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110 lines
4.1 KiB
Zig
110 lines
4.1 KiB
Zig
//! Cross-platform abstraction for loading debug information into an in-memory
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//! format that supports queries such as "what is the source location of this
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//! virtual memory address?"
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//!
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//! Unlike `std.debug.SelfInfo`, this API does not assume the debug information
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//! in question happens to match the host CPU architecture, OS, or other target
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//! properties.
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const std = @import("../std.zig");
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const Allocator = std.mem.Allocator;
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const Path = std.Build.Cache.Path;
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const assert = std.debug.assert;
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const Coverage = std.debug.Coverage;
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const SourceLocation = std.debug.Coverage.SourceLocation;
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const ElfFile = std.debug.ElfFile;
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const MachOFile = std.debug.MachOFile;
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const Info = @This();
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impl: union(enum) {
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elf: ElfFile,
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macho: MachOFile,
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},
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/// Externally managed, outlives this `Info` instance.
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coverage: *Coverage,
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pub const LoadError = std.fs.File.OpenError || ElfFile.LoadError || MachOFile.Error || std.debug.Dwarf.ScanError || error{ MissingDebugInfo, UnsupportedDebugInfo };
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pub fn load(gpa: Allocator, path: Path, coverage: *Coverage, format: std.Target.ObjectFormat, arch: std.Target.Cpu.Arch) LoadError!Info {
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switch (format) {
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.elf => {
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var file = try path.root_dir.handle.openFile(path.sub_path, .{});
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defer file.close();
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var elf_file: ElfFile = try .load(gpa, file, null, &.none);
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errdefer elf_file.deinit(gpa);
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if (elf_file.dwarf == null) return error.MissingDebugInfo;
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try elf_file.dwarf.?.open(gpa, elf_file.endian);
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try elf_file.dwarf.?.populateRanges(gpa, elf_file.endian);
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return .{
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.impl = .{ .elf = elf_file },
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.coverage = coverage,
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};
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},
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.macho => {
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const path_str = try path.toString(gpa);
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defer gpa.free(path_str);
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var macho_file: MachOFile = try .load(gpa, path_str, arch);
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errdefer macho_file.deinit(gpa);
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return .{
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.impl = .{ .macho = macho_file },
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.coverage = coverage,
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};
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},
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else => return error.UnsupportedDebugInfo,
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}
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}
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pub fn deinit(info: *Info, gpa: Allocator) void {
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switch (info.impl) {
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.elf => |*ef| ef.deinit(gpa),
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.macho => |*mf| mf.deinit(gpa),
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}
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info.* = undefined;
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}
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pub const ResolveAddressesError = Coverage.ResolveAddressesDwarfError || error{UnsupportedDebugInfo};
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/// Given an array of virtual memory addresses, sorted ascending, outputs a
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/// corresponding array of source locations.
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pub fn resolveAddresses(
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info: *Info,
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gpa: Allocator,
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/// Asserts the addresses are in ascending order.
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sorted_pc_addrs: []const u64,
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/// Asserts its length equals length of `sorted_pc_addrs`.
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output: []SourceLocation,
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) ResolveAddressesError!void {
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assert(sorted_pc_addrs.len == output.len);
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switch (info.impl) {
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.elf => |*ef| return info.coverage.resolveAddressesDwarf(gpa, ef.endian, sorted_pc_addrs, output, &ef.dwarf.?),
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.macho => |*mf| {
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// Resolving all of the addresses at once unfortunately isn't so easy in Mach-O binaries
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// due to split debug information. For now, we'll just resolve the addreses one by one.
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for (sorted_pc_addrs, output) |pc_addr, *src_loc| {
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const dwarf, const dwarf_pc_addr = mf.getDwarfForAddress(gpa, pc_addr) catch |err| switch (err) {
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error.InvalidMachO, error.InvalidDwarf => return error.InvalidDebugInfo,
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else => |e| return e,
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};
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if (dwarf.ranges.items.len == 0) {
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dwarf.populateRanges(gpa, .little) catch |err| switch (err) {
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error.EndOfStream,
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error.Overflow,
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error.StreamTooLong,
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error.ReadFailed,
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=> return error.InvalidDebugInfo,
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else => |e| return e,
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};
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}
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try info.coverage.resolveAddressesDwarf(gpa, .little, &.{dwarf_pc_addr}, src_loc[0..1], dwarf);
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}
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},
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}
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}
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