mirror of
https://codeberg.org/ziglang/zig.git
synced 2025-12-06 13:54:21 +00:00
5efcc2e9e7
Makes the build runner compile successfully for non-linux targets; printing an error if you ask for --watch rather than making build scripts fail to compile.
363 lines
14 KiB
Zig
363 lines
14 KiB
Zig
const builtin = @import("builtin");
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const std = @import("../std.zig");
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const Watch = @This();
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const Step = std.Build.Step;
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const Allocator = std.mem.Allocator;
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const assert = std.debug.assert;
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const fatal = std.zig.fatal;
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dir_table: DirTable,
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os: Os,
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generation: Generation,
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/// Key is the directory to watch which contains one or more files we are
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/// interested in noticing changes to.
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///
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/// Value is generation.
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const DirTable = std.ArrayHashMapUnmanaged(Cache.Path, void, Cache.Path.TableAdapter, false);
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/// Special key of "." means any changes in this directory trigger the steps.
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const ReactionSet = std.StringArrayHashMapUnmanaged(StepSet);
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const StepSet = std.AutoArrayHashMapUnmanaged(*Step, Generation);
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const Generation = u8;
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const Hash = std.hash.Wyhash;
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const Cache = std.Build.Cache;
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const Os = switch (builtin.os.tag) {
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.linux => struct {
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const posix = std.posix;
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/// Keyed differently but indexes correspond 1:1 with `dir_table`.
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handle_table: HandleTable,
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poll_fds: [1]posix.pollfd,
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const HandleTable = std.ArrayHashMapUnmanaged(FileHandle, ReactionSet, FileHandle.Adapter, false);
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const fan_mask: std.os.linux.fanotify.MarkMask = .{
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.CLOSE_WRITE = true,
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.CREATE = true,
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.DELETE = true,
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.DELETE_SELF = true,
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.EVENT_ON_CHILD = true,
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.MOVED_FROM = true,
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.MOVED_TO = true,
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.MOVE_SELF = true,
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.ONDIR = true,
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};
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const FileHandle = struct {
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handle: *align(1) std.os.linux.file_handle,
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fn clone(lfh: FileHandle, gpa: Allocator) Allocator.Error!FileHandle {
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const bytes = lfh.slice();
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const new_ptr = try gpa.alignedAlloc(
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u8,
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@alignOf(std.os.linux.file_handle),
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@sizeOf(std.os.linux.file_handle) + bytes.len,
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);
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const new_header: *std.os.linux.file_handle = @ptrCast(new_ptr);
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new_header.* = lfh.handle.*;
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const new: FileHandle = .{ .handle = new_header };
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@memcpy(new.slice(), lfh.slice());
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return new;
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}
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fn destroy(lfh: FileHandle, gpa: Allocator) void {
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const ptr: [*]u8 = @ptrCast(lfh.handle);
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const allocated_slice = ptr[0 .. @sizeOf(std.os.linux.file_handle) + lfh.handle.handle_bytes];
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return gpa.free(allocated_slice);
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}
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fn slice(lfh: FileHandle) []u8 {
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const ptr: [*]u8 = &lfh.handle.f_handle;
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return ptr[0..lfh.handle.handle_bytes];
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}
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const Adapter = struct {
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pub fn hash(self: Adapter, a: FileHandle) u32 {
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_ = self;
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const unsigned_type: u32 = @bitCast(a.handle.handle_type);
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return @truncate(Hash.hash(unsigned_type, a.slice()));
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}
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pub fn eql(self: Adapter, a: FileHandle, b: FileHandle, b_index: usize) bool {
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_ = self;
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_ = b_index;
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return a.handle.handle_type == b.handle.handle_type and std.mem.eql(u8, a.slice(), b.slice());
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}
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};
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};
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fn getDirHandle(gpa: Allocator, path: std.Build.Cache.Path) !FileHandle {
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var file_handle_buffer: [@sizeOf(std.os.linux.file_handle) + 128]u8 align(@alignOf(std.os.linux.file_handle)) = undefined;
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var mount_id: i32 = undefined;
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var buf: [std.fs.max_path_bytes]u8 = undefined;
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const adjusted_path = if (path.sub_path.len == 0) "./" else std.fmt.bufPrint(&buf, "{s}/", .{
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path.sub_path,
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}) catch return error.NameTooLong;
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const stack_ptr: *std.os.linux.file_handle = @ptrCast(&file_handle_buffer);
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stack_ptr.handle_bytes = file_handle_buffer.len - @sizeOf(std.os.linux.file_handle);
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try posix.name_to_handle_at(path.root_dir.handle.fd, adjusted_path, stack_ptr, &mount_id, std.os.linux.AT.HANDLE_FID);
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const stack_lfh: FileHandle = .{ .handle = stack_ptr };
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return stack_lfh.clone(gpa);
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}
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fn markDirtySteps(w: *Watch, gpa: Allocator) !bool {
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const fan_fd = w.os.getFanFd();
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const fanotify = std.os.linux.fanotify;
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const M = fanotify.event_metadata;
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var events_buf: [256 + 4096]u8 = undefined;
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var any_dirty = false;
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while (true) {
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var len = posix.read(fan_fd, &events_buf) catch |err| switch (err) {
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error.WouldBlock => return any_dirty,
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else => |e| return e,
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};
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var meta: [*]align(1) M = @ptrCast(&events_buf);
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while (len >= @sizeOf(M) and meta[0].event_len >= @sizeOf(M) and meta[0].event_len <= len) : ({
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len -= meta[0].event_len;
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meta = @ptrCast(@as([*]u8, @ptrCast(meta)) + meta[0].event_len);
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}) {
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assert(meta[0].vers == M.VERSION);
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if (meta[0].mask.Q_OVERFLOW) {
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any_dirty = true;
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std.log.warn("file system watch queue overflowed; falling back to fstat", .{});
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markAllFilesDirty(w, gpa);
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return true;
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}
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const fid: *align(1) fanotify.event_info_fid = @ptrCast(meta + 1);
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switch (fid.hdr.info_type) {
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.DFID_NAME => {
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const file_handle: *align(1) std.os.linux.file_handle = @ptrCast(&fid.handle);
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const file_name_z: [*:0]u8 = @ptrCast((&file_handle.f_handle).ptr + file_handle.handle_bytes);
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const file_name = std.mem.span(file_name_z);
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const lfh: FileHandle = .{ .handle = file_handle };
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if (w.os.handle_table.getPtr(lfh)) |reaction_set| {
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if (reaction_set.getPtr(".")) |glob_set|
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any_dirty = markStepSetDirty(gpa, glob_set, any_dirty);
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if (reaction_set.getPtr(file_name)) |step_set|
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any_dirty = markStepSetDirty(gpa, step_set, any_dirty);
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}
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},
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else => |t| std.log.warn("unexpected fanotify event '{s}'", .{@tagName(t)}),
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}
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}
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}
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}
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fn getFanFd(os: *const @This()) posix.fd_t {
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return os.poll_fds[0].fd;
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}
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fn update(w: *Watch, gpa: Allocator, steps: []const *Step) !void {
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const fan_fd = w.os.getFanFd();
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// Add missing marks and note persisted ones.
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for (steps) |step| {
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for (step.inputs.table.keys(), step.inputs.table.values()) |path, *files| {
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const reaction_set = rs: {
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const gop = try w.dir_table.getOrPut(gpa, path);
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if (!gop.found_existing) {
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const dir_handle = try Os.getDirHandle(gpa, path);
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// `dir_handle` may already be present in the table in
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// the case that we have multiple Cache.Path instances
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// that compare inequal but ultimately point to the same
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// directory on the file system.
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// In such case, we must revert adding this directory, but keep
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// the additions to the step set.
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const dh_gop = try w.os.handle_table.getOrPut(gpa, dir_handle);
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if (dh_gop.found_existing) {
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_ = w.dir_table.pop();
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} else {
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assert(dh_gop.index == gop.index);
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dh_gop.value_ptr.* = .{};
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posix.fanotify_mark(fan_fd, .{
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.ADD = true,
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.ONLYDIR = true,
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}, fan_mask, path.root_dir.handle.fd, path.subPathOrDot()) catch |err| {
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fatal("unable to watch {}: {s}", .{ path, @errorName(err) });
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};
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}
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break :rs dh_gop.value_ptr;
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}
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break :rs &w.os.handle_table.values()[gop.index];
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};
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for (files.items) |basename| {
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const gop = try reaction_set.getOrPut(gpa, basename);
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if (!gop.found_existing) gop.value_ptr.* = .{};
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try gop.value_ptr.put(gpa, step, w.generation);
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}
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}
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}
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{
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// Remove marks for files that are no longer inputs.
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var i: usize = 0;
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while (i < w.os.handle_table.entries.len) {
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{
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const reaction_set = &w.os.handle_table.values()[i];
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var step_set_i: usize = 0;
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while (step_set_i < reaction_set.entries.len) {
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const step_set = &reaction_set.values()[step_set_i];
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var dirent_i: usize = 0;
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while (dirent_i < step_set.entries.len) {
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const generations = step_set.values();
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if (generations[dirent_i] == w.generation) {
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dirent_i += 1;
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continue;
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}
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step_set.swapRemoveAt(dirent_i);
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}
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if (step_set.entries.len > 0) {
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step_set_i += 1;
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continue;
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}
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reaction_set.swapRemoveAt(step_set_i);
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}
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if (reaction_set.entries.len > 0) {
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i += 1;
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continue;
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}
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}
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const path = w.dir_table.keys()[i];
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posix.fanotify_mark(fan_fd, .{
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.REMOVE = true,
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.ONLYDIR = true,
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}, fan_mask, path.root_dir.handle.fd, path.subPathOrDot()) catch |err| switch (err) {
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error.FileNotFound => {}, // Expected, harmless.
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else => |e| std.log.warn("unable to unwatch '{}': {s}", .{ path, @errorName(e) }),
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};
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w.dir_table.swapRemoveAt(i);
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w.os.handle_table.swapRemoveAt(i);
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}
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w.generation +%= 1;
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}
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}
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},
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else => void,
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};
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pub fn init() !Watch {
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switch (builtin.os.tag) {
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.linux => {
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const fan_fd = try std.posix.fanotify_init(.{
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.CLASS = .NOTIF,
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.CLOEXEC = true,
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.NONBLOCK = true,
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.REPORT_NAME = true,
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.REPORT_DIR_FID = true,
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.REPORT_FID = true,
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.REPORT_TARGET_FID = true,
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}, 0);
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return .{
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.dir_table = .{},
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.os = switch (builtin.os.tag) {
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.linux => .{
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.handle_table = .{},
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.poll_fds = .{
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.{
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.fd = fan_fd,
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.events = std.posix.POLL.IN,
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.revents = undefined,
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},
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},
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},
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else => {},
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},
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.generation = 0,
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};
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},
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else => @panic("unimplemented"),
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}
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}
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pub const Match = struct {
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/// Relative to the watched directory, the file path that triggers this
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/// match.
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basename: []const u8,
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/// The step to re-run when file corresponding to `basename` is changed.
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step: *Step,
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pub const Context = struct {
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pub fn hash(self: Context, a: Match) u32 {
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_ = self;
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var hasher = Hash.init(0);
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std.hash.autoHash(&hasher, a.step);
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hasher.update(a.basename);
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return @truncate(hasher.final());
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}
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pub fn eql(self: Context, a: Match, b: Match, b_index: usize) bool {
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_ = self;
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_ = b_index;
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return a.step == b.step and std.mem.eql(u8, a.basename, b.basename);
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}
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};
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};
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fn markAllFilesDirty(w: *Watch, gpa: Allocator) void {
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for (w.os.handle_table.values()) |reaction_set| {
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for (reaction_set.values()) |step_set| {
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for (step_set.keys()) |step| {
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step.recursiveReset(gpa);
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}
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}
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}
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}
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fn markStepSetDirty(gpa: Allocator, step_set: *StepSet, any_dirty: bool) bool {
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var this_any_dirty = false;
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for (step_set.keys()) |step| {
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if (step.state != .precheck_done) {
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step.recursiveReset(gpa);
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this_any_dirty = true;
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}
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}
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return any_dirty or this_any_dirty;
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}
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pub fn update(w: *Watch, gpa: Allocator, steps: []const *Step) !void {
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switch (builtin.os.tag) {
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.linux => return Os.update(w, gpa, steps),
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else => @compileError("unimplemented"),
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}
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}
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pub const Timeout = union(enum) {
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none,
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ms: u16,
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pub fn to_i32_ms(t: Timeout) i32 {
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return switch (t) {
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.none => -1,
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.ms => |ms| ms,
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};
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}
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};
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pub const WaitResult = enum {
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timeout,
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/// File system watching triggered on files that were marked as inputs to at least one Step.
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/// Relevant steps have been marked dirty.
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dirty,
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/// File system watching triggered but none of the events were relevant to
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/// what we are listening to. There is nothing to do.
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clean,
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};
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pub fn wait(w: *Watch, gpa: Allocator, timeout: Timeout) !WaitResult {
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switch (builtin.os.tag) {
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.linux => {
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const events_len = try std.posix.poll(&w.os.poll_fds, timeout.to_i32_ms());
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return if (events_len == 0)
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.timeout
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else if (try Os.markDirtySteps(w, gpa))
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.dirty
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else
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.clean;
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},
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else => @compileError("unimplemented"),
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}
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}
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