#include "gen/llvm.h" #include "llvm/Linker.h" #include "llvm/ADT/Triple.h" #include "llvm/Support/FileSystem.h" #include "llvm/Support/Program.h" #if _WIN32 #include "llvm/Support/SystemUtils.h" #endif #include "root.h" #include "mars.h" #include "module.h" #define NO_COUT_LOGGER #include "gen/logger.h" #include "gen/optimizer.h" #include "gen/programs.h" #include "driver/linker.h" #include "driver/cl_options.h" ////////////////////////////////////////////////////////////////////////////// // Is this useful? llvm::cl::opt quiet("quiet", llvm::cl::desc("Suppress output of link command (unless -v is also passed)"), llvm::cl::Hidden, llvm::cl::ZeroOrMore, llvm::cl::init(true)); ////////////////////////////////////////////////////////////////////////////// bool endsWith(const std::string &str, const std::string &end) { return (str.length() >= end.length() && std::equal(end.rbegin(), end.rend(), str.rbegin())); } typedef std::vector Module_vector; void linkModules(llvm::Module* dst, const Module_vector& MV) { if (MV.empty()) return; llvm::Linker linker("ldc", dst); std::string err; for (Module_vector::const_iterator i=MV.begin(); i!=MV.end(); ++i) { if (!linker.LinkInModule(*i, &err)) { error("%s", err.c_str()); fatal(); } } } ////////////////////////////////////////////////////////////////////////////// int ExecuteToolAndWait(llvm::sys::Path tool, std::vector args, bool verbose = false) { // Construct real argument list. // First entry is the tool itself, last entry must be NULL. std::vector realargs; realargs.reserve(args.size() + 2); realargs.push_back(tool.c_str()); for (std::vector::const_iterator it = args.begin(); it != args.end(); ++it) { realargs.push_back((*it).c_str()); } realargs.push_back(NULL); // Print command line if requested if (verbose) { // Print it for (int i = 0; i < realargs.size()-1; i++) printf("%s ", realargs[i]); printf("\n"); fflush(stdout); } // Execute tool. std::string errstr; if (int status = llvm::sys::Program::ExecuteAndWait(tool, &realargs[0], NULL, NULL, 0, 0, &errstr)) { error("tool failed:\nstatus: %d", status); if (!errstr.empty()) error("message: %s", errstr.c_str()); return status; } return 0; } ////////////////////////////////////////////////////////////////////////////// static llvm::sys::Path gExePath; int linkObjToBinary(bool sharedLib) { Logger::println("*** Linking executable ***"); // error string std::string errstr; // find gcc for linking llvm::sys::Path gcc = getGcc(); // build arguments std::vector args; // object files for (unsigned i = 0; i < global.params.objfiles->dim; i++) { char *p = static_cast(global.params.objfiles->data[i]); args.push_back(p); } // user libs for (unsigned i = 0; i < global.params.libfiles->dim; i++) { char *p = static_cast(global.params.libfiles->data[i]); args.push_back(p); } // output filename std::string output; if (!sharedLib && global.params.exefile) { // explicit output = global.params.exefile; } else if (sharedLib && global.params.objname) { // explicit output = global.params.objname; } else { // inferred // try root module name if (Module::rootModule) output = Module::rootModule->toChars(); else if (global.params.objfiles->dim) output = FileName::removeExt(static_cast(global.params.objfiles->data[0])); else output = "a.out"; if (sharedLib) { std::string libExt = std::string(".") + global.dll_ext; if (!endsWith(output, libExt)) { if (global.params.os != OSWindows) output = "lib" + output + libExt; else output.append(libExt); } } else if (global.params.os == OSWindows && !endsWith(output, ".exe")) { output.append(".exe"); } } if (sharedLib) args.push_back("-shared"); args.push_back("-o"); args.push_back(output); // set the global gExePath gExePath.set(output); assert(gExePath.isValid()); // create path to exe llvm::sys::Path exedir(llvm::sys::path::parent_path(gExePath.str())); if (!exedir.empty() && !llvm::sys::fs::exists(exedir.str())) { exedir.createDirectoryOnDisk(true, &errstr); if (!errstr.empty()) { error("failed to create path to linking output: %s\n%s", exedir.c_str(), errstr.c_str()); fatal(); } } // additional linker switches for (unsigned i = 0; i < global.params.linkswitches->dim; i++) { char *p = static_cast(global.params.linkswitches->data[i]); args.push_back("-Xlinker"); args.push_back(p); } // default libs bool addSoname = false; switch(global.params.os) { case OSLinux: addSoname = true; args.push_back("-lrt"); // fallthrough case OSMacOSX: args.push_back("-ldl"); // fallthrough case OSFreeBSD: addSoname = true; args.push_back("-lpthread"); args.push_back("-lm"); break; case OSSolaris: args.push_back("-lm"); args.push_back("-lumem"); // solaris TODO break; case OSWindows: // FIXME: I'd assume kernel32 etc break; } //FIXME: enforce 64 bit if (global.params.is64bit) args.push_back("-m64"); else // Assume 32-bit? args.push_back("-m32"); if (opts::createSharedLib && addSoname) { std::string soname = opts::soname; if (!soname.empty()) { args.push_back("-Wl,-soname," + soname); } } Logger::println("Linking with: "); std::vector::const_iterator I = args.begin(), E = args.end(); Stream logstr = Logger::cout(); for (; I != E; ++I) if (!(*I).empty()) logstr << "'" << *I << "'" << " "; logstr << "\n"; // FIXME where's flush ? // try to call linker return ExecuteToolAndWait(gcc, args, !quiet || global.params.verbose); } ////////////////////////////////////////////////////////////////////////////// void createStaticLibrary() { Logger::println("*** Creating static library ***"); const bool isTargetWindows = llvm::Triple(global.params.targetTriple).isOSWindows(); // error string std::string errstr; // find archiver llvm::sys::Path tool = isTargetWindows ? getLib() : getArchiver(); // build arguments std::vector args; // ask ar to create a new library if (!isTargetWindows) args.push_back("rcs"); // ask lib to be quiet if (isTargetWindows) args.push_back("/NOLOGO"); // output filename std::string libName; if (global.params.objname) { // explicit libName = global.params.objname; } else { // inferred // try root module name if (Module::rootModule) libName = Module::rootModule->toChars(); else if (global.params.objfiles->dim) libName = FileName::removeExt(static_cast(global.params.objfiles->data[0])); else libName = "a.out"; } std::string libExt = std::string(".") + global.lib_ext; if (!endsWith(libName, libExt)) { if (!isTargetWindows) libName = "lib" + libName + libExt; else libName.append(libExt); } if (isTargetWindows) args.push_back("/OUT:" + libName); else args.push_back(libName); // object files for (unsigned i = 0; i < global.params.objfiles->dim; i++) { char *p = static_cast(global.params.objfiles->data[i]); args.push_back(p); } // create path to the library llvm::sys::Path libdir(llvm::sys::path::parent_path(libName)); if (!libdir.empty() && !llvm::sys::fs::exists(libdir.str())) { libdir.createDirectoryOnDisk(true, &errstr); if (!errstr.empty()) { error("failed to create path to linking output: %s\n%s", libdir.c_str(), errstr.c_str()); fatal(); } } // try to call archiver ExecuteToolAndWait(tool, args, !quiet || global.params.verbose); } ////////////////////////////////////////////////////////////////////////////// void deleteExecutable() { if (!gExePath.isEmpty()) { assert(gExePath.isValid()); bool is_directory; assert(!(!llvm::sys::fs::is_directory(gExePath.str(), is_directory) && is_directory)); gExePath.eraseFromDisk(false); } } ////////////////////////////////////////////////////////////////////////////// int runExecutable() { assert(!gExePath.isEmpty()); assert(gExePath.isValid()); // Run executable int status = ExecuteToolAndWait(gExePath, opts::runargs, !quiet || global.params.verbose); if (status < 0) { #if defined(_MSC_VER) error("program received signal %d", -status); #else error("program received signal %d (%s)", -status, strsignal(-status)); #endif return -status; } return status; }