Sin*_*nix 7 c# debug-symbols pdb
我想写一个检查证明给定程序集附近有有效的pdb文件,并且存储在pdb中的校验和与源校验和匹配.
该检查过去在我们的CI服务器上被称为单元测试,以防止在构建服务器配置被破坏时发布二进制文件(例如,使用不同的git分支来构建代码).
如果可能,它应该接受MethodInfo作为输入参数.我想仔细检查并验证方法的源行是估计的.
第一部分,阅读特定方法的来源非常简单.这是一个样本.
困难的部分是检查PDB中所有文档的校验和.标准System.Diagnostics.SymbolStore.SymDocument.GetCheckSum()抛出NotImplementedException所以我肯定需要使用别的东西.
有什么建议吗?
UPD.试图澄清:)
我有兴趣检查源文件的校验和是否与存储在PDB文件中的校验和匹配,第一部分(检查pdb匹配二进制文件)已经完成.
我正在为此任务寻找一些API,因为我不想解析控制台输出.此外,我不希望在我们的CI服务器上安装任何其他SDK,因为它需要额外的时间来证明没有任何损坏.
如果您需要以编程方式执行此操作,则可以使用Microsoft.DiaSymReaderPackage(版本1.0.7.0),并且还需要声明其他几个非托管接口.使用以下两种算法之一:SHA1或MD5,可以轻松地从文件字节计算校验和.
这是一个示例控制台应用程序,它显示有关其自身来源的信息:
class Program
{
static void Main(string[] args)
{
ValidateChecksums(Path.GetFullPath("ConsoleApplication1.exe"));
}
// this needs a reference to Microsoft.DiaSymReader
// or redefine its interfaces manually from here https://github.com/dotnet/roslyn/tree/master/src/Dependencies/Microsoft.DiaSymReader
public static void ValidateChecksums(string filePath)
{
if (filePath == null)
throw new ArgumentNullException(nameof(filePath));
var dispenser = (IMetaDataDispenser)new CorMetaDataDispenser();
var import = dispenser.OpenScope(filePath, 0, typeof(IMetaDataImport).GUID);
var binder = (ISymUnmanagedBinder)new CorSymBinder_SxS();
ISymUnmanagedReader reader;
binder.GetReaderForFile(import, filePath, null, out reader);
int count;
reader.GetDocuments(0, out count, null);
if (count > 0)
{
var docs = new ISymUnmanagedDocument[count];
reader.GetDocuments(count, out count, docs);
foreach (var d in docs)
{
var doc = new SymDocument(d);
Console.WriteLine(doc.Url);
if (doc.Checksum.SequenceEqual(doc.ComputeChecksum()))
{
Console.WriteLine(" checksum is valid.");
}
else
{
Console.WriteLine(" checksum is not valid.");
}
}
}
}
}
还有一个示例助手类,本机接口和coclass.
public class SymDocument
{
// guids are from corsym.h
public static readonly Guid CorSym_SourceHash_MD5 = new Guid(0x406ea660, 0x64cf, 0x4c82, 0xb6, 0xf0, 0x42, 0xd4, 0x81, 0x72, 0xa7, 0x99);
public static readonly Guid CorSym_SourceHash_SHA1 = new Guid(0xff1816ec, 0xaa5e, 0x4d10, 0x87, 0xf7, 0x6f, 0x49, 0x63, 0x83, 0x34, 0x60);
public SymDocument(ISymUnmanagedDocument doc)
{
if (doc == null)
throw new ArgumentNullException(nameof(doc));
int len;
doc.GetUrl(0, out len, null);
if (len > 0)
{
var urlChars = new char[len];
doc.GetUrl(len, out len, urlChars);
Url = new string(urlChars, 0, len - 1);
}
doc.GetChecksum(0, out len, null);
if (len > 0)
{
Checksum = new byte[len];
doc.GetChecksum(len, out len, Checksum);
}
Guid id = Guid.Empty;
doc.GetChecksumAlgorithmId(ref id);
ChecksumAlgorithmId = id;
}
public string Url { get; private set; }
public byte[] Checksum { get; private set; }
public Guid ChecksumAlgorithmId { get; private set; }
public byte[] ComputeChecksum()
{
HashAlgorithm algo;
if (ChecksumAlgorithmId == CorSym_SourceHash_MD5)
{
algo = MD5.Create();
}
else if (ChecksumAlgorithmId == CorSym_SourceHash_SHA1)
{
algo = SHA1.Create();
}
else
throw new NotSupportedException();
try
{
return algo.ComputeHash(File.ReadAllBytes(Url));
}
finally
{
algo.Dispose();
}
}
}
[ComImport, Guid("0A29FF9E-7F9C-4437-8B11-F424491E3931")]
internal class CorSymBinder_SxS // from corsym.h
{
}
[ComImport, Guid("E5CB7A31-7512-11d2-89CE-0080C792E5D8")]
internal class CorMetaDataDispenser // from cor.h
{
}
[Guid("7DAC8207-D3AE-4c75-9B67-92801A497D44"), InterfaceType(ComInterfaceType.InterfaceIsIUnknown)]
internal interface IMetaDataImport // from cor.h
{
// we don't need to use what's inside
}
[Guid("809c652e-7396-11d2-9771-00a0c9b4d50c"), InterfaceType(ComInterfaceType.InterfaceIsIUnknown)]
internal interface IMetaDataDispenser // from cor.h
{
void _VtblGap0_1(); // skip 1 method
IMetaDataImport OpenScope([MarshalAs(UnmanagedType.LPWStr)] string szScope, int dwOpenFlags, [MarshalAs(UnmanagedType.LPStruct)] Guid riid);
}