const std = @import("std.zig"); const io = std.io; const math = std.math; const mem = std.mem; const os = std.os; const coff = std.coff; const fs = std.fs; const File = std.fs.File; const debug = std.debug; 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 = 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 = 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, }; fn readSparseBitVector(stream: anytype, allocator: mem.Allocator) ![]u32 { const num_words = try stream.readIntLittle(u32); var list = ArrayList(u32).init(allocator); errdefer list.deinit(); var word_i: u32 = 0; while (word_i != num_words) : (word_i += 1) { const word = try stream.readIntLittle(u32); var bit_i: u5 = 0; while (true) : (bit_i += 1) { if (word & (@as(u32, 1) << bit_i) != 0) { try list.append(word_i * 32 + bit_i); } if (bit_i == std.math.maxInt(u5)) break; } } return list.toOwnedSlice(); } pub const Pdb = struct { in_file: File, msf: Msf, allocator: mem.Allocator, string_table: ?*MsfStream, dbi: ?*MsfStream, modules: []Module, sect_contribs: []SectionContribEntry, guid: [16]u8, age: u32, pub const Module = struct { mod_info: ModInfo, module_name: []u8, obj_file_name: []u8, // The fields below are filled on demand. populated: bool, symbols: []u8, subsect_info: []u8, checksum_offset: ?usize, }; pub fn init(allocator: mem.Allocator, path: []const u8) !Pdb { const file = try fs.cwd().openFile(path, .{ .intended_io_mode = .blocking }); errdefer file.close(); return Pdb{ .in_file = file, .allocator = allocator, .string_table = null, .dbi = null, .msf = try Msf.init(allocator, file), .modules = &[_]Module{}, .sect_contribs = &[_]SectionContribEntry{}, .guid = undefined, .age = undefined, }; } pub fn deinit(self: *Pdb) void { self.in_file.close(); self.allocator.free(self.modules); self.allocator.free(self.sect_contribs); } pub fn parseDbiStream(self: *Pdb) !void { var stream = self.getStream(StreamType.Dbi) orelse return error.InvalidDebugInfo; const reader = stream.reader(); const header = try reader.readStruct(DbiStreamHeader); if (header.VersionHeader != 19990903) // V70, only value observed by LLVM team return error.UnknownPDBVersion; // if (header.Age != age) // return error.UnmatchingPDB; const mod_info_size = header.ModInfoSize; const section_contrib_size = header.SectionContributionSize; var modules = ArrayList(Module).init(self.allocator); errdefer modules.deinit(); // Module Info Substream var mod_info_offset: usize = 0; while (mod_info_offset != mod_info_size) { const mod_info = try reader.readStruct(ModInfo); var this_record_len: usize = @sizeOf(ModInfo); const module_name = try reader.readUntilDelimiterAlloc(self.allocator, 0, 1024); errdefer self.allocator.free(module_name); this_record_len += module_name.len + 1; const obj_file_name = try reader.readUntilDelimiterAlloc(self.allocator, 0, 1024); errdefer self.allocator.free(obj_file_name); this_record_len += obj_file_name.len + 1; if (this_record_len % 4 != 0) { const round_to_next_4 = (this_record_len | 0x3) + 1; const march_forward_bytes = round_to_next_4 - this_record_len; try stream.seekBy(@intCast(isize, march_forward_bytes)); this_record_len += march_forward_bytes; } try modules.append(Module{ .mod_info = mod_info, .module_name = module_name, .obj_file_name = obj_file_name, .populated = false, .symbols = undefined, .subsect_info = undefined, .checksum_offset = null, }); mod_info_offset += this_record_len; if (mod_info_offset > mod_info_size) return error.InvalidDebugInfo; } // Section Contribution Substream var sect_contribs = ArrayList(SectionContribEntry).init(self.allocator); errdefer sect_contribs.deinit(); var sect_cont_offset: usize = 0; if (section_contrib_size != 0) { const version = reader.readEnum(SectionContrSubstreamVersion, .Little) catch |err| switch (err) { error.InvalidValue => return error.InvalidDebugInfo, else => |e| return e, }; _ = version; sect_cont_offset += @sizeOf(u32); } while (sect_cont_offset != section_contrib_size) { const entry = try sect_contribs.addOne(); entry.* = try reader.readStruct(SectionContribEntry); sect_cont_offset += @sizeOf(SectionContribEntry); if (sect_cont_offset > section_contrib_size) return error.InvalidDebugInfo; } self.modules = modules.toOwnedSlice(); self.sect_contribs = sect_contribs.toOwnedSlice(); } pub fn parseInfoStream(self: *Pdb) !void { var stream = self.getStream(StreamType.Pdb) orelse return error.InvalidDebugInfo; const reader = stream.reader(); // Parse the InfoStreamHeader. const version = try reader.readIntLittle(u32); const signature = try reader.readIntLittle(u32); _ = signature; const age = try reader.readIntLittle(u32); const guid = try reader.readBytesNoEof(16); if (version != 20000404) // VC70, only value observed by LLVM team return error.UnknownPDBVersion; self.guid = guid; self.age = age; // Find the string table. const string_table_index = str_tab_index: { const name_bytes_len = try reader.readIntLittle(u32); const name_bytes = try self.allocator.alloc(u8, name_bytes_len); defer self.allocator.free(name_bytes); try reader.readNoEof(name_bytes); const HashTableHeader = extern struct { Size: u32, Capacity: u32, fn maxLoad(cap: u32) u32 { return cap * 2 / 3 + 1; } }; const hash_tbl_hdr = try reader.readStruct(HashTableHeader); if (hash_tbl_hdr.Capacity == 0) return error.InvalidDebugInfo; if (hash_tbl_hdr.Size > HashTableHeader.maxLoad(hash_tbl_hdr.Capacity)) return error.InvalidDebugInfo; const present = try readSparseBitVector(&reader, self.allocator); defer self.allocator.free(present); if (present.len != hash_tbl_hdr.Size) return error.InvalidDebugInfo; const deleted = try readSparseBitVector(&reader, self.allocator); defer self.allocator.free(deleted); for (present) |_| { const name_offset = try reader.readIntLittle(u32); const name_index = try reader.readIntLittle(u32); if (name_offset > name_bytes.len) return error.InvalidDebugInfo; const name = mem.sliceTo(std.meta.assumeSentinel(name_bytes.ptr + name_offset, 0), 0); if (mem.eql(u8, name, "/names")) { break :str_tab_index name_index; } } return error.MissingDebugInfo; }; self.string_table = self.getStreamById(string_table_index) orelse return error.MissingDebugInfo; } pub fn getSymbolName(self: *Pdb, module: *Module, address: u64) ?[]const u8 { _ = self; std.debug.assert(module.populated); var symbol_i: usize = 0; while (symbol_i != module.symbols.len) { const prefix = @ptrCast(*RecordPrefix, &module.symbols[symbol_i]); if (prefix.RecordLen < 2) return null; switch (prefix.RecordKind) { .S_LPROC32, .S_GPROC32 => { const proc_sym = @ptrCast(*ProcSym, &module.symbols[symbol_i + @sizeOf(RecordPrefix)]); if (address >= proc_sym.CodeOffset and address < proc_sym.CodeOffset + proc_sym.CodeSize) { return mem.sliceTo(@ptrCast([*:0]u8, proc_sym) + @sizeOf(ProcSym), 0); } }, else => {}, } symbol_i += prefix.RecordLen + @sizeOf(u16); } return null; } pub fn getLineNumberInfo(self: *Pdb, module: *Module, address: u64) !debug.LineInfo { std.debug.assert(module.populated); const subsect_info = module.subsect_info; var sect_offset: usize = 0; var skip_len: usize = undefined; const checksum_offset = module.checksum_offset orelse return error.MissingDebugInfo; while (sect_offset != subsect_info.len) : (sect_offset += skip_len) { const subsect_hdr = @ptrCast(*DebugSubsectionHeader, &subsect_info[sect_offset]); skip_len = subsect_hdr.Length; sect_offset += @sizeOf(DebugSubsectionHeader); switch (subsect_hdr.Kind) { .Lines => { var line_index = sect_offset; const line_hdr = @ptrCast(*LineFragmentHeader, &subsect_info[line_index]); if (line_hdr.RelocSegment == 0) return error.MissingDebugInfo; line_index += @sizeOf(LineFragmentHeader); const frag_vaddr_start = line_hdr.RelocOffset; const frag_vaddr_end = frag_vaddr_start + line_hdr.CodeSize; if (address >= frag_vaddr_start and address < frag_vaddr_end) { // There is an unknown number of LineBlockFragmentHeaders (and their accompanying line and column records) // from now on. We will iterate through them, and eventually find a LineInfo that we're interested in, // breaking out to :subsections. If not, we will make sure to not read anything outside of this subsection. const subsection_end_index = sect_offset + subsect_hdr.Length; while (line_index < subsection_end_index) { const block_hdr = @ptrCast(*LineBlockFragmentHeader, &subsect_info[line_index]); line_index += @sizeOf(LineBlockFragmentHeader); const start_line_index = line_index; const has_column = line_hdr.Flags.LF_HaveColumns; // All line entries are stored inside their line block by ascending start address. // Heuristic: we want to find the last line entry // that has a vaddr_start <= address. // This is done with a simple linear search. var line_i: u32 = 0; while (line_i < block_hdr.NumLines) : (line_i += 1) { const line_num_entry = @ptrCast(*LineNumberEntry, &subsect_info[line_index]); line_index += @sizeOf(LineNumberEntry); const vaddr_start = frag_vaddr_start + line_num_entry.Offset; if (address < vaddr_start) { break; } } // line_i == 0 would mean that no matching LineNumberEntry was found. if (line_i > 0) { const subsect_index = checksum_offset + block_hdr.NameIndex; const chksum_hdr = @ptrCast(*FileChecksumEntryHeader, &module.subsect_info[subsect_index]); const strtab_offset = @sizeOf(PDBStringTableHeader) + chksum_hdr.FileNameOffset; try self.string_table.?.seekTo(strtab_offset); const source_file_name = try self.string_table.?.reader().readUntilDelimiterAlloc(self.allocator, 0, 1024); const line_entry_idx = line_i - 1; const column = if (has_column) blk: { const start_col_index = start_line_index + @sizeOf(LineNumberEntry) * block_hdr.NumLines; const col_index = start_col_index + @sizeOf(ColumnNumberEntry) * line_entry_idx; const col_num_entry = @ptrCast(*ColumnNumberEntry, &subsect_info[col_index]); break :blk col_num_entry.StartColumn; } else 0; const found_line_index = start_line_index + line_entry_idx * @sizeOf(LineNumberEntry); const line_num_entry = @ptrCast(*LineNumberEntry, &subsect_info[found_line_index]); const flags = @ptrCast(*LineNumberEntry.Flags, &line_num_entry.Flags); return debug.LineInfo{ .allocator = self.allocator, .file_name = source_file_name, .line = flags.Start, .column = column, }; } } // Checking that we are not reading garbage after the (possibly) multiple block fragments. if (line_index != subsection_end_index) { return error.InvalidDebugInfo; } } }, else => {}, } if (sect_offset > subsect_info.len) return error.InvalidDebugInfo; } return error.MissingDebugInfo; } pub fn getModule(self: *Pdb, index: usize) !?*Module { if (index >= self.modules.len) return null; const mod = &self.modules[index]; if (mod.populated) return mod; // At most one can be non-zero. if (mod.mod_info.C11ByteSize != 0 and mod.mod_info.C13ByteSize != 0) return error.InvalidDebugInfo; if (mod.mod_info.C13ByteSize == 0) return error.InvalidDebugInfo; const stream = self.getStreamById(mod.mod_info.ModuleSymStream) orelse return error.MissingDebugInfo; const reader = stream.reader(); const signature = try reader.readIntLittle(u32); if (signature != 4) return error.InvalidDebugInfo; mod.symbols = try self.allocator.alloc(u8, mod.mod_info.SymByteSize - 4); errdefer self.allocator.free(mod.symbols); try reader.readNoEof(mod.symbols); mod.subsect_info = try self.allocator.alloc(u8, mod.mod_info.C13ByteSize); errdefer self.allocator.free(mod.subsect_info); try reader.readNoEof(mod.subsect_info); var sect_offset: usize = 0; var skip_len: usize = undefined; while (sect_offset != mod.subsect_info.len) : (sect_offset += skip_len) { const subsect_hdr = @ptrCast(*DebugSubsectionHeader, &mod.subsect_info[sect_offset]); skip_len = subsect_hdr.Length; sect_offset += @sizeOf(DebugSubsectionHeader); switch (subsect_hdr.Kind) { .FileChecksums => { mod.checksum_offset = sect_offset; break; }, else => {}, } if (sect_offset > mod.subsect_info.len) return error.InvalidDebugInfo; } mod.populated = true; return mod; } 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 init(allocator: mem.Allocator, file: File) !Msf { 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; const file_len = try file.getEndPos(); if (superblock.NumBlocks * superblock.BlockSize != file_len) 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); } var directory = MsfStream.init( superblock.BlockSize, file, dir_blocks, ); const begin = directory.pos; const stream_count = try 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| { const size = try directory.reader().readIntLittle(u32); s.* = if (size == Nil) 0 else blockCountFromSize(size, superblock.BlockSize); } const streams = try allocator.alloc(MsfStream, stream_count); for (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 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 > file_len) return error.InvalidBlockIndex; blocks[j] = block_id; } stream.* = MsfStream.init( superblock.BlockSize, file, blocks, ); } } const end = directory.pos; if (end - begin != superblock.NumDirectoryBytes) return error.InvalidStreamDirectory; return Msf{ .directory = directory, .streams = streams, }; } }; 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 stream’s 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_t’s 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_t’s 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 = @typeInfo(@typeInfo(@TypeOf(read)).Fn.return_type.?).ErrorUnion.error_set; 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; } fn read(self: *MsfStream, buffer: []u8) !usize { var block_id = @intCast(usize, self.pos / self.block_size); if (block_id >= self.blocks.len) return 0; // End of Stream 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; if (block_id >= self.blocks.len) break; // End of Stream 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 }; } };