zig/lib/std/pdb.zig

719 lines
20 KiB
Zig
Raw Blame History

This file contains ambiguous Unicode characters!

This file contains ambiguous Unicode characters that may be confused with others in your current locale. If your use case is intentional and legitimate, you can safely ignore this warning. Use the Escape button to highlight these characters.

const builtin = @import("builtin");
const std = @import("std.zig");
const io = std.io;
const math = std.math;
const mem = std.mem;
const os = std.os;
const warn = std.debug.warn;
const coff = std.coff;
const fs = std.fs;
const File = std.fs.File;
const ArrayList = std.ArrayList;
// Note: most of this is based on information gathered from LLVM source code,
// documentation and/or contributors.
// https://llvm.org/docs/PDB/DbiStream.html#stream-header
pub const DbiStreamHeader = packed struct {
VersionSignature: i32,
VersionHeader: u32,
Age: u32,
GlobalStreamIndex: u16,
BuildNumber: u16,
PublicStreamIndex: u16,
PdbDllVersion: u16,
SymRecordStream: u16,
PdbDllRbld: u16,
ModInfoSize: u32,
SectionContributionSize: u32,
SectionMapSize: u32,
SourceInfoSize: i32,
TypeServerSize: i32,
MFCTypeServerIndex: u32,
OptionalDbgHeaderSize: i32,
ECSubstreamSize: i32,
Flags: u16,
Machine: u16,
Padding: u32,
};
pub const SectionContribEntry = packed struct {
/// COFF Section index, 1-based
Section: u16,
Padding1: [2]u8,
Offset: u32,
Size: u32,
Characteristics: u32,
ModuleIndex: u16,
Padding2: [2]u8,
DataCrc: u32,
RelocCrc: u32,
};
pub const ModInfo = packed struct {
Unused1: u32,
SectionContr: SectionContribEntry,
Flags: u16,
ModuleSymStream: u16,
SymByteSize: u32,
C11ByteSize: u32,
C13ByteSize: u32,
SourceFileCount: u16,
Padding: [2]u8,
Unused2: u32,
SourceFileNameIndex: u32,
PdbFilePathNameIndex: u32,
// These fields are variable length
//ModuleName: char[],
//ObjFileName: char[],
};
pub const SectionMapHeader = packed struct {
/// Number of segment descriptors
Count: u16,
/// Number of logical segment descriptors
LogCount: u16,
};
pub const SectionMapEntry = packed struct {
/// See the SectionMapEntryFlags enum below.
Flags: u16,
/// Logical overlay number
Ovl: u16,
/// Group index into descriptor array.
Group: u16,
Frame: u16,
/// Byte index of segment / group name in string table, or 0xFFFF.
SectionName: u16,
/// Byte index of class in string table, or 0xFFFF.
ClassName: u16,
/// Byte offset of the logical segment within physical segment. If group is set in flags, this is the offset of the group.
Offset: u32,
/// Byte count of the segment or group.
SectionLength: u32,
};
pub const StreamType = enum(u16) {
Pdb = 1,
Tpi = 2,
Dbi = 3,
Ipi = 4,
};
/// Duplicate copy of SymbolRecordKind, but using the official CV names. Useful
/// for reference purposes and when dealing with unknown record types.
pub const SymbolKind = packed enum(u16) {
S_COMPILE = 1,
S_REGISTER_16t = 2,
S_CONSTANT_16t = 3,
S_UDT_16t = 4,
S_SSEARCH = 5,
S_SKIP = 7,
S_CVRESERVE = 8,
S_OBJNAME_ST = 9,
S_ENDARG = 10,
S_COBOLUDT_16t = 11,
S_MANYREG_16t = 12,
S_RETURN = 13,
S_ENTRYTHIS = 14,
S_BPREL16 = 256,
S_LDATA16 = 257,
S_GDATA16 = 258,
S_PUB16 = 259,
S_LPROC16 = 260,
S_GPROC16 = 261,
S_THUNK16 = 262,
S_BLOCK16 = 263,
S_WITH16 = 264,
S_LABEL16 = 265,
S_CEXMODEL16 = 266,
S_VFTABLE16 = 267,
S_REGREL16 = 268,
S_BPREL32_16t = 512,
S_LDATA32_16t = 513,
S_GDATA32_16t = 514,
S_PUB32_16t = 515,
S_LPROC32_16t = 516,
S_GPROC32_16t = 517,
S_THUNK32_ST = 518,
S_BLOCK32_ST = 519,
S_WITH32_ST = 520,
S_LABEL32_ST = 521,
S_CEXMODEL32 = 522,
S_VFTABLE32_16t = 523,
S_REGREL32_16t = 524,
S_LTHREAD32_16t = 525,
S_GTHREAD32_16t = 526,
S_SLINK32 = 527,
S_LPROCMIPS_16t = 768,
S_GPROCMIPS_16t = 769,
S_PROCREF_ST = 1024,
S_DATAREF_ST = 1025,
S_ALIGN = 1026,
S_LPROCREF_ST = 1027,
S_OEM = 1028,
S_TI16_MAX = 4096,
S_REGISTER_ST = 4097,
S_CONSTANT_ST = 4098,
S_UDT_ST = 4099,
S_COBOLUDT_ST = 4100,
S_MANYREG_ST = 4101,
S_BPREL32_ST = 4102,
S_LDATA32_ST = 4103,
S_GDATA32_ST = 4104,
S_PUB32_ST = 4105,
S_LPROC32_ST = 4106,
S_GPROC32_ST = 4107,
S_VFTABLE32 = 4108,
S_REGREL32_ST = 4109,
S_LTHREAD32_ST = 4110,
S_GTHREAD32_ST = 4111,
S_LPROCMIPS_ST = 4112,
S_GPROCMIPS_ST = 4113,
S_COMPILE2_ST = 4115,
S_MANYREG2_ST = 4116,
S_LPROCIA64_ST = 4117,
S_GPROCIA64_ST = 4118,
S_LOCALSLOT_ST = 4119,
S_PARAMSLOT_ST = 4120,
S_ANNOTATION = 4121,
S_GMANPROC_ST = 4122,
S_LMANPROC_ST = 4123,
S_RESERVED1 = 4124,
S_RESERVED2 = 4125,
S_RESERVED3 = 4126,
S_RESERVED4 = 4127,
S_LMANDATA_ST = 4128,
S_GMANDATA_ST = 4129,
S_MANFRAMEREL_ST = 4130,
S_MANREGISTER_ST = 4131,
S_MANSLOT_ST = 4132,
S_MANMANYREG_ST = 4133,
S_MANREGREL_ST = 4134,
S_MANMANYREG2_ST = 4135,
S_MANTYPREF = 4136,
S_UNAMESPACE_ST = 4137,
S_ST_MAX = 4352,
S_WITH32 = 4356,
S_MANYREG = 4362,
S_LPROCMIPS = 4372,
S_GPROCMIPS = 4373,
S_MANYREG2 = 4375,
S_LPROCIA64 = 4376,
S_GPROCIA64 = 4377,
S_LOCALSLOT = 4378,
S_PARAMSLOT = 4379,
S_MANFRAMEREL = 4382,
S_MANREGISTER = 4383,
S_MANSLOT = 4384,
S_MANMANYREG = 4385,
S_MANREGREL = 4386,
S_MANMANYREG2 = 4387,
S_UNAMESPACE = 4388,
S_DATAREF = 4390,
S_ANNOTATIONREF = 4392,
S_TOKENREF = 4393,
S_GMANPROC = 4394,
S_LMANPROC = 4395,
S_ATTR_FRAMEREL = 4398,
S_ATTR_REGISTER = 4399,
S_ATTR_REGREL = 4400,
S_ATTR_MANYREG = 4401,
S_SEPCODE = 4402,
S_LOCAL_2005 = 4403,
S_DEFRANGE_2005 = 4404,
S_DEFRANGE2_2005 = 4405,
S_DISCARDED = 4411,
S_LPROCMIPS_ID = 4424,
S_GPROCMIPS_ID = 4425,
S_LPROCIA64_ID = 4426,
S_GPROCIA64_ID = 4427,
S_DEFRANGE_HLSL = 4432,
S_GDATA_HLSL = 4433,
S_LDATA_HLSL = 4434,
S_LOCAL_DPC_GROUPSHARED = 4436,
S_DEFRANGE_DPC_PTR_TAG = 4439,
S_DPC_SYM_TAG_MAP = 4440,
S_ARMSWITCHTABLE = 4441,
S_POGODATA = 4444,
S_INLINESITE2 = 4445,
S_MOD_TYPEREF = 4447,
S_REF_MINIPDB = 4448,
S_PDBMAP = 4449,
S_GDATA_HLSL32 = 4450,
S_LDATA_HLSL32 = 4451,
S_GDATA_HLSL32_EX = 4452,
S_LDATA_HLSL32_EX = 4453,
S_FASTLINK = 4455,
S_INLINEES = 4456,
S_END = 6,
S_INLINESITE_END = 4430,
S_PROC_ID_END = 4431,
S_THUNK32 = 4354,
S_TRAMPOLINE = 4396,
S_SECTION = 4406,
S_COFFGROUP = 4407,
S_EXPORT = 4408,
S_LPROC32 = 4367,
S_GPROC32 = 4368,
S_LPROC32_ID = 4422,
S_GPROC32_ID = 4423,
S_LPROC32_DPC = 4437,
S_LPROC32_DPC_ID = 4438,
S_REGISTER = 4358,
S_PUB32 = 4366,
S_PROCREF = 4389,
S_LPROCREF = 4391,
S_ENVBLOCK = 4413,
S_INLINESITE = 4429,
S_LOCAL = 4414,
S_DEFRANGE = 4415,
S_DEFRANGE_SUBFIELD = 4416,
S_DEFRANGE_REGISTER = 4417,
S_DEFRANGE_FRAMEPOINTER_REL = 4418,
S_DEFRANGE_SUBFIELD_REGISTER = 4419,
S_DEFRANGE_FRAMEPOINTER_REL_FULL_SCOPE = 4420,
S_DEFRANGE_REGISTER_REL = 4421,
S_BLOCK32 = 4355,
S_LABEL32 = 4357,
S_OBJNAME = 4353,
S_COMPILE2 = 4374,
S_COMPILE3 = 4412,
S_FRAMEPROC = 4114,
S_CALLSITEINFO = 4409,
S_FILESTATIC = 4435,
S_HEAPALLOCSITE = 4446,
S_FRAMECOOKIE = 4410,
S_CALLEES = 4442,
S_CALLERS = 4443,
S_UDT = 4360,
S_COBOLUDT = 4361,
S_BUILDINFO = 4428,
S_BPREL32 = 4363,
S_REGREL32 = 4369,
S_CONSTANT = 4359,
S_MANCONSTANT = 4397,
S_LDATA32 = 4364,
S_GDATA32 = 4365,
S_LMANDATA = 4380,
S_GMANDATA = 4381,
S_LTHREAD32 = 4370,
S_GTHREAD32 = 4371,
};
pub const TypeIndex = u32;
pub const ProcSym = packed struct {
Parent: u32,
End: u32,
Next: u32,
CodeSize: u32,
DbgStart: u32,
DbgEnd: u32,
FunctionType: TypeIndex,
CodeOffset: u32,
Segment: u16,
Flags: ProcSymFlags,
// following is a null terminated string
// Name: [*]u8,
};
pub const ProcSymFlags = packed struct {
HasFP: bool,
HasIRET: bool,
HasFRET: bool,
IsNoReturn: bool,
IsUnreachable: bool,
HasCustomCallingConv: bool,
IsNoInline: bool,
HasOptimizedDebugInfo: bool,
};
pub const SectionContrSubstreamVersion = enum(u32) {
Ver60 = 0xeffe0000 + 19970605,
V2 = 0xeffe0000 + 20140516,
};
pub const RecordPrefix = packed struct {
/// Record length, starting from &RecordKind.
RecordLen: u16,
/// Record kind enum (SymRecordKind or TypeRecordKind)
RecordKind: SymbolKind,
};
/// The following variable length array appears immediately after the header.
/// The structure definition follows.
/// LineBlockFragmentHeader Blocks[]
/// Each `LineBlockFragmentHeader` as specified below.
pub const LineFragmentHeader = packed struct {
/// Code offset of line contribution.
RelocOffset: u32,
/// Code segment of line contribution.
RelocSegment: u16,
Flags: LineFlags,
/// Code size of this line contribution.
CodeSize: u32,
};
pub const LineFlags = packed struct {
/// CV_LINES_HAVE_COLUMNS
LF_HaveColumns: bool,
unused: u15,
};
/// The following two variable length arrays appear immediately after the
/// header. The structure definitions follow.
/// LineNumberEntry Lines[NumLines];
/// ColumnNumberEntry Columns[NumLines];
pub const LineBlockFragmentHeader = packed struct {
/// Offset of FileChecksum entry in File
/// checksums buffer. The checksum entry then
/// contains another offset into the string
/// table of the actual name.
NameIndex: u32,
NumLines: u32,
/// code size of block, in bytes
BlockSize: u32,
};
pub const LineNumberEntry = packed struct {
/// Offset to start of code bytes for line number
Offset: u32,
Flags: u32,
/// TODO runtime crash when I make the actual type of Flags this
pub const Flags = packed struct {
/// Start line number
Start: u24,
/// Delta of lines to the end of the expression. Still unclear.
// TODO figure out the point of this field.
End: u7,
IsStatement: bool,
};
};
pub const ColumnNumberEntry = packed struct {
StartColumn: u16,
EndColumn: u16,
};
/// Checksum bytes follow.
pub const FileChecksumEntryHeader = packed struct {
/// Byte offset of filename in global string table.
FileNameOffset: u32,
/// Number of bytes of checksum.
ChecksumSize: u8,
/// FileChecksumKind
ChecksumKind: u8,
};
pub const DebugSubsectionKind = packed enum(u32) {
None = 0,
Symbols = 0xf1,
Lines = 0xf2,
StringTable = 0xf3,
FileChecksums = 0xf4,
FrameData = 0xf5,
InlineeLines = 0xf6,
CrossScopeImports = 0xf7,
CrossScopeExports = 0xf8,
// These appear to relate to .Net assembly info.
ILLines = 0xf9,
FuncMDTokenMap = 0xfa,
TypeMDTokenMap = 0xfb,
MergedAssemblyInput = 0xfc,
CoffSymbolRVA = 0xfd,
};
pub const DebugSubsectionHeader = packed struct {
/// codeview::DebugSubsectionKind enum
Kind: DebugSubsectionKind,
/// number of bytes occupied by this record.
Length: u32,
};
pub const PDBStringTableHeader = packed struct {
/// PDBStringTableSignature
Signature: u32,
/// 1 or 2
HashVersion: u32,
/// Number of bytes of names buffer.
ByteSize: u32,
};
pub const Pdb = struct {
in_file: File,
allocator: *mem.Allocator,
coff: *coff.Coff,
string_table: *MsfStream,
dbi: *MsfStream,
msf: Msf,
pub fn openFile(self: *Pdb, coff_ptr: *coff.Coff, file_name: []u8) !void {
self.in_file = try fs.cwd().openFile(file_name, .{ .intended_io_mode = .blocking });
self.allocator = coff_ptr.allocator;
self.coff = coff_ptr;
try self.msf.openFile(self.allocator, self.in_file);
}
pub fn getStreamById(self: *Pdb, id: u32) ?*MsfStream {
if (id >= self.msf.streams.len)
return null;
return &self.msf.streams[id];
}
pub fn getStream(self: *Pdb, stream: StreamType) ?*MsfStream {
const id = @enumToInt(stream);
return self.getStreamById(id);
}
};
// see https://llvm.org/docs/PDB/MsfFile.html
const Msf = struct {
directory: MsfStream,
streams: []MsfStream,
fn openFile(self: *Msf, allocator: *mem.Allocator, file: File) !void {
const in = file.reader();
const superblock = try in.readStruct(SuperBlock);
// Sanity checks
if (!mem.eql(u8, &superblock.FileMagic, SuperBlock.file_magic))
return error.InvalidDebugInfo;
if (superblock.FreeBlockMapBlock != 1 and superblock.FreeBlockMapBlock != 2)
return error.InvalidDebugInfo;
if (superblock.NumBlocks * superblock.BlockSize != try file.getEndPos())
return error.InvalidDebugInfo;
switch (superblock.BlockSize) {
// llvm only supports 4096 but we can handle any of these values
512, 1024, 2048, 4096 => {},
else => return error.InvalidDebugInfo,
}
const dir_block_count = blockCountFromSize(superblock.NumDirectoryBytes, superblock.BlockSize);
if (dir_block_count > superblock.BlockSize / @sizeOf(u32))
return error.UnhandledBigDirectoryStream; // cf. BlockMapAddr comment.
try file.seekTo(superblock.BlockSize * superblock.BlockMapAddr);
var dir_blocks = try allocator.alloc(u32, dir_block_count);
for (dir_blocks) |*b| {
b.* = try in.readIntLittle(u32);
}
self.directory = MsfStream.init(
superblock.BlockSize,
file,
dir_blocks,
);
const begin = self.directory.pos;
const stream_count = try self.directory.reader().readIntLittle(u32);
const stream_sizes = try allocator.alloc(u32, stream_count);
defer allocator.free(stream_sizes);
// Microsoft's implementation uses @as(u32, -1) for inexistant streams.
// These streams are not used, but still participate in the file
// and must be taken into account when resolving stream indices.
const Nil = 0xFFFFFFFF;
for (stream_sizes) |*s, i| {
const size = try self.directory.reader().readIntLittle(u32);
s.* = if (size == Nil) 0 else blockCountFromSize(size, superblock.BlockSize);
}
self.streams = try allocator.alloc(MsfStream, stream_count);
for (self.streams) |*stream, i| {
const size = stream_sizes[i];
if (size == 0) {
stream.* = MsfStream{
.blocks = &[_]u32{},
};
} else {
var blocks = try allocator.alloc(u32, size);
var j: u32 = 0;
while (j < size) : (j += 1) {
const block_id = try self.directory.reader().readIntLittle(u32);
const n = (block_id % superblock.BlockSize);
// 0 is for SuperBlock, 1 and 2 for FPMs.
if (block_id == 0 or n == 1 or n == 2 or block_id * superblock.BlockSize > try file.getEndPos())
return error.InvalidBlockIndex;
blocks[j] = block_id;
}
stream.* = MsfStream.init(
superblock.BlockSize,
file,
blocks,
);
}
}
const end = self.directory.pos;
if (end - begin != superblock.NumDirectoryBytes)
return error.InvalidStreamDirectory;
}
};
fn blockCountFromSize(size: u32, block_size: u32) u32 {
return (size + block_size - 1) / block_size;
}
// https://llvm.org/docs/PDB/MsfFile.html#the-superblock
const SuperBlock = packed struct {
/// The LLVM docs list a space between C / C++ but empirically this is not the case.
const file_magic = "Microsoft C/C++ MSF 7.00\r\n\x1a\x44\x53\x00\x00\x00";
FileMagic: [file_magic.len]u8,
/// The block size of the internal file system. Valid values are 512, 1024,
/// 2048, and 4096 bytes. Certain aspects of the MSF file layout vary depending
/// on the block sizes. For the purposes of LLVM, we handle only block sizes of
/// 4KiB, and all further discussion assumes a block size of 4KiB.
BlockSize: u32,
/// The index of a block within the file, at which begins a bitfield representing
/// the set of all blocks within the file which are “free” (i.e. the data within
/// that block is not used). See The Free Block Map for more information. Important:
/// FreeBlockMapBlock can only be 1 or 2!
FreeBlockMapBlock: u32,
/// The total number of blocks in the file. NumBlocks * BlockSize should equal the
/// size of the file on disk.
NumBlocks: u32,
/// The size of the stream directory, in bytes. The stream directory contains
/// information about each streams size and the set of blocks that it occupies.
/// It will be described in more detail later.
NumDirectoryBytes: u32,
Unknown: u32,
/// The index of a block within the MSF file. At this block is an array of
/// ulittle32_ts listing the blocks that the stream directory resides on.
/// For large MSF files, the stream directory (which describes the block
/// layout of each stream) may not fit entirely on a single block. As a
/// result, this extra layer of indirection is introduced, whereby this
/// block contains the list of blocks that the stream directory occupies,
/// and the stream directory itself can be stitched together accordingly.
/// The number of ulittle32_ts in this array is given by
/// ceil(NumDirectoryBytes / BlockSize).
// Note: microsoft-pdb code actually suggests this is a variable-length
// array. If the indices of blocks occupied by the Stream Directory didn't
// fit in one page, there would be other u32 following it.
// This would mean the Stream Directory is bigger than BlockSize / sizeof(u32)
// blocks. We're not even close to this with a 1GB pdb file, and LLVM didn't
// implement it so we're kind of safe making this assumption for now.
BlockMapAddr: u32,
};
const MsfStream = struct {
in_file: File = undefined,
pos: u64 = undefined,
blocks: []u32 = undefined,
block_size: u32 = undefined,
pub const Error = @TypeOf(read).ReturnType.ErrorSet;
fn init(block_size: u32, file: File, blocks: []u32) MsfStream {
const stream = MsfStream{
.in_file = file,
.pos = 0,
.blocks = blocks,
.block_size = block_size,
};
return stream;
}
pub fn readNullTermString(self: *MsfStream, allocator: *mem.Allocator) ![]u8 {
var list = ArrayList(u8).init(allocator);
while (true) {
const byte = try self.reader().readByte();
if (byte == 0) {
return list.span();
}
try list.append(byte);
}
}
fn read(self: *MsfStream, buffer: []u8) !usize {
var block_id = @intCast(usize, self.pos / self.block_size);
var block = self.blocks[block_id];
var offset = self.pos % self.block_size;
try self.in_file.seekTo(block * self.block_size + offset);
const in = self.in_file.reader();
var size: usize = 0;
var rem_buffer = buffer;
while (size < buffer.len) {
const size_to_read = math.min(self.block_size - offset, rem_buffer.len);
size += try in.read(rem_buffer[0..size_to_read]);
rem_buffer = buffer[size..];
offset += size_to_read;
// If we're at the end of a block, go to the next one.
if (offset == self.block_size) {
offset = 0;
block_id += 1;
block = self.blocks[block_id];
try self.in_file.seekTo(block * self.block_size);
}
}
self.pos += buffer.len;
return buffer.len;
}
pub fn seekBy(self: *MsfStream, len: i64) !void {
self.pos = @intCast(u64, @intCast(i64, self.pos) + len);
if (self.pos >= self.blocks.len * self.block_size)
return error.EOF;
}
pub fn seekTo(self: *MsfStream, len: u64) !void {
self.pos = len;
if (self.pos >= self.blocks.len * self.block_size)
return error.EOF;
}
fn getSize(self: *const MsfStream) u64 {
return self.blocks.len * self.block_size;
}
fn getFilePos(self: MsfStream) u64 {
const block_id = self.pos / self.block_size;
const block = self.blocks[block_id];
const offset = self.pos % self.block_size;
return block * self.block_size + offset;
}
pub fn reader(self: *MsfStream) std.io.Reader(*MsfStream, Error, read) {
return .{ .context = self };
}
/// Deprecated: use `reader`
pub fn inStream(self: *MsfStream) std.io.InStream(*MsfStream, Error, read) {
return .{ .context = self };
}
};