public ObfuscationAttributeTests()
{
TestHelper.CleanInput();
Microsoft.CSharp.CSharpCodeProvider provider = new Microsoft.CSharp.CSharpCodeProvider();
CompilerParameters cp = new CompilerParameters();
cp.GenerateExecutable = false;
cp.GenerateInMemory = false;
cp.TreatWarningsAsErrors = true;
string assemblyAPath = Path.Combine(TestHelper.InputPath, "AssemblyA.dll");
cp.OutputAssembly = assemblyAPath;
CompilerResults cr = provider.CompileAssemblyFromFile(cp, Path.Combine(TestHelper.InputPath, "AssemblyA.cs"));
if (cr.Errors.Count > 0)
{
Assert.True(false, "Unable to compile test assembly: AssemblyA");
}
cp.ReferencedAssemblies.Add(assemblyAPath);
cp.OutputAssembly = Path.Combine(TestHelper.InputPath, "AssemblyB.dll");
cr = provider.CompileAssemblyFromFile(cp, Path.Combine(TestHelper.InputPath, "AssemblyB.cs"));
if (cr.Errors.Count > 0)
{
Assert.True(false, "Unable to compile test assembly: AssemblyB");
}
}
public static void BuildAssembly(string name, string suffix = null, string options = null, bool treatWarningsAsErrors = true)
{
Microsoft.CSharp.CSharpCodeProvider provider = new Microsoft.CSharp.CSharpCodeProvider();
CompilerParameters cp = new CompilerParameters();
cp.GenerateExecutable = false;
cp.GenerateInMemory = false;
cp.TreatWarningsAsErrors = treatWarningsAsErrors;
if (!string.IsNullOrEmpty(options))
{
cp.CompilerOptions = options;
}
string dllName = string.IsNullOrEmpty(suffix) ? name : name + suffix;
string fileName = GetAssemblyPath(dllName);
if (File.Exists(fileName))
{
return;
}
cp.OutputAssembly = fileName;
CompilerResults cr = provider.CompileAssemblyFromFile(cp, Path.Combine(InputPath, name + ".cs"));
if (cr.Errors.HasErrors)
{
Assert.True(false, "Unable to compile test assembly: " + dllName + ":" + cr.Errors[0].ErrorText);
}
}
public void sd()
{
// CodeDom已被Roslyn API取代。目前.net core平台不支持CodeDom
string csPaths = Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "temp_gen_grpc_code");
var dllFiles = Directory.GetFiles(csPaths, "*.cs");
string strDll = "GrpcSrvTemp.dll";
CodeDomProvider COD = new Microsoft.CSharp.CSharpCodeProvider();
COD = new Microsoft.CSharp.CSharpCodeProvider();
CompilerParameters COM = new CompilerParameters
{
//生成DLL,True为生成exe文件,false为生成dll文件
GenerateExecutable = false,
OutputAssembly = strDll,
};
COM.ReferencedAssemblies.Add("mscorlib.dll");
COM.ReferencedAssemblies.Add("System.dll");
COM.ReferencedAssemblies.Add("System.Interactive.Async.dll");
COM.ReferencedAssemblies.Add(@"Google.Protobuf.dll");
COM.ReferencedAssemblies.Add(@"Grpc.Core.dll");
CompilerResults COMR = COD.CompileAssemblyFromFile(COM, dllFiles);
//下面我们就可以根据生成的Dll反射为相关对象,供我们使用了.
//Assembly a = Assembly.LoadFrom(strDll);
//Type t = a.GetType("b");
//object obj = Activator.CreateInstance(t);
//t.GetMethod("run").Invoke(obj, null);
}
/// @brief Compiles in memory an assembly containing the plugin.
/// @returns If successful, returns the assembly compiled, if not, returns null.
public Assembly CompileToMemory()
{
CompilerParameters cp = new CompilerParameters(
new[] { "System.Windows.Forms.dll", "System.dll", "System.Data.dll", "System.Drawing.dll", "System.Xml.dll" }, //references added by default
_pluginData.AssemblyNameOnly, //name of the compiled assembly
false); //false = no debug
cp.ReferencedAssemblies.Add(System.Windows.Forms.Application.ExecutablePath);
cp.GenerateExecutable = false;
cp.GenerateInMemory = false;
cp.CompilerOptions = "/optimize";
cp.WarningLevel = 4; //to do not consider C00618 warning (obsolete PluginBaseV0_0 class)
//cp.MainClass = "Gear.PluginSupport." + _pluginData.InstanceName;
//traverse list adding not null nor empty texts
foreach (string s in _pluginData.References)
{
if (!string.IsNullOrEmpty(s))
{
cp.ReferencedAssemblies.Add(s);
}
}
CodeDomProvider provider = new Microsoft.CSharp.CSharpCodeProvider();
//compile the assembly
CompilerResults results = provider.CompileAssemblyFromFile(cp, _pluginData.Codes);
//check if there are errors
if (results.Errors.HasErrors | results.Errors.HasWarnings)
{
errorsCollection = results.Errors;
return(null);
}
return(results.CompiledAssembly);
}
private void Compile_Clicked(object sender, EventArgs e)
{
saveToolStripMenuItem_Click(sender, e);
if ((DialogResult)saver.Tag == DialogResult.OK)
{
using (Microsoft.CSharp.CSharpCodeProvider compiler = new Microsoft.CSharp.CSharpCodeProvider())
{
System.CodeDom.Compiler.CompilerResults results = compiler.CompileAssemblyFromFile(
new System.CodeDom.Compiler.CompilerParameters(
Compiler.UsedAssemblies.Select(name => name.Location).ToArray(),
saver.FileName.Substring(0, saver.FileName.LastIndexOf('\\') + 1) + "a.exe",
true)
{
MainClass = "MyNamespace.Program",
GenerateExecutable = true
},
saver.FileNames
);
if (results.Errors.Count > 0)
{
foreach (var error in results.Errors)
{
MessageBox.Show(error.ToString());
}
}
else
{
MessageBox.Show(results.PathToAssembly);
}
}
}
}
public static void BuildAssembly(string name, string suffix, string options)
{
Microsoft.CSharp.CSharpCodeProvider provider = new Microsoft.CSharp.CSharpCodeProvider( );
CompilerParameters cp = new CompilerParameters( );
cp.GenerateExecutable = false;
cp.GenerateInMemory = false;
cp.TreatWarningsAsErrors = true;
if (!String.IsNullOrEmpty(options))
{
cp.CompilerOptions = options;
}
string dllName = String.IsNullOrEmpty(suffix) ? name : name + suffix;
string assemblyPath = Path.Combine(InputPath, dllName + ".dll");
cp.OutputAssembly = assemblyPath;
CompilerResults cr = provider.CompileAssemblyFromFile(cp, Path.Combine(InputPath, name + ".cs"));
if (cr.Errors.HasErrors)
{
Assert.Fail("Unable to compile test assembly: " + dllName);
}
}
public static Assembly CompileExecutableFile(CompilerParameters cp, String[] filepaths)
{
CodeDomProvider provider = new Microsoft.CSharp.CSharpCodeProvider();
CompilerResults cr = provider.CompileAssemblyFromFile(cp, filepaths);
return(processCompilationResult(cr));
}
internal static async Task Build(string sourceDir, string outputFile, Nuget.Repository repository)
{
string outputDir = Path.GetDirectoryName(outputFile);
var sourceFiles = new DirectoryInfo(sourceDir).GetFiles("*.*", SearchOption.AllDirectories);
var metaData = GetMetaData(sourceFiles);
var nugetSources = metaData[nugetSourceKeyWord].Distinct()
.Select(Nuget.GetSource)
.ToList();
if (!nugetSources.Any())
{
nugetSources = new List <Nuget.ISource> {
Nuget.GetDefaultSource()
};
}
var nugetPackages = metaData[nugetPackageKeyWord].Distinct().ToList();
var installedNugetPackages = await repository.EnsurePackagesAreInstalled(nugetSources, nugetPackages);
// compile
var csharpProvider = new Microsoft.CSharp.CSharpCodeProvider();
var externalReferences = installedNugetPackages.SelectMany(_ => _.GetReferenceAssemblies()).ToArray();
foreach (var i in externalReferences)
{
Copy(i, Path.Combine(outputDir, Path.GetFileName(i)));
}
var internalReferences = new[] {
"System.Runtime.dll",
"System.dll",
"System.Xml.dll",
"Microsoft.CSharp.dll",
"System.Core.dll",
};
var options = new CompilerParameters()
{
OutputAssembly = outputFile,
GenerateExecutable = true,
IncludeDebugInformation = false,
GenerateInMemory = false,
MainClass = "Program",
};
options.ReferencedAssemblies.AddRange(internalReferences.Concat(externalReferences).ToArray());
var results = csharpProvider.CompileAssemblyFromFile(options, sourceFiles.Where(Util.IsCSharpFile).Select(_ => _.FullName).ToArray());
if (results.Errors.Cast <object>().Any())
{
var s = String.Join("\r\n", results.Errors.Cast <object>().ToArray());
throw new Exception(s);
}
}
/// <summary>
/// loads the *.cs file and compile it, logs compilation result
/// </summary>
/// <param name="path">path to .cs file</param>
public void LoadScript(string path)
{
System.CodeDom.Compiler.CompilerResults results =
provider.CompileAssemblyFromFile(this.par, new string[] { path });
Logging.Logger.AddImportant("kompilace skritpu, pocet chyb: " + results.Errors.Count.ToString());
if (results.Errors.Count > 0)
{
foreach (System.CodeDom.Compiler.CompilerError err in results.Errors)
{
Logging.Logger.AddWarning("chyba ve skriptu " + err.ErrorNumber + " na radce " + err.Line +
": " + err.ErrorText);
}
}
else
{
scriptAssembly = results.CompiledAssembly;
try
{
CreateInstance();
}
catch (Exception ex)
{
Logging.Logger.AddInfo("Chyba pri vytvareni instance scriptu " + path + " - " + ex.ToString());
}
Logging.Logger.AddInfo("skript prelozen \n" + scriptAssembly.ToString());
}
}
public bool execScript(string dirPath)
{
Microsoft.CSharp.CSharpCodeProvider csharp = new Microsoft.CSharp.CSharpCodeProvider();
// Setup default params for compiler
CompilerParameters compilerParams = new CompilerParameters();
compilerParams.GenerateExecutable = false;
compilerParams.GenerateInMemory = true;
compilerParams.IncludeDebugInformation = false;
compilerParams.ReferencedAssemblies.Add("mscorlib.dll");
compilerParams.ReferencedAssemblies.Add("System.dll");
compilerParams.ReferencedAssemblies.Add("System.Windows.Forms.dll");
compilerParams.ReferencedAssemblies.Add("NoxShared.dll");
// Compile C# script
CompilerResults results = csharp.CompileAssemblyFromFile(compilerParams, Directory.GetFiles(dirPath, "*.cs"));
// Error handling
if (results.Errors.Count > 0)
{
foreach (CompilerError e in results.Errors)
System.Diagnostics.Debug.WriteLine(String.Format("{0} {1}: {2}", e.FileName, e.Line, e.ErrorText));
return false;
}
// Save assembly in class variable
scriptAssembly = results.CompiledAssembly;
// Create Script Instance
if (initScript())
{
// Run Script
return runScript();
}
return false;
}
public Assembly CreateAssembly(string filename, IList references)
{
compilerErrors = null;
string extension = Path.GetExtension(filename);
CodeDomProvider codeProvider = null;
switch (extension)
{
case ".cs":
codeProvider = new Microsoft.CSharp.CSharpCodeProvider();
break;
case ".vb":
codeProvider = new Microsoft.CSharp.CSharpCodeProvider();
break;
default:
throw new InvalidOperationException("Script files must have a .cs or .vb.");
}
CompilerParameters compilerParams = new CompilerParameters();
compilerParams.CompilerOptions = "/target:library /optimize";
compilerParams.GenerateExecutable = false;
compilerParams.GenerateInMemory = true;
compilerParams.IncludeDebugInformation = false;
compilerParams.ReferencedAssemblies.Add("mscorlib.dll");
compilerParams.ReferencedAssemblies.Add("System.dll");
foreach (string reference in references)
{
if (!compilerParams.ReferencedAssemblies.Contains(reference))
{
compilerParams.ReferencedAssemblies.Add(reference);
}
}
CompilerResults results = codeProvider.CompileAssemblyFromFile(compilerParams,
filename);
if (results.Errors.Count > 0)
{
StringBuilder sb = new StringBuilder();
foreach (CompilerError item in results.Errors)
{
sb.AppendFormat("{0} line:{1} {2}\r\n", item.FileName, item.Line, item.ErrorText);
}
compilerErrors = results.Errors;
throw new Exception(
"Compiler error(s)\r\n" + sb.ToString());
}
Assembly createdAssembly = results.CompiledAssembly;
return(createdAssembly);
}
/// <summary>
/// Generates an Assembly from a script filename
/// </summary>
/// <param name="filename">The filename of the script</param>
/// <param name="references">Assembly references for the script</param>
/// <returns>The generated assembly</returns>
public Assembly CreateAssembly(string filename, IList references)
{
// ensure that compilerErrors is null
compilerErrors = null;
string extension = Path.GetExtension(filename);
// Select the correct CodeDomProvider based on script file extension
CodeDomProvider codeProvider = null;
switch (extension)
{
case ".cs":
codeProvider = new Microsoft.CSharp.CSharpCodeProvider();
break;
case ".vb":
codeProvider = new Microsoft.CSharp.CSharpCodeProvider();
break;
default:
throw new InvalidOperationException("Script files must have a .cs or .vb.");
}
// Set compiler parameters
CompilerParameters compilerParams = new CompilerParameters();
compilerParams.CompilerOptions = "/target:library /optimize";
compilerParams.GenerateExecutable = false;
compilerParams.GenerateInMemory = true;
compilerParams.IncludeDebugInformation = false;
compilerParams.ReferencedAssemblies.Add("mscorlib.dll");
compilerParams.ReferencedAssemblies.Add("System.dll");
// Add custom references
foreach (string reference in references)
{
if (!compilerParams.ReferencedAssemblies.Contains(reference))
{
compilerParams.ReferencedAssemblies.Add(reference);
}
}
// Do the compilation
CompilerResults results = codeProvider.CompileAssemblyFromFile(compilerParams,
filename);
//Do we have any compiler errors
if (results.Errors.Count > 0)
{
compilerErrors = results.Errors;
throw new Exception(
"Compiler error(s) encountered and saved to AssemblyFactory.CompilerErrors");
}
Assembly createdAssembly = results.CompiledAssembly;
return createdAssembly;
}
public Assembly CreateAssembly(string filename, IList references)
{
compilerErrors = null;
string extension = Path.GetExtension(filename);
CodeDomProvider codeProvider = null;
switch (extension)
{
case ".cs":
codeProvider = new Microsoft.CSharp.CSharpCodeProvider();
break;
case ".vb":
codeProvider = new Microsoft.CSharp.CSharpCodeProvider();
break;
default:
throw new InvalidOperationException("Script files must have a .cs or .vb.");
}
CompilerParameters compilerParams = new CompilerParameters();
compilerParams.CompilerOptions = "/target:library /optimize";
compilerParams.GenerateExecutable = false;
compilerParams.GenerateInMemory = true;
compilerParams.IncludeDebugInformation = false;
compilerParams.ReferencedAssemblies.Add("mscorlib.dll");
compilerParams.ReferencedAssemblies.Add("System.dll");
foreach (string reference in references)
{
if (!compilerParams.ReferencedAssemblies.Contains(reference))
{
compilerParams.ReferencedAssemblies.Add(reference);
}
}
CompilerResults results = codeProvider.CompileAssemblyFromFile(compilerParams,
filename);
if (results.Errors.Count > 0)
{
StringBuilder sb = new StringBuilder();
foreach (CompilerError item in results.Errors)
{
sb.AppendFormat("{0} line:{1} {2}\r\n", item.FileName, item.Line, item.ErrorText);
}
compilerErrors = results.Errors;
throw new Exception(
"Compiler error(s)\r\n" + sb.ToString());
}
Assembly createdAssembly = results.CompiledAssembly;
return createdAssembly;
}
public static object GenWrapper(object filename)
{
var tmpl = Path.Combine(ApplicationDirectory, "Executable.cs.template");
var fn = RequiresNotNull <string>(filename);
using (var p = new Microsoft.CSharp.CSharpCodeProvider())
{
var supportfn = filename + ".cs";
File.WriteAllText(supportfn, string.Format(
@"
namespace IronScheme
{{
partial class ExecutableTemplate
{{
const string PATH = @""{0}"";
const string RESOURCE = @""{1}"";
}}
}}", ApplicationDirectory, fn));
var cp = new CompilerParameters
{
EmbeddedResources = { fn },
OutputAssembly = Path.GetFileNameWithoutExtension(fn) + ".exe",
ReferencedAssemblies = { "System.dll", "System.Configuration.dll" },
GenerateExecutable = true,
//IncludeDebugInformation = true
};
Console.Write("compiling executable wrapper '{0}'.... ", cp.OutputAssembly);
var results = p.CompileAssemblyFromFile(cp, tmpl, supportfn);
if (results.Errors.Count > 0)
{
Console.WriteLine("failed.");
foreach (var error in results.Errors)
{
Console.Error.WriteLine(error);
}
}
else
{
Console.WriteLine("done.");
Console.Write("generating config file .... ");
File.WriteAllText(cp.OutputAssembly + ".config", string.Format(
@"<?xml version=""1.0""?>
<configuration>
<appSettings>
<add key=""IronScheme.Directory"" value=""{0}""/>
</appSettings>
</configuration>", ApplicationDirectory));
Console.WriteLine("done.");
}
File.Delete(supportfn);
}
return(Unspecified);
}
internal static CompilerResults BuildAssembly(string fileName)
{
var csBuilder = new Microsoft.CSharp.CSharpCodeProvider();
var options = new CompilerParameters();
options.GenerateExecutable = false;
options.GenerateInMemory = true;
options.IncludeDebugInformation = false;
options.ReferencedAssemblies.Add(Assembly.GetExecutingAssembly().Location);
return(csBuilder.CompileAssemblyFromFile(options, fileName));
}
/// <summary>
/// Compiles the script from the specified pathname into an Assembly.
/// </summary>
/// <param name="scriptPathName">Script pathname.</param>
/// <param name="dllPathName">Full pathname for output DLL.</param>
/// <param name="report">Errors and warnings reported by the compiler.</param>
/// <returns>Reference to script instance, or null on failure.</returns>
private static Assembly CompileCode(string scriptPathName, string dllPathName,
out FileLoadReport report)
{
report = new FileLoadReport(scriptPathName);
// To get C#6 (and later) features, a NuGet package must be installed, and
// some "black magic" must be invoked.
// See https://stackoverflow.com/a/40311406/294248 and nearby answers.
Microsoft.CSharp.CSharpCodeProvider csProvider =
new Microsoft.CSharp.CSharpCodeProvider();
CompilerParameters parms = new CompilerParameters();
// We want a DLL, not an EXE.
parms.GenerateExecutable = false;
// Save to disk so other AppDomain can load it.
parms.GenerateInMemory = false;
// Be vocal about warnings.
parms.WarningLevel = 3;
// Optimization is nice.
parms.CompilerOptions = "/optimize";
// Output file name. Must be named appropriately so it can be found.
parms.OutputAssembly = dllPathName;
// Add dependencies.
parms.ReferencedAssemblies.AddRange(sRefAssem);
#if DEBUG
// This creates a .pdb file, which allows breakpoints to work.
parms.IncludeDebugInformation = true;
#endif
// Using the "from file" version has an advantage over the "from source"
// version in that the debugger can find the source file, so things like
// breakpoints work correctly.
CompilerResults cr = csProvider.CompileAssemblyFromFile(parms, scriptPathName);
CompilerErrorCollection cec = cr.Errors;
foreach (CompilerError ce in cr.Errors)
{
report.Add(ce.Line, ce.Column,
ce.IsWarning ? FileLoadItem.Type.Warning : FileLoadItem.Type.Error,
ce.ErrorText);
}
if (cr.Errors.HasErrors)
{
return(null);
}
else
{
Debug.WriteLine("Compilation successful");
return(cr.CompiledAssembly);
}
}
public ObfuscationAttributeTests ()
{
TestHelper.CleanInput ();
Microsoft.CSharp.CSharpCodeProvider provider = new Microsoft.CSharp.CSharpCodeProvider ();
CompilerParameters cp = new CompilerParameters ();
cp.GenerateExecutable = false;
cp.GenerateInMemory = false;
cp.TreatWarningsAsErrors = true;
string assemblyAPath = Path.Combine (TestHelper.InputPath, "AssemblyA.dll");
cp.OutputAssembly = assemblyAPath;
CompilerResults cr = provider.CompileAssemblyFromFile (cp, Path.Combine (TestHelper.InputPath, "AssemblyA.cs"));
if (cr.Errors.Count > 0)
Assert.True (false, "Unable to compile test assembly: AssemblyA");
cp.ReferencedAssemblies.Add (assemblyAPath);
cp.OutputAssembly = Path.Combine (TestHelper.InputPath, "AssemblyB.dll");
cr = provider.CompileAssemblyFromFile (cp, Path.Combine (TestHelper.InputPath, "AssemblyB.cs"));
if (cr.Errors.Count > 0)
Assert.True (false, "Unable to compile test assembly: AssemblyB");
}
public static BasePlugin LoadSourcePlugin(string path)
{
var cp = new Microsoft.CSharp.CSharpCodeProvider(compilerOptions);
var par = new System.CodeDom.Compiler.CompilerParameters();
par.GenerateExecutable = false;
par.GenerateInMemory = true;
par.IncludeDebugInformation = true;
//par.CompilerOptions = "/optimize";
par.TreatWarningsAsErrors = false;
var us = Assembly.GetExecutingAssembly();
par.ReferencedAssemblies.Add(us.Location);
foreach (var asn in us.GetReferencedAssemblies())
{
par.ReferencedAssemblies.Add(asn.Name);
}
var result = cp.CompileAssemblyFromFile(par, path);
var errors = result.Errors;
if (errors != null)
{
if (errors.HasErrors)
{
Tools.WriteLine("Failed to compile source plugin:");
}
foreach (System.CodeDom.Compiler.CompilerError error in errors)
{
if (error.IsWarning)
{
Tools.WriteLine(error.ToString());
}
else
{
Tools.WriteLine(error.ToString());
}
}
if (errors.HasErrors)
{
return(null);
}
}
return(LoadPluginAssembly(result.CompiledAssembly));
}
private void Compile(int index, params string[] references)
{
CodeDomProvider provider = new Microsoft.CSharp.CSharpCodeProvider();
string file = (string)CodeFiles[index];
string asm = (string)AsmFiles[index];
CompilerParameters prms = new CompilerParameters(references, asm);
CompilerResults results = provider.CompileAssemblyFromFile(prms, file);
foreach (string output in results.Output)
{
Console.WriteLine(output);
}
Assert.IsFalse(results.Errors.HasErrors);
}
private static Assembly CompileCode(string fileName)
{
// Create a code provider
// This class implements the 'CodeDomProvider' class as its base. All of the current .Net languages (at least Microsoft ones)
// come with thier own implemtation, thus you can allow the user to use the language of thier choice (though i recommend that
// you don't allow the use of c++, which is too volatile for scripting use - memory leaks anyone?)
Microsoft.CSharp.CSharpCodeProvider csProvider = new Microsoft.CSharp.CSharpCodeProvider();
// Setup our options
CompilerParameters options = new CompilerParameters();
options.GenerateExecutable = false; // we want a Dll (or "Class Library" as its called in .Net)
options.GenerateInMemory = true; // Saves us from deleting the Dll when we are done with it, though you could set this to false and save start-up time by next time by not having to re-compile
// And set any others you want, there a quite a few, take some time to look through them all and decide which fit your application best!
// Add any references you want the users to be able to access, be warned that giving them access to some classes can allow
// harmful code to be written and executed. I recommend that you write your own Class library that is the only reference it allows
// thus they can only do the things you want them to.
// (though things like "System.Xml.dll" can be useful, just need to provide a way users can read a file to pass in to it)
// Just to avoid bloatin this example to much, we will just add THIS program to its references, that way we don't need another
// project to store the interfaces that both this class and the other uses. Just remember, this will expose ALL public classes to
// the "script"
options.ReferencedAssemblies.Add(Assembly.GetExecutingAssembly().Location);
// Compile our code
CompilerResults result;
result = csProvider.CompileAssemblyFromFile(options, fileName);
if (result.Errors.HasErrors)
{
Console.WriteLine(result.ToString());
// TODO: report back to the user that the script has errored
return(null);
}
if (result.Errors.HasWarnings)
{
// TODO: tell the user about the warnings, might want to prompt them if they want to continue
// runnning the "script"
}
return(result.CompiledAssembly);
}
public static void BuildAssembly(string name, string suffix = null, string options = null )
{
Microsoft.CSharp.CSharpCodeProvider provider = new Microsoft.CSharp.CSharpCodeProvider( );
CompilerParameters cp = new CompilerParameters( );
cp.GenerateExecutable = false;
cp.GenerateInMemory = false;
cp.TreatWarningsAsErrors = true;
if ( !String.IsNullOrEmpty( options ) )
cp.CompilerOptions = options;
string dllName = String.IsNullOrEmpty( suffix ) ? name : name + suffix;
cp.OutputAssembly = GetAssemblyPath (dllName);
CompilerResults cr = provider.CompileAssemblyFromFile( cp, Path.Combine( InputPath, name + ".cs" ) );
if ( cr.Errors.HasErrors ) {
Assert.True(false, "Unable to compile test assembly: " + dllName);
}
}
public string Result(Form1 form1)
{
List <string> sourceFiles = new List <string>();
sourceFiles.Add(getObfuscateFilename());
sourceFiles.Add(getAssemblyFilename(form1));
sourceFiles.RemoveAll(s => s == "");//V122
// Invoke compilation.
CodeDomProvider provider = new Microsoft.CSharp.CSharpCodeProvider();
CompilerResults cr = provider.CompileAssemblyFromFile(cp, sourceFiles.ToArray());
string result = "";
if (cr.Errors.Count > 0)
{
result = string.Format("Errors building {0}", cr.PathToAssembly);
foreach (CompilerError ce in cr.Errors)
{
result += "\n" + ce.ToString();
}
Console.WriteLine(result);
}
return(result);
}
//------------------------------------------------------
//
// Internal Methods
//
//------------------------------------------------------
#region Internal Methods
/// <summary>
/// Parse & compile a C# prime project.
/// </summary>
internal static Project Build(
Parameters parameters
)
{
TempDirectory tempDirectory = new TempDirectory();
string[] intermediateSource = null;
if (parameters.EnableCsPrime)
{
intermediateSource = CsPrimeParser.Parse(
parameters.SourceFiles,
/* sourceDebuggingSupport = */ true
);
}
ArrayList referencedAssemblies = new ArrayList();
// Add some implicit referenced assemblies.
referencedAssemblies.Add(Path.Combine(parameters.ClrDir, "System.dll"));
if (parameters.EnableCsPrime)
{
// Needed so that the project can access MS.Internal.Csp.CsPrimeRuntime.
// (The parser generates references to it.)
referencedAssemblies.Add(System.Windows.Forms.Application.ExecutablePath);
}
referencedAssemblies.AddRange(parameters.ReferencedAssemblies);
CompilerParameters cp = new CompilerParameters(
(string[])referencedAssemblies.ToArray(typeof(string))
);
cp.GenerateExecutable = true;
cp.IncludeDebugInformation = true;
// GenerateInMemory:
// If true: Neither cordbg nor Rascal can find symbols.
// If false: TempDirectory.Dispose throws an exception if it tries to
// clear the directory, because the CLR still has the .exe file open.
if (parameters.DebugModeHack)
{
cp.GenerateInMemory = false;
tempDirectory.SetToLeak(); // Since cleanup seems impossible
}
else
{
cp.GenerateInMemory = true;
}
// In order to generate a .pdb that Rascal can use, OutputAssembly
// must be set to something (i.e. not the default which creates a
// temporary file).
//
// (Hence the futzing with TempDirectory).
cp.OutputAssembly = Path.Combine(tempDirectory.PathName, "csp.project.exe");
if (parameters.MainClass != null)
{
cp.MainClass = parameters.MainClass;
}
Microsoft.CSharp.CSharpCodeProvider codeCompiler = new Microsoft.CSharp.CSharpCodeProvider();
CompilerResults results;
if (parameters.EnableCsPrime)
{
results = codeCompiler.CompileAssemblyFromSource(cp, intermediateSource);
}
else
{
results = codeCompiler.CompileAssemblyFromFile(cp, parameters.SourceFiles);
}
if (results.Output.Count > 0)
{
Console.WriteLine("Output from compiler:");
foreach (String s in results.Output)
{
Console.WriteLine(s);
}
}
if (results.Errors.Count > 0)
{
Console.WriteLine("Aborting.");
return(null);
}
return(new Project(
results.CompiledAssembly,
tempDirectory,
parameters.BreakBeforeInvoke
));
}
private void CompilePluginsDirectory()
{
var compiler = new Microsoft.CSharp.CSharpCodeProvider();
var parms = new CompilerParameters()
{
GenerateExecutable = false,
GenerateInMemory = true
};
parms.ReferencedAssemblies.Add("System.Core.dll");
parms.ReferencedAssemblies.Add("EQEmu.dll");
var files = Directory.GetFiles(".\\Plugins");
if (files.Count() > 0)
{
files = files.Where(x => x.Contains(".cs")).ToArray();
if (files.Count() > 0)
{
var results = compiler.CompileAssemblyFromFile(parms, files);
if (results.Errors.HasErrors)
{
string errorMessage = "There were compilation errors from source files in the plugin directory:" + System.Environment.NewLine; ;
foreach (var err in results.Errors)
{
errorMessage += err.ToString() + System.Environment.NewLine;
}
var window = new TextWindow(errorMessage);
window.ShowDialog();
}
else
{
//the get accessor loads the assembly into the appdomain
var assembly = results.CompiledAssembly;
}
}
}
}
/// <summary>
/// Compiles the module.
/// </summary>
/// <param name="codeTexts">The code texts.</param>
/// <param name="module">The module.</param>
/// <param name="references">The references.</param>
/// <param name="objParams">The object parameters.</param>
/// <param name="pluginSystemVersion">The plugin system version.</param>
/// <returns></returns>
static public PluginCommon CompileModule(string[] codeTexts, string module,
string[] references, object objParams, string pluginSystemVersion)
{
string compiledName = AssemblyUtils.CompiledPluginName(module, pluginSystemVersion,
string.Concat("-", AssemblyUtils.TimeStampForFile(DateTime.Now), ".dll"));
//string compiledName = CompiledPluginName(module, pluginSystemVersion,
// string.Concat("-", Path.GetRandomFileName().Substring(0, 8), ".dll"));
CompilerParameters cp =
new CompilerParameters(new[] { "System.Windows.Forms.dll", "System.dll",
"System.Data.dll", "System.Drawing.dll", "System.Xml.dll" },
chachePath + compiledName,
#if DEBUG
true);
#else
false);
#endif
cp.TempFiles = new TempFileCollection(chachePath, false); //set directory
cp.ReferencedAssemblies.Add(System.Windows.Forms.Application.ExecutablePath);
cp.GenerateExecutable = false;
cp.GenerateInMemory = false;
cp.CompilerOptions = "/optimize";
cp.WarningLevel = 4; //to do not consider C00618 warning (obsolete PluginBaseV0_0 class)
cp.MainClass = "Gear.PluginSupport." + module;
//traverse list adding not null nor empty texts
foreach (string s in references)
{
if (!string.IsNullOrEmpty(s))
{
cp.ReferencedAssemblies.Add(s);
}
}
CodeDomProvider provider = new Microsoft.CSharp.CSharpCodeProvider();
try
{
if (!Directory.Exists(chachePath))
{
Directory.CreateDirectory(chachePath);
}
else
{
try
{
Directory.Delete(chachePath, true);
Directory.CreateDirectory(chachePath);
}
catch (Exception e)
{
CompilerError c =
new CompilerError(string.Empty, 0, 0, "Pre-build", e.Message);
m_Errors = new CompilerErrorCollection(new CompilerError[] { c });
return(null);
}
}
//write the codes to compile later
string[] sourceFiles = new string[codeTexts.Length];
for (int i = 0; i < codeTexts.Length; i++)
{
sourceFiles[i] = string.Format(chachePath + "{0}-{1}.cs",
AssemblyUtils.CompiledPluginName(module, pluginSystemVersion,
string.Empty), i);
File.WriteAllText(sourceFiles[i], codeTexts[i]);
}
AppDomainSetup adSetup = new AppDomainSetup();
adSetup.ApplicationBase = System.Environment.CurrentDirectory;
adSetup.ApplicationName = "Plugin space App";
adSetup.ShadowCopyFiles = "true";
adSetup.CachePath = chachePath;
AppDomain pluginDomain = AppDomain.CreateDomain("pluginDomain", null, adSetup);
//compile the assembly
CompilerResults results = provider.CompileAssemblyFromFile(cp, sourceFiles);
if (results.Errors.HasErrors | results.Errors.HasWarnings)
{
m_Errors = results.Errors;
return(null);
}
string compiledAssembly = results.CompiledAssembly.FullName;
//PrintAssembliesLoaded(AppDomain.CurrentDomain, results.CompiledAssembly, true);
//byte[] rawAssembly = loadFile(@".\cache\" + compiledName);
//Assembly assemblyPlugin = pluginDomain.Load(rawAssembly, null);
//PrintAssembliesLoaded(pluginDomain, assemblyPlugin, true);
// TODO ASB: see links to help about running in a different AppDomain
//http://stackoverflow.com/questions/5380246/loading-services-from-other-dll-and-run-them-isolated/5380317#5380317
//http://stackoverflow.com/questions/599731/use-the-serializable-attribute-or-subclassing-from-marshalbyrefobject
//explore how to use MarshalByRefObject: http://www.softwareinteractions.com/blog/2010/2/7/loading-and-unloading-net-assemblies.html
//http://stackoverflow.com/questions/1687245/use-appdomain-to-load-unload-external-assemblies
object target = pluginDomain.CreateInstanceAndUnwrap(
compiledAssembly, //string assemblyName
module, //string typeName
false, //bool ignoreCase
BindingFlags.Public | BindingFlags.Instance, //BindingFlags bindingAttr
null, //Binder binder
(objParams != null) ? //object[] args
new object[] { objParams } :
null,
null, //CultureInfo culture
null); //object[] activationAttributes
PrintAssembliesLoaded(pluginDomain, results.CompiledAssembly, false);
if (target == null)
{
CompilerError c = new CompilerError(string.Empty, 0, 0, "CS0103",
"The name '" + module + "' does not exist in the current context." +
" Does the class name is the same that is declared in c# code?");
m_Errors = new CompilerErrorCollection(new CompilerError[] { c });
return(null);
}
else if (!PluginSystem.InstanceOneOfValidClasses(target))
{
CompilerError c = new CompilerError(string.Empty, 0, 0, "CS0029",
"Cannot implicitly convert type '" + target.GetType().FullName +
"' to '" + PluginSystem.GetPluginBaseType(pluginSystemVersion).FullName + "'");
m_Errors = new CompilerErrorCollection(new CompilerError[] { c });
return(null);
}
m_Errors = null;
return((PluginCommon)target);
}
catch (Exception e)
{
CompilerError c = new CompilerError(string.Empty, 0, 0, "Runtime",
string.Format("Plugin '{0}' - {1}", module, e.Message));
m_Errors = new CompilerErrorCollection(new CompilerError[] { c });
return(null);
}
}
private IAssemblyInfo Build(IBuilderContext builderContext, string libraryFile, params string[] sources)
{
var assemblyInfo = LoadAssemblyInfo(builderContext, sources);
HashSet <string> references = new HashSet <string>();
Dictionary <string, string> providerOptions = new Dictionary <string, string>();
providerOptions.Add("CompilerVersion", "v4.0");
CodeDomProvider provider = new Microsoft.CSharp.CSharpCodeProvider(providerOptions);
CompilerParameters cp = new CompilerParameters();
if (UseDefaultReferences)
{
foreach (string defaultReference in DefaultReferences)
{
references.Add(GetAssemblyDllPath(defaultReference));
}
}
foreach (string assemblyFile in _references)
{
references.Add(assemblyFile);
}
foreach (Assembly assembly in _assemblies)
{
if (!assembly.IsDynamic)
{
references.Add(assembly.Location);
}
}
cp.ReferencedAssemblies.AddRange(references.ToArray());
// Generate an library
cp.GenerateExecutable = false;
// Set the level at which the compiler
// should start displaying warnings.
cp.WarningLevel = 4;
// Set whether to treat all warnings as errors.
cp.TreatWarningsAsErrors = false;
// Set compiler argument to optimize output.
// TODO : figure out why it does not work when uncommenting the following line
// cp.CompilerOptions = "/optimize";
// Specify the assembly file name to generate
if (libraryFile == null)
{
cp.GenerateInMemory = true;
cp.IncludeDebugInformation = false;
}
else
{
cp.GenerateInMemory = false;
cp.IncludeDebugInformation = true;
cp.OutputAssembly = libraryFile;
}
// Notes:
// Avoid getting spoiled by environment variables.
// C# will give compilation errors if a LIB variable contains non-existing directories.
Environment.SetEnvironmentVariable("LIB", null);
// Invoke compilation of the source file.
CompilerResults cr = provider.CompileAssemblyFromFile(cp, assemblyInfo.SourceFiles.ToArray());
if (cr.Errors.HasErrors || cr.Errors.HasWarnings)
{
string errorMessage = "";
foreach (CompilerError ce in cr.Errors)
{
if (ce.IsWarning)
{
EventOutputWarning?.Invoke(ce + Environment.NewLine);
}
else
{
EventOutputError?.Invoke(ce + Environment.NewLine);
}
errorMessage += ce + Environment.NewLine;
}
if (cr.Errors.HasErrors)
{
if (builderContext.CompileErrorBehavior == BuilderCompileErrorBehavior.ThrowException)
{
throw new Error(errorMessage);
}
return(assemblyInfo);
}
}
assemblyInfo.Assembly = cr.CompiledAssembly;
assemblyInfo.Id = assemblyInfo.Assembly.Location;
return(assemblyInfo);
}
public static Assembly compilePlugin(string pluginFilePath)
{
CodeDomProvider codeDomProvider = new Microsoft.CSharp.CSharpCodeProvider();
CompilerParameters compilerParameters = new CompilerParameters();
compilerParameters.GenerateInMemory = true;
compilerParameters.ReferencedAssemblies.Add("System.dll");
compilerParameters.ReferencedAssemblies.Add("KARAS.dll");
CompilerResults compilerResults;
compilerResults = codeDomProvider.CompileAssemblyFromFile
(compilerParameters, pluginFilePath);
if (compilerResults.Errors.Count > 0)
{
string compileErrorText = "Failed to compile script :\""
+ pluginFilePath + "\"\n";
foreach (CompilerError compilerError in compilerResults.Errors)
compileErrorText += compilerError + "\n";
throw new ApplicationException(compileErrorText);
}
return compilerResults.CompiledAssembly;
}
private bool CompileScripts( )
{
if( _assets.ScriptItems.Count != 0 )
{
string folder = Path.Combine( Global.World.BuildFolderPath, "Content" );
if( !Directory.Exists( folder ) )
Directory.CreateDirectory( folder );
string[] scripts = new string[_assets.ScriptItems.Count];
int i = 0;
foreach( ScriptAssetItem scriptItem in _assets.ScriptItems.Values )
{
scripts[i] = scriptItem.FilePath;
i++;
}
string dllPath = Path.Combine( folder, "scripts.dll" );
Microsoft.CSharp.CSharpCodeProvider codeProvider = new Microsoft.CSharp.CSharpCodeProvider( );
System.CodeDom.Compiler.CompilerParameters parameters = new System.CodeDom.Compiler.CompilerParameters( );
parameters.GenerateExecutable = false;
parameters.OutputAssembly = dllPath;
parameters.ReferencedAssemblies.Add( "mscorlib.dll" );
parameters.ReferencedAssemblies.Add( "LunarEngine.dll" );
parameters.ReferencedAssemblies.Add( "Farseer Physics 3.0.dll" );
parameters.ReferencedAssemblies.Add( Assembly.GetAssembly( typeof( Microsoft.Xna.Framework.Input.Keys ) ).Location );
parameters.ReferencedAssemblies.Add( Assembly.GetAssembly( typeof( Microsoft.Xna.Framework.Game ) ).Location );
if( File.Exists( Global.World.PluginsFilePath ) )
{
using( StreamReader file = new StreamReader( File.OpenRead( Global.World.PluginsFilePath ) ) )
{
while( !file.EndOfStream )
{
string path = Path.Combine( Global.World.WorldFolderPath, file.ReadLine( ) );
if( File.Exists( path ) )
parameters.ReferencedAssemblies.Add( path );
else
{
MessageBox.Show( Path.GetFileName( path ) + " plugin is missing!" );
return false;
}
}
}
}
System.CodeDom.Compiler.CompilerResults results = codeProvider.CompileAssemblyFromFile( parameters, scripts );
_scriptEditor.DisplayErrors( results.Errors );
if( results.Errors.HasErrors || results.Errors.HasWarnings )
{
_scriptEditor.FocusErrorsDock( );
if( results.Errors.HasErrors )
return false;
}
}
_compiledScripts = true;
_itemBuildScripts.Enabled = false;
return true;
}
/// <summary>
/// Builds the assembly.
/// </summary>
/// <remarks>Throws an exception in case of any errors.</remarks>
/// <returns>The created and loaded assembly.</returns>
public Assembly Build()
{
Dictionary <string, string> providerOptions = new Dictionary <string, string>();
providerOptions.Add("CompilerVersion", "v4.0");
CodeDomProvider provider = new Microsoft.CSharp.CSharpCodeProvider(providerOptions);
// Collect references
HashSet <string> references = new HashSet <string>();
foreach (var defaultReference in DefaultReferences)
{
references.Add(defaultReference.Location);
}
foreach (var assemblyFile in References)
{
references.Add(assemblyFile);
}
foreach (var assembly in Assemblies)
{
if (!assembly.IsDynamic)
{
references.Add(assembly.Location);
}
}
// Setup compilation options
CompilerParameters cp = new CompilerParameters();
cp.GenerateExecutable = false;
cp.WarningLevel = 4;
cp.TreatWarningsAsErrors = false;
cp.ReferencedAssemblies.AddRange(references.ToArray());
if (string.IsNullOrEmpty(OutputPath))
{
cp.GenerateInMemory = true;
cp.IncludeDebugInformation = false;
}
else
{
cp.GenerateInMemory = false;
cp.IncludeDebugInformation = true;
cp.OutputAssembly = OutputPath;
}
// HACK: C# will give compilation errors if a LIB variable contains non-existing directories
Environment.SetEnvironmentVariable("LIB", null);
// Run the compilation
CompilerResults cr = provider.CompileAssemblyFromFile(cp, SourceFiles.ToArray());
// Process warnings
if (cr.Errors.HasWarnings)
{
foreach (CompilerError ce in cr.Errors)
{
if (ce.IsWarning)
{
Log.Warning(string.Format("{0} at {1}: {2}", ce.FileName, ce.Line, ce.ErrorText));
}
}
}
// Process errors
if (cr.Errors.HasErrors)
{
foreach (CompilerError ce in cr.Errors)
{
if (!ce.IsWarning)
{
Log.Error(string.Format("{0} at line {1}: {2}", ce.FileName, ce.Line, ce.ErrorText));
}
}
throw new Exception("Failed to build assembly.");
}
return(cr.CompiledAssembly);
}
private IAssemblyInfo Build(IBuilderContext builderContext, string libraryFile, params string[] sources)
{
var assemblyInfo = LoadAssemblyInfo(builderContext, sources);
HashSet <string> references = new HashSet <string>();
Dictionary <string, string> providerOptions = new Dictionary <string, string>();
providerOptions.Add("CompilerVersion", "v4.0");
CodeDomProvider provider = new Microsoft.CSharp.CSharpCodeProvider(providerOptions);
CompilerParameters cp = new CompilerParameters();
if (UseDefaultReferences)
{
foreach (string defaultReference in DefaultReferences)
{
references.Add(GetAssemblyDllPath(defaultReference));
}
}
foreach (string assemblyFile in _references)
{
references.Add(assemblyFile);
}
foreach (Assembly assembly in _assemblies)
{
if (!assembly.IsDynamic)
{
references.Add(assembly.Location);
}
}
cp.ReferencedAssemblies.AddRange(references.ToArray());
// Generate an library
cp.GenerateExecutable = false;
// Set the level at which the compiler
// should start displaying warnings.
cp.WarningLevel = 4;
// Set whether to treat all warnings as errors.
cp.TreatWarningsAsErrors = false;
// Set compiler argument to optimize output.
// TODO : figure out why it does not work when uncommenting the following line
// cp.CompilerOptions = "/optimize";
// If any defines are specified, pass them to the CSC.
if (_defines.Any())
{
cp.CompilerOptions = "-DEFINE:" + string.Join(",", _defines);
}
// Specify the assembly file name to generate
if (libraryFile == null)
{
cp.GenerateInMemory = true;
cp.IncludeDebugInformation = false;
}
else
{
cp.GenerateInMemory = false;
cp.IncludeDebugInformation = true;
cp.OutputAssembly = libraryFile;
}
// Notes:
// Avoid getting spoiled by environment variables.
// C# will give compilation errors if a LIB variable contains non-existing directories.
Environment.SetEnvironmentVariable("LIB", null);
// Configure Temp file collection to avoid deleting its temp file. We will delete them ourselves after the compilation
// For some reasons, this seems to add just enough delays to avoid the following first chance exception(probably caused by some handles in csc.exe)
// System.IO.IOException: 'The process cannot access the file 'C:\Users\xxx\AppData\Local\Temp\sa205152\sa205152.out' because it is being used by another process.'
// That exception wasn't causing real problems but was really annoying when debugging!
// Executed several times sharpmake and this first chance exception no longer occurs when KeepFiles is true.
cp.TempFiles.KeepFiles = true;
// Invoke compilation of the source file.
CompilerResults cr = provider.CompileAssemblyFromFile(cp, assemblyInfo.SourceFiles.ToArray());
// Manually delete the files in the temp files collection.
cp.TempFiles.Delete();
if (cr.Errors.HasErrors || cr.Errors.HasWarnings)
{
string errorMessage = "";
foreach (CompilerError ce in cr.Errors)
{
if (ce.IsWarning)
{
EventOutputWarning?.Invoke("{0}" + Environment.NewLine, ce.ToString());
}
else
{
EventOutputError?.Invoke("{0}" + Environment.NewLine, ce.ToString());
}
errorMessage += ce + Environment.NewLine;
}
if (cr.Errors.HasErrors)
{
if (builderContext == null || builderContext.CompileErrorBehavior == BuilderCompileErrorBehavior.ThrowException)
{
throw new Error(errorMessage);
}
return(assemblyInfo);
}
}
assemblyInfo.Assembly = cr.CompiledAssembly;
assemblyInfo.Id = assemblyInfo.Assembly.Location;
return(assemblyInfo);
}
System.Reflection.Assembly _CompileSource(string Input, bool InputIsFile, bool exe, string outputname)
{
string[] asmrefs = new string[AssemblyReferences.Count];
List<string> assemblydirs = new List<string>();
char[] slashes = new char[] { '/', '\\' };
for (int i = 0; i < asmrefs.Length; i++)
{
string ar = AssemblyReferences[i];
int ils = ar.LastIndexOfAny(slashes);
if (-1 != ils)
{
assemblydirs.Add(ar.Substring(0, ils));
ar = ar.Substring(ils + 1);
}
asmrefs[i] = ar;
}
StringBuilder localcompileropts = new StringBuilder();
{
for (int i = 0; i < assemblydirs.Count; i++)
{
localcompileropts.Append(" /lib:\"" + assemblydirs[i] + "\"");
}
}
System.CodeDom.Compiler.CompilerParameters cp = new System.CodeDom.Compiler.CompilerParameters(asmrefs);
cp.IncludeDebugInformation = _compilerdbg;
System.CodeDom.Compiler.CompilerResults cr = null;
bool alreadylogged = false;
string reason = "";
for (int rotor = 1; ; rotor++)
{
#if DEBUG
if (rotor > 3)
{
throw new System.IO.FileNotFoundException("ArrayComboList.CompileSource dynamic C# compilation: Unable to create DLL" + reason);
}
#endif
try
{
cp.OutputAssembly = outputname;
cp.GenerateExecutable = exe;
cp.GenerateInMemory = false;
cp.CompilerOptions = getcompileropts() + localcompileropts.ToString();
{
System.Threading.Mutex mdc = new System.Threading.Mutex(false, "DynCmp");
try
{
mdc.WaitOne();
}
catch (System.Threading.AbandonedMutexException)
{
}
try
{
Dictionary<string, string> providerOptions = new Dictionary<string, string>();
providerOptions["CompilerVersion"] = "v3.5";
using (Microsoft.CSharp.CSharpCodeProvider cscp = new Microsoft.CSharp.CSharpCodeProvider(providerOptions))
{
if (InputIsFile)
{
cr = cscp.CompileAssemblyFromFile(cp, Input);
}
else
{
cr = cscp.CompileAssemblyFromSource(cp, Input);
}
}
}
finally
{
mdc.ReleaseMutex();
mdc.Close();
}
}
if (cr.Errors.HasErrors)
{
try
{
lock (typeof(Compiler))
{
if (InputIsFile)
{
System.IO.File.Copy(Input, "error.cs", true); // overwrite=true
}
else
{
System.IO.File.WriteAllText("error.cs", Input);
}
}
}
catch
{
}
for (int i = 0; i < cr.Errors.Count; i++)
{
if (!cr.Errors[i].IsWarning)
{
throw new Exception("CompileSource code compile error: " + cr.Errors[i].ToString());
}
}
throw new Exception("CompileSource code compile error: " + cr.Errors[0].ToString());
}
if (0 != cr.NativeCompilerReturnValue)
{
//LogLine("CompileSource code compile did not return 0 (returned " + cr.NativeCompilerReturnValue.ToString() + "): ");
for (int i = 0; i < cr.Output.Count; i++)
{
string ss = cr.Output[i].Trim();
if (0 != ss.Length)
{
//LogLine(" C" + rotor.ToString() + "- " + cr.Output[i]);
}
}
}
#if DEBUG
if (rotor > 1)
{
System.Threading.Thread.Sleep(1000 * (rotor - 1));
}
#else
System.Threading.Thread.Sleep(1000 * rotor);
#endif
break; // Good.
}
catch (System.IO.IOException e)
{
if (!alreadylogged)
{
alreadylogged = true;
//LogLine("Rotor retry: " + e.ToString());
}
reason = ": " + e.ToString();
continue;
}
}
return cr.CompiledAssembly;
}
public Assembly compileSourceCode_Sync(string sourceCode)
{
if (sourceCode.notValid())
{
return(null);
}
try
{
Environment.CurrentDirectory = PublicDI.config.CurrentExecutableDirectory;
CompiledAssembly = null;
beforeCompile.invoke();
DebugMode.ifInfo("Compiling Source Code (Size: {0})", sourceCode.size());
SourceCode = sourceCode;
if (sourceCode.lines().starting("//CLR_3.5").notEmpty()) // allow setting compilation into 2.0 CLR
{
CompilationVersion = "v3.5";
}
var providerOptions = new Dictionary <string, string>().add("CompilerVersion", CompilationVersion);
var csharpCodeProvider = new Microsoft.CSharp.CSharpCodeProvider(providerOptions);
var compilerParams = new CompilerParameters();
compilerParams.OutputAssembly = "_o2_Script.dll".tempFile();
compilerParams.IncludeDebugInformation = generateDebugSymbols;
compilerParams.GenerateInMemory = !generateDebugSymbols;
foreach (var referencedAssembly in ReferencedAssemblies)
{
compilerParams.ReferencedAssemblies.Add(referencedAssembly);
}
CompilerResults = (generateDebugSymbols)
? csharpCodeProvider.CompileAssemblyFromFile(compilerParams,
sourceCode.saveWithExtension(".cs"))
: csharpCodeProvider.CompileAssemblyFromSource(compilerParams, sourceCode);
if (CompilerResults.Errors.Count > 0 || CompilerResults.CompiledAssembly == null)
{
CompilationErrors = "";
foreach (CompilerError error in CompilerResults.Errors)
{
//CompilationErrors.Add(CompilationErrors.line(error.ToString());
var errorMessage = String.Format("{0}::{1}::{2}::{3}::{4}", error.Line,
error.Column, error.ErrorNumber,
error.ErrorText, error.FileName);
CompilationErrors = CompilationErrors.line(errorMessage);
"[CSharp_FastCompiler] Compilation Error: {0}".error(errorMessage);
}
DebugMode.ifError("Compilation failed");
onCompileFail.invoke();
}
else
{
CompiledAssembly = CompilerResults.CompiledAssembly;
if (CompiledAssembly.Location.fileExists())
{
CompileEngine.setCachedCompiledAssembly_toMD5(sourceCode, CompiledAssembly);
}
DebugMode.ifDebug("Compilation was OK");
onCompileOK.invoke();
}
return(CompiledAssembly);
}
catch (Exception ex)
{
ex.log("[compileSourceCode_Sync");
return(null);
}
}
/// <summary>
/// On error: Throw exception.
/// </summary>
private static void CompileScript(string scriptPath, string assemblyPath)
{
using (CodeDomProvider codeDomProvider = new Microsoft.CSharp.CSharpCodeProvider())
{
string[] assemblyNames = new string[]{
"mscorlib.dll",
"System.dll",
"System.Data.dll",
"System.Drawing.dll",
"System.Xml.dll",
"System.Core.dll",
"System.Windows.Forms.dll",
Path.Combine(Lib.AppDir, "NoConsoleLib.dll")
};
CompilerParameters compilerParameters = new CompilerParameters(assemblyNames)
{
OutputAssembly = assemblyPath,
GenerateExecutable = false,
GenerateInMemory = false,
WarningLevel = 3,
CompilerOptions = "/optimize",
IncludeDebugInformation = COMPILED_SCRIPT_INCLUDE_DEBUG_INFORMATION,
//TempFiles = new TempFileCollection(".", true)
};
CompilerResults compilerResults = codeDomProvider.CompileAssemblyFromFile(
compilerParameters,
new string[] { scriptPath });
/* This prints low-level messages like this, as well as error messages:
*
* G:\tmp\CsCompilerTest\WorkingDir> "C:\Windows\Microsoft.NET\Framework\v4.0.30319
* \csc.exe" /t:library /utf8output /out:"C:\Users\Adam Sawicki\AppData\Local\Temp\
* 0pdzupen.dll" /debug- /optimize+ /w:3 /optimize "C:\Users\Adam Sawicki\AppData\
* Local\Temp\0pdzupen.0.cs"
* Microsoft (R) Visual C# 2010 Compiler version 4.0.30319.1
* Copyright (C) Microsoft Corporation. All rights reserved.
*/
//foreach (String message in compilerResults.Output)
// Console.WriteLine(message);
/* This prints error messages in form of:
*
* c:\Users\Adam Sawicki\AppData\Local\Temp\4kbqoyz2.0.cs(7,9) : error CS0103: The
* name 'Console' does not exist in the current context
*/
//foreach (CompilerError error in compilerResults.Errors)
// Console.WriteLine(error.ToString());
if (compilerResults.NativeCompilerReturnValue != 0)
{
StringBuilder sb = new StringBuilder("Compilation failed.\n");
foreach (CompilerError error in compilerResults.Errors)
sb.AppendLine(error.ToString());
throw new Exception(sb.ToString());
}
}
}
private void WriteProject(SolutionNode solution, ProjectNode project)
{
string solutionDir = Path.Combine(solution.FullPath, Path.Combine("autotools", solution.Name));
string projectDir = Path.Combine(solutionDir, project.Name);
string projectVersion = project.Version;
bool hasAssemblyConfig = false;
chkMkDir(projectDir);
ArrayList
compiledFiles = new ArrayList(),
contentFiles = new ArrayList(),
embeddedFiles = new ArrayList(),
binaryLibs = new ArrayList(),
pkgLibs = new ArrayList(),
systemLibs = new ArrayList(),
runtimeLibs = new ArrayList(),
extraDistFiles = new ArrayList(),
localCopyTargets = new ArrayList();
// If there exists a .config file for this assembly, copy it to the project folder
// TODO: Support copying .config.osx files
// TODO: support processing the .config file for native library deps
string projectAssemblyName = project.Name;
if(project.AssemblyName != null)
projectAssemblyName = project.AssemblyName;
if(File.Exists(Path.Combine(project.FullPath, projectAssemblyName) + ".dll.config")){
hasAssemblyConfig = true;
System.IO.File.Copy(Path.Combine(project.FullPath, projectAssemblyName + ".dll.config"), Path.Combine(projectDir, projectAssemblyName + ".dll.config"), true);
extraDistFiles.Add(project.AssemblyName + ".dll.config");
}
foreach(ConfigurationNode conf in project.Configurations)
{
if(conf.Options.KeyFile != string.Empty){
// Copy snk file into the project's directory
// Use the snk from the project directory directly
string source = Path.Combine(project.FullPath, conf.Options.KeyFile);
string keyFile = conf.Options.KeyFile;
Regex re = new Regex(".*/");
keyFile = re.Replace(keyFile, "");
string dest = Path.Combine(projectDir, keyFile);
// Tell the user if there's a problem copying the file
try{
mkdirDashP(System.IO.Path.GetDirectoryName(dest));
System.IO.File.Copy(source, dest, true);
}catch(System.IO.IOException e){
Console.WriteLine(e.Message);
}
}
}
// Copy compiled, embedded and content files into the project's directory
foreach(string filename in project.Files)
{
string source = Path.Combine(project.FullPath, filename);
string dest = Path.Combine(projectDir, filename);
if(filename.Contains("AssemblyInfo.cs")){
// If we've got an AssemblyInfo.cs, pull the version number from it
string[] sources = { source };
string[] args = { "" };
Microsoft.CSharp.CSharpCodeProvider cscp =
new Microsoft.CSharp.CSharpCodeProvider();
string tempAssemblyFile = Path.Combine(Path.GetTempPath(), project.Name + "-temp.dll");
System.CodeDom.Compiler.CompilerParameters cparam =
new System.CodeDom.Compiler.CompilerParameters (args, tempAssemblyFile);
System.CodeDom.Compiler.CompilerResults cr =
cscp.CompileAssemblyFromFile(cparam, sources);
foreach(System.CodeDom.Compiler.CompilerError error in cr.Errors)
Console.WriteLine("Error! '{0}'", error.ErrorText);
string projectFullName = cr.CompiledAssembly.FullName;
Regex verRegex = new Regex("Version=([\\d\\.]+)");
Match verMatch = verRegex.Match(projectFullName);
if(verMatch.Success)
projectVersion = verMatch.Groups[1].Value;
// Clean up the temp file
if(File.Exists(tempAssemblyFile))
File.Delete(tempAssemblyFile);
}
// Tell the user if there's a problem copying the file
try{
mkdirDashP(System.IO.Path.GetDirectoryName(dest));
System.IO.File.Copy(source, dest, true);
}catch(System.IO.IOException e){
Console.WriteLine(e.Message);
}
switch(project.Files.GetBuildAction(filename))
{
case BuildAction.Compile:
compiledFiles.Add(filename);
break;
case BuildAction.Content:
contentFiles.Add(filename);
extraDistFiles.Add(filename);
break;
case BuildAction.EmbeddedResource:
embeddedFiles.Add(filename);
extraDistFiles.Add(filename);
break;
}
}
// Set up references
for(int refNum = 0; refNum < project.References.Count; refNum++)
{
ReferenceNode refr = (ReferenceNode)project.References[refNum];
Assembly refAssembly = Assembly.LoadWithPartialName(refr.Name);
// Determine which pkg-config (.pc) file refers to this assembly
string assemblyFullName = string.Empty;
if(refAssembly != null)
assemblyFullName = refAssembly.FullName;
string assemblyFileName = string.Empty;
if(assemblyFullName != string.Empty && assemblyFullNameToPath.Contains(assemblyFileName))
assemblyFileName = (string)assemblyFullNameToPath[assemblyFullName];
SystemPackage package = null;
if(assemblyFileName != string.Empty && assemblyPathToPackage.Contains(assemblyFileName))
package = (SystemPackage)assemblyPathToPackage[assemblyFileName];
// If we know the .pc file and it is not "mono" (already in the path), add a -pkg: argument
if(package != null && package.Name != "mono" && !pkgLibs.Contains(package.Name))
pkgLibs.Add(package.Name);
string fileRef = FindFileReference(refr.Name, (ProjectNode)refr.Parent);
if(refr.LocalCopy ||
solution.ProjectsTable.ContainsKey(refr.Name) ||
fileRef != null ||
refr.Path != null
){
// Attempt to copy the referenced lib to the project's directory
string filename = refr.Name + ".dll";
string source = filename;
if(refr.Path != null)
source = Path.Combine(refr.Path, source);
source = Path.Combine(project.FullPath, source);
string dest = Path.Combine(projectDir, filename);
/* Since we depend on this binary dll to build, we will add a compile-
* time dependency on the copied dll, and add the dll to the list of files
* distributed with this package
*/
binaryLibs.Add(refr.Name + ".dll");
extraDistFiles.Add(refr.Name + ".dll");
// TODO: Support copying .config.osx files
// TODO: Support for determining native dependencies
if(File.Exists(source + ".config")){
System.IO.File.Copy(source + ".config", Path.GetDirectoryName(dest), true);
extraDistFiles.Add(refr.Name + ".dll.config");
}
try {
System.IO.File.Copy(source, dest, true);
}catch(System.IO.IOException){
/* If a file is referenced and marked for local copy, but does not exist,
* let's assume it will be built some time between now and when this
* project is built.
*
* We put a hook into the Makefile.am to copy the dll to this project's
* directory
*/
ProjectNode sourcePrj = ((ProjectNode)(solution.ProjectsTable[refr.Name]));
string target =
filename + ":\n\tcp ../" + Path.Combine(sourcePrj.Name, filename) + " $@\n";
if(solution.ProjectsTable.ContainsKey(refr.Name))
localCopyTargets.Add(target);
}
}else{
// Else, let's assume it's in the GAC or the lib path
string assemName = string.Empty;
int index = refr.Name.IndexOf(",");
if ( index > 0)
assemName = refr.Name.Substring(0, index);
else
assemName = refr.Name;
systemLibs.Add(assemName);
}
}
string lineSep = " \\\n\t";
string compiledFilesString = string.Empty;
if(compiledFiles.Count > 0)
compiledFilesString =
lineSep + string.Join(lineSep, (string[])compiledFiles.ToArray(typeof(string)));
string embeddedFilesString = "";
if(embeddedFiles.Count > 0)
embeddedFilesString =
lineSep + string.Join(lineSep, (string[])embeddedFiles.ToArray(typeof(string)));
string contentFilesString = "";
if(contentFiles.Count > 0)
contentFilesString =
lineSep + string.Join(lineSep, (string[])contentFiles.ToArray(typeof(string)));
string extraDistFilesString = "";
if(extraDistFiles.Count > 0)
extraDistFilesString =
lineSep + string.Join(lineSep, (string[])extraDistFiles.ToArray(typeof(string)));
string pkgLibsString = "";
if(pkgLibs.Count > 0)
pkgLibsString =
lineSep + string.Join(lineSep, (string[])pkgLibs.ToArray(typeof(string)));
string binaryLibsString = "";
if(binaryLibs.Count > 0)
binaryLibsString =
lineSep + string.Join(lineSep, (string[])binaryLibs.ToArray(typeof(string)));
string systemLibsString = "";
if(systemLibs.Count > 0)
systemLibsString =
lineSep + string.Join(lineSep, (string[])systemLibs.ToArray(typeof(string)));
string localCopyTargetsString = "";
if(localCopyTargets.Count > 0)
localCopyTargetsString =
string.Join("\n", (string[])localCopyTargets.ToArray(typeof(string)));
string monoPath = "";
foreach( string runtimeLib in runtimeLibs ){
monoPath += ":`pkg-config --variable=libdir " + runtimeLib + "`";
}
// Add the project name to the list of transformation
// parameters
XsltArgumentList argList = new XsltArgumentList();
argList.AddParam("projectName", "", project.Name);
argList.AddParam("solutionName", "", solution.Name);
argList.AddParam("assemblyName", "", projectAssemblyName);
argList.AddParam("compiledFiles", "", compiledFilesString);
argList.AddParam("embeddedFiles", "", embeddedFilesString);
argList.AddParam("contentFiles", "", contentFilesString);
argList.AddParam("extraDistFiles", "", extraDistFilesString);
argList.AddParam("pkgLibs", "", pkgLibsString);
argList.AddParam("binaryLibs", "", binaryLibsString);
argList.AddParam("systemLibs", "", systemLibsString);
argList.AddParam("monoPath", "", monoPath);
argList.AddParam("localCopyTargets", "", localCopyTargetsString);
argList.AddParam("projectVersion", "", projectVersion);
argList.AddParam("hasAssemblyConfig", "", hasAssemblyConfig ? "true" : "");
// Transform the templates
transformToFile(Path.Combine(projectDir, "configure.ac"), argList, "/Autotools/ProjectConfigureAc");
transformToFile(Path.Combine(projectDir, "Makefile.am"), argList, "/Autotools/ProjectMakefileAm");
transformToFile(Path.Combine(projectDir, "autogen.sh"), argList, "/Autotools/ProjectAutogenSh");
if(project.Type == Core.Nodes.ProjectType.Library)
transformToFile(Path.Combine(projectDir, project.Name + ".pc.in"),argList,"/Autotools/ProjectPcIn");
if(project.Type == Core.Nodes.ProjectType.Exe || project.Type == Core.Nodes.ProjectType.WinExe)
transformToFile(Path.Combine(projectDir, project.Name.ToLower() + ".in"),argList,"/Autotools/ProjectWrapperScriptIn");
// Create stubs for NEWS, README, ChangeLog
// These are required by automake
ArrayList automakeFiles = new ArrayList();
automakeFiles.Add( "NEWS" );
automakeFiles.Add( "README" );
automakeFiles.Add( "ChangeLog" );
mkStubFiles(projectDir, automakeFiles);
// Populate the AUTHORS file from the list of authors
// This is also required by automake
FileStream authorsFileStream =
new FileStream(Path.Combine(projectDir, "AUTHORS"),FileMode.Create);
StreamWriter authorsWriter =
new StreamWriter(authorsFileStream);
foreach(AuthorNode author in project.Authors)
authorsWriter.WriteLine(author.Signature);
authorsWriter.Flush();
authorsFileStream.Close();
}
CompilePackageAssembly(
bool enforceBamAssemblyVersions = true,
bool enableClean = true)
{
// validate build root
if (null == Graph.Instance.BuildRoot)
{
throw new Exception("Build root has not been specified");
}
var gatherSourceProfile = new TimeProfile(ETimingProfiles.GatherSource);
gatherSourceProfile.StartProfile();
IdentifyAllPackages(enforceBamAssemblyVersions: enforceBamAssemblyVersions);
var cleanFirst = CommandLineProcessor.Evaluate(new Options.CleanFirst());
if (enableClean && cleanFirst && System.IO.Directory.Exists(Graph.Instance.BuildRoot))
{
Log.Info("Deleting build root '{0}'", Graph.Instance.BuildRoot);
try
{
// make sure no files are read-only, which may have happened as part of collation preserving file attributes
var dirInfo = new System.IO.DirectoryInfo(Graph.Instance.BuildRoot);
foreach (var file in dirInfo.EnumerateFiles("*", System.IO.SearchOption.AllDirectories))
{
file.Attributes &= ~System.IO.FileAttributes.ReadOnly;
}
System.IO.Directory.Delete(Graph.Instance.BuildRoot, true);
}
catch (System.IO.IOException ex)
{
Log.Info("Failed to delete build root, because {0}. Continuing", ex.Message);
}
}
BuildModeUtilities.ValidateBuildModePackage();
var definitions = new StringArray();
// gather source files
var sourceCode = new StringArray();
int packageIndex = 0;
foreach (var package in Graph.Instance.Packages)
{
Log.DebugMessage("{0}: '{1}' @ '{2}'", packageIndex, package.Version, (package.PackageRepositories.Count > 0) ? package.PackageRepositories[0] : "Not in a repository");
// to compile with debug information, you must compile the files
// to compile without, we need to file contents to hash the source
if (Graph.Instance.CompileWithDebugSymbols)
{
var scripts = package.GetScriptFiles();
sourceCode.AddRange(scripts);
Log.DebugMessage(scripts.ToString("\n\t"));
}
else
{
foreach (var scriptFile in package.GetScriptFiles())
{
using (var reader = new System.IO.StreamReader(scriptFile))
{
sourceCode.Add(reader.ReadToEnd());
}
Log.DebugMessage("\t'{0}'", scriptFile);
}
}
foreach (var define in package.Definitions)
{
if (!definitions.Contains(define))
{
definitions.Add(define);
}
}
++packageIndex;
}
// add/remove other definitions
definitions.Add(VersionDefineForCompiler);
definitions.Add(HostPlatformDefineForCompiler);
definitions.Sort();
gatherSourceProfile.StopProfile();
var assemblyCompileProfile = new TimeProfile(ETimingProfiles.AssemblyCompilation);
assemblyCompileProfile.StartProfile();
// assembly is written to the build root
var cachedAssemblyPathname = System.IO.Path.Combine(Graph.Instance.BuildRoot, ".CachedPackageAssembly");
cachedAssemblyPathname = System.IO.Path.Combine(cachedAssemblyPathname, Graph.Instance.MasterPackage.Name) + ".dll";
var hashPathName = System.IO.Path.ChangeExtension(cachedAssemblyPathname, "hash");
string thisHashCode = null;
var cacheAssembly = !CommandLineProcessor.Evaluate(new Options.DisableCacheAssembly());
string compileReason = null;
if (Graph.Instance.CompileWithDebugSymbols)
{
compileReason = "debug symbols were enabled";
}
else
{
// can an existing assembly be reused?
thisHashCode = GetPackageHash(sourceCode, definitions, Graph.Instance.MasterPackage.BamAssemblies);
if (cacheAssembly)
{
if (System.IO.File.Exists(hashPathName))
{
using (var reader = new System.IO.StreamReader(hashPathName))
{
var diskHashCode = reader.ReadLine();
if (diskHashCode.Equals(thisHashCode))
{
Log.DebugMessage("Cached assembly used '{0}', with hash {1}", cachedAssemblyPathname, diskHashCode);
Log.Detail("Re-using existing package assembly");
Graph.Instance.ScriptAssemblyPathname = cachedAssemblyPathname;
assemblyCompileProfile.StopProfile();
return;
}
else
{
compileReason = "package source has changed since the last compile";
}
}
}
else
{
compileReason = "no previously compiled package assembly exists";
}
}
else
{
compileReason = "user has disabled package assembly caching";
}
}
// use the compiler in the current runtime version to build the assembly of packages
var clrVersion = System.Environment.Version;
var compilerVersion = System.String.Format("v{0}.{1}", clrVersion.Major, clrVersion.Minor);
Log.Detail("Compiling package assembly (C# compiler {0}{1}), because {2}.",
compilerVersion,
Graph.Instance.ProcessState.TargetFrameworkVersion != null ? (", targetting " + Graph.Instance.ProcessState.TargetFrameworkVersion) : string.Empty,
compileReason);
var providerOptions = new System.Collections.Generic.Dictionary <string, string>();
providerOptions.Add("CompilerVersion", compilerVersion);
if (Graph.Instance.ProcessState.RunningMono)
{
Log.DebugMessage("Compiling assembly for Mono");
}
using (var provider = new Microsoft.CSharp.CSharpCodeProvider(providerOptions))
{
var compilerParameters = new System.CodeDom.Compiler.CompilerParameters();
compilerParameters.TreatWarningsAsErrors = true;
compilerParameters.WarningLevel = 4;
compilerParameters.GenerateExecutable = false;
compilerParameters.GenerateInMemory = false;
if (Graph.Instance.CompileWithDebugSymbols)
{
compilerParameters.OutputAssembly = System.IO.Path.Combine(System.IO.Path.GetTempPath(), Graph.Instance.MasterPackage.Name) + ".dll";
}
else
{
compilerParameters.OutputAssembly = cachedAssemblyPathname;
}
var compilerOptions = "/checked+ /unsafe-";
if (Graph.Instance.CompileWithDebugSymbols)
{
compilerParameters.IncludeDebugInformation = true;
compilerOptions += " /optimize-";
}
else
{
compilerOptions += " /optimize+";
}
compilerOptions += " /platform:anycpu";
// define strings
compilerOptions += " /define:" + definitions.ToString(';');
compilerParameters.CompilerOptions = compilerOptions;
if (provider.Supports(System.CodeDom.Compiler.GeneratorSupport.Resources))
{
// Bam assembly
// TODO: Q: why is it only for the master package? Why not all of them, which may have additional dependencies?
foreach (var assembly in Graph.Instance.MasterPackage.BamAssemblies)
{
var assemblyFileName = System.String.Format("{0}.dll", assembly.Name);
var assemblyPathName = System.IO.Path.Combine(Graph.Instance.ProcessState.ExecutableDirectory, assemblyFileName);
compilerParameters.ReferencedAssemblies.Add(assemblyPathName);
}
// DotNet assembly
foreach (var desc in Graph.Instance.MasterPackage.DotNetAssemblies)
{
var assemblyFileName = System.String.Format("{0}.dll", desc.Name);
compilerParameters.ReferencedAssemblies.Add(assemblyFileName);
}
if (Graph.Instance.ProcessState.RunningMono)
{
compilerParameters.ReferencedAssemblies.Add("Mono.Posix.dll");
}
}
else
{
throw new Exception("C# compiler does not support Resources");
}
// this will create the build root directory as necessary
IOWrapper.CreateDirectory(System.IO.Path.GetDirectoryName(compilerParameters.OutputAssembly));
var results = Graph.Instance.CompileWithDebugSymbols ?
provider.CompileAssemblyFromFile(compilerParameters, sourceCode.ToArray()) :
provider.CompileAssemblyFromSource(compilerParameters, sourceCode.ToArray());
if (results.Errors.HasErrors || results.Errors.HasWarnings)
{
var message = new System.Text.StringBuilder();
message.AppendFormat("Failed to compile package '{0}'. There are {1} errors.", Graph.Instance.MasterPackage.FullName, results.Errors.Count);
message.AppendLine();
foreach (System.CodeDom.Compiler.CompilerError error in results.Errors)
{
message.AppendFormat("\t{0}({1}): {2} {3}", error.FileName, error.Line, error.ErrorNumber, error.ErrorText);
message.AppendLine();
}
if (!Graph.Instance.CompileWithDebugSymbols)
{
message.AppendLine();
ICommandLineArgument debugOption = new Options.UseDebugSymbols();
message.AppendFormat("Use the {0}/{1} command line option with bam for more accurate error messages.", debugOption.LongName, debugOption.ShortName);
message.AppendLine();
}
message.AppendLine();
ICommandLineArgument createDebugProjectOption = new Options.CreateDebugProject();
message.AppendFormat("Use the {0}/{1} command line option with bam to create an editable IDE project containing the build scripts.", createDebugProjectOption.LongName, createDebugProjectOption.ShortName);
message.AppendLine();
throw new Exception(message.ToString());
}
if (!Graph.Instance.CompileWithDebugSymbols)
{
if (cacheAssembly)
{
using (var writer = new System.IO.StreamWriter(hashPathName))
{
writer.WriteLine(thisHashCode);
}
}
else
{
// will not throw if the file doesn't exist
System.IO.File.Delete(hashPathName);
}
}
Log.DebugMessage("Written assembly to '{0}'", compilerParameters.OutputAssembly);
Graph.Instance.ScriptAssemblyPathname = compilerParameters.OutputAssembly;
}
assemblyCompileProfile.StopProfile();
}
public static BasePlugin LoadSourcePlugin(string path)
{
var cp = new Microsoft.CSharp.CSharpCodeProvider(compilerOptions);
var par = new System.CodeDom.Compiler.CompilerParameters();
par.GenerateExecutable = false;
par.GenerateInMemory = true;
par.IncludeDebugInformation = true;
//par.CompilerOptions = "/optimize";
par.TreatWarningsAsErrors = false;
var us = Assembly.GetExecutingAssembly();
par.ReferencedAssemblies.Add(us.Location);
//Add the libraries path as well as where TDSM is located
var directory = Path.GetDirectoryName(us.Location);
par.CompilerOptions = String.Format("/lib:{0}", Globals.LibrariesPath, directory);
// var execs = GetFiles(directory, "*.dll|*.exe");
foreach (var asn in us.GetReferencedAssemblies())
{
var name = asn.Name;
var execs = GetFiles(directory, name + ".dll|" + name + ".exe");
if (execs != null && execs.Length > 0)
{
name = execs[0];
}
par.ReferencedAssemblies.Add(name);
}
var result = cp.CompileAssemblyFromFile(par, path);
var errors = result.Errors;
if (errors != null)
{
if (errors.HasErrors)
{
ProgramLog.Error.Log("Failed to compile source plugin:");
}
foreach (System.CodeDom.Compiler.CompilerError error in errors)
{
if (error.IsWarning)
{
ProgramLog.BareLog(ProgramLog.Debug, error.ToString());
}
else
{
ProgramLog.BareLog(ProgramLog.Error, error.ToString());
}
}
if (errors.HasErrors)
{
return(null);
}
}
return(LoadPluginAssembly(result.CompiledAssembly));
}
private void Compile_Clicked(object sender, EventArgs e)
{
saveToolStripMenuItem_Click(sender, e);
if ((DialogResult)saver.Tag == DialogResult.OK)
{
using (Microsoft.CSharp.CSharpCodeProvider compiler = new Microsoft.CSharp.CSharpCodeProvider())
{
System.CodeDom.Compiler.CompilerResults results = compiler.CompileAssemblyFromFile(
new System.CodeDom.Compiler.CompilerParameters(
Compiler.UsedAssemblies.Select(name => name.Location).ToArray(),
saver.FileName.Substring(0, saver.FileName.LastIndexOf('\\') + 1) + "a.exe",
true)
{
MainClass = "MyNamespace.Program",
GenerateExecutable = true
},
saver.FileNames
);
if (results.Errors.Count > 0)
foreach (var error in results.Errors)
MessageBox.Show(error.ToString());
else
MessageBox.Show(results.PathToAssembly);
}
}
}
public static Assembly CompileFromFile(params string[] files)
{
var csharpParserType = EditorBinding.csharpParserType;
if (csharpParserType != null)
{
//var method = csharpParserType.GetMethod("CompileScript", new Type[] { typeof(IEnumerable<string>) });
//if(method != null) {
// List<string> scripts = new List<string>();
// foreach(var file in files) {
// scripts.Add(File.ReadAllText(file));
// }
// var compileResult = method.Invoke(null, new object[] { scripts as IEnumerable<string> }) as CompileResult;
// if(compileResult.assembly == null) {
// //compileResult.LogErrors();
// throw new Exception(compileResult.GetErrorMessage());
// }
// return compileResult.assembly;
//}
var method = csharpParserType.GetMethod("CompileFiles", new Type[] { typeof(IEnumerable <string>) });
if (method != null)
{
var compileResult = method.Invoke(null, new object[] { files as IEnumerable <string> }) as CompileResult;
if (compileResult.assembly == null)
{
//compileResult.LogErrors();
throw new Exception(compileResult.GetErrorMessage());
}
return(compileResult.assembly);
}
}
#if !NET_STANDARD_2_0
var provider = new Microsoft.CSharp.CSharpCodeProvider();
var param = new System.CodeDom.Compiler.CompilerParameters();
foreach (var assembly in EditorReflectionUtility.GetAssemblies())
{
try {
if (!string.IsNullOrEmpty(assembly.Location))
{
param.ReferencedAssemblies.Add(assembly.Location);
}
} catch { continue; }
}
// Generate a dll in memory
param.GenerateExecutable = false;
param.GenerateInMemory = true;
param.TreatWarningsAsErrors = false;
param.IncludeDebugInformation = true;
//No Waring
//param.WarningLevel = 0;
// Compile the source
var result = provider.CompileAssemblyFromFile(param, files);
if (result.Errors.Count > 0)
{
var msg = new System.Text.StringBuilder();
bool hasError = false;
foreach (System.CodeDom.Compiler.CompilerError error in result.Errors)
{
//Debug.LogError("Error (" + error.ErrorNumber + "): " + error.ErrorText + "\n");
if (error.IsWarning)
{
Debug.LogWarningFormat("Warning ({0}): {1}\nin line: {2}",
error.ErrorNumber, error.ErrorText, error.Line);
}
else
{
hasError = true;
msg.AppendFormat("Error ({0}): {1}\nin line: {2}:{3}\nin file:{4}\n", error.ErrorNumber, error.ErrorText, error.Line, error.Column, error.FileName);
}
}
if (hasError)
{
throw new Exception(msg.ToString());
}
}
// Return the assembly
return(result.CompiledAssembly);
#else
Debug.Log("Compiling script is disable due to unsupported in .NET Standard 2.0, change API compativility level to .NET 4.x to enable it or import CSharp Parser add-ons to compile with Roslyn instead.");
return(null);
#endif
}
public Assembly compileSourceCode_Sync(string sourceCode)
{
if (sourceCode.notValid())
return null;
try
{
Environment.CurrentDirectory = PublicDI.config.CurrentExecutableDirectory;
CompiledAssembly = null;
beforeCompile.invoke();
DebugMode.ifInfo("Compiling Source Code (Size: {0})", sourceCode.size());
SourceCode = sourceCode;
if (sourceCode.lines().starting("//CLR_3.5").notEmpty()) // allow setting compilation into 2.0 CLR
{
CompilationVersion = "v3.5";
}
var providerOptions = new Dictionary<string, string>().add("CompilerVersion", CompilationVersion);
var csharpCodeProvider = new Microsoft.CSharp.CSharpCodeProvider(providerOptions);
var compilerParams = new CompilerParameters();
compilerParams.OutputAssembly = "_o2_Script.dll".tempFile();
compilerParams.IncludeDebugInformation = generateDebugSymbols;
compilerParams.GenerateInMemory = !generateDebugSymbols;
foreach (var referencedAssembly in ReferencedAssemblies)
compilerParams.ReferencedAssemblies.Add(referencedAssembly);
CompilerResults = (generateDebugSymbols)
? csharpCodeProvider.CompileAssemblyFromFile(compilerParams,
sourceCode.saveWithExtension(".cs"))
: csharpCodeProvider.CompileAssemblyFromSource(compilerParams, sourceCode);
if (CompilerResults.Errors.Count > 0 || CompilerResults.CompiledAssembly == null)
{
CompilationErrors = "";
foreach (CompilerError error in CompilerResults.Errors)
{
//CompilationErrors.Add(CompilationErrors.line(error.ToString());
var errorMessage = String.Format("{0}::{1}::{2}::{3}::{4}", error.Line,
error.Column, error.ErrorNumber,
error.ErrorText, error.FileName);
CompilationErrors = CompilationErrors.line(errorMessage);
"[CSharp_FastCompiler] Compilation Error: {0}".error(errorMessage);
}
DebugMode.ifError("Compilation failed");
onCompileFail.invoke();
}
else
{
CompiledAssembly = CompilerResults.CompiledAssembly;
if (CompiledAssembly.Location.fileExists())
CompileEngine.setCachedCompiledAssembly_toMD5(sourceCode, CompiledAssembly);
DebugMode.ifDebug("Compilation was OK");
onCompileOK.invoke();
}
return CompiledAssembly;
}
catch (Exception ex)
{
ex.log("[compileSourceCode_Sync");
return null;
}
}
private void WriteProject(SolutionNode solution, ProjectNode project)
{
string solutionDir = Path.Combine(solution.FullPath, Path.Combine("autotools", solution.Name));
string projectDir = Path.Combine(solutionDir, project.Name);
string projectVersion = project.Version;
bool hasAssemblyConfig = false;
chkMkDir(projectDir);
List<string>
compiledFiles = new List<string>(),
contentFiles = new List<string>(),
embeddedFiles = new List<string>(),
binaryLibs = new List<string>(),
pkgLibs = new List<string>(),
systemLibs = new List<string>(),
runtimeLibs = new List<string>(),
extraDistFiles = new List<string>(),
localCopyTargets = new List<string>();
// If there exists a .config file for this assembly, copy
// it to the project folder
// TODO: Support copying .config.osx files
// TODO: support processing the .config file for native library deps
string projectAssemblyName = project.Name;
if (project.AssemblyName != null)
projectAssemblyName = project.AssemblyName;
if (File.Exists(Path.Combine(project.FullPath, projectAssemblyName) + ".dll.config"))
{
hasAssemblyConfig = true;
System.IO.File.Copy(Path.Combine(project.FullPath, projectAssemblyName + ".dll.config"), Path.Combine(projectDir, projectAssemblyName + ".dll.config"), true);
extraDistFiles.Add(project.AssemblyName + ".dll.config");
}
foreach (ConfigurationNode conf in project.Configurations)
{
if (conf.Options.KeyFile != string.Empty)
{
// Copy snk file into the project's directory
// Use the snk from the project directory directly
string source = Path.Combine(project.FullPath, conf.Options.KeyFile);
string keyFile = conf.Options.KeyFile;
Regex re = new Regex(".*/");
keyFile = re.Replace(keyFile, "");
string dest = Path.Combine(projectDir, keyFile);
// Tell the user if there's a problem copying the file
try
{
mkdirDashP(System.IO.Path.GetDirectoryName(dest));
System.IO.File.Copy(source, dest, true);
}
catch (System.IO.IOException e)
{
Console.WriteLine(e.Message);
}
}
}
// Copy compiled, embedded and content files into the project's directory
foreach (string filename in project.Files)
{
string source = Path.Combine(project.FullPath, filename);
string dest = Path.Combine(projectDir, filename);
if (filename.Contains("AssemblyInfo.cs"))
{
// If we've got an AssemblyInfo.cs, pull the version number from it
string[] sources = { source };
string[] args = { "" };
Microsoft.CSharp.CSharpCodeProvider cscp =
new Microsoft.CSharp.CSharpCodeProvider();
string tempAssemblyFile = Path.Combine(Path.GetTempPath(), project.Name + "-temp.dll");
System.CodeDom.Compiler.CompilerParameters cparam =
new System.CodeDom.Compiler.CompilerParameters(args, tempAssemblyFile);
System.CodeDom.Compiler.CompilerResults cr =
cscp.CompileAssemblyFromFile(cparam, sources);
foreach (System.CodeDom.Compiler.CompilerError error in cr.Errors)
Console.WriteLine("Error! '{0}'", error.ErrorText);
try {
string projectFullName = cr.CompiledAssembly.FullName;
Regex verRegex = new Regex("Version=([\\d\\.]+)");
Match verMatch = verRegex.Match(projectFullName);
if (verMatch.Success)
projectVersion = verMatch.Groups[1].Value;
}catch{
Console.WriteLine("Couldn't compile AssemblyInfo.cs");
}
// Clean up the temp file
try
{
if (File.Exists(tempAssemblyFile))
File.Delete(tempAssemblyFile);
}
catch
{
Console.WriteLine("Error! '{0}'", e);
}
}
// Tell the user if there's a problem copying the file
try
{
mkdirDashP(System.IO.Path.GetDirectoryName(dest));
System.IO.File.Copy(source, dest, true);
}
catch (System.IO.IOException e)
{
Console.WriteLine(e.Message);
}
switch (project.Files.GetBuildAction(filename))
{
case BuildAction.Compile:
compiledFiles.Add(filename);
break;
case BuildAction.Content:
contentFiles.Add(filename);
extraDistFiles.Add(filename);
break;
case BuildAction.EmbeddedResource:
embeddedFiles.Add(filename);
break;
}
}
// Set up references
for (int refNum = 0; refNum < project.References.Count; refNum++)
{
ReferenceNode refr = project.References[refNum];
Assembly refAssembly = Assembly.LoadWithPartialName(refr.Name);
/* Determine which pkg-config (.pc) file refers to
this assembly */
SystemPackage package = null;
if (packagesHash.ContainsKey(refr.Name))
{
package = packagesHash[refr.Name];
}
else
{
string assemblyFullName = string.Empty;
if (refAssembly != null)
assemblyFullName = refAssembly.FullName;
string assemblyFileName = string.Empty;
if (assemblyFullName != string.Empty &&
assemblyFullNameToPath.ContainsKey(assemblyFullName)
)
assemblyFileName =
assemblyFullNameToPath[assemblyFullName];
if (assemblyFileName != string.Empty &&
assemblyPathToPackage.ContainsKey(assemblyFileName)
)
package = assemblyPathToPackage[assemblyFileName];
}
/* If we know the .pc file and it is not "mono"
(already in the path), add a -pkg: argument */
if (package != null &&
package.Name != "mono" &&
!pkgLibs.Contains(package.Name)
)
pkgLibs.Add(package.Name);
string fileRef =
FindFileReference(refr.Name, (ProjectNode)refr.Parent);
if (refr.LocalCopy ||
solution.ProjectsTable.ContainsKey(refr.Name) ||
fileRef != null ||
refr.Path != null
)
{
/* Attempt to copy the referenced lib to the
project's directory */
string filename = refr.Name + ".dll";
string source = filename;
if (refr.Path != null)
source = Path.Combine(refr.Path, source);
source = Path.Combine(project.FullPath, source);
string dest = Path.Combine(projectDir, filename);
/* Since we depend on this binary dll to build, we
* will add a compile- time dependency on the
* copied dll, and add the dll to the list of
* files distributed with this package
*/
binaryLibs.Add(refr.Name + ".dll");
extraDistFiles.Add(refr.Name + ".dll");
// TODO: Support copying .config.osx files
// TODO: Support for determining native dependencies
if (File.Exists(source + ".config"))
{
System.IO.File.Copy(source + ".config", Path.GetDirectoryName(dest), true);
extraDistFiles.Add(refr.Name + ".dll.config");
}
try
{
System.IO.File.Copy(source, dest, true);
}
catch (System.IO.IOException)
{
if (solution.ProjectsTable.ContainsKey(refr.Name)){
/* If an assembly is referenced, marked for
* local copy, in the list of projects for
* this solution, but does not exist, put a
* target into the Makefile.am to build the
* assembly and copy it to this project's
* directory
*/
ProjectNode sourcePrj =
((solution.ProjectsTable[refr.Name]));
string target =
String.Format("{0}:\n" +
"\t$(MAKE) -C ../{1}\n" +
"\tln ../{2}/$@ $@\n",
filename,
sourcePrj.Name,
sourcePrj.Name );
localCopyTargets.Add(target);
}
}
}
else if( !pkgLibs.Contains(refr.Name) )
{
// Else, let's assume it's in the GAC or the lib path
string assemName = string.Empty;
int index = refr.Name.IndexOf(",");
if (index > 0)
assemName = refr.Name.Substring(0, index);
else
assemName = refr.Name;
m_Kernel.Log.Write(String.Format(
"Warning: Couldn't find an appropriate assembly " +
"for reference:\n'{0}'", refr.Name
));
systemLibs.Add(assemName);
}
}
const string lineSep = " \\\n\t";
string compiledFilesString = string.Empty;
if (compiledFiles.Count > 0)
compiledFilesString =
lineSep + string.Join(lineSep, compiledFiles.ToArray());
string embeddedFilesString = "";
if (embeddedFiles.Count > 0)
embeddedFilesString =
lineSep + string.Join(lineSep, embeddedFiles.ToArray());
string contentFilesString = "";
if (contentFiles.Count > 0)
contentFilesString =
lineSep + string.Join(lineSep, contentFiles.ToArray());
string extraDistFilesString = "";
if (extraDistFiles.Count > 0)
extraDistFilesString =
lineSep + string.Join(lineSep, extraDistFiles.ToArray());
string pkgLibsString = "";
if (pkgLibs.Count > 0)
pkgLibsString =
lineSep + string.Join(lineSep, pkgLibs.ToArray());
string binaryLibsString = "";
if (binaryLibs.Count > 0)
binaryLibsString =
lineSep + string.Join(lineSep, binaryLibs.ToArray());
string systemLibsString = "";
if (systemLibs.Count > 0)
systemLibsString =
lineSep + string.Join(lineSep, systemLibs.ToArray());
string localCopyTargetsString = "";
if (localCopyTargets.Count > 0)
localCopyTargetsString =
string.Join("\n", localCopyTargets.ToArray());
string monoPath = "";
foreach (string runtimeLib in runtimeLibs)
{
monoPath += ":`pkg-config --variable=libdir " + runtimeLib + "`";
}
// Add the project name to the list of transformation
// parameters
XsltArgumentList argList = new XsltArgumentList();
argList.AddParam("projectName", "", project.Name);
argList.AddParam("solutionName", "", solution.Name);
argList.AddParam("assemblyName", "", projectAssemblyName);
argList.AddParam("compiledFiles", "", compiledFilesString);
argList.AddParam("embeddedFiles", "", embeddedFilesString);
argList.AddParam("contentFiles", "", contentFilesString);
argList.AddParam("extraDistFiles", "", extraDistFilesString);
argList.AddParam("pkgLibs", "", pkgLibsString);
argList.AddParam("binaryLibs", "", binaryLibsString);
argList.AddParam("systemLibs", "", systemLibsString);
argList.AddParam("monoPath", "", monoPath);
argList.AddParam("localCopyTargets", "", localCopyTargetsString);
argList.AddParam("projectVersion", "", projectVersion);
argList.AddParam("hasAssemblyConfig", "", hasAssemblyConfig ? "true" : "");
// Transform the templates
transformToFile(Path.Combine(projectDir, "configure.ac"), argList, "/Autotools/ProjectConfigureAc");
transformToFile(Path.Combine(projectDir, "Makefile.am"), argList, "/Autotools/ProjectMakefileAm");
transformToFile(Path.Combine(projectDir, "autogen.sh"), argList, "/Autotools/ProjectAutogenSh");
if (project.Type == Core.Nodes.ProjectType.Library)
transformToFile(Path.Combine(projectDir, project.Name + ".pc.in"), argList, "/Autotools/ProjectPcIn");
if (project.Type == Core.Nodes.ProjectType.Exe || project.Type == Core.Nodes.ProjectType.WinExe)
transformToFile(Path.Combine(projectDir, project.Name.ToLower() + ".in"), argList, "/Autotools/ProjectWrapperScriptIn");
}
private void Scan()
{
try
{
BotShell.Output("[Plugins] Starting Plugin Scan...");
if (this.PluginLoaders == null)
{
this.PluginLoaders = new SortedDictionary <string, PluginLoader>();
}
lock (this.PluginLoaders)
this.PluginLoaders.Clear();
List <ScannedAssembly> assemblies = new List <ScannedAssembly>();
// Add this Assembly to the list
assemblies.Add(new ScannedAssembly(Assembly.LoadFrom("VhaBot.CorePlugins.dll"), AssemblyType.Buildin, "VhaBot.CorePlugins.dll"));
// Scan for DLLs
string dllPath = this.PluginsPath.Contains(";") ? this.PluginsPath.Substring(0, this.PluginsPath.IndexOf(';')) : this.PluginsPath;
string[] dlls = new string[0];
try { dlls = Directory.GetFiles("." + Path.DirectorySeparatorChar + dllPath + Path.DirectorySeparatorChar, "*.dll"); }
catch { }
foreach (string dll in dlls)
{
string shortDll = Path.GetFileName(dll);
if (shortDll.Length < 1 || shortDll.ToCharArray()[0] == '_')
{
BotShell.Output("[Plugins] Skipped DLL: " + shortDll, true);
continue;
}
BotShell.Output("[Plugins] Found DLL: " + shortDll, true);
try
{
assemblies.Add(new ScannedAssembly(Assembly.LoadFrom(dll), AssemblyType.Binary, shortDll));
}
catch (Exception ex)
{
BotShell.Output("[Plugins] Failed Loading DLL " + shortDll + ": " + ex.ToString());
}
}
// Scan for plugin files
string[] paths = this.PluginsPath.Split(new char[] { ';' }, StringSplitOptions.RemoveEmptyEntries);
foreach (string path in paths)
{
if (path == null || path == string.Empty)
{
continue;
}
if (!Directory.Exists(path))
{
continue;
}
List <string> filesSharp = new List <string>();
foreach (string file in Directory.GetFiles(path + Path.DirectorySeparatorChar, "*.cs"))
{
filesSharp.Add(file);
}
List <string> filesBasic = new List <string>();
foreach (string file in Directory.GetFiles(path + Path.DirectorySeparatorChar, "*.vb"))
{
filesBasic.Add(file);
}
if (filesSharp.Count > 0 || filesBasic.Count > 0)
{
CodeDomProvider csCompiler = new Microsoft.CSharp.CSharpCodeProvider();
CodeDomProvider vbCompiler = new Microsoft.VisualBasic.VBCodeProvider();
CompilerParameters options = new CompilerParameters();
options.CompilerOptions = "/target:library /optimize";
options.GenerateExecutable = false;
options.GenerateInMemory = true;
options.IncludeDebugInformation = false;
// .NET related assemblies
options.ReferencedAssemblies.Add("mscorlib.dll");
options.ReferencedAssemblies.Add("System.dll");
options.ReferencedAssemblies.Add("System.Data.dll");
options.ReferencedAssemblies.Add("System.Xml.dll");
options.ReferencedAssemblies.Add("System.Web.dll");
// VhaBot related assemblies
options.ReferencedAssemblies.Add("AoLib.dll");
options.ReferencedAssemblies.Add("VhaBot.API.dll");
options.ReferencedAssemblies.Add("VhaBot.Communication.dll");
// Add reference DLL's
foreach (ScannedAssembly assembly in assemblies)
{
if (assembly.Type == AssemblyType.Binary)
{
options.ReferencedAssemblies.Add(dllPath + Path.DirectorySeparatorChar + assembly.File);
}
}
for (int i = 0; i < 2; i++)
{
try
{
CompilerResults results = null;
if (i == 0)
{
if (filesSharp.Count < 1)
{
continue;
}
results = csCompiler.CompileAssemblyFromFile(options, filesSharp.ToArray());
}
else
{
if (filesBasic.Count < 1)
{
continue;
}
results = csCompiler.CompileAssemblyFromFile(options, filesBasic.ToArray());
}
List <string> shortFiles = new List <string>();
if (i == 0)
{
foreach (string file in filesSharp)
{
shortFiles.Add(Path.GetFileName(file));
}
}
else
{
foreach (string file in filesBasic)
{
shortFiles.Add(Path.GetFileName(file));
}
}
string shortFile = string.Join(", ", shortFiles.ToArray());
bool errors = false;
if (results.Errors.Count > 0)
{
foreach (CompilerError error in results.Errors)
{
if (error.IsWarning)
{
continue;
}
BotShell.Output("[Plugins] Compile Error: " + error.ErrorText + " (" + error.FileName + ":" + error.Line + ")");
this.SafeMode = true;
errors = true;
}
}
if (!errors)
{
BotShell.Output("[Plugins] Compiled: " + shortFile);
assemblies.Add(new ScannedAssembly(results.CompiledAssembly, AssemblyType.Source, path));
}
}
catch (Exception ex)
{
BotShell.Output("[Plugins] Error while compiling: " + ex.ToString());
this.SafeMode = true;
}
}
}
}
// Scan for plugins
foreach (ScannedAssembly assembly in assemblies)
{
Type[] types = assembly.Assembly.GetExportedTypes();
foreach (Type _type in types)
{
string type = _type.FullName;
try
{
PluginLoader loader = new PluginLoader(assembly.File, type, assembly.Type, assembly.Assembly);
lock (this.PluginLoaders)
{
if (this.PluginLoaders.ContainsKey(loader.InternalName.ToLower()))
{
BotShell.Output("[Error] Internal Name (" + loader.InternalName + ") Already in Use!", true);
BotShell.Output("[Error] Plugin (" + loader.ToString() + ") Conflicts With Plugin (" + this.PluginLoaders[loader.InternalName.ToLower()].ToString() + ")");
BotShell.Output("[Error] Skipped Object " + loader.Type + " in " + loader.File + "!", true);
}
else
{
if (loader.DefaultState != PluginState.Core && this.SafeMode)
{
continue; // When using SafeMode, load only core plugins
}
if (loader.Dependencies.Length > 0 && loader.DefaultState == PluginState.Loaded)
{
BotShell.Output("[Error] Plugins with dependencies can't have DefaultState = Loaded (" + loader.InternalName + ")! Plugin skipped!");
continue;
}
if (loader.Dependencies.Length > 0 && loader.DefaultState == PluginState.Core)
{
BotShell.Output("[Error] Core plugins can't have dependencies (" + loader.InternalName + ")! Plugin skipped!");
continue;
}
if (loader.AssemblyType != AssemblyType.Buildin && loader.DefaultState == PluginState.Core)
{
BotShell.Output("[Error] Only buildin plugins can have DefaultState = Core (" + loader.InternalName + ")! Plugin skipped!");
continue;
}
this.PluginLoaders.Add(loader.InternalName.ToLower(), loader);
BotShell.Output("[Plugins] Detected Plugin: " + loader.ToString(), true);
}
}
}
catch { }
}
}
BotShell.Output("[Plugins] Found " + this.PluginLoaders.Count + " Plugins");
return;
}
catch (Exception ex)
{
BotShell.Output("[Plugins] Unknown error during plugin scanning! " + ex.ToString());
return;
}
}
public Assembly CreateAssembly(IList filenames, IList references)
{
string fileType = null;
foreach (string filename in filenames)
{
string extension = Path.GetExtension(filename);
if (fileType == null)
{
fileType = extension;
}
else if (fileType != extension)
{
throw new ArgumentException("All files in the file list must be of the same type.");
}
}
compilerErrors = null;
CodeDomProvider codeProvider = null;
switch (fileType)
{
case ".cs":
codeProvider = new Microsoft.CSharp.CSharpCodeProvider();
break;
case ".vb":
codeProvider = new Microsoft.CSharp.CSharpCodeProvider();
break;
default:
throw new InvalidOperationException("Script files must have a .cs, .vb, or .js extension, for C#, Visual Basic.NET, or JScript respectively.");
}
CompilerParameters compilerParams = new CompilerParameters();
compilerParams.CompilerOptions = "/target:library /optimize";
compilerParams.GenerateExecutable = false;
compilerParams.GenerateInMemory = true;
compilerParams.IncludeDebugInformation = false;
compilerParams.ReferencedAssemblies.Add("mscorlib.dll");
compilerParams.ReferencedAssemblies.Add("System.dll");
foreach (string reference in references)
{
if (!compilerParams.ReferencedAssemblies.Contains(reference))
{
compilerParams.ReferencedAssemblies.Add(reference);
}
}
CompilerResults results = codeProvider.CompileAssemblyFromFile(
compilerParams, (string[])ArrayList.Adapter(filenames).ToArray(typeof(string)));
if (results.Errors.Count > 0)
{
StringBuilder sb = new StringBuilder();
foreach (CompilerError item in results.Errors)
{
sb.AppendFormat("{0} line:{1} {2}\r\n", item.FileName, item.Line, item.ErrorText);
}
compilerErrors = results.Errors;
throw new Exception(
"Compiler error(s)\r\n" + sb.ToString());
}
Assembly createdAssembly = results.CompiledAssembly;
return(createdAssembly);
}
private void WriteProject(SolutionNode solution, ProjectNode project)
{
string solutionDir = Path.Combine(solution.FullPath, Path.Combine("autotools", solution.Name));
string projectDir = Path.Combine(solutionDir, project.Name);
string projectVersion = project.Version;
bool hasAssemblyConfig = false;
chkMkDir(projectDir);
List <string>
compiledFiles = new List <string>(),
contentFiles = new List <string>(),
embeddedFiles = new List <string>(),
binaryLibs = new List <string>(),
pkgLibs = new List <string>(),
systemLibs = new List <string>(),
runtimeLibs = new List <string>(),
extraDistFiles = new List <string>(),
localCopyTargets = new List <string>();
// If there exists a .config file for this assembly, copy
// it to the project folder
// TODO: Support copying .config.osx files
// TODO: support processing the .config file for native library deps
string projectAssemblyName = project.Name;
if (project.AssemblyName != null)
{
projectAssemblyName = project.AssemblyName;
}
if (File.Exists(Path.Combine(project.FullPath, projectAssemblyName) + ".dll.config"))
{
hasAssemblyConfig = true;
System.IO.File.Copy(Path.Combine(project.FullPath, projectAssemblyName + ".dll.config"), Path.Combine(projectDir, projectAssemblyName + ".dll.config"), true);
extraDistFiles.Add(project.AssemblyName + ".dll.config");
}
foreach (ConfigurationNode conf in project.Configurations)
{
if (conf.Options.KeyFile != string.Empty)
{
// Copy snk file into the project's directory
// Use the snk from the project directory directly
string source = Path.Combine(project.FullPath, conf.Options.KeyFile);
string keyFile = conf.Options.KeyFile;
Regex re = new Regex(".*/");
keyFile = re.Replace(keyFile, "");
string dest = Path.Combine(projectDir, keyFile);
// Tell the user if there's a problem copying the file
try
{
mkdirDashP(System.IO.Path.GetDirectoryName(dest));
System.IO.File.Copy(source, dest, true);
}
catch (System.IO.IOException e)
{
Console.WriteLine(e.Message);
}
}
}
// Copy compiled, embedded and content files into the project's directory
foreach (string filename in project.Files)
{
string source = Path.Combine(project.FullPath, filename);
string dest = Path.Combine(projectDir, filename);
if (filename.Contains("AssemblyInfo.cs"))
{
// If we've got an AssemblyInfo.cs, pull the version number from it
string[] sources = { source };
string[] args = { "" };
Microsoft.CSharp.CSharpCodeProvider cscp =
new Microsoft.CSharp.CSharpCodeProvider();
string tempAssemblyFile = Path.Combine(Path.GetTempPath(), project.Name + "-temp.dll");
System.CodeDom.Compiler.CompilerParameters cparam =
new System.CodeDom.Compiler.CompilerParameters(args, tempAssemblyFile);
System.CodeDom.Compiler.CompilerResults cr =
cscp.CompileAssemblyFromFile(cparam, sources);
foreach (System.CodeDom.Compiler.CompilerError error in cr.Errors)
{
Console.WriteLine("Error! '{0}'", error.ErrorText);
}
try {
string projectFullName = cr.CompiledAssembly.FullName;
Regex verRegex = new Regex("Version=([\\d\\.]+)");
Match verMatch = verRegex.Match(projectFullName);
if (verMatch.Success)
{
projectVersion = verMatch.Groups[1].Value;
}
}catch {
Console.WriteLine("Couldn't compile AssemblyInfo.cs");
}
// Clean up the temp file
try
{
if (File.Exists(tempAssemblyFile))
{
File.Delete(tempAssemblyFile);
}
}
catch
{
Console.WriteLine("Error! '{0}'", e);
}
}
// Tell the user if there's a problem copying the file
try
{
mkdirDashP(System.IO.Path.GetDirectoryName(dest));
System.IO.File.Copy(source, dest, true);
}
catch (System.IO.IOException e)
{
Console.WriteLine(e.Message);
}
switch (project.Files.GetBuildAction(filename))
{
case BuildAction.Compile:
compiledFiles.Add(filename);
break;
case BuildAction.Content:
contentFiles.Add(filename);
extraDistFiles.Add(filename);
break;
case BuildAction.EmbeddedResource:
embeddedFiles.Add(filename);
break;
}
}
// Set up references
for (int refNum = 0; refNum < project.References.Count; refNum++)
{
ReferenceNode refr = project.References[refNum];
Assembly refAssembly = Assembly.LoadWithPartialName(refr.Name);
/* Determine which pkg-config (.pc) file refers to
* this assembly */
SystemPackage package = null;
if (packagesHash.ContainsKey(refr.Name))
{
package = packagesHash[refr.Name];
}
else
{
string assemblyFullName = string.Empty;
if (refAssembly != null)
{
assemblyFullName = refAssembly.FullName;
}
string assemblyFileName = string.Empty;
if (assemblyFullName != string.Empty &&
assemblyFullNameToPath.ContainsKey(assemblyFullName)
)
{
assemblyFileName =
assemblyFullNameToPath[assemblyFullName];
}
if (assemblyFileName != string.Empty &&
assemblyPathToPackage.ContainsKey(assemblyFileName)
)
{
package = assemblyPathToPackage[assemblyFileName];
}
}
/* If we know the .pc file and it is not "mono"
* (already in the path), add a -pkg: argument */
if (package != null &&
package.Name != "mono" &&
!pkgLibs.Contains(package.Name)
)
{
pkgLibs.Add(package.Name);
}
string fileRef =
FindFileReference(refr.Name, (ProjectNode)refr.Parent);
if (refr.LocalCopy ||
solution.ProjectsTable.ContainsKey(refr.Name) ||
fileRef != null ||
refr.Path != null
)
{
/* Attempt to copy the referenced lib to the
* project's directory */
string filename = refr.Name + ".dll";
string source = filename;
if (refr.Path != null)
{
source = Path.Combine(refr.Path, source);
}
source = Path.Combine(project.FullPath, source);
string dest = Path.Combine(projectDir, filename);
/* Since we depend on this binary dll to build, we
* will add a compile- time dependency on the
* copied dll, and add the dll to the list of
* files distributed with this package
*/
binaryLibs.Add(refr.Name + ".dll");
extraDistFiles.Add(refr.Name + ".dll");
// TODO: Support copying .config.osx files
// TODO: Support for determining native dependencies
if (File.Exists(source + ".config"))
{
System.IO.File.Copy(source + ".config", Path.GetDirectoryName(dest), true);
extraDistFiles.Add(refr.Name + ".dll.config");
}
try
{
System.IO.File.Copy(source, dest, true);
}
catch (System.IO.IOException)
{
if (solution.ProjectsTable.ContainsKey(refr.Name))
{
/* If an assembly is referenced, marked for
* local copy, in the list of projects for
* this solution, but does not exist, put a
* target into the Makefile.am to build the
* assembly and copy it to this project's
* directory
*/
ProjectNode sourcePrj =
((solution.ProjectsTable[refr.Name]));
string target =
String.Format("{0}:\n" +
"\t$(MAKE) -C ../{1}\n" +
"\tln ../{2}/$@ $@\n",
filename,
sourcePrj.Name,
sourcePrj.Name);
localCopyTargets.Add(target);
}
}
}
else if (!pkgLibs.Contains(refr.Name))
{
// Else, let's assume it's in the GAC or the lib path
string assemName = string.Empty;
int index = refr.Name.IndexOf(",");
if (index > 0)
{
assemName = refr.Name.Substring(0, index);
}
else
{
assemName = refr.Name;
}
m_Kernel.Log.Write(String.Format(
"Warning: Couldn't find an appropriate assembly " +
"for reference:\n'{0}'", refr.Name
));
systemLibs.Add(assemName);
}
}
const string lineSep = " \\\n\t";
string compiledFilesString = string.Empty;
if (compiledFiles.Count > 0)
{
compiledFilesString =
lineSep + string.Join(lineSep, compiledFiles.ToArray());
}
string embeddedFilesString = "";
if (embeddedFiles.Count > 0)
{
embeddedFilesString =
lineSep + string.Join(lineSep, embeddedFiles.ToArray());
}
string contentFilesString = "";
if (contentFiles.Count > 0)
{
contentFilesString =
lineSep + string.Join(lineSep, contentFiles.ToArray());
}
string extraDistFilesString = "";
if (extraDistFiles.Count > 0)
{
extraDistFilesString =
lineSep + string.Join(lineSep, extraDistFiles.ToArray());
}
string pkgLibsString = "";
if (pkgLibs.Count > 0)
{
pkgLibsString =
lineSep + string.Join(lineSep, pkgLibs.ToArray());
}
string binaryLibsString = "";
if (binaryLibs.Count > 0)
{
binaryLibsString =
lineSep + string.Join(lineSep, binaryLibs.ToArray());
}
string systemLibsString = "";
if (systemLibs.Count > 0)
{
systemLibsString =
lineSep + string.Join(lineSep, systemLibs.ToArray());
}
string localCopyTargetsString = "";
if (localCopyTargets.Count > 0)
{
localCopyTargetsString =
string.Join("\n", localCopyTargets.ToArray());
}
string monoPath = "";
foreach (string runtimeLib in runtimeLibs)
{
monoPath += ":`pkg-config --variable=libdir " + runtimeLib + "`";
}
// Add the project name to the list of transformation
// parameters
XsltArgumentList argList = new XsltArgumentList();
argList.AddParam("projectName", "", project.Name);
argList.AddParam("solutionName", "", solution.Name);
argList.AddParam("assemblyName", "", projectAssemblyName);
argList.AddParam("compiledFiles", "", compiledFilesString);
argList.AddParam("embeddedFiles", "", embeddedFilesString);
argList.AddParam("contentFiles", "", contentFilesString);
argList.AddParam("extraDistFiles", "", extraDistFilesString);
argList.AddParam("pkgLibs", "", pkgLibsString);
argList.AddParam("binaryLibs", "", binaryLibsString);
argList.AddParam("systemLibs", "", systemLibsString);
argList.AddParam("monoPath", "", monoPath);
argList.AddParam("localCopyTargets", "", localCopyTargetsString);
argList.AddParam("projectVersion", "", projectVersion);
argList.AddParam("hasAssemblyConfig", "", hasAssemblyConfig ? "true" : "");
// Transform the templates
transformToFile(Path.Combine(projectDir, "configure.ac"), argList, "/Autotools/ProjectConfigureAc");
transformToFile(Path.Combine(projectDir, "Makefile.am"), argList, "/Autotools/ProjectMakefileAm");
transformToFile(Path.Combine(projectDir, "autogen.sh"), argList, "/Autotools/ProjectAutogenSh");
if (project.Type == Core.Nodes.ProjectType.Library)
{
transformToFile(Path.Combine(projectDir, project.Name + ".pc.in"), argList, "/Autotools/ProjectPcIn");
}
if (project.Type == Core.Nodes.ProjectType.Exe || project.Type == Core.Nodes.ProjectType.WinExe)
{
transformToFile(Path.Combine(projectDir, project.Name.ToLower() + ".in"), argList, "/Autotools/ProjectWrapperScriptIn");
}
}
/// <summary>
/// Build code bằng Microsoft.CSharp.CSharpCodeProvider
/// </summary>
/// <returns></returns>
public bool CompileAssembly()
{
bool compileOk = false;
if (this.SourceFiles.Any() == false)
{
return(compileOk);
}
this.CompilerResults = null;
var pathDirTemp = this.CreateSourceFilesBuildTemp(DateTime.Now, v_KindBuildAssembly.ByCodeProvider);
try
{
Microsoft.CSharp.CSharpCodeProvider provider = new Microsoft.CSharp.CSharpCodeProvider();
if (provider != null)
{
System.CodeDom.Compiler.CompilerParameters compilerParameters = new System.CodeDom.Compiler.CompilerParameters();
// Save the assembly as a physical file.
compilerParameters.GenerateInMemory = false;
// Set whether to treat all warnings as errors.
compilerParameters.TreatWarningsAsErrors = false;
// Specify the assembly file name to generate.
if (this.OutputAssembly + "" != "")
{
compilerParameters.OutputAssembly = this.OutputAssembly;
}
else
{
var sourceFirst = new System.IO.FileInfo(this.SourceFiles.First());
compilerParameters.OutputAssembly = String.Format(@"{0}\{1}.exe",
System.Environment.CurrentDirectory,
sourceFirst.Name.Replace(".", "_"));
}
compilerParameters.CompilerOptions = string.Format("/optimize {0}", this.CreateOptionWin32Icon());
// Generate an executable instead of
// a class library.
if (this.OutputAssembly.ToUpper().EndsWith("EXE"))
{
compilerParameters.GenerateExecutable = true;
}
else
{
compilerParameters.GenerateExecutable = false;
}
// Set reference dll
if (this.ReferencedAssemblies != null &&
this.ReferencedAssemblies.Any())
{
foreach (string itemValue in this.ReferencedAssemblies)
{
var item = itemValue + "";
if (item.ToUpper().EndsWith(".dll".ToUpper()) == false && item.ToUpper().EndsWith(".exe".ToUpper()) == false)
{
item = item + ".dll";
}
if (System.IO.File.Exists(item))
{
compilerParameters.ReferencedAssemblies.Add(item);
}
else if (this.ReferencedAssemblyNoPaths.Where(x => x.ToUpper().Contains(item.ToUpper())).Any())
{
compilerParameters.ReferencedAssemblies.Add(item);
}
else
{
foreach (var pathDir in this.ReferencedAssemblyDirs)
{
var pathFile = System.IO.Path.Combine(pathDir, item);
if (System.IO.File.Exists(pathFile))
{
compilerParameters.ReferencedAssemblies.Add(pathFile);
break;
}
}
}
}
}
this.ReferencedAssemblyNoPaths.ForEach(x =>
{
if (compilerParameters.ReferencedAssemblies.Contains(x) == false)
{
compilerParameters.ReferencedAssemblies.Add(x);
}
});
// Invoke compilation of the source file.
this.CompilerResults = provider.CompileAssemblyFromFile(compilerParameters,
this.SourceFilesBuildTemp.ToArray());
compileOk = !(this.CompilerResults.Errors.Count > 0);
if (compileOk && System.IO.File.Exists(this.OutputAssembly))
{
if (this.AssemblyFileVersionCode == "")
{
compileOk = true;
}
else
{
compileOk = Compiler.CompareStringVersion(this.AssemblyFileVersionCode, Compiler.GetVersionStringFile(this.OutputAssembly));
}
}
else
{
compileOk = false;
}
}
return(compileOk);
}
catch
{
return(compileOk);
}
finally
{
try { Compiler.DirectoryDeleteForce(System.IO.Path.GetDirectoryName(System.IO.Path.GetDirectoryName(pathDirTemp))); } catch { }
}
}
/// <summary>
/// Creates an assembly by dynamically compiling TestVersionTableMetaData.cs
/// </summary>
/// <returns></returns>
private Assembly GetAssemblyWithCustomVersionTableMetaData()
{
CodeDomProvider provider = new Microsoft.CSharp.CSharpCodeProvider();
CompilerParameters parms = new CompilerParameters();
// Configure parameters
parms.GenerateExecutable = false;
parms.GenerateInMemory = true;
parms.IncludeDebugInformation = false;
parms.ReferencedAssemblies.Add("System.dll");
parms.ReferencedAssemblies.Add("FluentMigrator.dll");
CompilerResults results = provider.CompileAssemblyFromFile(parms, "..\\..\\Unit\\TestVersionTableMetaData.cs");
Assert.AreEqual(0, results.Errors.Count);
return results.CompiledAssembly;
}
public Assembly CreateAssembly(IList filenames, IList references)
{
string fileType = null;
foreach (string filename in filenames)
{
string extension = Path.GetExtension(filename);
if (fileType == null)
{
fileType = extension;
}
else if (fileType != extension)
{
throw new ArgumentException("All files in the file list must be of the same type.");
}
}
compilerErrors = null;
CodeDomProvider codeProvider = null;
switch (fileType)
{
case ".cs":
codeProvider = new Microsoft.CSharp.CSharpCodeProvider();
break;
case ".vb":
codeProvider = new Microsoft.CSharp.CSharpCodeProvider();
break;
default:
throw new InvalidOperationException("Script files must have a .cs, .vb, or .js extension, for C#, Visual Basic.NET, or JScript respectively.");
}
CompilerParameters compilerParams = new CompilerParameters();
compilerParams.CompilerOptions = "/target:library /optimize";
compilerParams.GenerateExecutable = false;
compilerParams.GenerateInMemory = true;
compilerParams.IncludeDebugInformation = false;
compilerParams.ReferencedAssemblies.Add("mscorlib.dll");
compilerParams.ReferencedAssemblies.Add("System.dll");
foreach (string reference in references)
{
if (!compilerParams.ReferencedAssemblies.Contains(reference))
{
compilerParams.ReferencedAssemblies.Add(reference);
}
}
CompilerResults results = codeProvider.CompileAssemblyFromFile(
compilerParams, (string[])ArrayList.Adapter(filenames).ToArray(typeof(string)));
if (results.Errors.Count > 0)
{
StringBuilder sb = new StringBuilder();
foreach (CompilerError item in results.Errors)
{
sb.AppendFormat("{0} line:{1} {2}\r\n", item.FileName, item.Line, item.ErrorText);
}
compilerErrors = results.Errors;
throw new Exception(
"Compiler error(s)\r\n" + sb.ToString());
}
Assembly createdAssembly = results.CompiledAssembly;
return createdAssembly;
}
CompilePackageAssembly(
bool enforceBamAssemblyVersions = true,
bool enableClean = true)
{
// validate build root
if (null == Graph.Instance.BuildRoot)
{
throw new Exception("Build root has not been specified");
}
var gatherSourceProfile = new TimeProfile(ETimingProfiles.GatherSource);
gatherSourceProfile.StartProfile();
IdentifyAllPackages(enforceBamAssemblyVersions: enforceBamAssemblyVersions);
var cleanFirst = CommandLineProcessor.Evaluate(new Options.CleanFirst());
if (enableClean && cleanFirst && System.IO.Directory.Exists(Graph.Instance.BuildRoot))
{
Log.Info("Deleting build root '{0}'", Graph.Instance.BuildRoot);
try
{
System.IO.Directory.Delete(Graph.Instance.BuildRoot, true);
}
catch (System.IO.IOException ex)
{
Log.Info("Failed to delete build root, because {0}. Continuing", ex.Message);
}
}
if (!System.IO.Directory.Exists(Graph.Instance.BuildRoot))
{
System.IO.Directory.CreateDirectory(Graph.Instance.BuildRoot);
}
BuildModeUtilities.ValidateBuildModePackage();
var definitions = new StringArray();
// gather source files
var sourceCode = new StringArray();
int packageIndex = 0;
foreach (var package in Graph.Instance.Packages)
{
Log.DebugMessage("{0}: '{1}' @ '{2}'", packageIndex, package.Version, (package.PackageRepositories.Count > 0) ? package.PackageRepositories[0] : "Not in a repository");
// to compile with debug information, you must compile the files
// to compile without, we need to file contents to hash the source
if (Graph.Instance.CompileWithDebugSymbols)
{
var scripts = package.GetScriptFiles();
sourceCode.AddRange(scripts);
Log.DebugMessage(scripts.ToString("\n\t"));
}
else
{
foreach (var scriptFile in package.GetScriptFiles())
{
using (var reader = new System.IO.StreamReader(scriptFile))
{
sourceCode.Add(reader.ReadToEnd());
}
Log.DebugMessage("\t'{0}'", scriptFile);
}
}
foreach (var define in package.Definitions)
{
if (!definitions.Contains(define))
{
definitions.Add(define);
}
}
++packageIndex;
}
// add/remove other definitions
definitions.Add(VersionDefineForCompiler);
definitions.Add(HostPlatformDefineForCompiler);
definitions.Sort();
gatherSourceProfile.StopProfile();
var assemblyCompileProfile = new TimeProfile(ETimingProfiles.AssemblyCompilation);
assemblyCompileProfile.StartProfile();
// assembly is written to the build root
var cachedAssemblyPathname = System.IO.Path.Combine(Graph.Instance.BuildRoot, "CachedPackageAssembly");
cachedAssemblyPathname = System.IO.Path.Combine(cachedAssemblyPathname, Graph.Instance.MasterPackage.Name) + ".dll";
var hashPathName = System.IO.Path.ChangeExtension(cachedAssemblyPathname, "hash");
string thisHashCode = null;
var cacheAssembly = !CommandLineProcessor.Evaluate(new Options.DisableCacheAssembly());
string compileReason = null;
if (Graph.Instance.CompileWithDebugSymbols)
{
compileReason = "debug symbols were enabled";
}
else
{
// can an existing assembly be reused?
thisHashCode = GetPackageHash(sourceCode, definitions, Graph.Instance.MasterPackage.BamAssemblies);
if (cacheAssembly)
{
if (System.IO.File.Exists(hashPathName))
{
using (var reader = new System.IO.StreamReader(hashPathName))
{
var diskHashCode = reader.ReadLine();
if (diskHashCode.Equals(thisHashCode))
{
Log.DebugMessage("Cached assembly used '{0}', with hash {1}", cachedAssemblyPathname, diskHashCode);
Log.Detail("Re-using existing package assembly");
Graph.Instance.ScriptAssemblyPathname = cachedAssemblyPathname;
assemblyCompileProfile.StopProfile();
return true;
}
else
{
compileReason = "package source has changed since the last compile";
}
}
}
else
{
compileReason = "no previously compiled package assembly exists";
}
}
else
{
compileReason = "user has disabled package assembly caching";
}
}
// use the compiler in the current runtime version to build the assembly of packages
var clrVersion = System.Environment.Version;
var compilerVersion = System.String.Format("v{0}.{1}", clrVersion.Major, clrVersion.Minor);
Log.Detail("Compiling package assembly (C# compiler {0}{1}), because {2}.",
compilerVersion,
Graph.Instance.ProcessState.TargetFrameworkVersion != null ? (", targetting " + Graph.Instance.ProcessState.TargetFrameworkVersion) : string.Empty,
compileReason);
var providerOptions = new System.Collections.Generic.Dictionary<string, string>();
providerOptions.Add("CompilerVersion", compilerVersion);
if (Graph.Instance.ProcessState.RunningMono)
{
Log.DebugMessage("Compiling assembly for Mono");
}
using (var provider = new Microsoft.CSharp.CSharpCodeProvider(providerOptions))
{
var compilerParameters = new System.CodeDom.Compiler.CompilerParameters();
compilerParameters.TreatWarningsAsErrors = true;
compilerParameters.WarningLevel = 4;
compilerParameters.GenerateExecutable = false;
compilerParameters.GenerateInMemory = false;
if (Graph.Instance.CompileWithDebugSymbols)
{
compilerParameters.OutputAssembly = System.IO.Path.Combine(System.IO.Path.GetTempPath(), Graph.Instance.MasterPackage.Name) + ".dll";
}
else
{
compilerParameters.OutputAssembly = cachedAssemblyPathname;
}
var compilerOptions = "/checked+ /unsafe-";
if (Graph.Instance.CompileWithDebugSymbols)
{
compilerParameters.IncludeDebugInformation = true;
compilerOptions += " /optimize-";
}
else
{
compilerOptions += " /optimize+";
}
compilerOptions += " /platform:anycpu";
// define strings
compilerOptions += " /define:" + definitions.ToString(';');
compilerParameters.CompilerOptions = compilerOptions;
if (provider.Supports(System.CodeDom.Compiler.GeneratorSupport.Resources))
{
// Bam assembly
// TODO: Q: why is it only for the master package? Why not all of them, which may have additional dependencies?
foreach (var assembly in Graph.Instance.MasterPackage.BamAssemblies)
{
var assemblyFileName = System.String.Format("{0}.dll", assembly.Name);
var assemblyPathName = System.IO.Path.Combine(Graph.Instance.ProcessState.ExecutableDirectory, assemblyFileName);
compilerParameters.ReferencedAssemblies.Add(assemblyPathName);
}
// DotNet assembly
foreach (var desc in Graph.Instance.MasterPackage.DotNetAssemblies)
{
var assemblyFileName = System.String.Format("{0}.dll", desc.Name);
compilerParameters.ReferencedAssemblies.Add(assemblyFileName);
}
if (Graph.Instance.ProcessState.RunningMono)
{
compilerParameters.ReferencedAssemblies.Add("Mono.Posix.dll");
}
}
else
{
throw new Exception("C# compiler does not support Resources");
}
System.IO.Directory.CreateDirectory(System.IO.Path.GetDirectoryName(compilerParameters.OutputAssembly));
var results = Graph.Instance.CompileWithDebugSymbols ?
provider.CompileAssemblyFromFile(compilerParameters, sourceCode.ToArray()) :
provider.CompileAssemblyFromSource(compilerParameters, sourceCode.ToArray());
if (results.Errors.HasErrors || results.Errors.HasWarnings)
{
Log.ErrorMessage("Failed to compile package '{0}'. There are {1} errors.", Graph.Instance.MasterPackage.FullName, results.Errors.Count);
foreach (System.CodeDom.Compiler.CompilerError error in results.Errors)
{
Log.ErrorMessage("\t{0}({1}): {2} {3}", error.FileName, error.Line, error.ErrorNumber, error.ErrorText);
}
return false;
}
if (!Graph.Instance.CompileWithDebugSymbols)
{
if (cacheAssembly)
{
using (var writer = new System.IO.StreamWriter(hashPathName))
{
writer.WriteLine(thisHashCode);
}
}
else
{
// will not throw if the file doesn't exist
System.IO.File.Delete(hashPathName);
}
}
Log.DebugMessage("Written assembly to '{0}'", compilerParameters.OutputAssembly);
Graph.Instance.ScriptAssemblyPathname = compilerParameters.OutputAssembly;
}
assemblyCompileProfile.StopProfile();
return true;
}