compress/xz.zig - Zig 0.13.0 standard library

zig/lib/std / compress/xz.zig	const std = @import("std"); const block = @import("xz/block.zig"); const Allocator = std.mem.Allocator; const Crc32 = std.hash.Crc32;
Check	pub const Check = enum(u4) { none = 0x00, crc32 = 0x01, crc64 = 0x04, sha256 = 0x0A, _, };
decompress()	fn readStreamFlags(reader: anytype, check: *Check) !void { var bit_reader = std.io.bitReader(.little, reader);
Decompress()	const reserved1 = try bit_reader.readBitsNoEof(u8, 8); if (reserved1 != 0) return error.CorruptInput;
Error	check.* = @as(Check, @enumFromInt(try bit_reader.readBitsNoEof(u4, 4)));
Reader	const reserved2 = try bit_reader.readBitsNoEof(u4, 4); if (reserved2 != 0) return error.CorruptInput; }
deinit()	pub fn decompress(allocator: Allocator, reader: anytype) !Decompress(@TypeOf(reader)) { return Decompress(@TypeOf(reader)).init(allocator, reader); }
reader()	pub fn Decompress(comptime ReaderType: type) type { return struct { const Self = @This();
read()	pub const Error = ReaderType.Error \|\| block.Decoder(ReaderType).Error; pub const Reader = std.io.Reader(Self, Error, read); allocator: Allocator, block_decoder: block.Decoder(ReaderType), in_reader: ReaderType, fn init(allocator: Allocator, source: ReaderType) !Self { const magic = try source.readBytesNoEof(6); if (!std.mem.eql(u8, &magic, &.{ 0xFD, '7', 'z', 'X', 'Z', 0x00 })) return error.BadHeader; var check: Check = undefined; const hash_a = blk: { var hasher = std.compress.hashedReader(source, Crc32.init()); try readStreamFlags(hasher.reader(), &check); break :blk hasher.hasher.final(); }; const hash_b = try source.readInt(u32, .little); if (hash_a != hash_b) return error.WrongChecksum; return Self{ .allocator = allocator, .block_decoder = try block.decoder(allocator, source, check), .in_reader = source, }; } pub fn deinit(self: Self) void { self.block_decoder.deinit(); } pub fn reader(self: Self) Reader { return .{ .context = self }; } pub fn read(self: Self, buffer: []u8) Error!usize { if (buffer.len == 0) return 0; const r = try self.block_decoder.read(buffer); if (r != 0) return r; const index_size = blk: { var hasher = std.compress.hashedReader(self.in_reader, Crc32.init()); hasher.hasher.update(&[1]u8{0x00}); var counter = std.io.countingReader(hasher.reader()); counter.bytes_read += 1; const counting_reader = counter.reader(); const record_count = try std.leb.readULEB128(u64, counting_reader); if (record_count != self.block_decoder.block_count) return error.CorruptInput; var i: usize = 0; while (i < record_count) : (i += 1) { // TODO: validate records _ = try std.leb.readULEB128(u64, counting_reader); _ = try std.leb.readULEB128(u64, counting_reader); } while (counter.bytes_read % 4 != 0) { if (try counting_reader.readByte() != 0) return error.CorruptInput; } const hash_a = hasher.hasher.final(); const hash_b = try counting_reader.readInt(u32, .little); if (hash_a != hash_b) return error.WrongChecksum; break :blk counter.bytes_read; }; const hash_a = try self.in_reader.readInt(u32, .little); const hash_b = blk: { var hasher = std.compress.hashedReader(self.in_reader, Crc32.init()); const hashed_reader = hasher.reader(); const backward_size = (@as(u64, try hashed_reader.readInt(u32, .little)) + 1) * 4; if (backward_size != index_size) return error.CorruptInput; var check: Check = undefined; try readStreamFlags(hashed_reader, &check); break :blk hasher.hasher.final(); }; if (hash_a != hash_b) return error.WrongChecksum; const magic = try self.in_reader.readBytesNoEof(2); if (!std.mem.eql(u8, &magic, &.{ 'Y', 'Z' })) return error.CorruptInput; return 0; } }; } test { _ = @import("xz/test.zig"); }
Generated by zstd-live on 2025-08-12 12:37:58 UTC.