Moved & organized decompression

Fully implemented Decompressor vtable
2026-04-02 06:27:34 -05:00
20 changed files with 749 additions and 605 deletions
@@ -30,24 +30,7 @@ super: Superblock,
 tables: ?Tables = null,
-decomp: if (config.use_zig_decomp) Decomp.DecompFn else union(enum) {
+decomp: @import("decomp/types.zig").Decomp,
    gzip: @import("decomp/gzip.zig"),
    lzma: @import("decomp/lzma.zig"),
    lzo: void,
    xz: @import("decomp/lzma.zig"),
    lz4: void,
    zstd: @import("decomp/zstd.zig"),
    pub fn decomp(self: @This(), in: []u8, out: []u8) !usize {
        return switch (self) {
            .gzip => |*g| g.decompress(in, out),
            .zstd => |*z| z.decompress(in, out),
            .lzma, .xz => |*d| d.decompress(in, out),
            .lz4 => cDecomp.lz4(in, out),
            .lzo => cDecomp.lzo(in, out),
        };
    }
 },
 /// Default settings using std.Thread.getCpuCount() threads and the minimum of 4gb or half of system memory for memory usage.
 pub fn init(alloc: std.mem.Allocator, fil: File, offset: u64) !Archive {
@@ -63,16 +46,16 @@ pub fn init(alloc: std.mem.Allocator, fil: File, offset: u64) !Archive {
            switch (super.compression) {
                .lz4 => return error.Lz4Unsupported,
                .lzo => return error.LzoUnsupported,
-                .gzip => Decomp.gzip,
+                .gzip => .{ .gzip = .{} },
-                .lzma => Decomp.lzma,
+                .lzma => .{ .lzma = .{} },
-                .xz => Decomp.xz,
+                .xz => .{ .xz = .{} },
-                .zstd => Decomp.zstd,
+                .zstd => .{ .zstd = .{} },
            }
        else switch (super.compression) {
            .gzip => .{ .gzip = .init(alloc) },
            .zstd => .{ .zstd = .init(alloc) },
-            .xz => .{ .xz = .init(alloc, true) },
+            .xz => .{ .xz = .init(alloc) },
-            .lzma => .{ .lzma = .init(alloc, false) },
+            .lzma => .{ .lzma = .init(alloc) },
            .lzo => .{ .lzo = .{} },
            .lz4 => .{ .lz4 = .{} },
        },
@@ -82,6 +65,7 @@ pub fn init(alloc: std.mem.Allocator, fil: File, offset: u64) !Archive {
 pub fn deinit(self: *Archive) void {
    if (self.tables != null)
        self.tables.?.deinit();
    self.decomp.deinit();
 }
 pub fn inode(self: *Archive, alloc: std.mem.Allocator, num: u32) !Inode {
@@ -1,9 +1,3 @@
 const std = @import("std");
 const Reader = std.Io.Reader;
 const builtin = @import("builtin");
 const config = @import("config");
 pub const c = @cImport({
    @cInclude("zlib-ng.h");
    @cInclude("lzma.h");
@@ -0,0 +1,14 @@
 const std = @import("std");
 const c = @import("../../c.zig").c;
 const Decompressor = @import("../../decomp.zig");
 const Self = @This();
 interface: Decompressor = .{ .vtable = &.{ .stateless = stateless } },
 fn stateless(_: std.mem.Allocator, in: []u8, out: []u8) Decompressor.Error!usize {
    const res = c.LZ4_decompress_fast(in.ptr, out.ptr, @intCast(out.len));
    if (res < 0) return Decompressor.Error.ReadFailed;
    return @abs(res);
 }
@@ -0,0 +1,127 @@
 const std = @import("std");
 const c = @import("../../c.zig").c;
 const Decompressor = @import("../../decomp.zig");
 const Self = @This();
 alloc: std.mem.Allocator,
 streams: std.AutoHashMap(std.Thread.Id, c.lzma_stream),
 interface: Decompressor,
 pub fn init(alloc: std.mem.Allocator) Self {
    return .{
        .alloc = alloc,
        .streams = .init(alloc),
        .interface = .{
            .vtable = &.{
                .decompress = decompress,
                .stateless = stateless,
            },
        },
    };
 }
 pub fn deinit(self: *Self) void {
    self.streams.deinit();
 }
 fn decompress(decomp: *Decompressor, in: []u8, out: []u8) Decompressor.Error!usize {
    var self: *Self = @fieldParentPtr("interface", decomp);
    var strm = try self.getOrCreate();
    strm.next_in = in.ptr;
    strm.avail_in = in.len;
    strm.next_out = out.ptr;
    strm.avail_out = out.len;
    var res = c.lzma_alone_decoder(strm, out.len * 2);
    decodeResult(res) catch |err| return lzmaErrToDecompErr(err);
    while (res == c.LZMA_OK)
        res = c.lzma_code(strm, c.LZMA_RUN);
    decodeResult(res) catch |err| return lzmaErrToDecompErr(err);
    return strm.total_out;
 }
 fn stateless(alloc: std.mem.Allocator, in: []u8, out: []u8) Decompressor.Error!usize {
    var strm: c.lzma_stream = .{
        .allocator = &.{
            .alloc = lzmaAlloc,
            .free = lzmaFree,
            .@"opaque" = @ptrCast(@constCast(&alloc)),
        },
        .next_in = in.ptr,
        .avail_in = in.len,
        .next_out = out.ptr,
        .avail_out = out.len,
    };
    var res = c.lzma_alone_decoder(&strm, out.len * 2);
    decodeResult(res) catch |err| return lzmaErrToDecompErr(err);
    while (res == c.LZMA_OK)
        res = c.lzma_code(&strm, c.LZMA_RUN);
    decodeResult(res) catch |err| return lzmaErrToDecompErr(err);
    return strm.total_out;
 }
 inline fn getOrCreate(self: *Self) !*c.lzma_stream {
    const res = try self.streams.getOrPut(std.Thread.getCurrentId());
    if (res.found_existing) return res.value_ptr;
    res.value_ptr.* = .{ .allocator = &.{
        .alloc = lzmaAlloc,
        .free = lzmaFree,
        .@"opaque" = @ptrCast(&self.alloc),
    } };
    return res.value_ptr;
 }
 inline fn decodeResult(res: usize) Error!void {
    return switch (res) {
        c.LZMA_OK, c.LZMA_STREAM_END => {},
        c.LZMA_NO_CHECK => Error.NoCheck,
        c.LZMA_UNSUPPORTED_CHECK => Error.UnsupportedCheck,
        c.LZMA_GET_CHECK => Error.GetCheck,
        c.LZMA_MEM_ERROR, c.LZMA_MEMLIMIT_ERROR => Error.OutOfMemory,
        c.LZMA_FORMAT_ERROR => Error.Format,
        c.LZMA_OPTIONS_ERROR => Error.Options,
        c.LZMA_DATA_ERROR => Error.Data,
        c.LZMA_BUF_ERROR => Error.Buffer,
        c.LZMA_PROG_ERROR => Error.Program,
        c.LZMA_SEEK_NEEDED => Error.SeekNeeded,
        else => Error.Unknown,
    };
 }
 inline fn lzmaErrToDecompErr(err: Error) Decompressor.Error {
    return switch (err) {
        Error.OutOfMemory => Decompressor.Error.OutOfMemory,
        Error.NoCheck => Decompressor.Error.ReadFailed,
        Error.UnsupportedCheck => Decompressor.Error.ReadFailed,
        Error.GetCheck => Decompressor.Error.ReadFailed,
        Error.Format => Decompressor.Error.ReadFailed,
        Error.Options => Decompressor.Error.ReadFailed,
        Error.Data => Decompressor.Error.ReadFailed,
        Error.Buffer => Decompressor.Error.WriteFailed,
        Error.Program => Decompressor.Error.ReadFailed,
        Error.SeekNeeded => Decompressor.Error.ReadFailed,
        else => Decompressor.Error.ReadFailed,
    };
 }
 fn lzmaAlloc(ptr: ?*anyopaque, size: usize, _: usize) callconv(.c) ?*anyopaque {
    var alloc: *std.mem.Allocator = @ptrCast(@alignCast(@constCast(ptr)));
    return alloc.rawAlloc(size, .@"1", 0);
 }
 fn lzmaFree(ptr: ?*anyopaque, mem_ptr: ?*anyopaque) callconv(.c) void {
    var alloc: *std.mem.Allocator = @ptrCast(@alignCast(@constCast(ptr)));
    alloc.rawFree(@ptrCast(mem_ptr), .@"1", 0);
 }
 const Error = error{
    OutOfMemory,
    NoCheck,
    UnsupportedCheck,
    GetCheck,
    Format,
    Options,
    Data,
    Buffer,
    Program,
    SeekNeeded,
    Unknown,
 };
@@ -0,0 +1,67 @@
 const std = @import("std");
 const c = @import("../../c.zig").c;
 const Decompressor = @import("../../decomp.zig");
 const Self = @This();
 interface: Decompressor = .{ .vtable = &.{ .stateless = stateless } },
 fn stateless(_: std.mem.Allocator, in: []u8, out: []u8) Decompressor.Error!usize {
    var out_len: usize = out.len;
    const res = c.lzo1x_decompress(in.ptr, in.len, out.ptr, &out_len, null);
    decodeError(res) catch |err| return lzoErrToDecompErr(err);
    return out_len;
 }
 inline fn decodeError(res: c_int) Error!void {
    return switch (res) {
        c.LZO_E_OK => {},
        c.LZO_E_EOF_NOT_FOUND => Error.EofNotFound,
        c.LZO_E_INPUT_NOT_CONSUMED => Error.InputNotConsumed,
        c.LZO_E_INPUT_OVERRUN => Error.InputOverrun,
        c.LZO_E_INTERNAL_ERROR => Error.InternalError,
        c.LZO_E_INVALID_ALIGNMENT => Error.InvalidAlignment,
        c.LZO_E_INVALID_ARGUMENT => Error.InvalidArgument,
        c.LZO_E_LOOKBEHIND_OVERRUN => Error.LookbehindOverrun,
        c.LZO_E_NOT_COMPRESSIBLE => Error.NotCompressible,
        c.LZO_E_NOT_YET_IMPLEMENTED => Error.NotYetImplemented,
        c.LZO_E_OUTPUT_NOT_CONSUMED => Error.OutputNotConsumed,
        c.LZO_E_OUTPUT_OVERRUN => Error.OutputOverrun,
        c.LZO_E_OUT_OF_MEMORY => Error.OutOfMemory,
        else => Error.Unknown,
    };
 }
 inline fn lzoErrToDecompErr(err: Error) Decompressor.Error {
    return switch (err) {
        Error.EofNotFound => Decompressor.Error.ReadFailed,
        Error.InputNotConsumed => Decompressor.Error.ReadFailed,
        Error.InputOverrun => Decompressor.Error.ReadFailed,
        Error.InternalError => Decompressor.Error.ReadFailed,
        Error.InvalidAlignment => Decompressor.Error.ReadFailed,
        Error.InvalidArgument => Decompressor.Error.ReadFailed,
        Error.LookbehindOverrun => Decompressor.Error.ReadFailed,
        Error.NotCompressible => Decompressor.Error.ReadFailed,
        Error.NotYetImplemented => Decompressor.Error.ReadFailed,
        Error.OutputNotConsumed => Decompressor.Error.WriteFailed,
        Error.OutputOverrun => Decompressor.Error.WriteFailed,
        Error.OutOfMemory => Decompressor.Error.OutOfMemory,
        else => Decompressor.Error.ReadFailed,
    };
 }
 const Error = error{
    EofNotFound,
    InputNotConsumed,
    InputOverrun,
    InternalError,
    InvalidAlignment,
    InvalidArgument,
    LookbehindOverrun,
    NotCompressible,
    NotYetImplemented,
    OutputNotConsumed,
    OutputOverrun,
    OutOfMemory,
    Unknown,
 };
@@ -0,0 +1,127 @@
 const std = @import("std");
 const c = @import("../../c.zig").c;
 const Decompressor = @import("../../decomp.zig");
 const Self = @This();
 alloc: std.mem.Allocator,
 streams: std.AutoHashMap(std.Thread.Id, c.lzma_stream),
 interface: Decompressor,
 pub fn init(alloc: std.mem.Allocator) Self {
    return .{
        .alloc = alloc,
        .streams = .init(alloc),
        .interface = .{
            .vtable = &.{
                .decompress = decompress,
                .stateless = stateless,
            },
        },
    };
 }
 pub fn deinit(self: *Self) void {
    self.streams.deinit();
 }
 fn decompress(decomp: *Decompressor, in: []u8, out: []u8) Decompressor.Error!usize {
    var self: *Self = @fieldParentPtr("interface", decomp);
    var strm = try self.getOrCreate();
    strm.next_in = in.ptr;
    strm.avail_in = in.len;
    strm.next_out = out.ptr;
    strm.avail_out = out.len;
    var res = c.lzma_stream_decoder(strm, out.len * 2, 0);
    decodeResult(res) catch |err| return lzmaErrToDecompErr(err);
    while (res == c.LZMA_OK)
        res = c.lzma_code(strm, c.LZMA_RUN);
    decodeResult(res) catch |err| return lzmaErrToDecompErr(err);
    return strm.total_out;
 }
 fn stateless(alloc: std.mem.Allocator, in: []u8, out: []u8) Decompressor.Error!usize {
    var strm: c.lzma_stream = .{
        .allocator = &.{
            .alloc = lzmaAlloc,
            .free = lzmaFree,
            .@"opaque" = @ptrCast(@constCast(&alloc)),
        },
        .next_in = in.ptr,
        .avail_in = in.len,
        .next_out = out.ptr,
        .avail_out = out.len,
    };
    var res = c.lzma_stream_decoder(&strm, out.len * 2, 0);
    decodeResult(res) catch |err| return lzmaErrToDecompErr(err);
    while (res == c.LZMA_OK)
        res = c.lzma_code(&strm, c.LZMA_RUN);
    decodeResult(res) catch |err| return lzmaErrToDecompErr(err);
    return strm.total_out;
 }
 inline fn getOrCreate(self: *Self) !*c.lzma_stream {
    const res = try self.streams.getOrPut(std.Thread.getCurrentId());
    if (res.found_existing) return res.value_ptr;
    res.value_ptr.* = .{ .allocator = &.{
        .alloc = lzmaAlloc,
        .free = lzmaFree,
        .@"opaque" = @ptrCast(&self.alloc),
    } };
    return res.value_ptr;
 }
 inline fn decodeResult(res: usize) Error!void {
    return switch (res) {
        c.LZMA_OK, c.LZMA_STREAM_END => {},
        c.LZMA_NO_CHECK => Error.NoCheck,
        c.LZMA_UNSUPPORTED_CHECK => Error.UnsupportedCheck,
        c.LZMA_GET_CHECK => Error.GetCheck,
        c.LZMA_MEM_ERROR, c.LZMA_MEMLIMIT_ERROR => Error.OutOfMemory,
        c.LZMA_FORMAT_ERROR => Error.Format,
        c.LZMA_OPTIONS_ERROR => Error.Options,
        c.LZMA_DATA_ERROR => Error.Data,
        c.LZMA_BUF_ERROR => Error.Buffer,
        c.LZMA_PROG_ERROR => Error.Program,
        c.LZMA_SEEK_NEEDED => Error.SeekNeeded,
        else => Error.Unknown,
    };
 }
 inline fn lzmaErrToDecompErr(err: Error) Decompressor.Error {
    return switch (err) {
        Error.OutOfMemory => Decompressor.Error.OutOfMemory,
        Error.NoCheck => Decompressor.Error.ReadFailed,
        Error.UnsupportedCheck => Decompressor.Error.ReadFailed,
        Error.GetCheck => Decompressor.Error.ReadFailed,
        Error.Format => Decompressor.Error.ReadFailed,
        Error.Options => Decompressor.Error.ReadFailed,
        Error.Data => Decompressor.Error.ReadFailed,
        Error.Buffer => Decompressor.Error.WriteFailed,
        Error.Program => Decompressor.Error.ReadFailed,
        Error.SeekNeeded => Decompressor.Error.ReadFailed,
        else => Decompressor.Error.ReadFailed,
    };
 }
 fn lzmaAlloc(ptr: ?*anyopaque, size: usize, _: usize) callconv(.c) ?*anyopaque {
    var alloc: *std.mem.Allocator = @ptrCast(@alignCast(@constCast(ptr)));
    return alloc.rawAlloc(size, .@"1", 0);
 }
 fn lzmaFree(ptr: ?*anyopaque, mem_ptr: ?*anyopaque) callconv(.c) void {
    var alloc: *std.mem.Allocator = @ptrCast(@alignCast(@constCast(ptr)));
    alloc.rawFree(@ptrCast(mem_ptr), .@"1", 0);
 }
 const Error = error{
    OutOfMemory,
    NoCheck,
    UnsupportedCheck,
    GetCheck,
    Format,
    Options,
    Data,
    Buffer,
    Program,
    SeekNeeded,
    Unknown,
 };
@@ -0,0 +1,112 @@
 const std = @import("std");
 const c = @import("../../c.zig").c;
 const Decompressor = @import("../../decomp.zig");
 const Self = @This();
 alloc: std.mem.Allocator,
 streams: std.AutoHashMap(std.Thread.Id, c.zng_stream),
 interface: Decompressor,
 pub fn init(alloc: std.mem.Allocator) Self {
    return .{
        .alloc = alloc,
        .streams = .init(alloc),
        .interface = .{
            .vtable = &.{
                .decompress = decompress,
                .stateless = stateless,
            },
        },
    };
 }
 pub fn deinit(self: *Self) void {
    self.streams.deinit();
 }
 fn decompress(decomp: *Decompressor, in: []u8, out: []u8) Decompressor.Error!usize {
    const self: *Self = @fieldParentPtr("interface", decomp);
    var strm = try self.getOrCreate();
    strm.next_in = in.ptr;
    strm.avail_in = @truncate(in.len);
    strm.next_out = out.ptr;
    strm.total_out = out.len;
    var res = c.zng_inflateReset(strm);
    decodeError(res) catch |err| return zlibErrToDecompErr(err);
    res = c.zng_inflate(strm, c.Z_FULL_FLUSH);
    decodeError(res) catch |err| return zlibErrToDecompErr(err);
    return strm.total_out;
 }
 fn stateless(alloc: std.mem.Allocator, in: []u8, out: []u8) Decompressor.Error!usize {
    var strm: c.zng_stream = .{
        .zalloc = zalloc,
        .zfree = zfree,
        .@"opaque" = @constCast(&alloc),
        .next_in = in.ptr,
        .avail_in = @truncate(in.len),
        .next_out = out.ptr,
        .total_out = out.len,
    };
    var res = c.zng_inflateInit(&strm);
    decodeError(res) catch |err| return zlibErrToDecompErr(err);
    res = c.zng_inflate(&strm, c.Z_FULL_FLUSH);
    decodeError(res) catch |err| return zlibErrToDecompErr(err);
    return strm.total_out;
 }
 fn getOrCreate(self: *Self) !*c.zng_stream {
    const res = try self.streams.getOrPut(std.Thread.getCurrentId());
    if (res.found_existing) return res.value_ptr;
    res.value_ptr.* = .{
        .zalloc = zalloc,
        .zfree = zfree,
        .@"opaque" = &self.alloc,
    };
    return res.value_ptr;
 }
 fn zalloc(ptr: ?*anyopaque, size: c_uint, len: c_uint) callconv(.c) ?*anyopaque {
    var alloc: *std.mem.Allocator = @ptrCast(@alignCast(@constCast(ptr)));
    return alloc.rawAlloc(size * len, .@"1", 0);
 }
 fn zfree(ptr: ?*anyopaque, mem_ptr: ?*anyopaque) callconv(.c) void {
    var alloc: *std.mem.Allocator = @ptrCast(@alignCast(@constCast(ptr)));
    alloc.rawFree(@ptrCast(mem_ptr), .@"1", 0);
 }
 inline fn decodeError(res: i32) Error!void {
    if (res >= 0) return;
    return switch (res) {
        c.Z_STREAM_ERROR => Error.Stream,
        c.Z_DATA_ERROR => Error.Data,
        c.Z_MEM_ERROR => Error.OutOfMemory,
        c.Z_BUF_ERROR => Error.Buffer,
        c.Z_VERSION_ERROR => Error.Version,
        else => Error.Misc,
    };
 }
 inline fn zlibErrToDecompErr(err: Error) Decompressor.Error {
    return switch (err) {
        Error.OutOfMemory => Decompressor.Error.OutOfMemory,
        Error.Misc => Decompressor.Error.ReadFailed,
        Error.Stream => Decompressor.Error.ReadFailed,
        Error.Data => Decompressor.Error.ReadFailed,
        Error.Buffer => Decompressor.Error.WriteFailed,
        Error.Version => Decompressor.Error.ReadFailed,
    };
 }
 const Error = error{
    OutOfMemory,
    Misc,
    Stream,
    Data,
    Buffer,
    Version,
 };
@@ -0,0 +1,165 @@
 const std = @import("std");
 const c = @import("../../c.zig").c;
 const Decompressor = @import("../../decomp.zig");
 const Self = @This();
 alloc: std.mem.Allocator,
 ctx: std.AutoHashMap(std.Thread.Id, ?*c.ZSTD_DCtx),
 interface: Decompressor,
 pub fn init(alloc: std.mem.Allocator) Self {
    return .{
        .alloc = alloc,
        .ctx = .init(alloc),
        .interface = .{
            .vtable = &.{
                .decompress = decompress,
                .stateless = stateless,
            },
        },
    };
 }
 pub fn deinit(self: *Self) void {
    self.ctx.deinit();
 }
 fn decompress(decomp: *Decompressor, in: []u8, out: []u8) Decompressor.Error!usize {
    var self: *Self = @fieldParentPtr("interface", decomp);
    const ctx = try self.getOrCreate();
    const res = c.ZSTD_decompressDCtx(ctx, out.ptr, out.len, in.ptr, in.len);
    decodeError(res) catch |err| return zstdErrToDecompErr(err);
    return res;
 }
 fn stateless(_: std.mem.Allocator, in: []u8, out: []u8) Decompressor.Error!usize {
    const res = c.ZSTD_decompress(out.ptr, out.len, in.ptr, in.len);
    decodeError(res) catch |err| return zstdErrToDecompErr(err);
    return res;
 }
 inline fn getOrCreate(self: *Self) !?*c.ZSTD_DCtx {
    const res = try self.ctx.getOrPut(std.Thread.getCurrentId());
    if (res.found_existing) return res.value_ptr.*;
    res.value_ptr.* = c.ZSTD_createDCtx();
    return res.value_ptr.*;
 }
 inline fn decodeError(res: usize) Error!void {
    if (c.ZSTD_isError(res) == 0) return;
    return switch (c.ZSTD_getErrorCode(res)) {
        c.ZSTD_error_prefix_unknown => Error.PrefixUnknown,
        c.ZSTD_error_version_unsupported => Error.VersionUnsupported,
        c.ZSTD_error_frameParameter_unsupported => Error.FrameParameterUnsupported,
        c.ZSTD_error_frameParameter_windowTooLarge => Error.FrameParameterWindowTooLarge,
        c.ZSTD_error_corruption_detected => Error.CorruptionDetected,
        c.ZSTD_error_checksum_wrong => Error.ChecksumWrong,
        c.ZSTD_error_literals_headerWrong => Error.LiteralsHeaderWrong,
        c.ZSTD_error_dictionary_corrupted => Error.DictionaryCorrupted,
        c.ZSTD_error_dictionary_wrong => Error.DictionaryWrong,
        c.ZSTD_error_dictionaryCreation_failed => Error.DictionaryCreationFailed,
        c.ZSTD_error_parameter_unsupported => Error.ParameterUnsupported,
        c.ZSTD_error_parameter_combination_unsupported => Error.ParameterCombinationUnsupported,
        c.ZSTD_error_parameter_outOfBound => Error.ParameterOutOfBound,
        c.ZSTD_error_tableLog_tooLarge => Error.TableLogTooLarge,
        c.ZSTD_error_maxSymbolValue_tooLarge => Error.MaxSymbolValueTooLarge,
        c.ZSTD_error_maxSymbolValue_tooSmall => Error.MaxSymbolValueTooSmall,
        c.ZSTD_error_cannotProduce_uncompressedBlock => Error.CannotProduceUncompressedBlock,
        c.ZSTD_error_stabilityCondition_notRespected => Error.StabilityConditionNotRespected,
        c.ZSTD_error_stage_wrong => Error.StageWrong,
        c.ZSTD_error_init_missing => Error.InitMissing,
        c.ZSTD_error_memory_allocation => Error.MemoryAllocation,
        c.ZSTD_error_workSpace_tooSmall => Error.WorkSpaceTooSmall,
        c.ZSTD_error_dstSize_tooSmall => Error.DstSizeTooSmall,
        c.ZSTD_error_srcSize_wrong => Error.SrcSizeWrong,
        c.ZSTD_error_dstBuffer_null => Error.DstBufferNull,
        c.ZSTD_error_noForwardProgress_destFull => Error.NoForwardProgressDestFull,
        c.ZSTD_error_noForwardProgress_inputEmpty => Error.NoForwardProgressInputEmpty,
        c.ZSTD_error_frameIndex_tooLarge => Error.FrameIndexTooLarge,
        c.ZSTD_error_seekableIO => Error.SeekableIo,
        c.ZSTD_error_dstBuffer_wrong => Error.DstBufferWrong,
        c.ZSTD_error_srcBuffer_wrong => Error.SrcBufferWrong,
        c.ZSTD_error_sequenceProducer_failed => Error.SequenceProducerFailed,
        c.ZSTD_error_externalSequences_invalid => Error.ExternalSequencesInvalid,
        else => Error.Generic,
    };
 }
 inline fn zstdErrToDecompErr(err: Error) Decompressor.Error {
    return switch (err) {
        Error.OutOfMemory => Decompressor.Error.OutOfMemory,
        Error.Generic => Decompressor.Error.ReadFailed,
        Error.PrefixUnknown => Decompressor.Error.ReadFailed,
        Error.VersionUnsupported => Decompressor.Error.ReadFailed,
        Error.FrameParameterUnsupported => Decompressor.Error.ReadFailed,
        Error.FrameParameterWindowTooLarge => Decompressor.Error.ReadFailed,
        Error.CorruptionDetected => Decompressor.Error.ReadFailed,
        Error.ChecksumWrong => Decompressor.Error.ReadFailed,
        Error.LiteralsHeaderWrong => Decompressor.Error.ReadFailed,
        Error.DictionaryCorrupted => Decompressor.Error.ReadFailed,
        Error.DictionaryWrong => Decompressor.Error.ReadFailed,
        Error.DictionaryCreationFailed => Decompressor.Error.ReadFailed,
        Error.ParameterUnsupported => Decompressor.Error.ReadFailed,
        Error.ParameterCombinationUnsupported => Decompressor.Error.ReadFailed,
        Error.ParameterOutOfBound => Decompressor.Error.ReadFailed,
        Error.TableLogTooLarge => Decompressor.Error.ReadFailed,
        Error.MaxSymbolValueTooLarge => Decompressor.Error.ReadFailed,
        Error.MaxSymbolValueTooSmall => Decompressor.Error.ReadFailed,
        Error.CannotProduceUncompressedBlock => Decompressor.Error.ReadFailed,
        Error.StabilityConditionNotRespected => Decompressor.Error.ReadFailed,
        Error.StageWrong => Decompressor.Error.ReadFailed,
        Error.InitMissing => Decompressor.Error.ReadFailed,
        Error.MemoryAllocation => Decompressor.Error.OutOfMemory,
        Error.WorkSpaceTooSmall => Decompressor.Error.WriteFailed,
        Error.DstSizeTooSmall => Decompressor.Error.WriteFailed,
        Error.SrcSizeWrong => Decompressor.Error.ReadFailed,
        Error.DstBufferNull => Decompressor.Error.WriteFailed,
        Error.NoForwardProgressDestFull => Decompressor.Error.WriteFailed,
        Error.NoForwardProgressInputEmpty => Decompressor.Error.ReadFailed,
        Error.FrameIndexTooLarge => Decompressor.Error.ReadFailed,
        Error.SeekableIo => Decompressor.Error.ReadFailed,
        Error.DstBufferWrong => Decompressor.Error.WriteFailed,
        Error.SrcBufferWrong => Decompressor.Error.ReadFailed,
        Error.SequenceProducerFailed => Decompressor.Error.ReadFailed,
        Error.ExternalSequencesInvalid => Decompressor.Error.ReadFailed,
    };
 }
 const Error = error{
    OutOfMemory,
    Generic,
    PrefixUnknown,
    VersionUnsupported,
    FrameParameterUnsupported,
    FrameParameterWindowTooLarge,
    CorruptionDetected,
    ChecksumWrong,
    LiteralsHeaderWrong,
    DictionaryCorrupted,
    DictionaryWrong,
    DictionaryCreationFailed,
    ParameterUnsupported,
    ParameterCombinationUnsupported,
    ParameterOutOfBound,
    TableLogTooLarge,
    MaxSymbolValueTooLarge,
    MaxSymbolValueTooSmall,
    CannotProduceUncompressedBlock,
    StabilityConditionNotRespected,
    StageWrong,
    InitMissing,
    MemoryAllocation,
    WorkSpaceTooSmall,
    DstSizeTooSmall,
    SrcSizeWrong,
    DstBufferNull,
    NoForwardProgressDestFull,
    NoForwardProgressInputEmpty,
    FrameIndexTooLarge,
    SeekableIo,
    DstBufferWrong,
    SrcBufferWrong,
    SequenceProducerFailed,
    ExternalSequencesInvalid,
 };
@@ -1,114 +0,0 @@
 const std = @import("std");
 const Reader = std.Io.Reader;
 const builtin = @import("builtin");
 const Decompressor = @import("../decomp.zig");
 const c = @import("c.zig").c;
 const zng_stream = c.zng_stream;
 const ZlibErrors = error{
    OutOfMemory,
    OutputBufferTooSmall,
    BadData,
    StreamError,
    Unknown,
 };
 const Self = @This();
 alloc: std.mem.Allocator,
 streams: std.AutoHashMap(std.Thread.Id, zng_stream),
 interface: Decompressor = .{ .vtable = &.{
    .decompress = decompress,
    .stateless = stateless,
 } },
 err: ?ZlibErrors = null,
 pub fn init(alloc: std.mem.Allocator) !Self {
    return .{
        .alloc = alloc,
        .streams = .init(alloc),
    };
 }
 pub fn deinit(self: Self) void {
    var iter = self.streams.keyIterator();
    while (iter.next()) |key| {
        _ = c.inflateEnd(self.streams.getPtr(key).?);
    }
    self.streams.deinit(self.alloc);
 }
 fn decompress(decomp: *Decompressor, in: []u8, out: []u8) Decompressor.Error!usize {
    var self: *Self = @fieldParentPtr("interface", decomp);
    var stream = try self.getOrCreate();
    stream.next_in = in.ptr;
    stream.avail_in = @truncate(in.len);
    stream.next_out = out.ptr;
    stream.avail_out = @truncate(out.len);
    var res = c.zng_inflateReset(stream);
    switch (res) {
        c.Z_OK => {},
        c.Z_STREAM_ERROR => {
            self.err = ZlibErrors.StreamError;
            return Decompressor.Error.BadInput;
        },
        else => {
            self.err = ZlibErrors.Unknown;
            return Decompressor.Error.BadInput;
        },
    }
    res = c.zng_inflate(stream, c.Z_FINISH);
    switch (res) {
        c.Z_OK => return stream.total_out,
        c.Z_MEM_ERROR => {
            self.err = ZlibErrors.OutOfMemory;
            return Decompressor.Error.OutOfMemory;
        },
        c.Z_BUF_ERROR => {
            self.err = ZlibErrors.OutputBufferTooSmall;
            return Decompressor.Error.OutputTooSmall;
        },
        c.Z_DATA_ERROR => {
            self.err = ZlibErrors.BadData;
            return Decompressor.Error.BadInput;
        },
        else => {
            self.err = ZlibErrors.Unknown;
            return Decompressor.Error.BadInput;
        },
    }
 }
 inline fn getOrCreate(self: *Self) Decompressor.Error!*zng_stream {
    const res = try self.streams.getOrPut(std.Thread.getCurrentId());
    if (res.found_existing) return res.value_ptr;
    res.value_ptr.* = .{
        .zalloc = zalloc,
        .zfree = zfree,
        .@"opaque" = @ptrCast(self),
    };
    return res.value_ptr;
 }
 fn zalloc(self_ptr: ?*anyopaque, items: c_uint, size: c_uint) callconv(.c) ?*anyopaque {
    var self: *Self = @ptrCast(@alignCast(self_ptr));
    return self.alloc.rawAlloc(items * size, .@"1", 0);
 }
 fn zfree(self_ptr: ?*anyopaque, alloc_ptr: ?*anyopaque) callconv(.c) void {
    var self: *Self = @ptrCast(@alignCast(self_ptr));
    self.alloc.rawFree(@ptrCast(alloc_ptr), .@"1", 0);
 }
 fn stateless(_: std.mem.Allocator, in: []u8, out: []u8) Decompressor.Error!usize {
    var out_len = out.len;
    const res = c.zng_uncompress(out.ptr, &out_len, in.ptr, in.len);
    return switch (res) {
        c.Z_OK => out_len,
        c.Z_MEM_ERROR => Decompressor.Error.OutOfMemory,
        c.Z_BUF_ERROR => Decompressor.Error.OutputTooSmall,
        c.Z_DATA_ERROR => Decompressor.Error.BadInput,
        else => Decompressor.Error.BadInput,
    };
 }
@@ -1,146 +0,0 @@
 const std = @import("std");
 const builtin = @import("builtin");
 const Decompressor = @import("../decomp.zig");
 const c = @import("c.zig").c;
 const stream = c.lzma_stream;
 const Self = @This();
 alloc: std.mem.Allocator,
 streams: std.AutoHashMap(std.Thread.Id, stream),
 xz: bool,
 interface: Decompressor = .{ .vtable = &.{
    .decompress = decompress,
    .stateless = stateless,
 } },
 err: ?LzmaError = null,
 pub fn init(alloc: std.mem.Allocator, xz: bool) !Self {
    return .{
        .alloc = alloc,
        .streams = .init(alloc),
        .xz = xz,
    };
 }
 pub fn deinit(self: Self) void {
    var iter = self.streams.keyIterator();
    while (iter.next()) |key|
        c.lzma_end(self.streams.getPtr(key));
    self.streams.deinit();
 }
 pub fn decompress(decomp: *Decompressor, in: []u8, out: []u8) Decompressor.Error!usize {
    var self: *Self = @fieldParentPtr("interface", decomp);
    var strm = try self.getOrCreate();
    strm.next_in = in.ptr;
    strm.avail_in = in.len;
    strm.next_out = out.ptr;
    strm.avail_out = out.len;
    var res = if (self.xz)
        c.lzma_stream_decoder(strm, in.len * 2, 0)
    else
        c.lzma_alone_decoder(strm, in.len * 2);
    switch (res) {
        c.LZMA_OK => {},
        c.LZMA_MEM_ERROR => {
            self.err = LzmaError.LzmaMemoryError;
            return Decompressor.Error.OutOfMemory;
        },
        c.LZMA_PROG_ERROR => {
            self.err = LzmaError.LzmaProgramError;
            return Decompressor.Error.BadInput;
        },
        else => {
            self.err = LzmaError.Unknown;
            return Decompressor.Error.BadInput;
        },
    }
    while (res == c.LZMA_OK)
        res = c.lzma_code(strm, c.LZMA_RUN);
    switch (res) {
        c.LZMA_STREAM_END => return strm.total_out,
        c.LZMA_MEM_ERROR => {
            self.err = LzmaError.LzmaMemoryError;
            return Decompressor.Error.OutOfMemory;
        },
        c.LZMA_MEMLIMIT_ERROR => {
            self.err = LzmaError.LzmaMemoryLimit;
            return Decompressor.Error.OutOfMemory;
        },
        c.LZMA_FORMAT_ERROR => {
            self.err = LzmaError.LzmaBadFormat;
            return Decompressor.Error.BadInput;
        },
        c.LZMA_DATA_ERROR => {
            self.err = LzmaError.LzmaDataCorrupt;
            return Decompressor.Error.BadInput;
        },
        c.LZMA_BUF_ERROR => {
            self.err = LzmaError.LzmaCannotProgress;
            return Decompressor.Error.BadInput;
        },
        c.LZMA_PROG_ERROR => {
            self.err = LzmaError.LzmaProgramError;
            return Decompressor.Error.BadInput;
        },
        else => {
            self.err = LzmaError.Unknown;
            return Decompressor.Error.BadInput;
        },
    }
 }
 pub fn stateless(_: std.mem.Allocator, in: []u8, out: []u8) Decompressor.Error!usize {
    var strm = c.lzma_stream{
        .next_in = in.ptr,
        .avail_in = in.len,
        .next_out = out.ptr,
        .avail_out = out.len,
    };
    var res = c.lzma_auto_decoder(&strm, out.len * 2, 0);
    switch (res) {
        c.LZMA_OK => {},
        c.LZMA_MEM_ERROR => return Decompressor.Error.OutOfMemory,
        c.LZMA_PROG_ERROR => return Decompressor.Error.BadInput,
        else => return Decompressor.Error.BadInput,
    }
    while (res == c.LZMA_OK)
        res = c.lzma_code(&strm, c.LZMA_RUN);
    return switch (res) {
        c.LZMA_STREAM_END => strm.total_out,
        c.LZMA_MEM_ERROR => Decompressor.Error.OutOfMemory,
        c.LZMA_MEMLIMIT_ERROR => Decompressor.Error.OutOfMemory,
        c.LZMA_FORMAT_ERROR => Decompressor.Error.BadInput,
        c.LZMA_DATA_ERROR => Decompressor.Error.BadInput,
        c.LZMA_BUF_ERROR => Decompressor.Error.BadInput,
        c.LZMA_PROG_ERROR => Decompressor.Error.BadInput,
        else => Decompressor.Error.BadInput,
    };
 }
 inline fn getOrCreate(self: *Self) Decompressor.Error!*stream {
    const res = try self.streams.getOrPut(std.Thread.getCurrentId());
    if (res.found_existing) return res.value_ptr;
    // Ideally, the zero value should be LZMA_STREAM_INIT, but translate-c can't handle it properly.
    // According to lzma, setting it to entirely zero values *should* work.
    // res.value_ptr.* = c.LZMA_STREAM_INIT;
    res.value_ptr.* = std.mem.zeroInit(stream, .{});
    return res.value_ptr;
 }
 pub const LzmaError = error{
    OutOfMemory,
    LzmaMemoryError,
    LzmaMemoryLimit,
    LzmaBadFormat,
    LzmaDataCorrupt,
    LzmaCannotProgress,
    LzmaProgramError,
    Unknown,
 };
@@ -1,43 +0,0 @@
 const std = @import("std");
 const Decompressor = @import("../decomp.zig");
 const c = @import("c.zig").c;
 pub const Lzo = struct {
    interface: Decompressor = .{ .vtable = &.{ .stateless = lzo } },
 };
 fn lzo(_: std.mem.Allocator, in: []u8, out: []u8) Decompressor.Error!usize {
    var res = c.lzo_init();
    if (res != 0) return Decompressor.Error.BadInput;
    var out_len: usize = out.len;
    res = c.lzo1x_decompress(in.ptr, in.len, out.ptr, &out_len, null);
    return switch (res) {
        c.LZO_E_OK => out_len,
        c.LZO_E_OUT_OF_MEMORY => Decompressor.Error.OutOfMemory,
        c.LZO_E_ERROR,
        c.LZO_E_INPUT_OVERRUN,
        c.LZO_E_LOOKBEHIND_OVERRUN,
        c.LZO_E_EOF_NOT_FOUND,
        c.LZO_E_NOT_YET_IMPLEMENTED,
        c.LZO_E_INVALID_ARGUMENT,
        c.LZO_E_INVALID_ALIGNMENT,
        => Decompressor.Error.BadInput,
        c.LZO_E_INPUT_NOT_CONSUMED,
        c.LZO_E_OUTPUT_NOT_CONSUMED,
        c.LZO_E_OUTPUT_OVERRUN,
        => Decompressor.Error.OutputTooSmall,
        else => Decompressor.Error.BadInput,
    };
 }
 pub const Lz4 = struct {
    interface: Decompressor = .{ .vtable = &.{ .stateless = lz4 } },
 };
 fn lz4(_: std.mem.Allocator, in: []u8, out: []u8) Decompressor.Error!usize {
    const res = c.LZ4_decompress_safe(in.ptr, out.ptr, @intCast(in.len), @intCast(out.len));
    if (res > 0) return @abs(res);
    return Decompressor.Error.BadInput; // TODO: Find out what error values it can return.
 }
@@ -0,0 +1,43 @@
 const config = @import("config");
 const Decompressor = @import("../decomp.zig");
 const cLz4 = @import("c/lz4.zig");
 const cLzma = @import("c/lzma.zig");
 const cLzo = @import("c/lzo.zig");
 const cXz = @import("c/xz.zig");
 const cZlib = @import("c/zlib.zig");
 const cZstd = @import("c/zstd.zig");
 const zigLzma = @import("zig/lzma.zig");
 const zigXz = @import("zig/xz.zig");
 const zigZlib = @import("zig/zstd.zig");
 const zigZstd = @import("zig/zstd.zig");
 pub const Decomp = union(enum) {
    gzip: if (config.use_zig_decomp) zigZlib else cZlib,
    lzma: if (config.use_zig_decomp) zigLzma else cLzma,
    lzo: if (config.use_zig_decomp) void else cLzo,
    xz: if (config.use_zig_decomp) zigXz else cXz,
    lz4: if (config.use_zig_decomp) void else cLz4,
    zstd: if (config.use_zig_decomp) zigZstd else cZstd,
    pub fn deinit(self: *Decomp) void {
        switch (self) {
            .gzip => self.gzip.deinit(),
            .lzma => self.lzma.deinit(),
            .xz => self.xz.deinit(),
            .zstd => self.zstd.deinit(),
            else => {},
        }
    }
    pub fn decompressor(self: *Decomp) *Decompressor {
        return switch (self) {
            .gzip => &self.gzip.interface,
            .lzma => &self.lzma.interface,
            .lzo => &self.lzo.interface,
            .xz => &self.xz.interface,
            .lz4 => &self.lz4.interface,
            .zstd => &self.zstd.interface,
        };
    }
 };
@@ -0,0 +1,19 @@
 const std = @import("std");
 const lzma = std.compress.lzma;
 const Reader = std.Io.Reader;
 const Decompressor = @import("../../decomp.zig");
 const Self = @This();
 interface: Decompressor = .{ .vtable = &.{ .stateless = stateless } },
 fn stateless(alloc: std.mem.Allocator, in: []u8, out: []u8) Decompressor.Error!usize {
    var rdr: Reader = .fixed(in);
    var decomp = try lzma.decompress(alloc, rdr.adaptToOldInterface());
    defer decomp.deinit();
    return decomp.read(out) catch |err| switch (err) {
        error.CorruptInput, error.EndOfStream, error.Overflow => return Decompressor.Error.ReadFailed,
        else => return err,
    };
 }
@@ -0,0 +1,25 @@
 const std = @import("std");
 const xz = std.compress.xz;
 const Reader = std.Io.Reader;
 const Decompressor = @import("../../decomp.zig");
 const Self = @This();
 interface: Decompressor = .{ .vtable = &.{ .stateless = stateless } },
 fn stateless(alloc: std.mem.Allocator, in: []u8, out: []u8) Decompressor.Error!usize {
    var rdr: Reader = .fixed(in);
    var decomp = try xz.decompress(alloc, rdr.adaptToOldInterface());
    defer decomp.deinit();
    return decomp.read(out) catch |err| switch (err) {
        error.CorruptInput,
        error.EndOfStream,
        error.EndOfStreamWithNoError,
        error.WrongChecksum,
        error.Unsupported,
        error.Overflow,
        => Decompressor.Error.ReadFailed,
        else => return err,
    };
 }
@@ -0,0 +1,18 @@
 const std = @import("std");
 const Reader = std.Io.Reader;
 const flate = std.compress.flate;
 const Decompressor = @import("../../decomp.zig");
 const Self = @This();
 interface: Decompressor = .{ .vtable = &.{ .stateless = stateless } },
 fn stateless(alloc: std.mem.Allocator, in: []u8, out: []u8) Decompressor.Error!usize {
    const buf = try alloc.alloc(u8, out.len);
    defer alloc.free(buf);
    var rdr: Reader = .fixed(in);
    var decomp = flate.Decompress.init(&rdr, .zlib, buf);
    return decomp.reader.readSliceShort(out);
 }
@@ -0,0 +1,18 @@
 const std = @import("std");
 const Reader = std.Io.Reader;
 const zstd = std.compress.zstd;
 const Decompressor = @import("../../decomp.zig");
 const Self = @This();
 interface: Decompressor = .{ .vtable = &.{ .stateless = stateless } },
 fn stateless(alloc: std.mem.Allocator, in: []u8, out: []u8) Decompressor.Error!usize {
    const buf = try alloc.alloc(u8, out.len * 2);
    defer alloc.free(buf);
    var rdr: Reader = .fixed(in);
    var decomp = zstd.Decompress.init(&rdr, buf, .{ .window_len = @min(out.len, zstd.default_window_len) });
    return decomp.reader.readSliceShort(out);
 }
@@ -1,51 +0,0 @@
 const std = @import("std");
 const Reader = std.Io.Reader;
 const builtin = @import("builtin");
 const Decompressor = @import("../decomp.zig");
 pub const Gzip = struct {
    interface: Decompressor = .{ .vtable = &.{ .stateless = gzip } },
 };
 pub fn gzip(alloc: std.mem.Allocator, in: []u8, out: []u8) anyerror!usize {
    var rdr: Reader = .fixed(in);
    const buf = try alloc.alloc(u8, out.len);
    defer alloc.free(buf);
    var decomp = std.compress.flate.Decompress.init(&rdr, .zlib, buf);
    return decomp.reader.readSliceShort(out);
 }
 pub const Lzma = struct {
    interface: Decompressor = .{ .vtable = &.{ .stateless = lzma } },
 };
 pub fn lzma(alloc: std.mem.Allocator, in: []u8, out: []u8) anyerror!usize {
    var rdr: Reader = .fixed(in);
    var decomp = try std.compress.lzma.decompress(alloc, rdr.adaptToOldInterface());
    return decomp.read(out);
 }
 pub const Xz = struct {
    interface: Decompressor = .{ .vtable = &.{ .stateless = xz } },
 };
 pub fn xz(alloc: std.mem.Allocator, in: []u8, out: []u8) anyerror!usize {
    var rdr: Reader = .fixed(in);
    var decomp = try std.compress.xz.decompress(alloc, rdr.adaptToOldInterface());
    return decomp.read(out);
 }
 pub const Zstd = struct {
    interface: Decompressor = .{ .vtable = &.{ .stateless = zstd } },
 };
 pub fn zstd(alloc: std.mem.Allocator, in: []u8, out: []u8) anyerror!usize {
    var rdr: Reader = .fixed(in);
    const buf = try alloc.alloc(u8, 1024 * 1024);
    defer alloc.free(buf);
    var decomp = std.compress.zstd.Decompress.init(&rdr, buf, .{});
    return decomp.reader.readSliceShort(out) catch |err| {
        return decomp.err orelse err;
    };
 }
@@ -1,216 +0,0 @@
 const std = @import("std");
 const builtin = @import("builtin");
 const Decompressor = @import("../decomp.zig");
 const c = @import("c.zig").c;
 const DCtx = c.ZSTD_DCtx;
 const Self = @This();
 alloc: std.mem.Allocator,
 ctx: std.AutoHashMap(std.Thread.Id, *DCtx),
 interface: Decompressor = .{ .vtable = &.{
    .decompress = decompress,
    .stateless = stateless,
 } },
 err: ?ZstdError = null,
 pub fn init(alloc: std.mem.Allocator) !Self {
    return .{
        .alloc = alloc,
        .ctx = .init(alloc),
    };
 }
 pub fn deinit(self: Self) void {
    var iter = self.ctx.keyIterator();
    while (iter.next()) |key| {
        _ = c.ZSTD_freeDCtx(self.ctx.getPtr(key));
    }
    self.ctx.deinit(self.alloc);
 }
 pub fn decompress(decomp: *Decompressor, in: []u8, out: []u8) Decompressor.Error!usize {
    var self: *Self = @fieldParentPtr("interface", decomp);
    const ctx = try self.getOrCreate();
    const res = c.ZSTD_decompressDCtx(ctx, out.ptr, out.len, in.ptr, in.len);
    try self.checkError(res);
    return res;
 }
 inline fn getOrCreate(self: *Self) Decompressor.Error!*DCtx {
    const res = try self.ctx.getOrPut(std.Thread.getCurrentId());
    if (res.found_existing) {
        try self.checkError(c.ZSTD_DCtx_reset(res.value_ptr.*, c.ZSTD_reset_session_only));
        return res.value_ptr.*;
    }
    res.value_ptr.* = c.ZSTD_createDCtx() orelse return Decompressor.Error.OutOfMemory;
    return res.value_ptr.*;
 }
 fn stateless(_: std.mem.Allocator, in: []u8, out: []u8) Decompressor.Error!usize {
    const res = c.ZSTD_decompress(out.ptr, out.len, in.ptr, in.len);
    if (c.ZSTD_isError(res) == 0) return res;
    return switch (c.ZSTD_getErrorCode(res)) {
        c.ZSTD_error_memory_allocation => Decompressor.Error.OutOfMemory,
        c.ZSTD_error_workSpace_tooSmall,
        c.ZSTD_error_dstSize_tooSmall,
        c.ZSTD_error_dstBuffer_null,
        c.ZSTD_error_noForwardProgress_destFull,
        => Decompressor.Error.OutputTooSmall,
        else => Decompressor.Error.BadInput,
    };
 }
 inline fn checkError(self: *Self, res: usize) Decompressor.Error!void {
    if (res == 0) return;
    if (c.ZSTD_isError(res) == 0) return;
    switch (c.ZSTD_getErrorCode(res)) {
        c.ZSTD_error_prefix_unknown => {
            self.err = ZstdError.PrefixUnknown;
            return Decompressor.Error.BadInput;
        },
        c.ZSTD_error_version_unsupported => {
            self.err = ZstdError.VersionUnsupported;
            return Decompressor.Error.BadInput;
        },
        c.ZSTD_error_frameParameter_unsupported => {
            self.err = ZstdError.FrameParameterUnsupported;
            return Decompressor.Error.BadInput;
        },
        c.ZSTD_error_frameParameter_windowTooLarge => {
            self.err = ZstdError.FrameParameterWindowTooLarge;
            return Decompressor.Error.BadInput;
        },
        c.ZSTD_error_corruption_detected => {
            self.err = ZstdError.CorruptionDetected;
            return Decompressor.Error.BadInput;
        },
        c.ZSTD_error_checksum_wrong => {
            self.err = ZstdError.ChecksumWrong;
            return Decompressor.Error.BadInput;
        },
        c.ZSTD_error_literals_headerWrong => {
            self.err = ZstdError.LiteralsHeaderWrong;
            return Decompressor.Error.BadInput;
        },
        c.ZSTD_error_dictionary_corrupted => {
            self.err = ZstdError.DictionaryCorrupted;
            return Decompressor.Error.BadInput;
        },
        c.ZSTD_error_dictionary_wrong => {
            self.err = ZstdError.DictionaryWrong;
            return Decompressor.Error.BadInput;
        },
        c.ZSTD_error_dictionaryCreation_failed => {
            self.err = ZstdError.DictionaryCreationFailed;
            return Decompressor.Error.BadInput;
        },
        c.ZSTD_error_parameter_unsupported => {
            self.err = ZstdError.ParameterUnsupported;
            return Decompressor.Error.BadInput;
        },
        c.ZSTD_error_parameter_combination_unsupported => {
            self.err = ZstdError.ParameterCombinationUnsupported;
            return Decompressor.Error.BadInput;
        },
        c.ZSTD_error_parameter_outOfBound => {
            self.err = ZstdError.ParameterOutOfBound;
            return Decompressor.Error.BadInput;
        },
        c.ZSTD_error_tableLog_tooLarge => {
            self.err = ZstdError.TableLogTooLarge;
            return Decompressor.Error.BadInput;
        },
        c.ZSTD_error_maxSymbolValue_tooLarge => {
            self.err = ZstdError.MaxSymbolValueTooLarge;
            return Decompressor.Error.BadInput;
        },
        c.ZSTD_error_maxSymbolValue_tooSmall => {
            self.err = ZstdError.MaxSymbolValueTooSmall;
            return Decompressor.Error.BadInput;
        },
        c.ZSTD_error_stabilityCondition_notRespected => {
            self.err = ZstdError.StabilityConditionNotRespected;
            return Decompressor.Error.BadInput;
        },
        c.ZSTD_error_stage_wrong => {
            self.err = ZstdError.StageWrong;
            return Decompressor.Error.BadInput;
        },
        c.ZSTD_error_init_missing => {
            self.err = ZstdError.InitMissing;
            return Decompressor.Error.BadInput;
        },
        c.ZSTD_error_memory_allocation => {
            self.err = ZstdError.MemoryAllocation;
            return Decompressor.Error.OutOfMemory;
        },
        c.ZSTD_error_workSpace_tooSmall => {
            self.err = ZstdError.WorkSpaceTooSmall;
            return Decompressor.Error.OutputTooSmall;
        },
        c.ZSTD_error_dstSize_tooSmall => {
            self.err = ZstdError.DstSizeTooSmall;
            return Decompressor.Error.OutputTooSmall;
        },
        c.ZSTD_error_srcSize_wrong => {
            self.err = ZstdError.SrcSizeWrong;
            return Decompressor.Error.BadInput;
        },
        c.ZSTD_error_dstBuffer_null => {
            self.err = ZstdError.DstBufferNull;
            return Decompressor.Error.OutputTooSmall;
        },
        c.ZSTD_error_noForwardProgress_destFull => {
            self.err = ZstdError.NoForwardProgressDestFull;
            return Decompressor.Error.OutputTooSmall;
        },
        c.ZSTD_error_noForwardProgress_inputEmpty => {
            self.err = ZstdError.NoForwardProgressInputEmpty;
            return Decompressor.Error.BadInput;
        },
        else => {
            self.err = ZstdError.Generic;
            return Decompressor.Error.BadInput;
        },
    }
 }
 pub const ZstdError = error{
    OutOfMemory,
    Generic,
    PrefixUnknown,
    VersionUnsupported,
    FrameParameterUnsupported,
    FrameParameterWindowTooLarge,
    CorruptionDetected,
    ChecksumWrong,
    LiteralsHeaderWrong,
    DictionaryCorrupted,
    DictionaryWrong,
    DictionaryCreationFailed,
    ParameterUnsupported,
    ParameterCombinationUnsupported,
    ParameterOutOfBound,
    TableLogTooLarge,
    MaxSymbolValueTooLarge,
    MaxSymbolValueTooSmall,
    CannotProduceUncompressedBlock,
    StabilityConditionNotRespected,
    StageWrong,
    InitMissing,
    MemoryAllocation,
    WorkSpaceTooSmall,
    DstSizeTooSmall,
    SrcSizeWrong,
    DstBufferNull,
    NoForwardProgressDestFull,
    NoForwardProgressInputEmpty,
    FrameIndexTooLarge,
    SeekableIo,
    DstBufferWrong,
    SrcBufferWrong,
    SequenceProducerFailed,
    ExternalSequencesInvalid,
    MaxCode,
 };
@@ -8,6 +8,7 @@ const Superblock = @import("super.zig").Superblock;
 const MetadataReader = @import("util/metadata.zig");
 const OffsetFile = @import("util/offset_file.zig");
 const XattrTable = @import("xattr.zig");
 const Decompressor = @import("decomp.zig");
 /// Information about a fragment section. Multiple fragments are contained in the block described by a single FragEntry.
 /// The offset into the block and fragment size is stored in the file's inode.
@@ -48,7 +49,7 @@ pub fn Table(T: anytype) type {
        alloc: std.mem.Allocator,
        fil: OffsetFile,
-        decomp: DecompFn,
+        decomp: *Decompressor,
        tab_start: u64,
        tab: std.AutoHashMap(u32, []T),
@@ -56,7 +57,7 @@ pub fn Table(T: anytype) type {
        mut: Mutex = .{},
-        pub fn init(alloc: std.mem.Allocator, fil: OffsetFile, decomp: DecompFn, tab_start: u64, values: u32) !Self {
+        pub fn init(alloc: std.mem.Allocator, fil: OffsetFile, decomp: *Decompressor, tab_start: u64, values: u32) !Self {
            return .{
                .alloc = alloc,
                .fil = fil,
@@ -1,6 +1,6 @@
 const std = @import("std");
-const DecompFn = @import("decomp.zig").DecompFn;
+const Decompressor = @import("decomp.zig");
 const Table = @import("tables.zig").Table;
 const MetadataReader = @import("util/metadata.zig");
 const OffsetFile = @import("util/offset_file.zig");
@@ -38,14 +38,14 @@ const XattrTable = @This();
 alloc: std.mem.Allocator,
 fil: OffsetFile,
-decomp: DecompFn,
+decomp: *Decompressor,
 count: u32,
 start: u64,
 table: Table(Entry),
-pub fn init(alloc: std.mem.Allocator, fil: OffsetFile, decomp: DecompFn, table_start: u64) !XattrTable {
+pub fn init(alloc: std.mem.Allocator, fil: OffsetFile, decomp: *Decompressor, table_start: u64) !XattrTable {
    var info = packed struct {
        start: u64 = undefined,
        count: u32 = undefined,