// // mkbundle: tool to create bundles. // // Based on the `make-bundle' Perl script written by Paolo Molaro (lupus@debian.org) // // TODO: // [x] Rename the paths for the zip file that is downloaded // [x] Update documentation with new flag // [x] Load internationalized assemblies // [x] Dependencies - if System.dll -> include Mono.Security.* (not needed, automatic) // [x] --list-targets should download from a different url // [x] --fetch-target should unpack zip file // [x] Update --cross to use not a runtime, but an SDK // [x] Update --local-targets to show the downloaded SDKs // // Author: // Miguel de Icaza // // (C) Novell, Inc 2004 // (C) 2016 Xamarin Inc // // Missing features: // * Add support for packaging native libraries, extracting at runtime and setting the library path. // * Implement --list-targets lists all the available remote targets // using System; using System.Diagnostics; using System.Xml; using System.Collections.Generic; using System.IO; using System.IO.Compression; using System.Runtime.InteropServices; using System.Text; using IKVM.Reflection; using System.Linq; using System.Net; using System.Threading.Tasks; class MakeBundle { static string output = "a.out"; static string object_out = null; static List link_paths = new List (); static Dictionary libraries = new Dictionary (); static bool autodeps = false; static bool keeptemp = false; static bool compile_only = false; static bool static_link = false; static string config_file = null; static string machine_config_file = null; static string config_dir = null; static string style = "linux"; static bool bundled_header = false; static string os_message = ""; static bool compress; static bool nomain; static string custom_main = null; static bool? use_dos2unix = null; static bool skip_scan; static string ctor_func; static bool quiet = true; static string cross_target = null; static string fetch_target = null; static bool custom_mode = true; static string embedded_options = null; static string runtime = null; static string sdk_path = null; static string lib_path = null; static Dictionary environment = new Dictionary(); static string [] i18n = new string [] { "West", "" }; static string [] i18n_all = new string [] { "CJK", "MidEast", "Other", "Rare", "West", "" }; static string target_server = "https://download.mono-project.com/runtimes/raw/"; static int Main (string [] args) { List sources = new List (); int top = args.Length; link_paths.Add ("."); DetectOS (); for (int i = 0; i < top; i++){ switch (args [i]){ case "--help": case "-h": case "-?": Help (); return 1; case "--simple": custom_mode = false; autodeps = true; break; case "-v": quiet = false; break; case "--i18n": if (i+1 == top){ Help (); return 1; } var iarg = args [++i]; if (iarg == "all") i18n = i18n_all; else if (iarg == "none") i18n = new string [0]; else i18n = iarg.Split (','); break; case "--custom": custom_mode = true; break; case "-c": compile_only = true; break; case "--local-targets": CommandLocalTargets (); return 0; case "--cross": if (i+1 == top){ Help (); return 1; } if (sdk_path != null || runtime != null) Error ("You can only specify one of --runtime, --sdk or --cross"); custom_mode = false; autodeps = true; cross_target = args [++i]; break; case "--library": if (i+1 == top){ Help (); return 1; } if (custom_mode){ Console.Error.WriteLine ("--library can only be used with --simple/--runtime/--cross mode"); Help (); return 1; } var lspec = args [++i]; var p = lspec.IndexOf (","); string alias, path; if (p == -1){ alias = Path.GetFileName (lspec); path = lspec; } else { alias = lspec.Substring (0, p); path = lspec.Substring (p+1); } if (!File.Exists (path)) Error ($"The specified library file {path} does not exist"); libraries [alias] = path; break; case "--fetch-target": if (i+1 == top){ Help (); return 1; } fetch_target = args [++i]; break; case "--list-targets": CommandLocalTargets (); var wc = new WebClient (); var s = wc.DownloadString (new Uri (target_server + "target-sdks.txt")); Console.WriteLine ("Targets available for download with --fetch-target:\n" + s); return 0; case "--target-server": if (i+1 == top){ Help (); return 1; } target_server = args [++i]; break; case "-o": if (i+1 == top){ Help (); return 1; } output = args [++i]; break; case "--options": if (i+1 == top){ Help (); return 1; } embedded_options = args [++i]; break; case "--sdk": if (i + 1 == top) { Help (); return 1; } custom_mode = false; autodeps = true; sdk_path = args [++i]; if (cross_target != null || runtime != null) Error ("You can only specify one of --runtime, --sdk or --cross"); break; case "--runtime": if (i+1 == top){ Help (); return 1; } if (sdk_path != null || cross_target != null) Error ("You can only specify one of --runtime, --sdk or --cross"); custom_mode = false; autodeps = true; runtime = args [++i]; break; case "-oo": if (i+1 == top){ Help (); return 1; } object_out = args [++i]; break; case "-L": if (i+1 == top){ Help (); return 1; } link_paths.Add (args [++i]); break; case "--nodeps": autodeps = false; break; case "--deps": autodeps = true; break; case "--keeptemp": keeptemp = true; break; case "--static": static_link = true; break; case "--config": if (i+1 == top) { Help (); return 1; } config_file = args [++i]; break; case "--machine-config": if (i+1 == top) { Help (); return 1; } machine_config_file = args [++i]; if (!quiet) Console.WriteLine ("WARNING:\n Check that the machine.config file you are bundling\n doesn't contain sensitive information specific to this machine."); break; case "--config-dir": if (i+1 == top) { Help (); return 1; } config_dir = args [++i]; break; case "-z": compress = true; break; case "--nomain": nomain = true; break; case "--custom-main": if (i+1 == top) { Help (); return 1; } custom_main = args [++i]; break; case "--style": if (i+1 == top) { Help (); return 1; } style = args [++i]; switch (style) { case "windows": case "mac": case "linux": break; default: Error ("Invalid style '{0}' - only 'windows', 'mac' and 'linux' are supported for --style argument", style); return 1; } break; case "--skip-scan": skip_scan = true; break; case "--static-ctor": if (i+1 == top) { Help (); return 1; } ctor_func = args [++i]; break; case "--dos2unix": case "--dos2unix=true": use_dos2unix = true; break; case "--dos2unix=false": use_dos2unix = false; break; case "-q": case "--quiet": quiet = true; break; case "-e": case "--env": if (i+1 == top) { Help (); return 1; } var env = args [++i]; p = env.IndexOf ('='); if (p == -1) environment.Add (env, ""); else environment.Add (env.Substring (0, p), env.Substring (p+1)); break; case "--bundled-header": bundled_header = true; break; default: sources.Add (args [i]); break; } } // Modern bundling starts here if (!custom_mode){ if (runtime != null){ // Nothing to do here, the user has chosen to manually specify --runtime nad libraries } else if (sdk_path != null) { VerifySdk (sdk_path); } else if (cross_target == "default" || cross_target == null){ sdk_path = Path.GetFullPath (Path.Combine (Process.GetCurrentProcess().MainModule.FileName, "..", "..")); VerifySdk (sdk_path); } else { sdk_path = Path.Combine (targets_dir, cross_target); Console.WriteLine ("From: " + sdk_path); VerifySdk (sdk_path); } } if (fetch_target != null){ var directory = Path.Combine (targets_dir, fetch_target); var zip_download = Path.Combine (directory, "sdk.zip"); Directory.CreateDirectory (directory); var wc = new WebClient (); var uri = new Uri ($"{target_server}{fetch_target}"); try { if (!quiet){ Console.WriteLine ($"Downloading runtime {uri} to {zip_download}"); } wc.DownloadFile (uri, zip_download); ZipFile.ExtractToDirectory(zip_download, directory); File.Delete (zip_download); } catch { Console.Error.WriteLine ($"Failure to download the specified runtime from {uri}"); File.Delete (zip_download); return 1; } return 0; } if (!quiet) { Console.WriteLine (os_message); Console.WriteLine ("Sources: {0} Auto-dependencies: {1}", sources.Count, autodeps); } if (sources.Count == 0 || output == null) { Help (); Environment.Exit (1); } List assemblies = LoadAssemblies (sources); LoadLocalizedAssemblies (assemblies); List files = new List (); foreach (string file in assemblies) if (!QueueAssembly (files, file)) return 1; if (custom_mode) GenerateBundles (files); else GeneratePackage (files); Console.WriteLine ("Generated {0}", output); return 0; } static void VerifySdk (string path) { if (!Directory.Exists (path)) Error ($"The specified SDK path does not exist: {path}"); runtime = Path.Combine (sdk_path, "bin", "mono"); if (!File.Exists (runtime)) Error ($"The SDK location does not contain a {path}/bin/mono runtime"); lib_path = Path.Combine (path, "lib", "mono", "4.5"); if (!Directory.Exists (lib_path)) Error ($"The SDK location does not contain a {path}/lib/mono/4.5 directory"); link_paths.Add (lib_path); } static string targets_dir = Path.Combine (Environment.GetFolderPath (Environment.SpecialFolder.Personal), ".mono", "targets"); static void CommandLocalTargets () { string [] targets; Console.WriteLine ("Available targets locally:"); Console.WriteLine ("\tdefault\t- Current System Mono"); try { targets = Directory.GetDirectories (targets_dir); } catch { return; } foreach (var target in targets){ var p = Path.Combine (target, "bin", "mono"); if (File.Exists (p)) Console.WriteLine ("\t{0}", Path.GetFileName (target)); } } static void WriteSymbol (StreamWriter sw, string name, long size) { switch (style){ case "linux": sw.WriteLine ( ".globl {0}\n" + "\t.section .rodata\n" + "\t.p2align 5\n" + "\t.type {0}, \"object\"\n" + "\t.size {0}, {1}\n" + "{0}:\n", name, size); break; case "osx": sw.WriteLine ( "\t.section __TEXT,__text,regular,pure_instructions\n" + "\t.globl _{0}\n" + "\t.data\n" + "\t.align 4\n" + "_{0}:\n", name, size); break; case "windows": string mangled_symbol_name = ""; if (Target64BitApplication()) mangled_symbol_name = name; else mangled_symbol_name = "_" + name; sw.WriteLine ( ".globl {0}\n" + "\t.section .rdata,\"dr\"\n" + "\t.align 32\n" + "{0}:\n", mangled_symbol_name); break; } } static string [] chars = new string [256]; static void WriteBuffer (StreamWriter ts, Stream stream, byte[] buffer) { int n; // Preallocate the strings we need. if (chars [0] == null) { for (int i = 0; i < chars.Length; i++) chars [i] = string.Format ("{0}", i.ToString ()); } while ((n = stream.Read (buffer, 0, buffer.Length)) != 0) { int count = 0; for (int i = 0; i < n; i++) { if (count % 32 == 0) { ts.Write ("\n\t.byte "); } else { ts.Write (","); } ts.Write (chars [buffer [i]]); count ++; } } ts.WriteLine (); } class PackageMaker { Dictionary> locations = new Dictionary> (); const int align = 4096; Stream package; public PackageMaker (string output) { package = File.Create (output, 128*1024); if (IsUnix){ File.SetAttributes (output, unchecked ((FileAttributes) 0x80000000)); } } public int AddFile (string fname) { using (Stream fileStream = File.OpenRead (fname)){ var ret = fileStream.Length; if (!quiet) Console.WriteLine ("At {0:x} with input {1}", package.Position, fileStream.Length); fileStream.CopyTo (package); package.Position = package.Position + (align - (package.Position % align)); return (int) ret; } } public void Add (string entry, string fname) { var p = package.Position; var size = AddFile (fname); locations [entry] = Tuple.Create(p, size); } public void AddString (string entry, string text) { var bytes = Encoding.UTF8.GetBytes (text); locations [entry] = Tuple.Create (package.Position, bytes.Length); package.Write (bytes, 0, bytes.Length); package.Position = package.Position + (align - (package.Position % align)); } public void AddStringPair (string entry, string key, string value) { var kbytes = Encoding.UTF8.GetBytes (key); var vbytes = Encoding.UTF8.GetBytes (value); Console.WriteLine ("ADDING {0} to {1}", key, value); if (kbytes.Length > 255){ Console.WriteLine ("The key value can not exceed 255 characters: " + key); Environment.Exit (1); } locations [entry] = Tuple.Create (package.Position, kbytes.Length+vbytes.Length+3); package.WriteByte ((byte)kbytes.Length); package.Write (kbytes, 0, kbytes.Length); package.WriteByte (0); package.Write (vbytes, 0, vbytes.Length); package.WriteByte (0); package.Position = package.Position + (align - (package.Position % align)); } public void Dump () { if (quiet) return; foreach (var floc in locations.Keys){ Console.WriteLine ($"{floc} at {locations[floc]:x}"); } } public void WriteIndex () { var indexStart = package.Position; var binary = new BinaryWriter (package); binary.Write (locations.Count); foreach (var entry in from entry in locations orderby entry.Value.Item1 ascending select entry){ var bytes = Encoding.UTF8.GetBytes (entry.Key); binary.Write (bytes.Length+1); binary.Write (bytes); binary.Write ((byte) 0); binary.Write (entry.Value.Item1); binary.Write (entry.Value.Item2); } binary.Write (indexStart); binary.Write (Encoding.UTF8.GetBytes ("xmonkeysloveplay")); binary.Flush (); } public void Close () { WriteIndex (); package.Close (); package = null; } } static bool MaybeAddFile (PackageMaker maker, string code, string file) { if (file == null) return true; if (!File.Exists (file)){ Error ("The file {0} does not exist", file); return false; } maker.Add (code, file); // add a space after code (="systemconfig:" or "machineconfig:") Console.WriteLine (code + " " + file); return true; } static bool GeneratePackage (List files) { if (runtime == null){ if (IsUnix) runtime = Process.GetCurrentProcess().MainModule.FileName; else { Error ("You must specify at least one runtime with --runtime or --cross"); Environment.Exit (1); } } if (!File.Exists (runtime)){ Error ($"The specified runtime at {runtime} does not exist"); Environment.Exit (1); } if (ctor_func != null){ Error ("--static-ctor not supported with package bundling, you must use native compilation for this"); return false; } var maker = new PackageMaker (output); Console.WriteLine ("Using runtime: " + runtime); maker.AddFile (runtime); foreach (var url in files){ string fname = LocateFile (new Uri (url).LocalPath); string aname = MakeBundle.GetAssemblyName (fname); maker.Add ("assembly:" + aname, fname); Console.WriteLine (" Assembly: " + fname); if (File.Exists (fname + ".config")){ maker.Add ("config:" + aname, fname + ".config"); Console.WriteLine (" Config: " + fname + ".config"); } } if (!MaybeAddFile (maker, "systemconfig:", config_file) || !MaybeAddFile (maker, "machineconfig:", machine_config_file)) return false; if (config_dir != null){ maker.Add ("config_dir:", config_dir); Console.WriteLine (" Config_dir: " + config_dir ); } if (embedded_options != null) maker.AddString ("options:", embedded_options); if (environment.Count > 0){ foreach (var key in environment.Keys) maker.AddStringPair ("env:" + key, key, environment [key]); } if (libraries.Count > 0){ foreach (var alias_and_path in libraries){ Console.WriteLine (" Library: " + alias_and_path.Value); maker.Add ("library:" + alias_and_path.Key, alias_and_path.Value); } } maker.Dump (); maker.Close (); return true; } static void GenerateBundles (List files) { string temp_s = "temp.s"; // Path.GetTempFileName (); string temp_c = "temp.c"; string temp_o = (style != "windows") ? "temp.o" : "temp.s.obj"; if (compile_only) temp_c = output; if (object_out != null) temp_o = object_out; try { List c_bundle_names = new List (); List config_names = new List (); using (StreamWriter ts = new StreamWriter (File.Create (temp_s))) { using (StreamWriter tc = new StreamWriter (File.Create (temp_c))) { string prog = null; if (bundled_header) { tc.WriteLine ("/* This source code was produced by mkbundle, do not edit */"); tc.WriteLine ("\n#ifndef NULL\n#define NULL (void *)0\n#endif"); tc.WriteLine (@" typedef struct { const char *name; const unsigned char *data; const unsigned int size; } MonoBundledAssembly; void mono_register_bundled_assemblies (const MonoBundledAssembly **assemblies); void mono_register_config_for_assembly (const char* assembly_name, const char* config_xml); "); } else { tc.WriteLine ("#include "); tc.WriteLine ("#include \n"); } if (compress) { tc.WriteLine ("typedef struct _compressed_data {"); tc.WriteLine ("\tMonoBundledAssembly assembly;"); tc.WriteLine ("\tint compressed_size;"); tc.WriteLine ("} CompressedAssembly;\n"); } object monitor = new object (); var streams = new Dictionary (); var sizes = new Dictionary (); // Do the file reading and compression in parallel Action body = delegate (string url) { string fname = LocateFile (new Uri (url).LocalPath); Stream stream = File.OpenRead (fname); long real_size = stream.Length; int n; if (compress) { byte[] cbuffer = new byte [8192]; MemoryStream ms = new MemoryStream (); GZipStream deflate = new GZipStream (ms, CompressionMode.Compress, leaveOpen:true); while ((n = stream.Read (cbuffer, 0, cbuffer.Length)) != 0){ deflate.Write (cbuffer, 0, n); } stream.Close (); deflate.Close (); byte [] bytes = ms.GetBuffer (); stream = new MemoryStream (bytes, 0, (int) ms.Length, false, false); } lock (monitor) { streams [url] = stream; sizes [url] = real_size; } }; //#if NET_4_5 #if FALSE Parallel.ForEach (files, body); #else foreach (var url in files) body (url); #endif // The non-parallel part byte [] buffer = new byte [8192]; // everything other than a-zA-Z0-9_ needs to be escaped in asm symbols. var symbolEscapeRE = new System.Text.RegularExpressions.Regex ("[^\\w_]"); foreach (var url in files) { string fname = LocateFile (new Uri (url).LocalPath); string aname = MakeBundle.GetAssemblyName (fname); string encoded = symbolEscapeRE.Replace (aname, "_"); if (prog == null) prog = aname; var stream = streams [url]; var real_size = sizes [url]; if (!quiet) Console.WriteLine (" embedding: " + fname); WriteSymbol (ts, "assembly_data_" + encoded, stream.Length); WriteBuffer (ts, stream, buffer); if (compress) { tc.WriteLine ("extern const unsigned char assembly_data_{0} [];", encoded); tc.WriteLine ("static CompressedAssembly assembly_bundle_{0} = {{{{\"{1}\"," + " assembly_data_{0}, {2}}}, {3}}};", encoded, aname, real_size, stream.Length); if (!quiet) { double ratio = ((double) stream.Length * 100) / real_size; Console.WriteLine (" compression ratio: {0:.00}%", ratio); } } else { tc.WriteLine ("extern const unsigned char assembly_data_{0} [];", encoded); tc.WriteLine ("static const MonoBundledAssembly assembly_bundle_{0} = {{\"{1}\", assembly_data_{0}, {2}}};", encoded, aname, real_size); } stream.Close (); c_bundle_names.Add ("assembly_bundle_" + encoded); try { FileStream cf = File.OpenRead (fname + ".config"); if (!quiet) Console.WriteLine (" config from: " + fname + ".config"); tc.WriteLine ("extern const unsigned char assembly_config_{0} [];", encoded); WriteSymbol (ts, "assembly_config_" + encoded, cf.Length); WriteBuffer (ts, cf, buffer); ts.WriteLine (); config_names.Add (new string[] {aname, encoded}); } catch (FileNotFoundException) { /* we ignore if the config file doesn't exist */ } } if (config_file != null){ FileStream conf; try { conf = File.OpenRead (config_file); } catch { Error ("Failure to open {0}", config_file); return; } if (!quiet) Console.WriteLine ("System config from: " + config_file); tc.WriteLine ("extern const char system_config;"); WriteSymbol (ts, "system_config", config_file.Length); WriteBuffer (ts, conf, buffer); // null terminator ts.Write ("\t.byte 0\n"); ts.WriteLine (); } if (machine_config_file != null){ FileStream conf; try { conf = File.OpenRead (machine_config_file); } catch { Error ("Failure to open {0}", machine_config_file); return; } if (!quiet) Console.WriteLine ("Machine config from: " + machine_config_file); tc.WriteLine ("extern const char machine_config;"); WriteSymbol (ts, "machine_config", machine_config_file.Length); WriteBuffer (ts, conf, buffer); ts.Write ("\t.byte 0\n"); ts.WriteLine (); } ts.Close (); if (compress) tc.WriteLine ("\nstatic const CompressedAssembly *compressed [] = {"); else tc.WriteLine ("\nstatic const MonoBundledAssembly *bundled [] = {"); foreach (string c in c_bundle_names){ tc.WriteLine ("\t&{0},", c); } tc.WriteLine ("\tNULL\n};\n"); tc.WriteLine ("static char *image_name = \"{0}\";", prog); if (ctor_func != null) { tc.WriteLine ("\nextern void {0} (void);", ctor_func); tc.WriteLine ("\n__attribute__ ((constructor)) static void mono_mkbundle_ctor (void)"); tc.WriteLine ("{{\n\t{0} ();\n}}", ctor_func); } tc.WriteLine ("\nstatic void install_dll_config_files (void) {\n"); foreach (string[] ass in config_names){ tc.WriteLine ("\tmono_register_config_for_assembly (\"{0}\", assembly_config_{1});\n", ass [0], ass [1]); } if (config_file != null) tc.WriteLine ("\tmono_config_parse_memory (&system_config);\n"); if (machine_config_file != null) tc.WriteLine ("\tmono_register_machine_config (&machine_config);\n"); tc.WriteLine ("}\n"); if (config_dir != null) tc.WriteLine ("static const char *config_dir = \"{0}\";", config_dir); else tc.WriteLine ("static const char *config_dir = NULL;"); Stream template_stream; if (compress) { template_stream = System.Reflection.Assembly.GetAssembly (typeof(MakeBundle)).GetManifestResourceStream ("template_z.c"); } else { template_stream = System.Reflection.Assembly.GetAssembly (typeof(MakeBundle)).GetManifestResourceStream ("template.c"); } StreamReader s = new StreamReader (template_stream); string template = s.ReadToEnd (); tc.Write (template); if (!nomain && custom_main == null) { Stream template_main_stream = System.Reflection.Assembly.GetAssembly (typeof(MakeBundle)).GetManifestResourceStream ("template_main.c"); StreamReader st = new StreamReader (template_main_stream); string maintemplate = st.ReadToEnd (); tc.Write (maintemplate); } tc.Close (); string as_cmd = GetAssemblerCommand (temp_s, temp_o); Execute(as_cmd); if (compile_only) return; if (!quiet) Console.WriteLine("Compiling:"); if (style == "windows") { ToolchainProgram compiler = GetCCompiler (); if (compiler != null && compiler.ParentSDK != null) { if (compiler.IsVSToolChain && VisualStudioSDKHelper.GetInstance ().IsVisualStudio12 (compiler.ParentSDK) && static_link) Console.WriteLine ( @"Warning: Static linking the Mono runtime on Windows using VC " + @"12.0, won't support static Mono runtime library distributed in Mono SDK since it has " + @"been build using different C-runtime version. If build results in " + @"link errors related to C-runtime functions, please rebuild mono runtime distribution " + @"using targeted VC compiler and linker and rerun using MONOPREFIX."); } bool staticLinkCRuntime = GetEnv ("VCCRT", "MD") != "MD"; if (!nomain || custom_main != null) { string cl_cmd = GetCompileAndLinkCommand (compiler, temp_c, temp_o, custom_main, static_link, staticLinkCRuntime, output); Execute (cl_cmd); } else { string temp_c_o = ""; try { string cl_cmd = GetLibrarianCompilerCommand (compiler, temp_c, static_link, staticLinkCRuntime, out temp_c_o); Execute(cl_cmd); ToolchainProgram librarian = GetLibrarian (); string lib_cmd = GetLibrarianLinkerCommand (librarian, new string[] { temp_o, temp_c_o }, static_link, staticLinkCRuntime, output); Execute (lib_cmd); } finally { File.Delete (temp_c_o); } } } else { string zlib = (compress ? "-lz" : ""); string objc = (style == "osx" ? "-framework CoreFoundation -lobjc" : ""); string debugging = "-g"; string cc = GetEnv("CC", "cc"); string cmd = null; if (style == "linux") debugging = "-ggdb"; if (static_link) { string smonolib; if (style == "osx") smonolib = "`pkg-config --variable=libdir mono-2`/libmono-2.0.a "; else smonolib = "-Wl,-Bstatic -lmono-2.0 -Wl,-Bdynamic "; cmd = String.Format("{4} -o '{2}' -Wall {5} `pkg-config --cflags mono-2` {0} {3} " + "`pkg-config --libs-only-L mono-2` " + smonolib + "`pkg-config --libs-only-l mono-2 | sed -e \"s/\\-lmono-2.0 //\"` {1}", temp_c, temp_o, output, zlib, cc, objc); } else { cmd = String.Format("{4} " + debugging + " -o '{2}' -Wall {5} {0} `pkg-config --cflags --libs mono-2` {3} {1}", temp_c, temp_o, output, zlib, cc, objc); } Execute (cmd); } if (!quiet) Console.WriteLine ("Done"); } } } finally { if (!keeptemp){ if (object_out == null){ File.Delete (temp_o); } if (!compile_only){ File.Delete (temp_c); } File.Delete (temp_s); } } } static List LoadAssemblies (List sources) { List assemblies = new List (); bool error = false; foreach (string name in sources){ try { Assembly a = LoadAssemblyFile (name); if (a == null){ error = true; continue; } assemblies.Add (a.CodeBase); } catch (Exception) { if (skip_scan) { if (!quiet) Console.WriteLine ("File will not be scanned: {0}", name); assemblies.Add (new Uri (new FileInfo (name).FullName).ToString ()); } else { throw; } } } if (error) { Error ("Couldn't load one or more of the assemblies."); Environment.Exit (1); } return assemblies; } static void LoadLocalizedAssemblies (List assemblies) { var other = i18n.Select (x => "I18N." + x + (x.Length > 0 ? "." : "") + "dll"); string error = null; foreach (string name in other) { try { Assembly a = LoadAssembly (name); if (a == null) { error = "Failed to load " + name; continue; } assemblies.Add (a.CodeBase); } catch (Exception) { if (skip_scan) { if (!quiet) Console.WriteLine ("File will not be scanned: {0}", name); assemblies.Add (new Uri (new FileInfo (name).FullName).ToString ()); } else { throw; } } } if (error != null) { Console.Error.WriteLine ("Failure to load i18n assemblies, the following directories were searched for the assemblies:"); foreach (var path in link_paths){ Console.Error.WriteLine (" Path: " + path); } if (custom_mode){ Console.WriteLine ("In Custom mode, you need to provide the directory to lookup assemblies from using -L"); } Error ("Couldn't load one or more of the i18n assemblies: " + error); Environment.Exit (1); } } static readonly Universe universe = new Universe (); static readonly Dictionary loaded_assemblies = new Dictionary (); public static string GetAssemblyName (string path) { string resourcePathSeparator = style == "windows" ? "\\\\" : "/"; string name = Path.GetFileName (path); // A bit of a hack to support satellite assemblies. They all share the same name but // are placed in subdirectories named after the locale they implement. Also, all of // them end in .resources.dll, therefore we can use that to detect the circumstances. if (name.EndsWith (".resources.dll", StringComparison.OrdinalIgnoreCase)) { string dir = Path.GetDirectoryName (path); int idx = dir.LastIndexOf (Path.DirectorySeparatorChar); if (idx >= 0) { name = dir.Substring (idx + 1) + resourcePathSeparator + name; Console.WriteLine ($"Storing satellite assembly '{path}' with name '{name}'"); } else if (!quiet) Console.WriteLine ($"Warning: satellite assembly {path} doesn't have locale path prefix, name conflicts possible"); } return name; } static bool QueueAssembly (List files, string codebase) { //Console.WriteLine ("CODE BASE IS {0}", codebase); if (files.Contains (codebase)) return true; var path = new Uri(codebase).LocalPath; var name = GetAssemblyName (path); string found; if (loaded_assemblies.TryGetValue (name, out found)) { Error ("Duplicate assembly name `{0}'. Both `{1}' and `{2}' use same assembly name.", name, path, found); return false; } loaded_assemblies.Add (name, path); files.Add (codebase); if (!autodeps) return true; try { Assembly a = universe.LoadFile (path); if (a == null) { Error ("Unable to to load assembly `{0}'", path); return false; } foreach (AssemblyName an in a.GetReferencedAssemblies ()) { a = LoadAssembly (an.Name); if (a == null) { Error ("Unable to load assembly `{0}' referenced by `{1}'", an.Name, path); return false; } if (!QueueAssembly (files, a.CodeBase)) return false; } } catch (Exception) { if (!skip_scan) throw; } return true; } // // Loads an assembly from a specific path // static Assembly LoadAssemblyFile (string assembly) { Assembly a = null; try { if (!quiet) Console.WriteLine ("Attempting to load assembly: {0}", assembly); a = universe.LoadFile (assembly); if (!quiet) Console.WriteLine ("Assembly {0} loaded successfully.", assembly); } catch (FileNotFoundException){ Error ($"Cannot find assembly `{assembly}'"); } catch (IKVM.Reflection.BadImageFormatException f) { if (skip_scan) throw; Error ($"Cannot load assembly (bad file format) " + f.Message); } catch (FileLoadException f){ Error ($"Cannot load assembly " + f.Message); } catch (ArgumentNullException){ Error( $"Cannot load assembly (null argument)"); } return a; } // // Loads an assembly from any of the link directories provided // static Assembly LoadAssembly (string assembly) { string total_log = ""; foreach (string dir in link_paths){ string full_path = Path.Combine (dir, assembly); if (!quiet) Console.WriteLine ("Attempting to load assembly from: " + full_path); if (!assembly.EndsWith (".dll") && !assembly.EndsWith (".exe")) full_path += ".dll"; try { var a = universe.LoadFile (full_path); return a; } catch (FileNotFoundException ff) { total_log += ff.FusionLog; continue; } } if (!quiet) Console.WriteLine ("Log: \n" + total_log); return null; } static void Error (string msg, params object [] args) { Console.Error.WriteLine ("ERROR: {0}", string.Format (msg, args)); Environment.Exit (1); } static void Help () { Console.WriteLine ("Usage is: mkbundle [options] assembly1 [assembly2...]\n\n" + "Options:\n" + " --config F Bundle system config file `F'\n" + " --config-dir D Set MONO_CFG_DIR to `D'\n" + " --deps Turns on automatic dependency embedding (default on simple)\n" + " -L path Adds `path' to the search path for assemblies\n" + " --machine-config F Use the given file as the machine.config for the application.\n" + " -o out Specifies output filename\n" + " --nodeps Turns off automatic dependency embedding (default on custom)\n" + " --skip-scan Skip scanning assemblies that could not be loaded (but still embed them).\n" + " --i18n ENCODING none, all or comma separated list of CJK, MidWest, Other, Rare, West.\n" + " -v Verbose output\n" + " --bundled-header Do not attempt to include 'mono-config.h'. Define the entry points directly in the generated code\n" + "\n" + "--simple Simple mode does not require a C toolchain and can cross compile\n" + " --cross TARGET Generates a binary for the given TARGET\n"+ " --env KEY=VALUE Hardcodes an environment variable for the target\n" + " --fetch-target NAME Downloads the target SDK from the remote server\n" + " --library [LIB,]PATH Bundles the specified dynamic library to be used at runtime\n" + " LIB is optional shortname for file located at PATH\n" + " --list-targets Lists available targets on the remote server\n" + " --local-targets Lists locally available targets\n" + " --options OPTIONS Embed the specified Mono command line options on target\n" + " --runtime RUNTIME Manually specifies the Mono runtime to use\n" + " --sdk PATH Use a Mono SDK root location instead of a target\n" + " --target-server URL Specified a server to download targets from, default is " + target_server + "\n" + "\n" + "--custom Builds a custom launcher, options for --custom\n" + " -c Produce stub only, do not compile\n" + " -oo obj Specifies output filename for helper object file\n" + " --dos2unix[=true|false]\n" + " When no value provided, or when `true` specified\n" + " `dos2unix` will be invoked to convert paths on Windows.\n" + " When `--dos2unix=false` used, dos2unix is NEVER used.\n" + " --keeptemp Keeps the temporary files\n" + " --static Statically link to mono libs\n" + " --nomain Don't include a main() function, for libraries\n" + " --custom-main C Link the specified compilation unit (.c or .obj) with entry point/init code\n" + " -z Compress the assemblies before embedding.\n" + " --static-ctor ctor Add a constructor call to the supplied function.\n" + " You need zlib development headers and libraries.\n"); } [DllImport ("libc")] static extern int system (string s); [DllImport ("libc")] static extern int uname (IntPtr buf); static void DetectOS () { if (!IsUnix) { os_message = "OS is: Windows"; style = "windows"; return; } IntPtr buf = Marshal.AllocHGlobal (8192); if (uname (buf) != 0){ os_message = "Warning: Unable to detect OS"; Marshal.FreeHGlobal (buf); return; } string os = Marshal.PtrToStringAnsi (buf); os_message = "OS is: " + os; if (os == "Darwin") style = "osx"; Marshal.FreeHGlobal (buf); } static bool IsUnix { get { int p = (int) Environment.OSVersion.Platform; return ((p == 4) || (p == 128) || (p == 6)); } } static void Execute (string cmdLine) { if (IsUnix) { if (!quiet) Console.WriteLine ("[execute cmd]: " + cmdLine); int ret = system (cmdLine); if (ret != 0) { Error(String.Format("[Fail] {0}", ret)); } return; } // on Windows, we have to pipe the output of a // `cmd` interpolation to dos2unix, because the shell does not // strip the CRLFs generated by the native pkg-config distributed // with Mono. // // But if it's *not* on cygwin, just skip it. // check if dos2unix is applicable. if (use_dos2unix == true) try { var info = new ProcessStartInfo ("dos2unix"); info.CreateNoWindow = true; info.RedirectStandardInput = true; info.UseShellExecute = false; var dos2unix = Process.Start (info); dos2unix.StandardInput.WriteLine ("aaa"); dos2unix.StandardInput.WriteLine ("\u0004"); dos2unix.StandardInput.Close (); dos2unix.WaitForExit (); if (dos2unix.ExitCode == 0) use_dos2unix = true; } catch { Console.WriteLine("Warning: dos2unix not found"); use_dos2unix = false; } if (use_dos2unix == null) use_dos2unix = false; ProcessStartInfo psi = new ProcessStartInfo(); psi.UseShellExecute = false; // if there is no dos2unix, just run cmd /c. if (use_dos2unix == false) { psi.FileName = "cmd"; psi.Arguments = String.Format("/c \"{0}\"", cmdLine); } else { psi.FileName = "sh"; StringBuilder b = new StringBuilder(); int count = 0; for (int i = 0; i < cmdLine.Length; i++) { if (cmdLine[i] == '`') { if (count % 2 != 0) { b.Append("|dos2unix"); } count++; } b.Append(cmdLine[i]); } cmdLine = b.ToString(); psi.Arguments = String.Format("-c \"{0}\"", cmdLine); } if (!quiet) Console.WriteLine(cmdLine); using (Process p = Process.Start (psi)) { p.WaitForExit (); int ret = p.ExitCode; if (ret != 0){ Error ("[Fail] {0}", ret); } } } static string GetEnv(string name, string defaultValue) { string val = Environment.GetEnvironmentVariable(name); if (val != null) { if (!quiet) Console.WriteLine("{0} = {1}", name, val); } else { val = defaultValue; if (!quiet) Console.WriteLine("{0} = {1} (default)", name, val); } return val; } static string LocateFile(string default_path) { var override_path = Path.Combine(Directory.GetCurrentDirectory(), Path.GetFileName(default_path)); if (File.Exists(override_path)) return override_path; else if (File.Exists(default_path)) return default_path; else throw new FileNotFoundException(default_path); } static string GetAssemblerCommand (string sourceFile, string objectFile) { if (style == "windows") { string additionalArguments = ""; var assembler = GetAssemblerCompiler (); if (assembler.Name.Contains ("clang.exe")) //Clang uses additional arguments. additionalArguments = "-c -x assembler"; return String.Format ("\"{0}\" {1} -o {2} {3} ", assembler.Path, additionalArguments, objectFile, sourceFile); } else { return String.Format ("{0} -o {1} {2} ", GetEnv ("AS", "as"), objectFile, sourceFile); } } #region WindowsToolchainSupport class StringVersionComparer : IComparer { public int Compare (string stringA, string stringB) { Version versionA; Version versionB; var versionAMatch = System.Text.RegularExpressions.Regex.Match (stringA, @"\d+(\.\d +) + "); if (versionAMatch.Success) stringA = versionAMatch.ToString (); var versionBMatch = System.Text.RegularExpressions.Regex.Match (stringB, @"\d+(\.\d+)+"); if (versionBMatch.Success) stringB = versionBMatch.ToString (); if (Version.TryParse (stringA, out versionA) && Version.TryParse (stringB, out versionB)) return versionA.CompareTo (versionB); return string.Compare (stringA, stringB, StringComparison.OrdinalIgnoreCase); } } class InstalledSDKInfo { public InstalledSDKInfo (string name, string version, string installationFolder) { this.Name = name; this.Version = Version.Parse (version); this.InstallationFolder = installationFolder; this.IsSubVersion = false; this.AdditionalSDKs = new List (); } public InstalledSDKInfo (string name, string version, string installationFolder, bool isSubVersion) : this (name, version, installationFolder) { this.IsSubVersion = isSubVersion; } public InstalledSDKInfo (string name, string version, string installationFolder, bool isSubVersion, InstalledSDKInfo parentSDK) : this (name, version, installationFolder, isSubVersion) { this.ParentSDK = parentSDK; } public string Name { get; set; } public Version Version { get; set; } public string InstallationFolder { get; set; } public bool IsSubVersion { get; set; } public List AdditionalSDKs { get; } public InstalledSDKInfo ParentSDK { get; set; } } class ToolchainProgram { public ToolchainProgram (string name, string path) { this.Name = name; this.Path = path; } public ToolchainProgram (string name, string path, InstalledSDKInfo parentSDK) : this (name, path) { this.ParentSDK = parentSDK; } public Func QuoteArg = arg => "\"" + arg + "\""; public string Name { get; set; } public string Path { get; set; } public InstalledSDKInfo ParentSDK { get; set; } public bool IsVSToolChain { get { return (Name.Contains ("cl.exe") || Name.Contains ("lib.exe")); } } public bool IsGCCToolChain { get { return !IsVSToolChain; } } } class SDKHelper { protected Microsoft.Win32.RegistryKey GetToolchainRegistrySubKey (string subKey) { Microsoft.Win32.RegistryKey key = null; if (Environment.Is64BitProcess) { key = Microsoft.Win32.Registry.LocalMachine.OpenSubKey (@"SOFTWARE\Wow6432Node" + subKey) ?? Microsoft.Win32.Registry.CurrentUser.OpenSubKey (@"SOFTWARE\Wow6432Node" + subKey); } if (key == null) { key = Microsoft.Win32.Registry.LocalMachine.OpenSubKey (@"SOFTWARE" + subKey) ?? Microsoft.Win32.Registry.CurrentUser.OpenSubKey (@"SOFTWARE" + subKey); } return key; } } class WindowsSDKHelper : SDKHelper { List installedWindowsSDKs; List installedCRuntimeSDKs; InstalledSDKInfo installedWindowsSDK; InstalledSDKInfo installedCRuntimeSDK; static WindowsSDKHelper singletonInstance = new WindowsSDKHelper (); static public WindowsSDKHelper GetInstance () { return singletonInstance; } Dictionary GetInstalledWindowsKitRootFolders () { var rootFolders = new Dictionary (); using (var subKey = GetToolchainRegistrySubKey (@"\Microsoft\Microsoft SDKs\Windows\")) { if (subKey != null) { foreach (var keyName in subKey.GetSubKeyNames ()) { var keyNameIsVersion = System.Text.RegularExpressions.Regex.Match (keyName, @"\d+(\.\d+)+"); if (keyNameIsVersion.Success) { var installFolder = (string)Microsoft.Win32.Registry.GetValue (subKey.ToString () + @"\" + keyName, "InstallationFolder", ""); if (!rootFolders.ContainsKey (installFolder)) rootFolders.Add (installFolder, keyNameIsVersion.ToString ()); } } } } using (var subKey = GetToolchainRegistrySubKey (@"\Microsoft\Windows Kits\Installed Roots")) { if (subKey != null) { foreach (var valueName in subKey.GetValueNames ()) { var valueNameIsKitsRoot = System.Text.RegularExpressions.Regex.Match (valueName, @"KitsRoot\d*"); if (valueNameIsKitsRoot.Success) { var installFolder = (string)Microsoft.Win32.Registry.GetValue (subKey.ToString (), valueName, ""); if (!rootFolders.ContainsKey (installFolder)) { var valueNameIsVersion = System.Text.RegularExpressions.Regex.Match (valueName, @"\d+(\.*\d+)+"); if (valueNameIsVersion.Success) rootFolders.Add (installFolder, valueNameIsVersion.ToString ()); else rootFolders.Add (installFolder, ""); } } } } } return rootFolders; } void InitializeInstalledWindowsKits () { if (installedWindowsSDKs == null && installedCRuntimeSDKs == null) { List windowsSDKs = new List (); List cRuntimeSDKs = new List (); var rootFolders = GetInstalledWindowsKitRootFolders (); foreach (var winKitRoot in rootFolders) { // Try to locate Windows and CRuntime SDKs. string winKitRootDir = winKitRoot.Key; string winKitRootVersion = winKitRoot.Value; string winKitIncludeDir = Path.Combine (winKitRootDir, "include"); //Search for installed SDK versions. if (Directory.Exists (winKitIncludeDir)) { var winKitIncludeDirInfo = new DirectoryInfo (winKitIncludeDir); var versions = winKitIncludeDirInfo.GetDirectories ( "*.*", SearchOption.TopDirectoryOnly).OrderByDescending (p => p.Name, new StringVersionComparer ()); foreach (var version in versions) { string versionedWindowsSDKHeaderPath = Path.Combine (version.FullName, "um", "windows.h"); string versionedCRuntimeSDKHeaderPath = Path.Combine (version.FullName, "ucrt", "stdlib.h"); var hasSubVersion = System.Text.RegularExpressions.Regex.Match (version.Name, @"\d+(\.\d+)+"); if (hasSubVersion.Success) { if (File.Exists (versionedWindowsSDKHeaderPath)) //Found a specific Windows SDK sub version. windowsSDKs.Add (new InstalledSDKInfo ("WindowsSDK", hasSubVersion.ToString (), winKitRootDir, true)); if (File.Exists (versionedCRuntimeSDKHeaderPath)) //Found a specific CRuntime SDK sub version. cRuntimeSDKs.Add (new InstalledSDKInfo ("CRuntimeSDK", hasSubVersion.ToString (), winKitRootDir, true)); } } } // Try to find SDK without specific sub version. string windowsSDKHeaderPath = Path.Combine (winKitIncludeDir, "um", "windows.h"); if (File.Exists (windowsSDKHeaderPath)) //Found a Windows SDK version. windowsSDKs.Add (new InstalledSDKInfo ("WindowsSDK", winKitRootVersion, winKitRootDir, false)); string cRuntimeSDKHeaderPath = Path.Combine (winKitIncludeDir, "ucrt", "stdlib.h"); if (File.Exists (cRuntimeSDKHeaderPath)) //Found a CRuntime SDK version. cRuntimeSDKs.Add (new InstalledSDKInfo ("CRuntimeSDK", winKitRootVersion, winKitRootDir, false)); } // Sort based on version. windowsSDKs = windowsSDKs.OrderByDescending (p => p.Version.ToString (), new StringVersionComparer ()).ToList (); cRuntimeSDKs = cRuntimeSDKs.OrderByDescending (p => p.Version.ToString (), new StringVersionComparer ()).ToList (); installedWindowsSDKs = windowsSDKs; installedCRuntimeSDKs = cRuntimeSDKs; if (!quiet && installedWindowsSDKs != null) { Console.WriteLine ("--- Windows SDK's ---"); foreach (var windowsSDK in installedWindowsSDKs) { Console.WriteLine ("Path: " + windowsSDK.InstallationFolder); Console.WriteLine ("Version: " + windowsSDK.Version); } Console.WriteLine ("---------------"); } if (!quiet && installedCRuntimeSDKs != null) { Console.WriteLine ("--- C-Runtime SDK's ---"); foreach (var cRuntimeSDK in installedCRuntimeSDKs) { Console.WriteLine ("Path: " + cRuntimeSDK.InstallationFolder); Console.WriteLine ("Version: " + cRuntimeSDK.Version); if (cRuntimeSDK.ParentSDK != null) { Console.WriteLine ("Parent SDK Path: " + cRuntimeSDK.ParentSDK.InstallationFolder); Console.WriteLine ("Parent SDK Version: " + cRuntimeSDK.ParentSDK.Version); } } Console.WriteLine ("---------------"); } } return; } List GetInstalledWindowsSDKs () { if (installedWindowsSDKs == null) InitializeInstalledWindowsKits (); return installedWindowsSDKs; } List GetInstalledCRuntimeSDKs () { if (installedCRuntimeSDKs == null) InitializeInstalledWindowsKits (); return installedCRuntimeSDKs; } InstalledSDKInfo GetInstalledWindowsSDK () { if (installedWindowsSDK == null) { string winSDKDir = ""; InstalledSDKInfo windowsSDK = null; List windowsSDKs = GetInstalledWindowsSDKs (); // Check that env doesn't already include needed values. winSDKDir = GetEnv ("WINSDK", ""); if (winSDKDir.Length == 0) // If executed from a VS developer command prompt, SDK dir set in env. winSDKDir = GetEnv ("WindowsSdkDir", ""); // Check that env doesn't already include needed values. // If executed from a VS developer command prompt, SDK version set in env. var winSDKVersion = System.Text.RegularExpressions.Regex.Match (GetEnv ("WindowsSdkVersion", ""), @"\d+(\.\d+)+"); if (winSDKDir.Length != 0 && windowsSDKs != null) { // Find installed SDK based on requested info. if (winSDKVersion.Success) windowsSDK = windowsSDKs.Find (x => (x.InstallationFolder == winSDKDir && x.Version.ToString () == winSDKVersion.ToString ())); else windowsSDK = windowsSDKs.Find (x => x.InstallationFolder == winSDKDir); } if (windowsSDK == null && winSDKVersion.Success && windowsSDKs != null) // Find installed SDK based on requested info. windowsSDK = windowsSDKs.Find (x => x.Version.ToString () == winSDKVersion.ToString ()); if (windowsSDK == null && windowsSDKs != null) // Get latest installed verison. windowsSDK = windowsSDKs.First (); installedWindowsSDK = windowsSDK; } return installedWindowsSDK; } string FindCRuntimeSDKIncludePath (InstalledSDKInfo sdk) { string cRuntimeIncludePath = Path.Combine (sdk.InstallationFolder, "include"); if (sdk.IsSubVersion) cRuntimeIncludePath = Path.Combine (cRuntimeIncludePath, sdk.Version.ToString ()); cRuntimeIncludePath = Path.Combine (cRuntimeIncludePath, "ucrt"); if (!Directory.Exists (cRuntimeIncludePath)) cRuntimeIncludePath = ""; return cRuntimeIncludePath; } string FindCRuntimeSDKLibPath (InstalledSDKInfo sdk) { string cRuntimeLibPath = Path.Combine (sdk.InstallationFolder, "lib"); if (sdk.IsSubVersion) cRuntimeLibPath = Path.Combine (cRuntimeLibPath, sdk.Version.ToString ()); cRuntimeLibPath = Path.Combine (cRuntimeLibPath, "ucrt", Target64BitApplication () ? "x64" : "x86"); if (!Directory.Exists (cRuntimeLibPath)) cRuntimeLibPath = ""; return cRuntimeLibPath; } InstalledSDKInfo GetInstalledCRuntimeSDK () { if (installedCRuntimeSDK == null) { InstalledSDKInfo cRuntimeSDK = null; var windowsSDK = GetInstalledWindowsSDK (); var cRuntimeSDKs = GetInstalledCRuntimeSDKs (); if (windowsSDK != null && cRuntimeSDKs != null) { cRuntimeSDK = cRuntimeSDKs.Find (x => x.Version.ToString () == windowsSDK.Version.ToString ()); if (cRuntimeSDK == null && cRuntimeSDKs.Count != 0) cRuntimeSDK = cRuntimeSDKs.First (); installedCRuntimeSDK = cRuntimeSDK; } } return installedCRuntimeSDK; } public void AddWindowsSDKIncludePaths (List includePaths) { InstalledSDKInfo winSDK = GetInstalledWindowsSDK (); if (winSDK != null) { string winSDKIncludeDir = Path.Combine (winSDK.InstallationFolder, "include"); if (winSDK.IsSubVersion) winSDKIncludeDir = Path.Combine (winSDKIncludeDir, winSDK.Version.ToString ()); // Include sub folders. if (Directory.Exists (winSDKIncludeDir)) { includePaths.Add (Path.Combine (winSDKIncludeDir, "um")); includePaths.Add (Path.Combine (winSDKIncludeDir, "shared")); includePaths.Add (Path.Combine (winSDKIncludeDir, "winrt")); } } return; } public void AddWindowsSDKLibPaths (List libPaths) { InstalledSDKInfo winSDK = GetInstalledWindowsSDK (); if (winSDK != null) { string winSDKLibDir = Path.Combine (winSDK.InstallationFolder, "lib"); if (winSDK.IsSubVersion) { winSDKLibDir = Path.Combine (winSDKLibDir, winSDK.Version.ToString ()); } else { // Older WinSDK's header folders are not versioned, but installed libraries are, use latest availalble version for now. var winSDKLibDirInfo = new DirectoryInfo (winSDKLibDir); var versions = winSDKLibDirInfo.GetDirectories ("*.*", SearchOption.TopDirectoryOnly).OrderByDescending (p => p.Name, new StringVersionComparer ()); if (versions != null && versions.First () != null) winSDKLibDir = versions.First ().FullName; } //Enumerat lib sub folders. if (Directory.Exists (winSDKLibDir)) libPaths.Add (Path.Combine (winSDKLibDir, "um", Target64BitApplication () ? "x64" : "x86")); } return; } public void AddCRuntimeSDKIncludePaths (List includePaths) { InstalledSDKInfo cRuntimeSDK = GetInstalledCRuntimeSDK (); if (cRuntimeSDK != null) { string cRuntimeSDKIncludeDir = FindCRuntimeSDKIncludePath (cRuntimeSDK); if (cRuntimeSDKIncludeDir.Length != 0) includePaths.Add (cRuntimeSDKIncludeDir); } return; } public void AddCRuntimeSDKLibPaths (List libPaths) { InstalledSDKInfo cRuntimeSDK = GetInstalledCRuntimeSDK (); if (cRuntimeSDK != null) { string cRuntimeSDKLibDir = FindCRuntimeSDKLibPath (cRuntimeSDK); if (cRuntimeSDKLibDir.Length != 0) libPaths.Add (cRuntimeSDKLibDir); } return; } } class VisualStudioSDKHelper : SDKHelper { List installedVisualStudioSDKs; InstalledSDKInfo installedVisualStudioSDK; static VisualStudioSDKHelper singletonInstance = new VisualStudioSDKHelper (); static public VisualStudioSDKHelper GetInstance () { return singletonInstance; } List InitializeInstalledVisualStudioSDKs () { if (installedVisualStudioSDKs == null) { List sdks = new List (); using (var subKey = GetToolchainRegistrySubKey (@"\Microsoft\VisualStudio\SxS\VS7")) { if (subKey != null) { foreach (var keyName in subKey.GetValueNames ()) { var vsInstalltionFolder = (string)Microsoft.Win32.Registry.GetValue (subKey.ToString (), keyName, ""); if (Directory.Exists (vsInstalltionFolder)) { var vsSDK = new InstalledSDKInfo ("VisualStudio", keyName, vsInstalltionFolder, false); var vcInstallationFolder = Path.Combine (vsInstalltionFolder, "VC"); if (Directory.Exists (vcInstallationFolder)) vsSDK.AdditionalSDKs.Add (new InstalledSDKInfo ("VisualStudioVC", keyName, vcInstallationFolder, false, vsSDK)); sdks.Add (vsSDK); } } } } // TODO: Add VS15 SetupConfiguration support. // To reduce dependecies use vswhere.exe, if available. // Sort based on version. sdks = sdks.OrderByDescending (p => p.Version.ToString (), new StringVersionComparer ()).ToList (); installedVisualStudioSDKs = sdks; } return installedVisualStudioSDKs; } string FindVisualStudioVCFolderPath (InstalledSDKInfo vcSDK, string subPath) { string folderPath = ""; if (vcSDK != null && vcSDK.ParentSDK != null) { if (IsVisualStudio12 (vcSDK.ParentSDK) || IsVisualStudio14 (vcSDK.ParentSDK)) { folderPath = Path.Combine (vcSDK.InstallationFolder, subPath); } else if (IsVisualStudio15 (vcSDK.ParentSDK)) { string msvcVersionPath = Path.Combine (vcSDK.InstallationFolder, "Tools", "MSVC"); // Add latest found version of MSVC toolchain. if (Directory.Exists (msvcVersionPath)) { var msvcVersionDirInfo = new DirectoryInfo (msvcVersionPath); var versions = msvcVersionDirInfo.GetDirectories ("*.*", SearchOption.TopDirectoryOnly).OrderByDescending (p => p.Name, new StringVersionComparer ()); foreach (var version in versions) { msvcVersionPath = Path.Combine (version.FullName, subPath); if (Directory.Exists (msvcVersionPath)) { folderPath = msvcVersionPath; break; } } } } } return folderPath; } string FindVisualStudioVCLibSubPath (InstalledSDKInfo vcSDK) { string subPath = ""; if (vcSDK != null && vcSDK.ParentSDK != null) { if (IsVisualStudio12 (vcSDK.ParentSDK) || IsVisualStudio14 (vcSDK.ParentSDK)) subPath = Target64BitApplication () ? @"lib\amd64" : "lib"; else if (IsVisualStudio15 (vcSDK.ParentSDK)) subPath = Target64BitApplication () ? @"lib\x64" : @"lib\x86"; } return subPath; } public InstalledSDKInfo GetInstalledVisualStudioSDK () { if (installedVisualStudioSDK == null) { List visualStudioSDKs = InitializeInstalledVisualStudioSDKs (); InstalledSDKInfo visualStudioSDK = null; // Check that env doesn't already include needed values. // If executed from a VS developer command prompt, Visual Studio install dir set in env. string vsVersion = GetEnv ("VisualStudioVersion", ""); if (vsVersion.Length != 0 && visualStudioSDKs != null) // Find installed SDK based on requested info. visualStudioSDK = visualStudioSDKs.Find (x => x.Version.ToString () == vsVersion); if (visualStudioSDK == null && visualStudioSDKs != null) // Get latest installed verison. visualStudioSDK = visualStudioSDKs.First (); installedVisualStudioSDK = visualStudioSDK; } return installedVisualStudioSDK; } public InstalledSDKInfo GetInstalledVisualStudioVCSDK () { InstalledSDKInfo visualStudioVCSDK = null; // Check that env doesn't already include needed values. // If executed from a VS developer command prompt, Visual Studio install dir set in env. string vcInstallDir = GetEnv ("VCINSTALLDIR", ""); if (vcInstallDir.Length != 0) { List installedVisualStudioSDKs = InitializeInstalledVisualStudioSDKs (); if (installedVisualStudioSDKs != null) { foreach (var currentInstalledSDK in installedVisualStudioSDKs) { // Find installed SDK based on requested info. visualStudioVCSDK = currentInstalledSDK.AdditionalSDKs.Find (x => x.InstallationFolder == vcInstallDir); if (visualStudioVCSDK != null) break; } } } // Get latest installed VS VC SDK version. if (visualStudioVCSDK == null) { var visualStudioSDK = GetInstalledVisualStudioSDK (); if (visualStudioSDK != null) visualStudioVCSDK = visualStudioSDK.AdditionalSDKs.Find (x => x.Name == "VisualStudioVC"); } return visualStudioVCSDK; } public bool IsVisualStudio12 (InstalledSDKInfo vsSDK) { return vsSDK.Version.Major == 12 || vsSDK.Version.Major == 2013; } public bool IsVisualStudio14 (InstalledSDKInfo vsSDK) { return vsSDK.Version.Major == 14 || vsSDK.Version.Major == 2015; } public bool IsVisualStudio15 (InstalledSDKInfo vsSDK) { return vsSDK.Version.Major == 15 || vsSDK.Version.Major == 2017; } public void AddVisualStudioVCIncludePaths (List includePaths) { // Check that env doesn't already include needed values. string vcIncludeDir = GetEnv ("VSINCLUDE", ""); if (vcIncludeDir.Length == 0) { var visualStudioVCSDK = GetInstalledVisualStudioVCSDK (); vcIncludeDir = FindVisualStudioVCFolderPath (visualStudioVCSDK, "include"); } if (vcIncludeDir.Length != 0) includePaths.Add (vcIncludeDir); return; } public void AddVisualStudioVCLibPaths (List libPaths) { // Check that env doesn't already include needed values. string vcLibDir = GetEnv ("VSLIB", ""); if (vcLibDir.Length == 0) { var vcSDK = GetInstalledVisualStudioVCSDK (); vcLibDir = FindVisualStudioVCFolderPath (vcSDK, FindVisualStudioVCLibSubPath (vcSDK)); } if (vcLibDir.Length != 0) libPaths.Add (vcLibDir); return; } } class VCToolchainProgram { protected ToolchainProgram toolchain; public virtual bool IsVersion (InstalledSDKInfo vcSDK) { return false; } public virtual ToolchainProgram FindVCToolchainProgram (InstalledSDKInfo vcSDK) { return null; } } class VC12ToolchainProgram : VCToolchainProgram { public override bool IsVersion (InstalledSDKInfo vcSDK) { return VisualStudioSDKHelper.GetInstance ().IsVisualStudio12 (vcSDK); } protected ToolchainProgram FindVCToolchainProgram (string tool, InstalledSDKInfo vcSDK) { if (toolchain == null) { string toolPath = ""; if (!string.IsNullOrEmpty (vcSDK?.InstallationFolder)) { if (Target64BitApplication ()) toolPath = Path.Combine (new string [] { vcSDK.InstallationFolder, "bin", "amd64", tool }); else toolPath = Path.Combine (new string [] { vcSDK.InstallationFolder, "bin", tool }); if (!File.Exists (toolPath)) toolPath = ""; } toolchain = new ToolchainProgram (tool, toolPath, vcSDK); } return toolchain; } } class VC15ToolchainProgram : VCToolchainProgram { public override bool IsVersion (InstalledSDKInfo vcSDK) { return VisualStudioSDKHelper.GetInstance ().IsVisualStudio15 (vcSDK); } protected ToolchainProgram FindVCToolchainProgram (string tool, InstalledSDKInfo vcSDK) { if (toolchain == null) { string toolPath = ""; if (!string.IsNullOrEmpty (vcSDK?.InstallationFolder)) { string toolsVersionFilePath = Path.Combine (vcSDK.InstallationFolder, "Auxiliary", "Build", "Microsoft.VCToolsVersion.default.txt"); string toolsVersion = File.ReadAllLines (toolsVersionFilePath).ElementAt (0).Trim (); string toolsVersionPath = Path.Combine (vcSDK.InstallationFolder, "Tools", "MSVC", toolsVersion); if (Target64BitApplication ()) toolPath = Path.Combine (toolsVersionPath, "bin", "HostX64", "x64", tool); else toolPath = Path.Combine (toolsVersionPath, "bin", "HostX86", "x86", tool); } toolchain = new ToolchainProgram (tool, toolPath, vcSDK); } return toolchain; } } class VC12Compiler : VC12ToolchainProgram { public override ToolchainProgram FindVCToolchainProgram (InstalledSDKInfo vcSDK) { return FindVCToolchainProgram ("cl.exe", vcSDK); } } class VC14Compiler : VC12Compiler { public override bool IsVersion (InstalledSDKInfo vcSDK) { return VisualStudioSDKHelper.GetInstance ().IsVisualStudio14 (vcSDK); } } class VC15Compiler : VC15ToolchainProgram { public override ToolchainProgram FindVCToolchainProgram (InstalledSDKInfo vcSDK) { return FindVCToolchainProgram ("cl.exe", vcSDK); } } class VC12Librarian : VC12ToolchainProgram { public override ToolchainProgram FindVCToolchainProgram (InstalledSDKInfo vcSDK) { return FindVCToolchainProgram ("lib.exe", vcSDK); } } class VC14Librarian : VC12Compiler { public override bool IsVersion (InstalledSDKInfo vcSDK) { return VisualStudioSDKHelper.GetInstance ().IsVisualStudio14 (vcSDK); } } class VC15Librarian : VC15ToolchainProgram { public override ToolchainProgram FindVCToolchainProgram (InstalledSDKInfo vcSDK) { return FindVCToolchainProgram ("lib.exe", vcSDK); } } class VC14Clang : VCToolchainProgram { public override bool IsVersion (InstalledSDKInfo vcSDK) { return VisualStudioSDKHelper.GetInstance ().IsVisualStudio14 (vcSDK); } public override ToolchainProgram FindVCToolchainProgram (InstalledSDKInfo vcSDK) { if (toolchain == null) { string clangPath = ""; if (!string.IsNullOrEmpty (vcSDK?.InstallationFolder)) { clangPath = Path.Combine (new string [] { vcSDK.InstallationFolder, "ClangC2", "bin", Target64BitApplication () ? "amd64" : "x86", "clang.exe" }); if (!File.Exists (clangPath)) clangPath = ""; } toolchain = new ToolchainProgram ("clang.exe", clangPath, vcSDK); } return toolchain; } } class VC15Clang : VCToolchainProgram { public override bool IsVersion (InstalledSDKInfo vcSDK) { return VisualStudioSDKHelper.GetInstance ().IsVisualStudio15 (vcSDK); } public override ToolchainProgram FindVCToolchainProgram (InstalledSDKInfo vcSDK) { if (toolchain == null) { string clangPath = ""; if (!string.IsNullOrEmpty (vcSDK?.InstallationFolder)) { string clangVersionFilePath = Path.Combine (vcSDK.InstallationFolder, "Auxiliary", "Build", "Microsoft.ClangC2Version.default.txt"); string clangVersion = File.ReadAllLines (clangVersionFilePath).ElementAt (0).Trim (); string clangVersionPath = Path.Combine (vcSDK.InstallationFolder, "Tools", "ClangC2", clangVersion); clangPath = Path.Combine (clangVersionPath, "bin", Target64BitApplication () ? "HostX64" : "HostX86", "clang.exe"); } toolchain = new ToolchainProgram ("clang.exe", clangPath, vcSDK); } return toolchain; } } class VisualStudioSDKToolchainHelper { List vcCompilers = new List (); List vcLibrarians = new List (); List vcClangCompilers = new List (); public VisualStudioSDKToolchainHelper () { vcCompilers.Add (new VC12Compiler ()); vcCompilers.Add (new VC14Compiler ()); vcCompilers.Add (new VC15Compiler ()); vcLibrarians.Add (new VC12Librarian ()); vcLibrarians.Add (new VC14Librarian ()); vcLibrarians.Add (new VC15Librarian ()); vcClangCompilers.Add (new VC14Clang ()); vcClangCompilers.Add (new VC15Clang ()); } static VisualStudioSDKToolchainHelper singletonInstance = new VisualStudioSDKToolchainHelper (); static public VisualStudioSDKToolchainHelper GetInstance () { return singletonInstance; } ToolchainProgram GetVCToolChainProgram (List programs) { ToolchainProgram program = null; var vcSDK = VisualStudioSDKHelper.GetInstance ().GetInstalledVisualStudioVCSDK (); if (vcSDK?.ParentSDK != null) { foreach (var item in programs) { if (item.IsVersion (vcSDK.ParentSDK)) { program = item.FindVCToolchainProgram (vcSDK); break; } } } return program; } public ToolchainProgram GetVCCompiler () { return GetVCToolChainProgram (vcCompilers); } public ToolchainProgram GetVCLibrarian () { return GetVCToolChainProgram (vcLibrarians); } public ToolchainProgram GetVCClangCompiler () { return GetVCToolChainProgram (vcClangCompilers); } } static bool Target64BitApplication () { // Should probably handled the --cross and sdk parameters. return Environment.Is64BitProcess; } static string GetMonoDir () { // Check that env doesn't already include needed values. string monoInstallDir = GetEnv ("MONOPREFIX", ""); if (monoInstallDir.Length == 0) { using (var baseKey = Microsoft.Win32.RegistryKey.OpenBaseKey (Microsoft.Win32.RegistryHive.LocalMachine, Target64BitApplication () ? Microsoft.Win32.RegistryView.Registry64 : Microsoft.Win32.RegistryView.Registry32)) { if (baseKey != null) { using (var subKey = baseKey.OpenSubKey (@"SOFTWARE\Mono")) { if (subKey != null) monoInstallDir = (string)subKey.GetValue ("SdkInstallRoot", ""); } } } } return monoInstallDir; } static void AddMonoIncludePaths (List includePaths) { includePaths.Add (Path.Combine (GetMonoDir (), @"include\mono-2.0")); return; } static void AddMonoLibPaths (List libPaths) { libPaths.Add (Path.Combine (GetMonoDir (), "lib")); return; } static void AddIncludePaths (List includePaths) { // Check that env doesn't already include needed values. // If executed from a VS developer command prompt, all includes are already setup in env. string includeEnv = GetEnv ("INCLUDE", ""); if (includeEnv.Length == 0) { VisualStudioSDKHelper.GetInstance ().AddVisualStudioVCIncludePaths (includePaths); WindowsSDKHelper.GetInstance ().AddCRuntimeSDKIncludePaths (includePaths); WindowsSDKHelper.GetInstance ().AddWindowsSDKIncludePaths (includePaths); } AddMonoIncludePaths (includePaths); includePaths.Add ("."); return; } static void AddLibPaths (List libPaths) { // Check that env doesn't already include needed values. // If executed from a VS developer command prompt, all libs are already setup in env. string libEnv = GetEnv ("LIB", ""); if (libEnv.Length == 0) { VisualStudioSDKHelper.GetInstance ().AddVisualStudioVCLibPaths (libPaths); WindowsSDKHelper.GetInstance ().AddCRuntimeSDKLibPaths (libPaths); WindowsSDKHelper.GetInstance ().AddWindowsSDKLibPaths (libPaths); } AddMonoLibPaths (libPaths); libPaths.Add ("."); return; } static void AddVCSystemLibraries (ToolchainProgram program, bool staticLinkMono, bool staticLinkCRuntime, List linkerArgs) { linkerArgs.Add ("kernel32.lib"); linkerArgs.Add ("version.lib"); linkerArgs.Add ("ws2_32.lib"); linkerArgs.Add ("mswsock.lib"); linkerArgs.Add ("psapi.lib"); linkerArgs.Add ("shell32.lib"); linkerArgs.Add ("oleaut32.lib"); linkerArgs.Add ("ole32.lib"); linkerArgs.Add ("winmm.lib"); linkerArgs.Add ("user32.lib"); linkerArgs.Add ("advapi32.lib"); if (program != null && program.ParentSDK != null && VisualStudioSDKHelper.GetInstance ().IsVisualStudio12 (program.ParentSDK)) { if (staticLinkCRuntime) { // Static release c-runtime support. linkerArgs.Add ("libcmt.lib"); linkerArgs.Add ("oldnames.lib"); } else { // Dynamic release c-runtime support. linkerArgs.Add ("msvcrt.lib"); linkerArgs.Add ("oldnames.lib"); } } else { if (staticLinkCRuntime) { // Static release c-runtime support. linkerArgs.Add ("libucrt.lib"); linkerArgs.Add ("libvcruntime.lib"); linkerArgs.Add ("libcmt.lib"); linkerArgs.Add ("oldnames.lib"); } else { // Dynamic release c-runtime support. linkerArgs.Add ("ucrt.lib"); linkerArgs.Add ("vcruntime.lib"); linkerArgs.Add ("msvcrt.lib"); linkerArgs.Add ("oldnames.lib"); } } return; } static void AddGCCSystemLibraries (ToolchainProgram program, bool staticLinkMono, bool staticLinkCRuntime, List linkerArgs) { if (MakeBundle.compress) linkerArgs.Add ("-lz"); return; } static void AddSystemLibraries (ToolchainProgram program, bool staticLinkMono, bool staticLinkCRuntime, List linkerArgs) { if (program.IsVSToolChain) AddVCSystemLibraries (program, staticLinkMono, staticLinkCRuntime, linkerArgs); else AddGCCSystemLibraries (program, staticLinkMono, staticLinkCRuntime, linkerArgs); return; } static void AddMonoLibraries (ToolchainProgram program, bool staticLinkMono, bool staticLinkCRuntime, List linkerArguments) { bool vsToolChain = program.IsVSToolChain; string libPrefix = !vsToolChain ? "-l" : ""; string libExtension = vsToolChain ? ".lib" : ""; string monoLibrary = GetEnv ("LIBMONO", ""); if (monoLibrary.Length == 0) { if (staticLinkMono) { if (program.IsGCCToolChain) { Console.WriteLine ( @"Warning: Static linking using default Visual Studio build libmono-static-sgen" + @"might cause link errors when using GCC toolchain."); } monoLibrary = "libmono-static-sgen"; } else { monoLibrary = "mono-2.0-sgen"; } } if (!Path.IsPathRooted (monoLibrary)) { if (!monoLibrary.EndsWith (libExtension)) monoLibrary = monoLibrary + libExtension; linkerArguments.Add (libPrefix + monoLibrary); } else { linkerArguments.Add (monoLibrary); } return; } static void AddVCCompilerArguments (ToolchainProgram program, bool staticLinkMono, bool staticLinkCRuntime, List compilerArgs) { List includePaths = new List (); AddIncludePaths (includePaths); if (staticLinkCRuntime) // Add targeted c-runtime (MT = static release). compilerArgs.Add ("/MT"); else // Add targeted c-runtime (MD = dynamic release). compilerArgs.Add ("/MD"); // Add include search paths. foreach (string include in includePaths) compilerArgs.Add (String.Format("/I {0}", program.QuoteArg (include))); return; } static void AddGCCCompilerArguments (ToolchainProgram program, bool staticLinkMono, bool staticLinkCRuntime, List compilerArgs) { List includePaths = new List (); AddMonoIncludePaths (includePaths); // Add include search paths. foreach (string include in includePaths) compilerArgs.Add (String.Format ("-I {0}", program.QuoteArg (include))); return; } static void AddCompilerArguments (ToolchainProgram program, bool staticLinkMono, bool staticLinkCRuntime, List compilerArgs) { if (program.IsVSToolChain) AddVCCompilerArguments (program, staticLinkMono, staticLinkCRuntime, compilerArgs); else AddGCCCompilerArguments (program, staticLinkMono, staticLinkCRuntime, compilerArgs); return; } static void AddVCLinkerArguments (ToolchainProgram linker, bool staticLinkMono, bool staticLinkCRuntime, string customMain, string outputFile, List linkerArgs) { linkerArgs.Add ("/link"); var subsystem = GetEnv ("VCSUBSYSTEM", "windows"); linkerArgs.Add ("/SUBSYSTEM:" + subsystem); if (customMain != null && customMain.Length != 0) linkerArgs.Add (linker.QuoteArg (customMain)); else linkerArgs.Add ("/ENTRY:mainCRTStartup"); // Ignore other c-runtime directives from linked libraries. linkerArgs.Add ("/NODEFAULTLIB"); AddMonoLibraries (linker, staticLinkMono, staticLinkCRuntime, linkerArgs); AddSystemLibraries (linker, staticLinkMono, staticLinkCRuntime, linkerArgs); // Add library search paths. List libPaths = new List (); AddLibPaths (libPaths); foreach (string lib in libPaths) linkerArgs.Add (String.Format ("/LIBPATH:{0}", linker.QuoteArg (lib))); // Linker output target. linkerArgs.Add ("/OUT:" + linker.QuoteArg (outputFile)); return; } static void AddGCCLinkerArguments (ToolchainProgram linker, bool staticLinkMono, bool staticLinkCRuntime, string customMain, string outputFile, List linkerArgs) { // Add library search paths. List libPaths = new List (); AddMonoLibPaths (libPaths); foreach (string lib in libPaths) linkerArgs.Add (String.Format ("-L {0}", linker.QuoteArg (lib))); // Add libraries. if (staticLinkMono) linkerArgs.Add ("-Wl,-Bstatic"); AddMonoLibraries (linker, staticLinkMono, staticLinkCRuntime, linkerArgs); if (staticLinkMono) linkerArgs.Add ("-Wl,-Bdynamic"); AddSystemLibraries (linker, staticLinkMono, staticLinkCRuntime, linkerArgs); // Linker output target. linkerArgs.Add ("-o " + linker.QuoteArg (outputFile)); } static void AddLinkerArguments (ToolchainProgram program, bool staticLinkMono, bool staticLinkCRuntime, string customMain, string outputFile, List linkerArgs) { if (program.IsVSToolChain) AddVCLinkerArguments (program, staticLinkMono, staticLinkCRuntime, customMain, outputFile, linkerArgs); else AddGCCLinkerArguments (program, staticLinkMono, staticLinkCRuntime, customMain, outputFile, linkerArgs); return; } static void AddVCLibrarianCompilerArguments (ToolchainProgram compiler, string sourceFile, bool staticLinkMono, bool staticLinkCRuntime, List compilerArgs, out string objectFile) { compilerArgs.Add ("/c"); compilerArgs.Add (compiler.QuoteArg (sourceFile)); objectFile = sourceFile + ".obj"; compilerArgs.Add (String.Format ("/Fo" + compiler.QuoteArg (objectFile))); return; } static void AddGCCLibrarianCompilerArguments (ToolchainProgram compiler, string sourceFile, bool staticLinkMono, bool staticLinkCRuntime, List compilerArgs, out string objectFile) { compilerArgs.Add ("-c"); compilerArgs.Add (compiler.QuoteArg (sourceFile)); objectFile = sourceFile + ".o"; compilerArgs.Add (String.Format ("-o " + compiler.QuoteArg (objectFile))); return; } static void AddVCLibrarianLinkerArguments (ToolchainProgram librarian, string [] objectFiles, bool staticLinkMono, bool staticLinkCRuntime, string outputFile, List librarianArgs) { foreach (var objectFile in objectFiles) librarianArgs.Add (librarian.QuoteArg (objectFile)); // Add library search paths. List libPaths = new List (); AddLibPaths (libPaths); foreach (string lib in libPaths) { librarianArgs.Add (String.Format ("/LIBPATH:{0}", librarian.QuoteArg (lib))); } AddMonoLibraries (librarian, staticLinkMono, staticLinkCRuntime, librarianArgs); librarianArgs.Add ("/OUT:" + librarian.QuoteArg (output)); return; } static void AddGCCLibrarianLinkerArguments (ToolchainProgram librarian, string [] objectFiles, bool staticLinkMono, bool staticLinkCRuntime, string outputFile, List librarianArgs) { foreach (var objectFile in objectFiles) librarianArgs.Add (librarian.QuoteArg (objectFile)); // Add library search paths. List libPaths = new List (); AddMonoLibPaths (libPaths); foreach (string lib in libPaths) librarianArgs.Add (String.Format ("-L {0}", librarian.QuoteArg (lib))); AddMonoLibraries (librarian, staticLinkMono, staticLinkCRuntime, librarianArgs); librarianArgs.Add ("-o " + librarian.QuoteArg (output)); return; } static ToolchainProgram GetAssemblerCompiler () { // First check if env is set (old behavior) and use that. string assembler = GetEnv ("AS", ""); if (assembler.Length != 0) return new ToolchainProgram ("AS", assembler); var vcClangAssembler = VisualStudioSDKToolchainHelper.GetInstance ().GetVCClangCompiler (); if (vcClangAssembler == null) // Fallback to GNU assembler if clang for VS was not installed. // Why? because mkbundle generates GNU assembler not compilable by VS tools like ml. return new ToolchainProgram ("AS", "as.exe"); return vcClangAssembler; } static ToolchainProgram GetCCompiler () { // First check if env is set (old behavior) and use that. string compiler = GetEnv ("CC", ""); if (compiler.Length != 0) return new ToolchainProgram ("CC", compiler); var vcCompiler = VisualStudioSDKToolchainHelper.GetInstance ().GetVCCompiler (); if (vcCompiler == null) // Fallback to cl.exe if VC compiler was not installed. return new ToolchainProgram ("cl.exe", "cl.exe"); return vcCompiler; } static ToolchainProgram GetLibrarian () { ToolchainProgram vcLibrarian = VisualStudioSDKToolchainHelper.GetInstance ().GetVCLibrarian (); if (vcLibrarian == null) // Fallback to lib.exe if VS was not installed. return new ToolchainProgram ("lib.exe", "lib.exe"); return vcLibrarian; } static string GetCompileAndLinkCommand (ToolchainProgram compiler, string sourceFile, string objectFile, string customMain, bool staticLinkMono, bool staticLinkCRuntime, string outputFile) { var compilerArgs = new List (); AddCompilerArguments (compiler, staticLinkMono, staticLinkCRuntime, compilerArgs); // Add source file to compile. compilerArgs.Add (compiler.QuoteArg (sourceFile)); // Add assembled object file. compilerArgs.Add (compiler.QuoteArg (objectFile)); // Add linker arguments. AddLinkerArguments (compiler, staticLinkMono, staticLinkCRuntime, customMain, outputFile, compilerArgs); return String.Format ("{0} {1}", compiler.QuoteArg (compiler.Path), String.Join (" ", compilerArgs.ToArray ())); } static string GetLibrarianCompilerCommand (ToolchainProgram compiler, string sourceFile, bool staticLinkMono, bool staticLinkCRuntime, out string objectFile) { var compilerArgs = new List (); AddCompilerArguments (compiler, staticLinkMono, staticLinkCRuntime, compilerArgs); if (compiler.IsVSToolChain) AddVCLibrarianCompilerArguments (compiler, sourceFile, staticLinkMono, staticLinkCRuntime, compilerArgs, out objectFile); else AddGCCLibrarianCompilerArguments (compiler, sourceFile, staticLinkMono, staticLinkCRuntime, compilerArgs, out objectFile); return String.Format ("{0} {1}", compiler.QuoteArg (compiler.Path), String.Join (" ", compilerArgs.ToArray ())); } static string GetLibrarianLinkerCommand (ToolchainProgram librarian, string [] objectFiles, bool staticLinkMono, bool staticLinkCRuntime, string outputFile) { var librarianArgs = new List (); if (librarian.IsVSToolChain) AddVCLibrarianLinkerArguments (librarian, objectFiles, staticLinkMono, staticLinkCRuntime, outputFile, librarianArgs); else AddGCCLibrarianLinkerArguments (librarian, objectFiles, staticLinkMono, staticLinkCRuntime, outputFile, librarianArgs); return String.Format ("{0} {1}", librarian.QuoteArg (librarian.Path), String.Join (" ", librarianArgs.ToArray ())); } #endregion }