
	bool strip_trailing_whitespace);
	void cmExecuteProcessCommandAppend(std::vector<char>& output, const char* data,
	std::size_t length);
	}

	// cmExecuteProcessCommand
	bool cmExecuteProcessCommand(std::vector<std::string> const& args,
	cmExecutionStatus& status)
	{
	if (args.empty()) {
	status.SetError("called with incorrect number of arguments");
	return false;
	}

	struct Arguments : public ArgumentParser::ParseResult
	{
	std::vector<std::vector<std::string>> Commands;
	std::string OutputVariable;
	std::string ErrorVariable;
	std::string ResultVariable;
	std::string ResultsVariable;
	std::string WorkingDirectory;
	std::string InputFile;
	std::string OutputFile;
	std::string ErrorFile;
	std::string Timeout;
	std::string CommandEcho;
	bool OutputQuiet = false;
	bool ErrorQuiet = false;
	bool OutputStripTrailingWhitespace = false;
	bool ErrorStripTrailingWhitespace = false;
	bool EchoOutputVariable = false;
	bool EchoErrorVariable = false;
	std::string Encoding;
	std::string CommandErrorIsFatal;
	};

	static auto const parser =
	cmArgumentParser<Arguments>{}
	.Bind("COMMAND"_s, &Arguments::Commands)
	.Bind("COMMAND_ECHO"_s, &Arguments::CommandEcho)
	.Bind("OUTPUT_VARIABLE"_s, &Arguments::OutputVariable)
	.Bind("ERROR_VARIABLE"_s, &Arguments::ErrorVariable)
	.Bind("RESULT_VARIABLE"_s, &Arguments::ResultVariable)
	.Bind("RESULTS_VARIABLE"_s, &Arguments::ResultsVariable)
	.Bind("WORKING_DIRECTORY"_s, &Arguments::WorkingDirectory)
	.Bind("INPUT_FILE"_s, &Arguments::InputFile)
	.Bind("OUTPUT_FILE"_s, &Arguments::OutputFile)
	.Bind("ERROR_FILE"_s, &Arguments::ErrorFile)
	.Bind("TIMEOUT"_s, &Arguments::Timeout)
	.Bind("OUTPUT_QUIET"_s, &Arguments::OutputQuiet)
	.Bind("ERROR_QUIET"_s, &Arguments::ErrorQuiet)
	.Bind("OUTPUT_STRIP_TRAILING_WHITESPACE"_s,
	&Arguments::OutputStripTrailingWhitespace)
	.Bind("ERROR_STRIP_TRAILING_WHITESPACE"_s,
	&Arguments::ErrorStripTrailingWhitespace)
	.Bind("ENCODING"_s, &Arguments::Encoding)
	.Bind("ECHO_OUTPUT_VARIABLE"_s, &Arguments::EchoOutputVariable)
	.Bind("ECHO_ERROR_VARIABLE"_s, &Arguments::EchoErrorVariable)
	.Bind("COMMAND_ERROR_IS_FATAL"_s, &Arguments::CommandErrorIsFatal);

	std::vector<std::string> unparsedArguments;
	Arguments const arguments = parser.Parse(args, &unparsedArguments);

	if (arguments.MaybeReportError(status.GetMakefile())) {
	return true;
	}
	if (!unparsedArguments.empty()) {
	status.SetError(" given unknown argument \"" + unparsedArguments.front() +
	"\".");
	return false;
	}

	std::string inputFilename = arguments.InputFile;
	std::string outputFilename = arguments.OutputFile;
	std::string errorFilename = arguments.ErrorFile;
	if (!arguments.WorkingDirectory.empty()) {
	if (!inputFilename.empty()) {
	inputFilename = cmSystemTools::CollapseFullPath(
	inputFilename, arguments.WorkingDirectory);
	}
	if (!outputFilename.empty()) {
	outputFilename = cmSystemTools::CollapseFullPath(
	outputFilename, arguments.WorkingDirectory);
	}
	if (!errorFilename.empty()) {
	errorFilename = cmSystemTools::CollapseFullPath(
	errorFilename, arguments.WorkingDirectory);
	}
	}

	if (!status.GetMakefile().CanIWriteThisFile(outputFilename)) {
	status.SetError("attempted to output into a file: " + outputFilename +
	" into a source directory.");
	cmSystemTools::SetFatalErrorOccurred();
	return false;
	}

	// Check for commands given.
	if (arguments.Commands.empty()) {
	status.SetError(" called with no COMMAND argument.");
	return false;
	}
	for (std::vector<std::string> const& cmd : arguments.Commands) {
	if (cmd.empty()) {
	status.SetError(" given COMMAND argument with no value.");
	return false;
	}
	}

	// Parse the timeout string.
	double timeout = -1;
	if (!arguments.Timeout.empty()) {
	if (sscanf(arguments.Timeout.c_str(), "%lg", &timeout) != 1) {
	status.SetError(" called with TIMEOUT value that could not be parsed.");
	return false;
	}
	}

	if (!arguments.CommandErrorIsFatal.empty()) {
	if (arguments.CommandErrorIsFatal != "ANY"_s &&
	arguments.CommandErrorIsFatal != "LAST"_s) {
	status.SetError("COMMAND_ERROR_IS_FATAL option can be ANY or LAST");
	return false;
	}
	}
	// Create a process instance.
	cmUVProcessChainBuilder builder;

	// Set the command sequence.
	for (std::vector<std::string> const& cmd : arguments.Commands) {
	builder.AddCommand(cmd);
	}

	// Set the process working directory.
	if (!arguments.WorkingDirectory.empty()) {
	builder.SetWorkingDirectory(arguments.WorkingDirectory);
	}

	// Check the output variables.
	std::unique_ptr<FILE, int ()(FILE)> inputFile(nullptr, fclose);
	if (!inputFilename.empty()) {
	inputFile.reset(cmsys::SystemTools::Fopen(inputFilename, "rb"));
	if (inputFile) {
	builder.SetExternalStream(cmUVProcessChainBuilder::Stream_INPUT,
	inputFile.get());
	}
	} else {
	builder.SetExternalStream(cmUVProcessChainBuilder::Stream_INPUT, stdin);
	}

	std::unique_ptr<FILE, int ()(FILE)> outputFile(nullptr, fclose);
	if (!outputFilename.empty()) {
	outputFile.reset(cmsys::SystemTools::Fopen(outputFilename, "wb"));
	if (outputFile) {
	builder.SetExternalStream(cmUVProcessChainBuilder::Stream_OUTPUT,
	outputFile.get());
	}
	} else {
	if (arguments.OutputVariable == arguments.ErrorVariable &&
	!arguments.ErrorVariable.empty()) {
	builder.SetMergedBuiltinStreams();
	} else {
	builder.SetBuiltinStream(cmUVProcessChainBuilder::Stream_OUTPUT);
	}
	}

	std::unique_ptr<FILE, int ()(FILE)> errorFile(nullptr, fclose);
	if (!errorFilename.empty()) {
	if (errorFilename == outputFilename) {
	if (outputFile) {
	builder.SetExternalStream(cmUVProcessChainBuilder::Stream_ERROR,
	outputFile.get());
	}
	} else {
	errorFile.reset(cmsys::SystemTools::Fopen(errorFilename, "wb"));
	if (errorFile) {
	builder.SetExternalStream(cmUVProcessChainBuilder::Stream_ERROR,
	errorFile.get());
	}
	}
	} else if (arguments.ErrorVariable.empty() \|\|
	(!arguments.ErrorVariable.empty() &&
	arguments.OutputVariable != arguments.ErrorVariable)) {
	builder.SetBuiltinStream(cmUVProcessChainBuilder::Stream_ERROR);
	}

	// Set the timeout if any.
	int64_t timeoutMillis = static_cast<int64_t>(timeout * 1000.0);

	bool echo_stdout = false;
	bool echo_stderr = false;
	bool echo_output_from_variable = true;
	std::string echo_output = status.GetMakefile().GetSafeDefinition(
	"CMAKE_EXECUTE_PROCESS_COMMAND_ECHO");
	if (!arguments.CommandEcho.empty()) {
	echo_output_from_variable = false;
	echo_output = arguments.CommandEcho;
	}

	if (!echo_output.empty()) {
	if (echo_output == "STDERR") {
	echo_stderr = true;
	} else if (echo_output == "STDOUT") {
	echo_stdout = true;
	} else if (echo_output != "NONE") {
	std::string error;
	if (echo_output_from_variable) {
	error = "CMAKE_EXECUTE_PROCESS_COMMAND_ECHO set to '";
	} else {
	error = " called with '";
	}
	error += echo_output;
	error += "' expected STDERR\|STDOUT\|NONE";
	if (!echo_output_from_variable) {
	error += " for COMMAND_ECHO.";
	}
	status.GetMakefile().IssueMessage(MessageType::FATAL_ERROR, error);
	return true;
	}
	}
	if (echo_stdout \|\| echo_stderr) {
	std::string command;
	for (const auto& cmd : arguments.Commands) {
	command += "'";
	command += cmJoin(cmd, "' '");
	command += "'";
	command += "\n";
	}
	if (echo_stdout) {
	std::cout << command;
	} else if (echo_stderr) {
	std::cerr << command;
	}
	}
	// Start the process.
	auto chain = builder.Start();

	bool timedOut = false;
	cm::uv_timer_ptr timer;

	if (timeoutMillis >= 0) {
	timer.init(chain.GetLoop(), &timedOut);
	timer.start(
	[](uv_timer_t* handle) {
	auto* timeoutPtr = static_cast<bool*>(handle->data);
	*timeoutPtr = true;
	},
	timeoutMillis, 0);
	}

	// Read the process output.
	struct ReadData
	{
	bool Finished = false;
	std::vector<char> Output;
	cm::uv_pipe_ptr Stream;
	};
	ReadData outputData;
	ReadData errorData;
	cmProcessOutput processOutput(
	cmProcessOutput::FindEncoding(arguments.Encoding));
	std::string strdata;

	std::unique_ptr<cmUVStreamReadHandle> outputHandle;
	if (chain.OutputStream() >= 0) {
	outputData.Stream.init(chain.GetLoop(), 0);
	uv_pipe_open(outputData.Stream, chain.OutputStream());
	outputHandle = cmUVStreamRead(
	outputData.Stream,
	[&arguments, &processOutput, &outputData,
	&strdata](std::vector<char> data) {
	if (!arguments.OutputQuiet) {
	if (arguments.OutputVariable.empty() \|\|
	arguments.EchoOutputVariable) {
	processOutput.DecodeText(data.data(), data.size(), strdata, 1);
	cmSystemTools::Stdout(strdata);
	}
	if (!arguments.OutputVariable.empty()) {
	cmExecuteProcessCommandAppend(outputData.Output, data.data(),
	data.size());
	}
	}
	},
	[&outputData]() { outputData.Finished = true; });
	} else {
	outputData.Finished = true;
	}
	std::unique_ptr<cmUVStreamReadHandle> errorHandle;
	if (chain.ErrorStream() >= 0 &&
	chain.ErrorStream() != chain.OutputStream()) {
	errorData.Stream.init(chain.GetLoop(), 0);
	uv_pipe_open(errorData.Stream, chain.ErrorStream());
	errorHandle = cmUVStreamRead(
	errorData.Stream,
	[&arguments, &processOutput, &errorData,
	&strdata](std::vector<char> data) {
	if (!arguments.ErrorQuiet) {
	if (arguments.ErrorVariable.empty() \|\| arguments.EchoErrorVariable) {
	processOutput.DecodeText(data.data(), data.size(), strdata, 2);
	cmSystemTools::Stderr(strdata);
	}
	if (!arguments.ErrorVariable.empty()) {
	cmExecuteProcessCommandAppend(errorData.Output, data.data(),
	data.size());
	}
	}
	},
	[&errorData]() { errorData.Finished = true; });
	} else {
	errorData.Finished = true;
	}

	while (chain.Valid() && !timedOut &&
	!(chain.Finished() && outputData.Finished && errorData.Finished)) {
	uv_run(&chain.GetLoop(), UV_RUN_ONCE);
	}
	if (!arguments.OutputQuiet &&
	(arguments.OutputVariable.empty() \|\| arguments.EchoOutputVariable)) {
	processOutput.DecodeText(std::string(), strdata, 1);
	if (!strdata.empty()) {
	cmSystemTools::Stdout(strdata);
	}
	}
	if (!arguments.ErrorQuiet &&
	(arguments.ErrorVariable.empty() \|\| arguments.EchoErrorVariable)) {
	processOutput.DecodeText(std::string(), strdata, 2);
	if (!strdata.empty()) {
	cmSystemTools::Stderr(strdata);
	}
	}

	// All output has been read.
	processOutput.DecodeText(outputData.Output, outputData.Output);
	processOutput.DecodeText(errorData.Output, errorData.Output);

	// Fix the text in the output strings.
	cmExecuteProcessCommandFixText(outputData.Output,
	arguments.OutputStripTrailingWhitespace);
	cmExecuteProcessCommandFixText(errorData.Output,
	arguments.ErrorStripTrailingWhitespace);

	// Store the output obtained.
	if (!arguments.OutputVariable.empty() && !outputData.Output.empty()) {
	status.GetMakefile().AddDefinition(arguments.OutputVariable,
	outputData.Output.data());
	}
	if (arguments.ErrorVariable != arguments.OutputVariable &&
	!arguments.ErrorVariable.empty() && !errorData.Output.empty()) {
	status.GetMakefile().AddDefinition(arguments.ErrorVariable,
	errorData.Output.data());
	}

	// Store the result of running the process.
	if (!arguments.ResultVariable.empty()) {
	if (timedOut) {
	status.GetMakefile().AddDefinition(arguments.ResultVariable,
	"Process terminated due to timeout");
	} else {
	auto const* lastStatus = chain.GetStatus().back();
	auto exception = lastStatus->GetException();
	if (exception.first == cmUVProcessChain::ExceptionCode::None) {
	status.GetMakefile().AddDefinition(
	arguments.ResultVariable,
	std::to_string(static_cast<int>(lastStatus->ExitStatus)));
	} else {
	status.GetMakefile().AddDefinition(arguments.ResultVariable,
	exception.second);
	}
	}
	}
	// Store the result of running the processes.
	if (!arguments.ResultsVariable.empty()) {
	if (timedOut) {
	status.GetMakefile().AddDefinition(arguments.ResultsVariable,
	"Process terminated due to timeout");
	} else {
	std::vector<std::string> res;
	for (auto const* processStatus : chain.GetStatus()) {
	auto exception = processStatus->GetException();
	if (exception.first == cmUVProcessChain::ExceptionCode::None) {
	res.emplace_back(
	std::to_string(static_cast<int>(processStatus->ExitStatus)));
	} else {
	res.emplace_back(exception.second);
	}
	}
	status.GetMakefile().AddDefinition(arguments.ResultsVariable,
	cmList::to_string(res));
	}
	}

	auto queryProcessStatusByIndex = [&chain](std::size_t index) -> std::string {
	auto const& processStatus = chain.GetStatus(index);
	auto exception = processStatus.GetException();
	if (exception.first == cmUVProcessChain::ExceptionCode::None) {
	if (processStatus.ExitStatus) {
	return cmStrCat("Child return code: ", processStatus.ExitStatus);
	}
	return "";
	}
	return cmStrCat("Abnormal exit with child return code: ",
	exception.second);
	};

	if (arguments.CommandErrorIsFatal == "ANY"_s) {
	bool ret = true;
	if (timedOut) {
	status.SetError("Process terminated due to timeout");
	ret = false;
	} else {
	std::map<std::size_t, std::string> failureIndices;
	auto statuses = chain.GetStatus();
	for (std::size_t i = 0; i < statuses.size(); ++i) {
	std::string processStatus = queryProcessStatusByIndex(i);
	if (!processStatus.empty()) {
	failureIndices[i] = processStatus;
	}
	}
	if (!failureIndices.empty()) {
	std::ostringstream oss;
	oss << "failed command indexes:\n";
	for (auto const& e : failureIndices) {
	oss << " " << e.first + 1 << ": \"" << e.second << "\"\n";
	}
	status.SetError(oss.str());
	ret = false;
	}
	}

	if (!ret) {
	cmSystemTools::SetFatalErrorOccurred();
	return false;
	}
	}

	if (arguments.CommandErrorIsFatal == "LAST"_s) {
	bool ret = true;
	if (timedOut) {
	status.SetError("Process terminated due to timeout");
	ret = false;
	} else {
	auto const& lastStatus = chain.GetStatus(arguments.Commands.size() - 1);
	auto exception = lastStatus.GetException();
	if (exception.first != cmUVProcessChain::ExceptionCode::None) {
	status.SetError(cmStrCat("Abnormal exit: ", exception.second));
	ret = false;
	} else {
	int lastIndex = static_cast<int>(arguments.Commands.size() - 1);
	const std::string processStatus = queryProcessStatusByIndex(lastIndex);
	if (!processStatus.empty()) {
	status.SetError("last command failed");
	ret = false;
	}
	}
	}
	if (!ret) {
	cmSystemTools::SetFatalErrorOccurred();
	return false;
	}
	}

	return true;
	}

	namespace {
	void cmExecuteProcessCommandFixText(std::vector<char>& output,
	bool strip_trailing_whitespace)
	{
	// Remove \0 characters and the \r part of \r\n pairs.
	unsigned int in_index = 0;
	unsigned int out_index = 0;
	while (in_index < output.size()) {
	char c = output[in_index++];
	if ((c != '\r' \|\|
	!(in_index < output.size() && output[in_index] == '\n')) &&
	c != '\0') {
	output[out_index++] = c;
	}
	}

	// Remove trailing whitespace if requested.
	if (strip_trailing_whitespace) {
	while (out_index > 0 &&
	cmExecuteProcessCommandIsWhitespace(output[out_index - 1])) {
	--out_index;
	}
	}

	// Shrink the vector to the size needed.
	output.resize(out_index);

	// Put a terminator on the text string.
	output.push_back('\0');
	}

	void cmExecuteProcessCommandAppend(std::vector<char>& output, const char* data,
	std::size_t length)
	{
	#if defined(__APPLE__)
	// HACK on Apple to work around bug with inserting at the
	// end of an empty vector. This resulted in random failures
	// that were hard to reproduce.
	if (output.empty() && length > 0) {
	output.push_back(data[0]);
	++data;
	--length;
	}
	#endif
	cm::append(output, data, data + length);
	}
	}