zig/tools/fetch_them_macos_headers.zig

const std = @import("std");
const fs = std.fs;
const io = std.io;
const mem = std.mem;
const process = std.process;
const assert = std.debug.assert;
const tmpDir = std.testing.tmpDir;

const Allocator = mem.Allocator;
const Blake3 = std.crypto.hash.Blake3;
const OsTag = std.Target.Os.Tag;

var general_purpose_allocator = std.heap.GeneralPurposeAllocator(.{}){};
const gpa = general_purpose_allocator.allocator();

const Arch = enum {
    any,
    aarch64,
    x86_64,
};

const Abi = enum { any, none };

const OsVer = enum(u32) {
    any = 0,
    catalina = 10,
    big_sur = 11,
    monterey = 12,
    ventura = 13,
    sonoma = 14,
    sequoia = 15,
};

const Target = struct {
    arch: Arch,
    os: OsTag = .macos,
    os_ver: OsVer,
    abi: Abi = .none,

    fn hash(a: Target) u32 {
        var hasher = std.hash.Wyhash.init(0);
        std.hash.autoHash(&hasher, a.arch);
        std.hash.autoHash(&hasher, a.os);
        std.hash.autoHash(&hasher, a.os_ver);
        std.hash.autoHash(&hasher, a.abi);
        return @as(u32, @truncate(hasher.final()));
    }

    fn eql(a: Target, b: Target) bool {
        return a.arch == b.arch and
            a.os == b.os and
            a.os_ver == b.os_ver and
            a.abi == b.abi;
    }

    fn name(self: Target, allocator: Allocator) ![]const u8 {
        return std.fmt.allocPrint(allocator, "{s}-{s}-{s}", .{
            @tagName(self.arch),
            @tagName(self.os),
            @tagName(self.abi),
        });
    }

    fn fullName(self: Target, allocator: Allocator) ![]const u8 {
        if (self.os_ver == .any) return self.name(allocator);
        return std.fmt.allocPrint(allocator, "{s}-{s}.{d}-{s}", .{
            @tagName(self.arch),
            @tagName(self.os),
            @intFromEnum(self.os_ver),
            @tagName(self.abi),
        });
    }
};

const targets = [_]Target{
    Target{
        .arch = .any,
        .abi = .any,
        .os_ver = .any,
    },
    Target{
        .arch = .aarch64,
        .os_ver = .any,
    },
    Target{
        .arch = .x86_64,
        .os_ver = .any,
    },
    Target{
        .arch = .x86_64,
        .os_ver = .catalina,
    },
    Target{
        .arch = .x86_64,
        .os_ver = .big_sur,
    },
    Target{
        .arch = .x86_64,
        .os_ver = .monterey,
    },
    Target{
        .arch = .x86_64,
        .os_ver = .ventura,
    },
    Target{
        .arch = .x86_64,
        .os_ver = .sonoma,
    },
    Target{
        .arch = .x86_64,
        .os_ver = .sequoia,
    },
    Target{
        .arch = .aarch64,
        .os_ver = .big_sur,
    },
    Target{
        .arch = .aarch64,
        .os_ver = .monterey,
    },
    Target{
        .arch = .aarch64,
        .os_ver = .ventura,
    },
    Target{
        .arch = .aarch64,
        .os_ver = .sonoma,
    },
    Target{
        .arch = .aarch64,
        .os_ver = .sequoia,
    },
};

const headers_source_prefix: []const u8 = "headers";

const Contents = struct {
    bytes: []const u8,
    hit_count: usize,
    hash: []const u8,
    is_generic: bool,

    fn hitCountLessThan(context: void, lhs: *const Contents, rhs: *const Contents) bool {
        _ = context;
        return lhs.hit_count < rhs.hit_count;
    }
};

const TargetToHashContext = struct {
    pub fn hash(self: @This(), target: Target) u32 {
        _ = self;
        return target.hash();
    }
    pub fn eql(self: @This(), a: Target, b: Target, b_index: usize) bool {
        _ = self;
        _ = b_index;
        return a.eql(b);
    }
};
const TargetToHash = std.ArrayHashMap(Target, []const u8, TargetToHashContext, true);

const HashToContents = std.StringHashMap(Contents);
const PathTable = std.StringHashMap(*TargetToHash);

/// The don't-dedup-list contains file paths with known problematic headers
/// which while contain the same contents between architectures, should not be
/// deduped since they contain includes, etc. which are relative and thus cannot be separated
/// into a shared include dir such as `any-macos-any`.
const dont_dedup_list = &[_][]const u8{
    "libkern/OSAtomic.h",
    "libkern/OSAtomicDeprecated.h",
    "libkern/OSSpinLockDeprecated.h",
    "libkern/OSAtomicQueue.h",
};

fn generateDontDedupMap(arena: Allocator) !std.StringHashMap(void) {
    var map = std.StringHashMap(void).init(arena);
    try map.ensureTotalCapacity(dont_dedup_list.len);
    for (dont_dedup_list) |path| {
        map.putAssumeCapacityNoClobber(path, {});
    }
    return map;
}

const usage =
    \\fetch_them_macos_headers fetch
    \\fetch_them_macos_headers dedup
    \\
    \\Commands:
    \\  fetch         Fetch libc headers into headers/<arch>-macos.<os_ver> dir
    \\  dedup         Generate deduplicated dirs into a given <destination> path
    \\
    \\General Options:
    \\-h, --help                    Print this help and exit
;

pub fn main() anyerror!void {
    var arena = std.heap.ArenaAllocator.init(gpa);
    defer arena.deinit();

    const all_args = try std.process.argsAlloc(arena.allocator());
    const args = all_args[1..];
    if (args.len == 0) fatal("no command or option specified", .{});

    const cmd = args[0];
    if (mem.eql(u8, cmd, "--help") or mem.eql(u8, cmd, "-h")) {
        return info(usage, .{});
    } else if (mem.eql(u8, cmd, "dedup")) {
        return dedup(arena.allocator(), args[1..]);
    } else if (mem.eql(u8, cmd, "fetch")) {
        return fetch(arena.allocator(), args[1..]);
    } else fatal("unknown command or option: {s}", .{cmd});
}

const ArgsIterator = struct {
    args: []const []const u8,
    i: usize = 0,

    fn next(it: *@This()) ?[]const u8 {
        if (it.i >= it.args.len) {
            return null;
        }
        defer it.i += 1;
        return it.args[it.i];
    }

    fn nextOrFatal(it: *@This()) []const u8 {
        const arg = it.next() orelse fatal("expected parameter after '{s}'", .{it.args[it.i - 1]});
        return arg;
    }
};

fn info(comptime format: []const u8, args: anytype) void {
    const msg = std.fmt.allocPrint(gpa, "info: " ++ format ++ "\n", args) catch return;
    std.io.getStdOut().writeAll(msg) catch {};
}

fn fatal(comptime format: []const u8, args: anytype) noreturn {
    ret: {
        const msg = std.fmt.allocPrint(gpa, "fatal: " ++ format ++ "\n", args) catch break :ret;
        std.io.getStdErr().writeAll(msg) catch {};
    }
    std.process.exit(1);
}

const fetch_usage =
    \\fetch_them_macos_headers fetch
    \\
    \\Options:
    \\  --sysroot     Path to macOS SDK
    \\
    \\General Options:
    \\-h, --help                    Print this help and exit
;

fn fetch(arena: Allocator, args: []const []const u8) !void {
    var argv = std.ArrayList([]const u8).init(arena);
    var sysroot: ?[]const u8 = null;

    var args_iter = ArgsIterator{ .args = args };
    while (args_iter.next()) |arg| {
        if (mem.eql(u8, arg, "--help") or mem.eql(u8, arg, "-h")) {
            return info(fetch_usage, .{});
        } else if (mem.eql(u8, arg, "--sysroot")) {
            sysroot = args_iter.nextOrFatal();
        } else try argv.append(arg);
    }

    const sysroot_path = sysroot orelse blk: {
        const target = try std.zig.system.resolveTargetQuery(.{});
        break :blk std.zig.system.darwin.getSdk(arena, target) orelse
            fatal("no SDK found; you can provide one explicitly with '--sysroot' flag", .{});
    };

    var sdk_dir = try std.fs.cwd().openDir(sysroot_path, .{});
    defer sdk_dir.close();
    const sdk_info = try sdk_dir.readFileAlloc(arena, "SDKSettings.json", std.math.maxInt(u32));

    const parsed_json = try std.json.parseFromSlice(struct {
        DefaultProperties: struct { MACOSX_DEPLOYMENT_TARGET: []const u8 },
    }, arena, sdk_info, .{ .ignore_unknown_fields = true });

    const version = Version.parse(parsed_json.value.DefaultProperties.MACOSX_DEPLOYMENT_TARGET) orelse
        fatal("don't know how to parse SDK version: {s}", .{
        parsed_json.value.DefaultProperties.MACOSX_DEPLOYMENT_TARGET,
    });
    const os_ver: OsVer = switch (version.major) {
        10 => .catalina,
        11 => .big_sur,
        12 => .monterey,
        13 => .ventura,
        14 => .sonoma,
        15 => .sequoia,
        else => unreachable,
    };
    info("found SDK deployment target macOS {} aka '{s}'", .{ version, @tagName(os_ver) });

    var tmp = tmpDir(.{});
    defer tmp.cleanup();

    for (&[_]Arch{ .aarch64, .x86_64 }) |arch| {
        const target: Target = .{
            .arch = arch,
            .os_ver = os_ver,
        };
        try fetchTarget(arena, argv.items, sysroot_path, target, version, tmp);
    }
}

fn fetchTarget(
    arena: Allocator,
    args: []const []const u8,
    sysroot: []const u8,
    target: Target,
    ver: Version,
    tmp: std.testing.TmpDir,
) !void {
    const tmp_filename = "headers";
    const headers_list_filename = "headers.o.d";
    const tmp_path = try tmp.dir.realpathAlloc(arena, ".");
    const tmp_file_path = try fs.path.join(arena, &[_][]const u8{ tmp_path, tmp_filename });
    const headers_list_path = try fs.path.join(arena, &[_][]const u8{ tmp_path, headers_list_filename });

    const macos_version = try std.fmt.allocPrint(arena, "-mmacosx-version-min={d}.{d}", .{
        ver.major,
        ver.minor,
    });

    var cc_argv = std.ArrayList([]const u8).init(arena);
    try cc_argv.appendSlice(&[_][]const u8{
        "cc",
        "-arch",
        switch (target.arch) {
            .x86_64 => "x86_64",
            .aarch64 => "arm64",
            else => unreachable,
        },
        macos_version,
        "-isysroot",
        sysroot,
        "-iwithsysroot",
        "/usr/include",
        "-o",
        tmp_file_path,
        "macos-headers.c",
        "-MD",
        "-MV",
        "-MF",
        headers_list_path,
    });
    try cc_argv.appendSlice(args);

    const res = try std.process.Child.run(.{
        .allocator = arena,
        .argv = cc_argv.items,
    });

    if (res.stderr.len != 0) {
        std.log.err("{s}", .{res.stderr});
    }

    // Read in the contents of `upgrade.o.d`
    const headers_list_file = try tmp.dir.openFile(headers_list_filename, .{});
    defer headers_list_file.close();

    var headers_dir = fs.cwd().openDir(headers_source_prefix, .{}) catch |err| switch (err) {
        error.FileNotFound,
        error.NotDir,
        => fatal("path '{s}' not found or not a directory. Did you accidentally delete it?", .{
            headers_source_prefix,
        }),
        else => return err,
    };
    defer headers_dir.close();

    const dest_path = try target.fullName(arena);
    try headers_dir.deleteTree(dest_path);

    var dest_dir = try headers_dir.makeOpenPath(dest_path, .{});
    var dirs = std.StringHashMap(fs.Dir).init(arena);
    try dirs.putNoClobber(".", dest_dir);

    const headers_list_str = try headers_list_file.reader().readAllAlloc(arena, std.math.maxInt(usize));
    const prefix = "/usr/include";

    var it = mem.splitScalar(u8, headers_list_str, '\n');
    while (it.next()) |line| {
        if (mem.lastIndexOf(u8, line, "clang") != null) continue;
        if (mem.lastIndexOf(u8, line, prefix[0..])) |idx| {
            const out_rel_path = line[idx + prefix.len + 1 ..];
            const out_rel_path_stripped = mem.trim(u8, out_rel_path, " \\");
            const dirname = fs.path.dirname(out_rel_path_stripped) orelse ".";
            const maybe_dir = try dirs.getOrPut(dirname);
            if (!maybe_dir.found_existing) {
                maybe_dir.value_ptr.* = try dest_dir.makeOpenPath(dirname, .{});
            }
            const basename = fs.path.basename(out_rel_path_stripped);

            const line_stripped = mem.trim(u8, line, " \\");
            const abs_dirname = fs.path.dirname(line_stripped).?;
            var orig_subdir = try fs.cwd().openDir(abs_dirname, .{});
            defer orig_subdir.close();

            try orig_subdir.copyFile(basename, maybe_dir.value_ptr.*, basename, .{});
        }
    }

    var dir_it = dirs.iterator();
    while (dir_it.next()) |entry| {
        entry.value_ptr.close();
    }
}

const dedup_usage =
    \\fetch_them_macos_headers dedup [path]
    \\
    \\General Options:
    \\-h, --help                    Print this help and exit
;

/// Dedups libs headers assuming the following layered structure:
/// layer 1: x86_64-macos.10 x86_64-macos.11 x86_64-macos.12 aarch64-macos.11 aarch64-macos.12
/// layer 2: any-macos.10 any-macos.11 any-macos.12
/// layer 3: any-macos
///
/// The first layer consists of headers specific to a CPU architecture AND macOS version. The second
/// layer consists of headers common to a macOS version across CPU architectures, and the final
/// layer consists of headers common to all libc headers.
fn dedup(arena: Allocator, args: []const []const u8) !void {
    var path: ?[]const u8 = null;
    var args_iter = ArgsIterator{ .args = args };
    while (args_iter.next()) |arg| {
        if (mem.eql(u8, arg, "--help") or mem.eql(u8, arg, "-h")) {
            return info(dedup_usage, .{});
        } else {
            if (path != null) fatal("too many arguments", .{});
            path = arg;
        }
    }

    const dest_path = path orelse fatal("no destination path specified", .{});
    var dest_dir = fs.cwd().makeOpenPath(dest_path, .{}) catch |err| switch (err) {
        error.NotDir => fatal("path '{s}' not a directory", .{dest_path}),
        else => return err,
    };
    defer dest_dir.close();

    var dont_dedup_map = try generateDontDedupMap(arena);
    var layer_2_targets = std.ArrayList(TargetWithPrefix).init(arena);

    for (&[_]OsVer{ .catalina, .big_sur, .monterey, .ventura, .sonoma, .sequoia }) |os_ver| {
        var layer_1_targets = std.ArrayList(TargetWithPrefix).init(arena);

        for (targets) |target| {
            if (target.os_ver != os_ver) continue;
            try layer_1_targets.append(.{
                .prefix = headers_source_prefix,
                .target = target,
            });
        }

        if (layer_1_targets.items.len < 2) {
            try layer_2_targets.appendSlice(layer_1_targets.items);
            continue;
        }

        const layer_2_target = try dedupDirs(arena, .{
            .os_ver = os_ver,
            .dest_path = dest_path,
            .dest_dir = dest_dir,
            .targets = layer_1_targets.items,
            .dont_dedup_map = &dont_dedup_map,
        });
        try layer_2_targets.append(layer_2_target);
    }

    const layer_3_target = try dedupDirs(arena, .{
        .os_ver = .any,
        .dest_path = dest_path,
        .dest_dir = dest_dir,
        .targets = layer_2_targets.items,
        .dont_dedup_map = &dont_dedup_map,
    });
    assert(layer_3_target.target.eql(targets[0]));
}

const TargetWithPrefix = struct {
    prefix: []const u8,
    target: Target,
};

const DedupDirsArgs = struct {
    os_ver: OsVer,
    dest_path: []const u8,
    dest_dir: fs.Dir,
    targets: []const TargetWithPrefix,
    dont_dedup_map: *const std.StringHashMap(void),
};

fn dedupDirs(arena: Allocator, args: DedupDirsArgs) !TargetWithPrefix {
    var tmp = tmpDir(.{ .iterate = true });
    defer tmp.cleanup();

    var path_table = PathTable.init(arena);
    var hash_to_contents = HashToContents.init(arena);

    var savings = FindResult{};
    for (args.targets) |target| {
        const res = try findDuplicates(target.target, arena, target.prefix, &path_table, &hash_to_contents);
        savings.max_bytes_saved += res.max_bytes_saved;
        savings.total_bytes += res.total_bytes;
    }

    info("summary: {} could be reduced to {}", .{
        std.fmt.fmtIntSizeBin(savings.total_bytes),
        std.fmt.fmtIntSizeBin(savings.total_bytes - savings.max_bytes_saved),
    });

    const output_target = Target{
        .arch = .any,
        .abi = .any,
        .os_ver = args.os_ver,
    };
    const common_name = try output_target.fullName(arena);

    var missed_opportunity_bytes: usize = 0;
    // Iterate path_table. For each path, put all the hashes into a list. Sort by hit_count.
    // The hash with the highest hit_count gets to be the "generic" one. Everybody else
    // gets their header in a separate arch directory.
    var path_it = path_table.iterator();
    while (path_it.next()) |path_kv| {
        if (!args.dont_dedup_map.contains(path_kv.key_ptr.*)) {
            var contents_list = std.ArrayList(*Contents).init(arena);
            {
                var hash_it = path_kv.value_ptr.*.iterator();
                while (hash_it.next()) |hash_kv| {
                    const contents = &hash_to_contents.getEntry(hash_kv.value_ptr.*).?.value_ptr.*;
                    try contents_list.append(contents);
                }
            }
            std.mem.sort(*Contents, contents_list.items, {}, Contents.hitCountLessThan);
            const best_contents = contents_list.popOrNull().?;
            if (best_contents.hit_count > 1) {
                // Put it in `any-macos-none`.
                const full_path = try fs.path.join(arena, &[_][]const u8{ common_name, path_kv.key_ptr.* });
                try tmp.dir.makePath(fs.path.dirname(full_path).?);
                try tmp.dir.writeFile(.{ .sub_path = full_path, .data = best_contents.bytes });
                best_contents.is_generic = true;
                while (contents_list.popOrNull()) |contender| {
                    if (contender.hit_count > 1) {
                        const this_missed_bytes = contender.hit_count * contender.bytes.len;
                        missed_opportunity_bytes += this_missed_bytes;
                        info("Missed opportunity ({}): {s}", .{
                            std.fmt.fmtIntSizeBin(this_missed_bytes),
                            path_kv.key_ptr.*,
                        });
                    } else break;
                }
            }
        }
        var hash_it = path_kv.value_ptr.*.iterator();
        while (hash_it.next()) |hash_kv| {
            const contents = &hash_to_contents.getEntry(hash_kv.value_ptr.*).?.value_ptr.*;
            if (contents.is_generic) continue;

            const target = hash_kv.key_ptr.*;
            const target_name = try target.fullName(arena);
            const full_path = try fs.path.join(arena, &[_][]const u8{ target_name, path_kv.key_ptr.* });
            try tmp.dir.makePath(fs.path.dirname(full_path).?);
            try tmp.dir.writeFile(.{ .sub_path = full_path, .data = contents.bytes });
        }
    }

    for (args.targets) |target| {
        const target_name = try target.target.fullName(arena);
        try args.dest_dir.deleteTree(target_name);
    }
    try args.dest_dir.deleteTree(common_name);

    var tmp_it = tmp.dir.iterate();
    while (try tmp_it.next()) |entry| {
        switch (entry.kind) {
            .directory => {
                const sub_dir = try tmp.dir.openDir(entry.name, .{ .iterate = true });
                const dest_sub_dir = try args.dest_dir.makeOpenPath(entry.name, .{});
                try copyDirAll(sub_dir, dest_sub_dir);
            },
            else => info("unexpected file format: not a directory: '{s}'", .{entry.name}),
        }
    }

    return TargetWithPrefix{
        .prefix = args.dest_path,
        .target = output_target,
    };
}

const FindResult = struct {
    max_bytes_saved: usize = 0,
    total_bytes: usize = 0,
};

fn findDuplicates(
    target: Target,
    arena: Allocator,
    dest_path: []const u8,
    path_table: *PathTable,
    hash_to_contents: *HashToContents,
) !FindResult {
    var result = FindResult{};

    const target_name = try target.fullName(arena);
    const target_include_dir = try fs.path.join(arena, &[_][]const u8{ dest_path, target_name });
    var dir_stack = std.ArrayList([]const u8).init(arena);
    try dir_stack.append(target_include_dir);

    while (dir_stack.popOrNull()) |full_dir_name| {
        var dir = fs.cwd().openDir(full_dir_name, .{ .iterate = true }) catch |err| switch (err) {
            error.FileNotFound => break,
            error.AccessDenied => break,
            else => return err,
        };
        defer dir.close();

        var dir_it = dir.iterate();

        while (try dir_it.next()) |entry| {
            const full_path = try fs.path.join(arena, &[_][]const u8{ full_dir_name, entry.name });
            switch (entry.kind) {
                .directory => try dir_stack.append(full_path),
                .file => {
                    const rel_path = try fs.path.relative(arena, target_include_dir, full_path);
                    const max_size = 2 * 1024 * 1024 * 1024;
                    const raw_bytes = try fs.cwd().readFileAlloc(arena, full_path, max_size);
                    const trimmed = mem.trim(u8, raw_bytes, " \r\n\t");
                    result.total_bytes += raw_bytes.len;
                    const hash = try arena.alloc(u8, 32);
                    var hasher = Blake3.init(.{});
                    hasher.update(rel_path);
                    hasher.update(trimmed);
                    hasher.final(hash);
                    const gop = try hash_to_contents.getOrPut(hash);
                    if (gop.found_existing) {
                        result.max_bytes_saved += raw_bytes.len;
                        gop.value_ptr.hit_count += 1;
                        info("duplicate: {s} {s} ({})", .{
                            target_name,
                            rel_path,
                            std.fmt.fmtIntSizeBin(raw_bytes.len),
                        });
                    } else {
                        gop.value_ptr.* = Contents{
                            .bytes = trimmed,
                            .hit_count = 1,
                            .hash = hash,
                            .is_generic = false,
                        };
                    }
                    const path_gop = try path_table.getOrPut(rel_path);
                    const target_to_hash = if (path_gop.found_existing) path_gop.value_ptr.* else blk: {
                        const ptr = try arena.create(TargetToHash);
                        ptr.* = TargetToHash.init(arena);
                        path_gop.value_ptr.* = ptr;
                        break :blk ptr;
                    };
                    try target_to_hash.putNoClobber(target, hash);
                },
                else => info("unexpected file: {s}", .{full_path}),
            }
        }
    }

    return result;
}

fn copyDirAll(source: fs.Dir, dest: fs.Dir) anyerror!void {
    var it = source.iterate();
    while (try it.next()) |next| {
        switch (next.kind) {
            .directory => {
                var sub_dir = try dest.makeOpenPath(next.name, .{});
                var sub_source = try source.openDir(next.name, .{ .iterate = true });
                defer {
                    sub_dir.close();
                    sub_source.close();
                }
                try copyDirAll(sub_source, sub_dir);
            },
            .file => {
                var source_file = try source.openFile(next.name, .{});
                var dest_file = try dest.createFile(next.name, .{});
                defer {
                    source_file.close();
                    dest_file.close();
                }
                const stat = try source_file.stat();
                const ncopied = try source_file.copyRangeAll(0, dest_file, 0, stat.size);
                assert(ncopied == stat.size);
            },
            else => |kind| info("unexpected file kind '{s}' will be ignored", .{@tagName(kind)}),
        }
    }
}

const Version = struct {
    major: u16,
    minor: u8,
    patch: u8,

    fn parse(raw: []const u8) ?Version {
        var parsed: [3]u16 = [_]u16{0} ** 3;
        var count: usize = 0;
        var it = std.mem.splitAny(u8, raw, ".");
        while (it.next()) |comp| {
            if (count >= 3) return null;
            parsed[count] = std.fmt.parseInt(u16, comp, 10) catch return null;
            count += 1;
        }
        if (count == 0) return null;
        const major = parsed[0];
        const minor = std.math.cast(u8, parsed[1]) orelse return null;
        const patch = std.math.cast(u8, parsed[2]) orelse return null;
        return .{ .major = major, .minor = minor, .patch = patch };
    }

    pub fn format(
        v: Version,
        comptime unused_fmt_string: []const u8,
        options: std.fmt.FormatOptions,
        writer: anytype,
    ) !void {
        _ = unused_fmt_string;
        _ = options;
        try writer.print("{d}.{d}.{d}", .{ v.major, v.minor, v.patch });
    }
};