X-Git-Url: http://demsky.eecs.uci.edu/git/?a=blobdiff_plain;f=tools%2Fbugpoint%2FToolRunner.cpp;h=107d0dbaeb17fb198021851c5626687df8f812ef;hb=1b0dc64919e947bb4f4677b138c734e33061f7c4;hp=4a08e1adc76ae13b5752bd63894096814b48ab2d;hpb=dd04df0ec33a903ee7fc747701bafde622f77d8b;p=oota-llvm.git diff --git a/tools/bugpoint/ToolRunner.cpp b/tools/bugpoint/ToolRunner.cpp index 4a08e1adc76..107d0dbaeb1 100644 --- a/tools/bugpoint/ToolRunner.cpp +++ b/tools/bugpoint/ToolRunner.cpp @@ -2,8 +2,8 @@ // // The LLVM Compiler Infrastructure // -// This file was developed by the LLVM research group and is distributed under -// the University of Illinois Open Source License. See LICENSE.TXT for details. +// This file is distributed under the University of Illinois Open Source +// License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // @@ -12,38 +12,126 @@ //===----------------------------------------------------------------------===// #define DEBUG_TYPE "toolrunner" -#include "llvm/Support/ToolRunner.h" +#include "ToolRunner.h" #include "llvm/Config/config.h" // for HAVE_LINK_R -#include "llvm/System/Program.h" +#include "llvm/Support/CommandLine.h" #include "llvm/Support/Debug.h" +#include "llvm/Support/FileSystem.h" #include "llvm/Support/FileUtilities.h" +#include "llvm/Support/Program.h" +#include "llvm/Support/raw_ostream.h" #include #include using namespace llvm; -ToolExecutionError::~ToolExecutionError() throw() { } +namespace llvm { + cl::opt + SaveTemps("save-temps", cl::init(false), cl::desc("Save temporary files")); +} + +namespace { + cl::opt + RemoteClient("remote-client", + cl::desc("Remote execution client (rsh/ssh)")); + + cl::opt + RemoteHost("remote-host", + cl::desc("Remote execution (rsh/ssh) host")); + + cl::opt + RemotePort("remote-port", + cl::desc("Remote execution (rsh/ssh) port")); + + cl::opt + RemoteUser("remote-user", + cl::desc("Remote execution (rsh/ssh) user id")); -/// RunProgramWithTimeout - This function provides an alternate interface to the -/// sys::Program::ExecuteAndWait interface. -/// @see sys:Program::ExecuteAndWait -static int RunProgramWithTimeout(const sys::Path &ProgramPath, + cl::opt + RemoteExtra("remote-extra-options", + cl::desc("Remote execution (rsh/ssh) extra options")); +} + +/// RunProgramWithTimeout - This function provides an alternate interface +/// to the sys::Program::ExecuteAndWait interface. +/// @see sys::Program::ExecuteAndWait +static int RunProgramWithTimeout(StringRef ProgramPath, const char **Args, - const sys::Path &StdInFile, - const sys::Path &StdOutFile, - const sys::Path &StdErrFile, - unsigned NumSeconds = 0) { - const sys::Path* redirects[3]; - redirects[0] = &StdInFile; - redirects[1] = &StdOutFile; - redirects[2] = &StdErrFile; - - return - sys::Program::ExecuteAndWait(ProgramPath, Args, 0, redirects, NumSeconds); + StringRef StdInFile, + StringRef StdOutFile, + StringRef StdErrFile, + unsigned NumSeconds = 0, + unsigned MemoryLimit = 0, + std::string *ErrMsg = 0) { + const StringRef *Redirects[3] = { &StdInFile, &StdOutFile, &StdErrFile }; + +#if 0 // For debug purposes + { + errs() << "RUN:"; + for (unsigned i = 0; Args[i]; ++i) + errs() << " " << Args[i]; + errs() << "\n"; + } +#endif + + return sys::ExecuteAndWait(ProgramPath, Args, 0, Redirects, + NumSeconds, MemoryLimit, ErrMsg); } +/// RunProgramRemotelyWithTimeout - This function runs the given program +/// remotely using the given remote client and the sys::Program::ExecuteAndWait. +/// Returns the remote program exit code or reports a remote client error if it +/// fails. Remote client is required to return 255 if it failed or program exit +/// code otherwise. +/// @see sys::Program::ExecuteAndWait +static int RunProgramRemotelyWithTimeout(StringRef RemoteClientPath, + const char **Args, + StringRef StdInFile, + StringRef StdOutFile, + StringRef StdErrFile, + unsigned NumSeconds = 0, + unsigned MemoryLimit = 0) { + const StringRef *Redirects[3] = { &StdInFile, &StdOutFile, &StdErrFile }; + +#if 0 // For debug purposes + { + errs() << "RUN:"; + for (unsigned i = 0; Args[i]; ++i) + errs() << " " << Args[i]; + errs() << "\n"; + } +#endif + + // Run the program remotely with the remote client + int ReturnCode = sys::ExecuteAndWait(RemoteClientPath, Args, 0, + Redirects, NumSeconds, MemoryLimit); + + // Has the remote client fail? + if (255 == ReturnCode) { + std::ostringstream OS; + OS << "\nError running remote client:\n "; + for (const char **Arg = Args; *Arg; ++Arg) + OS << " " << *Arg; + OS << "\n"; + + // The error message is in the output file, let's print it out from there. + std::string StdOutFileName = StdOutFile.str(); + std::ifstream ErrorFile(StdOutFileName.c_str()); + if (ErrorFile) { + std::copy(std::istreambuf_iterator(ErrorFile), + std::istreambuf_iterator(), + std::ostreambuf_iterator(OS)); + ErrorFile.close(); + } + + errs() << OS.str(); + } + return ReturnCode; +} -static void ProcessFailure(sys::Path ProgPath, const char** Args) { +static std::string ProcessFailure(StringRef ProgPath, const char** Args, + unsigned Timeout = 0, + unsigned MemoryLimit = 0) { std::ostringstream OS; OS << "\nError running tool:\n "; for (const char **Arg = Args; *Arg; ++Arg) @@ -51,10 +139,17 @@ static void ProcessFailure(sys::Path ProgPath, const char** Args) { OS << "\n"; // Rerun the compiler, capturing any error messages to print them. - sys::Path ErrorFilename("error_messages"); - ErrorFilename.makeUnique(); - RunProgramWithTimeout(ProgPath, Args, sys::Path(""), ErrorFilename, - ErrorFilename); + SmallString<128> ErrorFilename; + int ErrorFD; + error_code EC = sys::fs::createTemporaryFile( + "bugpoint.program_error_messages", "", ErrorFD, ErrorFilename); + if (EC) { + errs() << "Error making unique filename: " << EC.message() << "\n"; + exit(1); + } + RunProgramWithTimeout(ProgPath, Args, "", ErrorFilename.str(), + ErrorFilename.str(), Timeout, MemoryLimit); + // FIXME: check return code ? // Print out the error messages generated by GCC if possible... std::ifstream ErrorFile(ErrorFilename.c_str()); @@ -65,8 +160,8 @@ static void ProcessFailure(sys::Path ProgPath, const char** Args) { ErrorFile.close(); } - ErrorFilename.destroy(); - throw ToolExecutionError(OS.str()); + sys::fs::remove(ErrorFilename.c_str()); + return OS.str(); } //===---------------------------------------------------------------------===// @@ -83,136 +178,396 @@ namespace { if (Args) { ToolArgs = *Args; } } - virtual int ExecuteProgram(const std::string &Bytecode, + virtual int ExecuteProgram(const std::string &Bitcode, const std::vector &Args, const std::string &InputFile, const std::string &OutputFile, + std::string *Error, + const std::vector &GCCArgs, const std::vector &SharedLibs = std::vector(), - unsigned Timeout = 0); + unsigned Timeout = 0, + unsigned MemoryLimit = 0); }; } -int LLI::ExecuteProgram(const std::string &Bytecode, +int LLI::ExecuteProgram(const std::string &Bitcode, const std::vector &Args, const std::string &InputFile, const std::string &OutputFile, + std::string *Error, + const std::vector &GCCArgs, const std::vector &SharedLibs, - unsigned Timeout) { - if (!SharedLibs.empty()) - throw ToolExecutionError("LLI currently does not support " - "loading shared libraries."); - + unsigned Timeout, + unsigned MemoryLimit) { std::vector LLIArgs; LLIArgs.push_back(LLIPath.c_str()); LLIArgs.push_back("-force-interpreter=true"); + for (std::vector::const_iterator i = SharedLibs.begin(), + e = SharedLibs.end(); i != e; ++i) { + LLIArgs.push_back("-load"); + LLIArgs.push_back((*i).c_str()); + } + // Add any extra LLI args. for (unsigned i = 0, e = ToolArgs.size(); i != e; ++i) LLIArgs.push_back(ToolArgs[i].c_str()); - LLIArgs.push_back(Bytecode.c_str()); + LLIArgs.push_back(Bitcode.c_str()); // Add optional parameters to the running program from Argv for (unsigned i=0, e = Args.size(); i != e; ++i) LLIArgs.push_back(Args[i].c_str()); LLIArgs.push_back(0); - std::cout << "" << std::flush; - DEBUG(std::cerr << "\nAbout to run:\t"; + outs() << ""; outs().flush(); + DEBUG(errs() << "\nAbout to run:\t"; for (unsigned i=0, e = LLIArgs.size()-1; i != e; ++i) - std::cerr << " " << LLIArgs[i]; - std::cerr << "\n"; + errs() << " " << LLIArgs[i]; + errs() << "\n"; ); - return RunProgramWithTimeout(sys::Path(LLIPath), &LLIArgs[0], - sys::Path(InputFile), sys::Path(OutputFile), sys::Path(OutputFile), - Timeout); + return RunProgramWithTimeout(LLIPath, &LLIArgs[0], + InputFile, OutputFile, OutputFile, + Timeout, MemoryLimit, Error); +} + +void AbstractInterpreter::anchor() { } + +#if defined(LLVM_ON_UNIX) +const char EXESuffix[] = ""; +#elif defined (LLVM_ON_WIN32) +const char EXESuffix[] = "exe"; +#endif + +/// Prepend the path to the program being executed +/// to \p ExeName, given the value of argv[0] and the address of main() +/// itself. This allows us to find another LLVM tool if it is built in the same +/// directory. An empty string is returned on error; note that this function +/// just mainpulates the path and doesn't check for executability. +/// @brief Find a named executable. +static std::string PrependMainExecutablePath(const std::string &ExeName, + const char *Argv0, + void *MainAddr) { + // Check the directory that the calling program is in. We can do + // this if ProgramPath contains at least one / character, indicating that it + // is a relative path to the executable itself. + std::string Main = sys::fs::getMainExecutable(Argv0, MainAddr); + StringRef Result = sys::path::parent_path(Main); + + if (!Result.empty()) { + SmallString<128> Storage = Result; + sys::path::append(Storage, ExeName); + sys::path::replace_extension(Storage, EXESuffix); + return Storage.str(); + } + + return Result.str(); } // LLI create method - Try to find the LLI executable -AbstractInterpreter *AbstractInterpreter::createLLI(const std::string &ProgPath, +AbstractInterpreter *AbstractInterpreter::createLLI(const char *Argv0, std::string &Message, const std::vector *ToolArgs) { - std::string LLIPath = FindExecutable("lli", ProgPath).toString(); + std::string LLIPath = + PrependMainExecutablePath("lli", Argv0, (void *)(intptr_t) & createLLI); if (!LLIPath.empty()) { Message = "Found lli: " + LLIPath + "\n"; return new LLI(LLIPath, ToolArgs); } - Message = "Cannot find `lli' in executable directory or PATH!\n"; + Message = "Cannot find `lli' in executable directory!\n"; return 0; } +//===---------------------------------------------------------------------===// +// Custom compiler command implementation of AbstractIntepreter interface +// +// Allows using a custom command for compiling the bitcode, thus allows, for +// example, to compile a bitcode fragment without linking or executing, then +// using a custom wrapper script to check for compiler errors. +namespace { + class CustomCompiler : public AbstractInterpreter { + std::string CompilerCommand; + std::vector CompilerArgs; + public: + CustomCompiler( + const std::string &CompilerCmd, std::vector CompArgs) : + CompilerCommand(CompilerCmd), CompilerArgs(CompArgs) {} + + virtual void compileProgram(const std::string &Bitcode, + std::string *Error, + unsigned Timeout = 0, + unsigned MemoryLimit = 0); + + virtual int ExecuteProgram(const std::string &Bitcode, + const std::vector &Args, + const std::string &InputFile, + const std::string &OutputFile, + std::string *Error, + const std::vector &GCCArgs = + std::vector(), + const std::vector &SharedLibs = + std::vector(), + unsigned Timeout = 0, + unsigned MemoryLimit = 0) { + *Error = "Execution not supported with -compile-custom"; + return -1; + } + }; +} + +void CustomCompiler::compileProgram(const std::string &Bitcode, + std::string *Error, + unsigned Timeout, + unsigned MemoryLimit) { + + std::vector ProgramArgs; + ProgramArgs.push_back(CompilerCommand.c_str()); + + for (std::size_t i = 0; i < CompilerArgs.size(); ++i) + ProgramArgs.push_back(CompilerArgs.at(i).c_str()); + ProgramArgs.push_back(Bitcode.c_str()); + ProgramArgs.push_back(0); + + // Add optional parameters to the running program from Argv + for (unsigned i = 0, e = CompilerArgs.size(); i != e; ++i) + ProgramArgs.push_back(CompilerArgs[i].c_str()); + + if (RunProgramWithTimeout(CompilerCommand, &ProgramArgs[0], + "", "", "", + Timeout, MemoryLimit, Error)) + *Error = ProcessFailure(CompilerCommand, &ProgramArgs[0], + Timeout, MemoryLimit); +} + +//===---------------------------------------------------------------------===// +// Custom execution command implementation of AbstractIntepreter interface +// +// Allows using a custom command for executing the bitcode, thus allows, +// for example, to invoke a cross compiler for code generation followed by +// a simulator that executes the generated binary. +namespace { + class CustomExecutor : public AbstractInterpreter { + std::string ExecutionCommand; + std::vector ExecutorArgs; + public: + CustomExecutor( + const std::string &ExecutionCmd, std::vector ExecArgs) : + ExecutionCommand(ExecutionCmd), ExecutorArgs(ExecArgs) {} + + virtual int ExecuteProgram(const std::string &Bitcode, + const std::vector &Args, + const std::string &InputFile, + const std::string &OutputFile, + std::string *Error, + const std::vector &GCCArgs, + const std::vector &SharedLibs = + std::vector(), + unsigned Timeout = 0, + unsigned MemoryLimit = 0); + }; +} + +int CustomExecutor::ExecuteProgram(const std::string &Bitcode, + const std::vector &Args, + const std::string &InputFile, + const std::string &OutputFile, + std::string *Error, + const std::vector &GCCArgs, + const std::vector &SharedLibs, + unsigned Timeout, + unsigned MemoryLimit) { + + std::vector ProgramArgs; + ProgramArgs.push_back(ExecutionCommand.c_str()); + + for (std::size_t i = 0; i < ExecutorArgs.size(); ++i) + ProgramArgs.push_back(ExecutorArgs.at(i).c_str()); + ProgramArgs.push_back(Bitcode.c_str()); + ProgramArgs.push_back(0); + + // Add optional parameters to the running program from Argv + for (unsigned i = 0, e = Args.size(); i != e; ++i) + ProgramArgs.push_back(Args[i].c_str()); + + return RunProgramWithTimeout( + ExecutionCommand, + &ProgramArgs[0], InputFile, OutputFile, + OutputFile, Timeout, MemoryLimit, Error); +} + +// Tokenize the CommandLine to the command and the args to allow +// defining a full command line as the command instead of just the +// executed program. We cannot just pass the whole string after the command +// as a single argument because then program sees only a single +// command line argument (with spaces in it: "foo bar" instead +// of "foo" and "bar"). +// +// code borrowed from: +// http://oopweb.com/CPP/Documents/CPPHOWTO/Volume/C++Programming-HOWTO-7.html +static void lexCommand(std::string &Message, const std::string &CommandLine, + std::string &CmdPath, std::vector Args) { + + std::string Command = ""; + std::string delimiters = " "; + + std::string::size_type lastPos = CommandLine.find_first_not_of(delimiters, 0); + std::string::size_type pos = CommandLine.find_first_of(delimiters, lastPos); + + while (std::string::npos != pos || std::string::npos != lastPos) { + std::string token = CommandLine.substr(lastPos, pos - lastPos); + if (Command == "") + Command = token; + else + Args.push_back(token); + // Skip delimiters. Note the "not_of" + lastPos = CommandLine.find_first_not_of(delimiters, pos); + // Find next "non-delimiter" + pos = CommandLine.find_first_of(delimiters, lastPos); + } + + CmdPath = sys::FindProgramByName(Command); + if (CmdPath.empty()) { + Message = + std::string("Cannot find '") + Command + + "' in PATH!\n"; + return; + } + + Message = "Found command in: " + CmdPath + "\n"; +} + +// Custom execution environment create method, takes the execution command +// as arguments +AbstractInterpreter *AbstractInterpreter::createCustomCompiler( + std::string &Message, + const std::string &CompileCommandLine) { + + std::string CmdPath; + std::vector Args; + lexCommand(Message, CompileCommandLine, CmdPath, Args); + if (CmdPath.empty()) + return 0; + + return new CustomCompiler(CmdPath, Args); +} + +// Custom execution environment create method, takes the execution command +// as arguments +AbstractInterpreter *AbstractInterpreter::createCustomExecutor( + std::string &Message, + const std::string &ExecCommandLine) { + + + std::string CmdPath; + std::vector Args; + lexCommand(Message, ExecCommandLine, CmdPath, Args); + if (CmdPath.empty()) + return 0; + + return new CustomExecutor(CmdPath, Args); +} + //===----------------------------------------------------------------------===// // LLC Implementation of AbstractIntepreter interface // -void LLC::OutputAsm(const std::string &Bytecode, sys::Path &OutputAsmFile) { - sys::Path uniqueFile(Bytecode+".llc.s"); - uniqueFile.makeUnique(); - OutputAsmFile = uniqueFile; +GCC::FileType LLC::OutputCode(const std::string &Bitcode, + std::string &OutputAsmFile, std::string &Error, + unsigned Timeout, unsigned MemoryLimit) { + const char *Suffix = (UseIntegratedAssembler ? ".llc.o" : ".llc.s"); + + SmallString<128> UniqueFile; + error_code EC = + sys::fs::createUniqueFile(Bitcode + "-%%%%%%%" + Suffix, UniqueFile); + if (EC) { + errs() << "Error making unique filename: " << EC.message() << "\n"; + exit(1); + } + OutputAsmFile = UniqueFile.str(); std::vector LLCArgs; - LLCArgs.push_back (LLCPath.c_str()); + LLCArgs.push_back(LLCPath.c_str()); // Add any extra LLC args. for (unsigned i = 0, e = ToolArgs.size(); i != e; ++i) LLCArgs.push_back(ToolArgs[i].c_str()); - LLCArgs.push_back ("-o"); - LLCArgs.push_back (OutputAsmFile.c_str()); // Output to the Asm file - LLCArgs.push_back ("-f"); // Overwrite as necessary... - LLCArgs.push_back (Bytecode.c_str()); // This is the input bytecode + LLCArgs.push_back("-o"); + LLCArgs.push_back(OutputAsmFile.c_str()); // Output to the Asm file + LLCArgs.push_back(Bitcode.c_str()); // This is the input bitcode + + if (UseIntegratedAssembler) + LLCArgs.push_back("-filetype=obj"); + LLCArgs.push_back (0); - std::cout << "" << std::flush; - DEBUG(std::cerr << "\nAbout to run:\t"; - for (unsigned i=0, e = LLCArgs.size()-1; i != e; ++i) - std::cerr << " " << LLCArgs[i]; - std::cerr << "\n"; + outs() << (UseIntegratedAssembler ? "" : ""); + outs().flush(); + DEBUG(errs() << "\nAbout to run:\t"; + for (unsigned i = 0, e = LLCArgs.size()-1; i != e; ++i) + errs() << " " << LLCArgs[i]; + errs() << "\n"; ); - if (RunProgramWithTimeout(sys::Path(LLCPath), &LLCArgs[0], - sys::Path(), sys::Path(), sys::Path())) - ProcessFailure(sys::Path(LLCPath), &LLCArgs[0]); + if (RunProgramWithTimeout(LLCPath, &LLCArgs[0], + "", "", "", + Timeout, MemoryLimit)) + Error = ProcessFailure(LLCPath, &LLCArgs[0], + Timeout, MemoryLimit); + return UseIntegratedAssembler ? GCC::ObjectFile : GCC::AsmFile; } -void LLC::compileProgram(const std::string &Bytecode) { - sys::Path OutputAsmFile; - OutputAsm(Bytecode, OutputAsmFile); - OutputAsmFile.destroy(); +void LLC::compileProgram(const std::string &Bitcode, std::string *Error, + unsigned Timeout, unsigned MemoryLimit) { + std::string OutputAsmFile; + OutputCode(Bitcode, OutputAsmFile, *Error, Timeout, MemoryLimit); + sys::fs::remove(OutputAsmFile); } -int LLC::ExecuteProgram(const std::string &Bytecode, +int LLC::ExecuteProgram(const std::string &Bitcode, const std::vector &Args, const std::string &InputFile, const std::string &OutputFile, + std::string *Error, + const std::vector &ArgsForGCC, const std::vector &SharedLibs, - unsigned Timeout) { + unsigned Timeout, + unsigned MemoryLimit) { + + std::string OutputAsmFile; + GCC::FileType FileKind = OutputCode(Bitcode, OutputAsmFile, *Error, Timeout, + MemoryLimit); + FileRemover OutFileRemover(OutputAsmFile, !SaveTemps); - sys::Path OutputAsmFile; - OutputAsm(Bytecode, OutputAsmFile); - FileRemover OutFileRemover(OutputAsmFile); + std::vector GCCArgs(ArgsForGCC); + GCCArgs.insert(GCCArgs.end(), SharedLibs.begin(), SharedLibs.end()); // Assuming LLC worked, compile the result with GCC and run it. - return gcc->ExecuteProgram(OutputAsmFile.toString(), Args, GCC::AsmFile, - InputFile, OutputFile, SharedLibs, Timeout); + return gcc->ExecuteProgram(OutputAsmFile, Args, FileKind, + InputFile, OutputFile, Error, GCCArgs, + Timeout, MemoryLimit); } /// createLLC - Try to find the LLC executable /// -LLC *AbstractInterpreter::createLLC(const std::string &ProgramPath, +LLC *AbstractInterpreter::createLLC(const char *Argv0, std::string &Message, - const std::vector *Args) { - std::string LLCPath = FindExecutable("llc", ProgramPath).toString(); + const std::string &GCCBinary, + const std::vector *Args, + const std::vector *GCCArgs, + bool UseIntegratedAssembler) { + std::string LLCPath = + PrependMainExecutablePath("llc", Argv0, (void *)(intptr_t) & createLLC); if (LLCPath.empty()) { - Message = "Cannot find `llc' in executable directory or PATH!\n"; + Message = "Cannot find `llc' in executable directory!\n"; return 0; } - Message = "Found llc: " + LLCPath + "\n"; - GCC *gcc = GCC::create(ProgramPath, Message); + GCC *gcc = GCC::create(Message, GCCBinary, GCCArgs); if (!gcc) { - std::cerr << Message << "\n"; + errs() << Message << "\n"; exit(1); } - return new LLC(LLCPath, gcc, Args); + Message = "Found llc: " + LLCPath + "\n"; + return new LLC(LLCPath, gcc, Args, UseIntegratedAssembler); } //===---------------------------------------------------------------------===// @@ -229,21 +584,29 @@ namespace { if (Args) { ToolArgs = *Args; } } - virtual int ExecuteProgram(const std::string &Bytecode, + virtual int ExecuteProgram(const std::string &Bitcode, const std::vector &Args, const std::string &InputFile, const std::string &OutputFile, + std::string *Error, + const std::vector &GCCArgs = + std::vector(), const std::vector &SharedLibs = - std::vector(), unsigned Timeout =0); + std::vector(), + unsigned Timeout = 0, + unsigned MemoryLimit = 0); }; } -int JIT::ExecuteProgram(const std::string &Bytecode, +int JIT::ExecuteProgram(const std::string &Bitcode, const std::vector &Args, const std::string &InputFile, const std::string &OutputFile, + std::string *Error, + const std::vector &GCCArgs, const std::vector &SharedLibs, - unsigned Timeout) { + unsigned Timeout, + unsigned MemoryLimit) { // Construct a vector of parameters, incorporating those from the command-line std::vector JITArgs; JITArgs.push_back(LLIPath.c_str()); @@ -257,212 +620,282 @@ int JIT::ExecuteProgram(const std::string &Bytecode, JITArgs.push_back("-load"); JITArgs.push_back(SharedLibs[i].c_str()); } - JITArgs.push_back(Bytecode.c_str()); + JITArgs.push_back(Bitcode.c_str()); // Add optional parameters to the running program from Argv for (unsigned i=0, e = Args.size(); i != e; ++i) JITArgs.push_back(Args[i].c_str()); JITArgs.push_back(0); - std::cout << "" << std::flush; - DEBUG(std::cerr << "\nAbout to run:\t"; + outs() << ""; outs().flush(); + DEBUG(errs() << "\nAbout to run:\t"; for (unsigned i=0, e = JITArgs.size()-1; i != e; ++i) - std::cerr << " " << JITArgs[i]; - std::cerr << "\n"; + errs() << " " << JITArgs[i]; + errs() << "\n"; ); - DEBUG(std::cerr << "\nSending output to " << OutputFile << "\n"); - return RunProgramWithTimeout(sys::Path(LLIPath), &JITArgs[0], - sys::Path(InputFile), sys::Path(OutputFile), sys::Path(OutputFile), - Timeout); + DEBUG(errs() << "\nSending output to " << OutputFile << "\n"); + return RunProgramWithTimeout(LLIPath, &JITArgs[0], + InputFile, OutputFile, OutputFile, + Timeout, MemoryLimit, Error); } /// createJIT - Try to find the LLI executable /// -AbstractInterpreter *AbstractInterpreter::createJIT(const std::string &ProgPath, +AbstractInterpreter *AbstractInterpreter::createJIT(const char *Argv0, std::string &Message, const std::vector *Args) { - std::string LLIPath = FindExecutable("lli", ProgPath).toString(); + std::string LLIPath = + PrependMainExecutablePath("lli", Argv0, (void *)(intptr_t) & createJIT); if (!LLIPath.empty()) { Message = "Found lli: " + LLIPath + "\n"; return new JIT(LLIPath, Args); } - Message = "Cannot find `lli' in executable directory or PATH!\n"; + Message = "Cannot find `lli' in executable directory!\n"; return 0; } -void CBE::OutputC(const std::string &Bytecode, sys::Path& OutputCFile) { - sys::Path uniqueFile(Bytecode+".cbe.c"); - uniqueFile.makeUnique(); - OutputCFile = uniqueFile; - std::vector LLCArgs; - LLCArgs.push_back (LLCPath.c_str()); - - // Add any extra LLC args. - for (unsigned i = 0, e = ToolArgs.size(); i != e; ++i) - LLCArgs.push_back(ToolArgs[i].c_str()); - - LLCArgs.push_back ("-o"); - LLCArgs.push_back (OutputCFile.c_str()); // Output to the C file - LLCArgs.push_back ("-march=c"); // Output C language - LLCArgs.push_back ("-f"); // Overwrite as necessary... - LLCArgs.push_back (Bytecode.c_str()); // This is the input bytecode - LLCArgs.push_back (0); - - std::cout << "" << std::flush; - DEBUG(std::cerr << "\nAbout to run:\t"; - for (unsigned i=0, e = LLCArgs.size()-1; i != e; ++i) - std::cerr << " " << LLCArgs[i]; - std::cerr << "\n"; - ); - if (RunProgramWithTimeout(LLCPath, &LLCArgs[0], sys::Path(), sys::Path(), - sys::Path())) - ProcessFailure(LLCPath, &LLCArgs[0]); -} - -void CBE::compileProgram(const std::string &Bytecode) { - sys::Path OutputCFile; - OutputC(Bytecode, OutputCFile); - OutputCFile.destroy(); -} - -int CBE::ExecuteProgram(const std::string &Bytecode, - const std::vector &Args, - const std::string &InputFile, - const std::string &OutputFile, - const std::vector &SharedLibs, - unsigned Timeout) { - sys::Path OutputCFile; - OutputC(Bytecode, OutputCFile); - - FileRemover CFileRemove(OutputCFile); - - return gcc->ExecuteProgram(OutputCFile.toString(), Args, GCC::CFile, - InputFile, OutputFile, SharedLibs, Timeout); -} +//===---------------------------------------------------------------------===// +// GCC abstraction +// -/// createCBE - Try to find the 'llc' executable -/// -CBE *AbstractInterpreter::createCBE(const std::string &ProgramPath, - std::string &Message, - const std::vector *Args) { - sys::Path LLCPath = FindExecutable("llc", ProgramPath); - if (LLCPath.isEmpty()) { - Message = - "Cannot find `llc' in executable directory or PATH!\n"; - return 0; +static bool IsARMArchitecture(std::vector Args) { + for (std::vector::const_iterator + I = Args.begin(), E = Args.end(); I != E; ++I) { + if (StringRef(*I).equals_lower("-arch")) { + ++I; + if (I != E && StringRef(*I).substr(0, strlen("arm")).equals_lower("arm")) + return true; + } } - Message = "Found llc: " + LLCPath.toString() + "\n"; - GCC *gcc = GCC::create(ProgramPath, Message); - if (!gcc) { - std::cerr << Message << "\n"; - exit(1); - } - return new CBE(LLCPath, gcc, Args); + return false; } -//===---------------------------------------------------------------------===// -// GCC abstraction -// int GCC::ExecuteProgram(const std::string &ProgramFile, const std::vector &Args, FileType fileType, const std::string &InputFile, const std::string &OutputFile, - const std::vector &SharedLibs, - unsigned Timeout) { + std::string *Error, + const std::vector &ArgsForGCC, + unsigned Timeout, + unsigned MemoryLimit) { std::vector GCCArgs; GCCArgs.push_back(GCCPath.c_str()); - // Specify the shared libraries to link in... - for (unsigned i = 0, e = SharedLibs.size(); i != e; ++i) - GCCArgs.push_back(SharedLibs[i].c_str()); + if (TargetTriple.getArch() == Triple::x86) + GCCArgs.push_back("-m32"); + + for (std::vector::const_iterator + I = gccArgs.begin(), E = gccArgs.end(); I != E; ++I) + GCCArgs.push_back(I->c_str()); // Specify -x explicitly in case the extension is wonky - GCCArgs.push_back("-x"); - if (fileType == CFile) { - GCCArgs.push_back("c"); - GCCArgs.push_back("-fno-strict-aliasing"); - } else { - GCCArgs.push_back("assembler"); + if (fileType != ObjectFile) { + GCCArgs.push_back("-x"); + if (fileType == CFile) { + GCCArgs.push_back("c"); + GCCArgs.push_back("-fno-strict-aliasing"); + } else { + GCCArgs.push_back("assembler"); + + // For ARM architectures we don't want this flag. bugpoint isn't + // explicitly told what architecture it is working on, so we get + // it from gcc flags + if (TargetTriple.isOSDarwin() && !IsARMArchitecture(GCCArgs)) + GCCArgs.push_back("-force_cpusubtype_ALL"); + } } - GCCArgs.push_back(ProgramFile.c_str()); // Specify the input filename... + + GCCArgs.push_back(ProgramFile.c_str()); // Specify the input filename. + + GCCArgs.push_back("-x"); + GCCArgs.push_back("none"); GCCArgs.push_back("-o"); - sys::Path OutputBinary (ProgramFile+".gcc.exe"); - OutputBinary.makeUnique(); + + SmallString<128> OutputBinary; + error_code EC = + sys::fs::createUniqueFile(ProgramFile + "-%%%%%%%.gcc.exe", OutputBinary); + if (EC) { + errs() << "Error making unique filename: " << EC.message() << "\n"; + exit(1); + } GCCArgs.push_back(OutputBinary.c_str()); // Output to the right file... + + // Add any arguments intended for GCC. We locate them here because this is + // most likely -L and -l options that need to come before other libraries but + // after the source. Other options won't be sensitive to placement on the + // command line, so this should be safe. + for (unsigned i = 0, e = ArgsForGCC.size(); i != e; ++i) + GCCArgs.push_back(ArgsForGCC[i].c_str()); + GCCArgs.push_back("-lm"); // Hard-code the math library... GCCArgs.push_back("-O2"); // Optimize the program a bit... #if defined (HAVE_LINK_R) GCCArgs.push_back("-Wl,-R."); // Search this dir for .so files #endif + if (TargetTriple.getArch() == Triple::sparc) + GCCArgs.push_back("-mcpu=v9"); GCCArgs.push_back(0); // NULL terminator - std::cout << "" << std::flush; - if (RunProgramWithTimeout(GCCPath, &GCCArgs[0], sys::Path(), sys::Path(), - sys::Path())) { - ProcessFailure(GCCPath, &GCCArgs[0]); - exit(1); + outs() << ""; outs().flush(); + DEBUG(errs() << "\nAbout to run:\t"; + for (unsigned i = 0, e = GCCArgs.size()-1; i != e; ++i) + errs() << " " << GCCArgs[i]; + errs() << "\n"; + ); + if (RunProgramWithTimeout(GCCPath, &GCCArgs[0], "", "", "")) { + *Error = ProcessFailure(GCCPath, &GCCArgs[0]); + return -1; } std::vector ProgramArgs; - ProgramArgs.push_back(OutputBinary.c_str()); + // Declared here so that the destructor only runs after + // ProgramArgs is used. + std::string Exec; + + if (RemoteClientPath.empty()) + ProgramArgs.push_back(OutputBinary.c_str()); + else { + ProgramArgs.push_back(RemoteClientPath.c_str()); + ProgramArgs.push_back(RemoteHost.c_str()); + if (!RemoteUser.empty()) { + ProgramArgs.push_back("-l"); + ProgramArgs.push_back(RemoteUser.c_str()); + } + if (!RemotePort.empty()) { + ProgramArgs.push_back("-p"); + ProgramArgs.push_back(RemotePort.c_str()); + } + if (!RemoteExtra.empty()) { + ProgramArgs.push_back(RemoteExtra.c_str()); + } + + // Full path to the binary. We need to cd to the exec directory because + // there is a dylib there that the exec expects to find in the CWD + char* env_pwd = getenv("PWD"); + Exec = "cd "; + Exec += env_pwd; + Exec += "; ./"; + Exec += OutputBinary.c_str(); + ProgramArgs.push_back(Exec.c_str()); + } + // Add optional parameters to the running program from Argv - for (unsigned i=0, e = Args.size(); i != e; ++i) + for (unsigned i = 0, e = Args.size(); i != e; ++i) ProgramArgs.push_back(Args[i].c_str()); ProgramArgs.push_back(0); // NULL terminator // Now that we have a binary, run it! - std::cout << "" << std::flush; - DEBUG(std::cerr << "\nAbout to run:\t"; - for (unsigned i=0, e = ProgramArgs.size()-1; i != e; ++i) - std::cerr << " " << ProgramArgs[i]; - std::cerr << "\n"; + outs() << ""; outs().flush(); + DEBUG(errs() << "\nAbout to run:\t"; + for (unsigned i = 0, e = ProgramArgs.size()-1; i != e; ++i) + errs() << " " << ProgramArgs[i]; + errs() << "\n"; ); - FileRemover OutputBinaryRemover(OutputBinary); - return RunProgramWithTimeout(OutputBinary, &ProgramArgs[0], - sys::Path(InputFile), sys::Path(OutputFile), sys::Path(OutputFile), - Timeout); + FileRemover OutputBinaryRemover(OutputBinary.str(), !SaveTemps); + + if (RemoteClientPath.empty()) { + DEBUG(errs() << ""); + int ExitCode = RunProgramWithTimeout(OutputBinary.str(), &ProgramArgs[0], + InputFile, OutputFile, OutputFile, + Timeout, MemoryLimit, Error); + // Treat a signal (usually SIGSEGV) or timeout as part of the program output + // so that crash-causing miscompilation is handled seamlessly. + if (ExitCode < -1) { + std::ofstream outFile(OutputFile.c_str(), std::ios_base::app); + outFile << *Error << '\n'; + outFile.close(); + Error->clear(); + } + return ExitCode; + } else { + outs() << ""; outs().flush(); + return RunProgramRemotelyWithTimeout(RemoteClientPath, + &ProgramArgs[0], InputFile, OutputFile, + OutputFile, Timeout, MemoryLimit); + } } int GCC::MakeSharedObject(const std::string &InputFile, FileType fileType, - std::string &OutputFile) { - sys::Path uniqueFilename(InputFile+LTDL_SHLIB_EXT); - uniqueFilename.makeUnique(); - OutputFile = uniqueFilename.toString(); + std::string &OutputFile, + const std::vector &ArgsForGCC, + std::string &Error) { + SmallString<128> UniqueFilename; + error_code EC = sys::fs::createUniqueFile( + InputFile + "-%%%%%%%" + LTDL_SHLIB_EXT, UniqueFilename); + if (EC) { + errs() << "Error making unique filename: " << EC.message() << "\n"; + exit(1); + } + OutputFile = UniqueFilename.str(); + + std::vector GCCArgs; + + GCCArgs.push_back(GCCPath.c_str()); + + if (TargetTriple.getArch() == Triple::x86) + GCCArgs.push_back("-m32"); + + for (std::vector::const_iterator + I = gccArgs.begin(), E = gccArgs.end(); I != E; ++I) + GCCArgs.push_back(I->c_str()); // Compile the C/asm file into a shared object - const char* GCCArgs[] = { - GCCPath.c_str(), - "-x", (fileType == AsmFile) ? "assembler" : "c", - "-fno-strict-aliasing", - InputFile.c_str(), // Specify the input filename... -#if defined(sparc) || defined(__sparc__) || defined(__sparcv9) - "-G", // Compile a shared library, `-G' for Sparc -#elif (defined(__POWERPC__) || defined(__ppc__)) && defined(__APPLE__) - "-single_module", // link all source files into a single module - "-dynamiclib", // `-dynamiclib' for MacOS X/PowerPC - "-undefined", // in data segment, rather than generating - "dynamic_lookup", // blocks. dynamic_lookup requires that you set - // MACOSX_DEPLOYMENT_TARGET=10.3 in your env. -#else - "-shared", // `-shared' for Linux/X86, maybe others -#endif + if (fileType != ObjectFile) { + GCCArgs.push_back("-x"); + GCCArgs.push_back(fileType == AsmFile ? "assembler" : "c"); + } + GCCArgs.push_back("-fno-strict-aliasing"); + GCCArgs.push_back(InputFile.c_str()); // Specify the input filename. + GCCArgs.push_back("-x"); + GCCArgs.push_back("none"); + if (TargetTriple.getArch() == Triple::sparc) + GCCArgs.push_back("-G"); // Compile a shared library, `-G' for Sparc + else if (TargetTriple.isOSDarwin()) { + // link all source files into a single module in data segment, rather than + // generating blocks. dynamic_lookup requires that you set + // MACOSX_DEPLOYMENT_TARGET=10.3 in your env. FIXME: it would be better for + // bugpoint to just pass that in the environment of GCC. + GCCArgs.push_back("-single_module"); + GCCArgs.push_back("-dynamiclib"); // `-dynamiclib' for MacOS X/PowerPC + GCCArgs.push_back("-undefined"); + GCCArgs.push_back("dynamic_lookup"); + } else + GCCArgs.push_back("-shared"); // `-shared' for Linux/X86, maybe others + + if (TargetTriple.getArch() == Triple::x86_64) + GCCArgs.push_back("-fPIC"); // Requires shared objs to contain PIC + + if (TargetTriple.getArch() == Triple::sparc) + GCCArgs.push_back("-mcpu=v9"); -#if defined(__ia64__) || defined(__alpha__) - "-fPIC", // IA64 requires shared objs to contain PIC -#endif - "-o", OutputFile.c_str(), // Output to the right filename... - "-O2", // Optimize the program a bit... - 0 - }; + GCCArgs.push_back("-o"); + GCCArgs.push_back(OutputFile.c_str()); // Output to the right filename. + GCCArgs.push_back("-O2"); // Optimize the program a bit. - std::cout << "" << std::flush; - if (RunProgramWithTimeout(GCCPath, GCCArgs, sys::Path(), sys::Path(), - sys::Path())) { - ProcessFailure(GCCPath, GCCArgs); + + + // Add any arguments intended for GCC. We locate them here because this is + // most likely -L and -l options that need to come before other libraries but + // after the source. Other options won't be sensitive to placement on the + // command line, so this should be safe. + for (unsigned i = 0, e = ArgsForGCC.size(); i != e; ++i) + GCCArgs.push_back(ArgsForGCC[i].c_str()); + GCCArgs.push_back(0); // NULL terminator + + + + outs() << ""; outs().flush(); + DEBUG(errs() << "\nAbout to run:\t"; + for (unsigned i = 0, e = GCCArgs.size()-1; i != e; ++i) + errs() << " " << GCCArgs[i]; + errs() << "\n"; + ); + if (RunProgramWithTimeout(GCCPath, &GCCArgs[0], "", "", "")) { + Error = ProcessFailure(GCCPath, &GCCArgs[0]); return 1; } return 0; @@ -470,13 +903,19 @@ int GCC::MakeSharedObject(const std::string &InputFile, FileType fileType, /// create - Try to find the `gcc' executable /// -GCC *GCC::create(const std::string &ProgramPath, std::string &Message) { - sys::Path GCCPath = FindExecutable("gcc", ProgramPath); - if (GCCPath.isEmpty()) { - Message = "Cannot find `gcc' in executable directory or PATH!\n"; +GCC *GCC::create(std::string &Message, + const std::string &GCCBinary, + const std::vector *Args) { + std::string GCCPath = sys::FindProgramByName(GCCBinary); + if (GCCPath.empty()) { + Message = "Cannot find `"+ GCCBinary +"' in PATH!\n"; return 0; } - Message = "Found gcc: " + GCCPath.toString() + "\n"; - return new GCC(GCCPath); + std::string RemoteClientPath; + if (!RemoteClient.empty()) + RemoteClientPath = sys::FindProgramByName(RemoteClient); + + Message = "Found gcc: " + GCCPath + "\n"; + return new GCC(GCCPath, RemoteClientPath, Args); }