mirror of
https://github.com/ziglang/zig.git
synced 2024-11-27 15:42:49 +00:00
d6856859d3
* standard library knows if it is linking against libc and will sometimes call libc functions in that case instead of providing redundant definitions * fix infinite loop bug when resolving use declarations * allow calling the same C function from different C imports. closes #277 * push more logic from compiler to std/bootstrap.zig * standard library provides way to access errno closes #274 * fix compile error in standard library for windows * add implementation of getRandomBytes for windows
533 lines
18 KiB
Zig
533 lines
18 KiB
Zig
const mem = @import("mem.zig");
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const io = @import("io.zig");
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const os = @import("os.zig");
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const elf = @import("elf.zig");
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const DW = @import("dwarf.zig");
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const List = @import("list.zig").List;
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error MissingDebugInfo;
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error InvalidDebugInfo;
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error UnsupportedDebugInfo;
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pub fn assert(ok: bool) {
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if (!ok) @unreachable()
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}
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var panicking = false;
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/// This is the default panic implementation.
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pub coldcc fn panic(message: []const u8) -> unreachable {
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// TODO
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// if (@atomicRmw(AtomicOp.XChg, &panicking, true, AtomicOrder.SeqCst)) { }
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if (panicking) {
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// Panicked during a panic.
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// TODO detect if a different thread caused the panic, because in that case
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// we would want to return here instead of calling abort, so that the thread
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// which first called panic can finish printing a stack trace.
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os.abort();
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} else {
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panicking = true;
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}
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%%io.stderr.printf("{}\n", message);
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%%printStackTrace();
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os.abort();
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}
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pub fn printStackTrace() -> %void {
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%return writeStackTrace(&io.stderr);
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%return io.stderr.flush();
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}
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pub fn writeStackTrace(out_stream: &io.OutStream) -> %void {
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switch (@compileVar("object_format")) {
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ObjectFormat.elf => {
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var stack_trace = ElfStackTrace {
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.self_exe_stream = undefined,
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.elf = undefined,
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.debug_info = undefined,
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.debug_abbrev = undefined,
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.debug_str = undefined,
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.abbrev_table_list = List(AbbrevTableHeader).init(&global_allocator),
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.compile_unit_list = List(CompileUnit).init(&global_allocator),
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};
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const st = &stack_trace;
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%return io.openSelfExe(&st.self_exe_stream);
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defer st.self_exe_stream.close() %% {};
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%return st.elf.openStream(&global_allocator, &st.self_exe_stream);
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defer st.elf.close();
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st.debug_info = (%return st.elf.findSection(".debug_info")) ?? return error.MissingDebugInfo;
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st.debug_abbrev = (%return st.elf.findSection(".debug_abbrev")) ?? return error.MissingDebugInfo;
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st.debug_str = (%return st.elf.findSection(".debug_str")) ?? return error.MissingDebugInfo;
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%return scanAllCompileUnits(st);
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%return out_stream.printf("(...work-in-progress stack unwinding code follows...)\n");
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var maybe_fp: ?&const u8 = @frameAddress();
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while (true) {
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const fp = maybe_fp ?? break;
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const return_address = *(&const usize)(usize(fp) + @sizeOf(usize));
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const compile_unit = findCompileUnit(st, return_address) ?? return error.MissingDebugInfo;
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const name = %return compile_unit.die.getAttrString(st, DW.AT_name);
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%return out_stream.printf("{} -> {}\n", return_address, name);
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maybe_fp = *(&const ?&const u8)(fp);
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}
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},
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ObjectFormat.coff => {
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%return out_stream.write("(stack trace unavailable for COFF object format)\n");
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},
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ObjectFormat.macho => {
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%return out_stream.write("(stack trace unavailable for Mach-O object format)\n");
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},
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ObjectFormat.unknown => {
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%return out_stream.write("(stack trace unavailable for unknown object format)\n");
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},
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}
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}
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const ElfStackTrace = struct {
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self_exe_stream: io.InStream,
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elf: elf.Elf,
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debug_info: &elf.SectionHeader,
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debug_abbrev: &elf.SectionHeader,
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debug_str: &elf.SectionHeader,
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abbrev_table_list: List(AbbrevTableHeader),
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compile_unit_list: List(CompileUnit),
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};
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const CompileUnit = struct {
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is_64: bool,
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die: &Die,
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pc_start: u64,
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pc_end: u64,
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};
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const AbbrevTable = List(AbbrevTableEntry);
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const AbbrevTableHeader = struct {
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// offset from .debug_abbrev
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offset: u64,
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table: AbbrevTable,
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};
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const AbbrevTableEntry = struct {
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has_children: bool,
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abbrev_code: u64,
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tag_id: u64,
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attrs: List(AbbrevAttr),
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};
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const AbbrevAttr = struct {
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attr_id: u64,
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form_id: u64,
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};
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const FormValue = enum {
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Address: u64,
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Block: []u8,
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Const: Constant,
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ExprLoc: []u8,
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Flag: bool,
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SecOffset: u64,
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Ref: []u8,
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RefAddr: u64,
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RefSig8: u64,
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String: []u8,
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StrPtr: u64,
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};
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const Constant = struct {
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payload: []u8,
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signed: bool,
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fn asUnsignedLe(self: &const Constant) -> %u64 {
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if (self.payload.len > @sizeOf(u64))
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return error.InvalidDebugInfo;
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if (self.signed)
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return error.InvalidDebugInfo;
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return mem.readInt(self.payload, u64, false);
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}
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};
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const Die = struct {
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tag_id: u64,
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has_children: bool,
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attrs: List(Attr),
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const Attr = struct {
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id: u64,
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value: FormValue,
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};
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fn getAttr(self: &const Die, id: u64) -> ?&const FormValue {
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for (self.attrs.toSliceConst()) |*attr| {
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if (attr.id == id)
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return &attr.value;
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}
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return null;
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}
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fn getAttrAddr(self: &const Die, id: u64) -> %u64 {
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const form_value = self.getAttr(id) ?? return error.InvalidDebugInfo;
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return switch (*form_value) {
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FormValue.Address => |value| value,
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else => error.InvalidDebugInfo,
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};
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}
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fn getAttrUnsignedLe(self: &const Die, id: u64) -> %u64 {
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const form_value = self.getAttr(id) ?? return error.InvalidDebugInfo;
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return switch (*form_value) {
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FormValue.Const => |value| value.asUnsignedLe(),
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else => error.InvalidDebugInfo,
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};
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}
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fn getAttrString(self: &const Die, st: &ElfStackTrace, id: u64) -> %[]u8 {
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const form_value = self.getAttr(id) ?? return error.InvalidDebugInfo;
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return switch (*form_value) {
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FormValue.String => |value| value,
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FormValue.StrPtr => |offset| getString(st, offset),
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else => error.InvalidDebugInfo,
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}
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}
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};
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fn readString(in_stream: &io.InStream) -> %[]u8 {
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var buf = List(u8).init(&global_allocator);
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while (true) {
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const byte = %return in_stream.readByte();
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if (byte == 0)
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break;
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%return buf.append(byte);
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}
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return buf.items;
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}
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fn getString(st: &ElfStackTrace, offset: u64) -> %[]u8 {
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const pos = st.debug_str.offset + offset;
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%return st.self_exe_stream.seekTo(pos);
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return readString(&st.self_exe_stream);
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}
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fn readAllocBytes(in_stream: &io.InStream, size: usize) -> %[]u8 {
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const buf = %return global_allocator.alloc(u8, size);
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%defer global_allocator.free(buf);
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%return in_stream.read(buf);
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return buf;
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}
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fn parseFormValueBlockLen(in_stream: &io.InStream, size: usize) -> %FormValue {
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const buf = %return readAllocBytes(in_stream, size);
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return FormValue.Block { buf };
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}
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fn parseFormValueBlock(in_stream: &io.InStream, size: usize) -> %FormValue {
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const block_len = %return in_stream.readVarInt(false, usize, size);
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return parseFormValueBlockLen(in_stream, block_len);
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}
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fn parseFormValueConstant(in_stream: &io.InStream, signed: bool, size: usize) -> %FormValue {
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FormValue.Const { Constant {
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.signed = signed,
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.payload = %return readAllocBytes(in_stream, size),
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}}
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}
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fn parseFormValueDwarfOffsetSize(in_stream: &io.InStream, is_64: bool) -> %u64 {
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return if (is_64) {
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%return in_stream.readIntLe(u64)
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} else {
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u64(%return in_stream.readIntLe(u32))
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};
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}
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fn parseFormValueTargetAddrSize(in_stream: &io.InStream) -> %u64 {
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return if (@sizeOf(usize) == 4) {
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u64(%return in_stream.readIntLe(u32))
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} else if (@sizeOf(usize) == 8) {
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%return in_stream.readIntLe(u64)
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} else {
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@unreachable();
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};
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}
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fn parseFormValueRefLen(in_stream: &io.InStream, size: usize) -> %FormValue {
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const buf = %return readAllocBytes(in_stream, size);
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return FormValue.Ref { buf };
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}
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fn parseFormValueRef(in_stream: &io.InStream, comptime T: type) -> %FormValue {
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const block_len = %return in_stream.readIntLe(T);
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return parseFormValueRefLen(in_stream, block_len);
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}
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fn parseFormValue(in_stream: &io.InStream, form_id: u64, is_64: bool) -> %FormValue {
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return switch (form_id) {
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DW.FORM_addr => FormValue.Address { %return parseFormValueTargetAddrSize(in_stream) },
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DW.FORM_block1 => parseFormValueBlock(in_stream, 1),
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DW.FORM_block2 => parseFormValueBlock(in_stream, 2),
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DW.FORM_block4 => parseFormValueBlock(in_stream, 4),
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DW.FORM_block => {
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const block_len = %return readULeb128(in_stream);
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parseFormValueBlockLen(in_stream, block_len)
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},
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DW.FORM_data1 => parseFormValueConstant(in_stream, false, 1),
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DW.FORM_data2 => parseFormValueConstant(in_stream, false, 2),
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DW.FORM_data4 => parseFormValueConstant(in_stream, false, 4),
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DW.FORM_data8 => parseFormValueConstant(in_stream, false, 8),
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DW.FORM_udata, DW.FORM_sdata => {
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const block_len = %return readULeb128(in_stream);
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const signed = form_id == DW.FORM_sdata;
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parseFormValueConstant(in_stream, signed, block_len)
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},
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DW.FORM_exprloc => {
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const size = %return readULeb128(in_stream);
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const buf = %return readAllocBytes(in_stream, size);
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return FormValue.ExprLoc { buf };
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},
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DW.FORM_flag => FormValue.Flag { (%return in_stream.readByte()) != 0 },
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DW.FORM_flag_present => FormValue.Flag { true },
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DW.FORM_sec_offset => FormValue.SecOffset {
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%return parseFormValueDwarfOffsetSize(in_stream, is_64)
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},
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DW.FORM_ref1 => parseFormValueRef(in_stream, u8),
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DW.FORM_ref2 => parseFormValueRef(in_stream, u16),
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DW.FORM_ref4 => parseFormValueRef(in_stream, u32),
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DW.FORM_ref8 => parseFormValueRef(in_stream, u64),
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DW.FORM_ref_udata => {
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const ref_len = %return readULeb128(in_stream);
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parseFormValueRefLen(in_stream, ref_len)
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},
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DW.FORM_ref_addr => FormValue.RefAddr { %return parseFormValueDwarfOffsetSize(in_stream, is_64) },
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DW.FORM_ref_sig8 => FormValue.RefSig8 { %return in_stream.readIntLe(u64) },
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DW.FORM_string => FormValue.String { %return readString(in_stream) },
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DW.FORM_strp => FormValue.StrPtr { %return parseFormValueDwarfOffsetSize(in_stream, is_64) },
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DW.FORM_indirect => {
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const child_form_id = %return readULeb128(in_stream);
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parseFormValue(in_stream, child_form_id, is_64)
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},
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else => error.InvalidDebugInfo,
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}
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}
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fn parseAbbrevTable(in_stream: &io.InStream) -> %AbbrevTable {
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var result = AbbrevTable.init(&global_allocator);
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while (true) {
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const abbrev_code = %return readULeb128(in_stream);
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if (abbrev_code == 0)
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return result;
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%return result.append(AbbrevTableEntry {
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.abbrev_code = abbrev_code,
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.tag_id = %return readULeb128(in_stream),
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.has_children = (%return in_stream.readByte()) == DW.CHILDREN_yes,
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.attrs = List(AbbrevAttr).init(&global_allocator),
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});
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const attrs = &result.items[result.len - 1].attrs;
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while (true) {
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const attr_id = %return readULeb128(in_stream);
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const form_id = %return readULeb128(in_stream);
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if (attr_id == 0 && form_id == 0)
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break;
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%return attrs.append(AbbrevAttr {
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.attr_id = attr_id,
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.form_id = form_id,
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});
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}
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}
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}
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/// Gets an already existing AbbrevTable given the abbrev_offset, or if not found,
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/// seeks in the stream and parses it.
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fn getAbbrevTable(st: &ElfStackTrace, abbrev_offset: u64) -> %&const AbbrevTable {
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for (st.abbrev_table_list.toSlice()) |*header| {
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if (header.offset == abbrev_offset) {
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return &header.table;
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}
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}
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%return st.self_exe_stream.seekTo(st.debug_abbrev.offset + abbrev_offset);
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%return st.abbrev_table_list.append(AbbrevTableHeader {
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.offset = abbrev_offset,
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.table = %return parseAbbrevTable(&st.self_exe_stream),
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});
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return &st.abbrev_table_list.items[st.abbrev_table_list.len - 1].table;
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}
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fn getAbbrevTableEntry(abbrev_table: &const AbbrevTable, abbrev_code: u64) -> ?&const AbbrevTableEntry {
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for (abbrev_table.toSliceConst()) |*table_entry| {
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if (table_entry.abbrev_code == abbrev_code)
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return table_entry;
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}
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return null;
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}
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fn parseDie(in_stream: &io.InStream, abbrev_table: &const AbbrevTable, is_64: bool) -> %Die {
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const abbrev_code = %return readULeb128(in_stream);
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const table_entry = getAbbrevTableEntry(abbrev_table, abbrev_code) ?? return error.InvalidDebugInfo;
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var result = Die {
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.tag_id = table_entry.tag_id,
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.has_children = table_entry.has_children,
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.attrs = List(Die.Attr).init(&global_allocator),
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};
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%return result.attrs.resize(table_entry.attrs.len);
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for (table_entry.attrs.toSliceConst()) |attr, i| {
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result.attrs.items[i] = Die.Attr {
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.id = attr.attr_id,
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.value = %return parseFormValue(in_stream, attr.form_id, is_64),
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};
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}
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return result;
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}
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fn scanAllCompileUnits(st: &ElfStackTrace) -> %void {
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const debug_info_end = st.debug_info.offset + st.debug_info.size;
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var this_unit_offset = st.debug_info.offset;
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while (this_unit_offset < debug_info_end) {
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%return st.self_exe_stream.seekTo(this_unit_offset);
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var is_64: bool = undefined;
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const unit_length = %return readInitialLength(&st.self_exe_stream, &is_64);
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if (unit_length == 0)
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return;
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const next_offset = unit_length + (if (is_64) usize(12) else usize(4));
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const version = %return st.self_exe_stream.readInt(st.elf.is_big_endian, u16);
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if (version != 4) return error.InvalidDebugInfo;
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const debug_abbrev_offset = if (is_64) {
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%return st.self_exe_stream.readInt(st.elf.is_big_endian, u64)
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} else {
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%return st.self_exe_stream.readInt(st.elf.is_big_endian, u32)
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};
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const address_size = %return st.self_exe_stream.readByte();
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if (address_size != @sizeOf(usize)) return error.InvalidDebugInfo;
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const compile_unit_pos = %return st.self_exe_stream.getPos();
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const abbrev_table = %return getAbbrevTable(st, debug_abbrev_offset);
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%return st.self_exe_stream.seekTo(compile_unit_pos);
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const compile_unit_die = (%return global_allocator.alloc(Die, 1)).ptr;
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*compile_unit_die = %return parseDie(&st.self_exe_stream, abbrev_table, is_64);
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if (compile_unit_die.tag_id != DW.TAG_compile_unit)
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return error.InvalidDebugInfo;
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const low_pc = %return compile_unit_die.getAttrAddr(DW.AT_low_pc);
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const high_pc_value = compile_unit_die.getAttr(DW.AT_high_pc) ?? return error.MissingDebugInfo;
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const pc_end = switch (*high_pc_value) {
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FormValue.Address => |value| value,
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FormValue.Const => |value| {
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const offset = %return value.asUnsignedLe();
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low_pc + offset
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},
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else => return error.InvalidDebugInfo,
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};
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%return st.compile_unit_list.append(CompileUnit {
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.is_64 = is_64,
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.pc_start = low_pc,
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.pc_end = pc_end,
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.die = compile_unit_die,
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});
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this_unit_offset += next_offset;
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}
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}
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fn findCompileUnit(st: &ElfStackTrace, target_address: u64) -> ?&const CompileUnit {
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for (st.compile_unit_list.toSlice()) |*compile_unit| {
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if (target_address >= compile_unit.pc_start && target_address < compile_unit.pc_end)
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return compile_unit;
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}
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return null;
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}
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fn readInitialLength(in_stream: &io.InStream, is_64: &bool) -> %u64 {
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const first_32_bits = %return in_stream.readIntLe(u32);
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*is_64 = (first_32_bits == 0xffffffff);
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return if (*is_64) {
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%return in_stream.readIntLe(u64)
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} else {
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if (first_32_bits >= 0xfffffff0) return error.InvalidDebugInfo;
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u64(first_32_bits)
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};
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}
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|
|
|
fn readULeb128(in_stream: &io.InStream) -> %u64 {
|
|
var result: u64 = 0;
|
|
var shift: u64 = 0;
|
|
|
|
while (true) {
|
|
const byte = %return in_stream.readByte();
|
|
var operand: u64 = undefined;
|
|
|
|
if (@shlWithOverflow(u64, byte & 0b01111111, shift, &operand))
|
|
return error.InvalidDebugInfo;
|
|
|
|
result |= operand;
|
|
|
|
if ((byte & 0b10000000) == 0)
|
|
return result;
|
|
|
|
shift += 7;
|
|
}
|
|
}
|
|
|
|
fn readILeb128(in_stream: &io.InStream) -> %i64 {
|
|
var result: i64 = 0;
|
|
var shift: i64 = 0;
|
|
|
|
while (true) {
|
|
const byte = %return in_stream.readByte();
|
|
var operand: i64 = undefined;
|
|
|
|
if (@shlWithOverflow(i64, byte & 0b01111111, shift, &operand))
|
|
return error.InvalidDebugInfo;
|
|
|
|
result |= operand;
|
|
shift += 7;
|
|
|
|
if ((byte & 0b10000000) == 0) {
|
|
if (shift < @sizeOf(i64) * 8 && (byte & 0b01000000) != 0)
|
|
result |= -(i64(1) << shift);
|
|
|
|
return result;
|
|
}
|
|
}
|
|
}
|
|
|
|
pub var global_allocator = mem.Allocator {
|
|
.allocFn = globalAlloc,
|
|
.reallocFn = globalRealloc,
|
|
.freeFn = globalFree,
|
|
.context = null,
|
|
};
|
|
|
|
var some_mem: [100 * 1024]u8 = undefined;
|
|
var some_mem_index: usize = 0;
|
|
|
|
fn globalAlloc(self: &mem.Allocator, n: usize) -> %[]u8 {
|
|
const result = some_mem[some_mem_index ... some_mem_index + n];
|
|
some_mem_index += n;
|
|
return result;
|
|
}
|
|
|
|
fn globalRealloc(self: &mem.Allocator, old_mem: []u8, new_size: usize) -> %[]u8 {
|
|
const result = %return globalAlloc(self, new_size);
|
|
@memcpy(result.ptr, old_mem.ptr, old_mem.len);
|
|
return result;
|
|
}
|
|
|
|
fn globalFree(self: &mem.Allocator, old_mem: []u8) { }
|