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Add a synchronous signal handler for graceful shutdown

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This commit is contained in:
Nikolay Govorov
2025-12-03 14:47:06 +00:00
committed by Nikolay govorov
parent c962858f61
commit 74eee75e47
4 changed files with 149 additions and 56 deletions
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6
src/app.zig
View File

@@ -19,6 +19,7 @@ pub const App = struct {
telemetry: Telemetry,
app_dir_path: ?[]const u8,
notification: *Notification,
shutdown: bool = false,
pub const RunMode = enum {
help,
@@ -82,9 +83,14 @@ pub const App = struct {
}
pub fn deinit(self: *App) void {
if (@atomicRmw(bool, &self.shutdown, .Xchg, true, .monotonic)) {
return;
}
const allocator = self.allocator;
if (self.app_dir_path) |app_dir_path| {
allocator.free(app_dir_path);
self.app_dir_path = null;
}
self.telemetry.deinit();
self.notification.deinit();

68
src/main.zig
View File

@@ -23,67 +23,42 @@ const Allocator = std.mem.Allocator;
const log = @import("log.zig");
const App = @import("app.zig").App;
const Server = @import("server.zig").Server;
const SigHandler = @import("sighandler.zig").SigHandler;
const Browser = @import("browser/browser.zig").Browser;
const DumpStripMode = @import("browser/dump.zig").Opts.StripMode;
const build_config = @import("build_config");
var _app: ?*App = null;
var _server: ?Server = null;
pub fn main() !void {
// allocator
// - in Debug mode we use the General Purpose Allocator to detect memory leaks
// - in Release mode we use the c allocator
var gpa: std.heap.DebugAllocator(.{}) = .init;
const alloc = if (builtin.mode == .Debug) gpa.allocator() else std.heap.c_allocator;
var gpa_instance: std.heap.DebugAllocator(.{}) = .init;
const gpa = if (builtin.mode == .Debug) gpa_instance.allocator() else std.heap.c_allocator;
defer if (builtin.mode == .Debug) {
if (gpa.detectLeaks()) std.posix.exit(1);
if (gpa_instance.detectLeaks()) std.posix.exit(1);
};
run(alloc) catch |err| {
var arena_instance = std.heap.ArenaAllocator.init(gpa);
const arena = arena_instance.allocator();
defer arena_instance.deinit();
var sighandler = SigHandler{ .arena = arena };
try sighandler.install();
run(gpa, arena, &sighandler) catch |err| {
// If explicit filters were set, they won't be valid anymore because
// the args_arena is gone. We need to set it to something that's not
// invalid. (We should just move the args_arena up to main)
// the arena is gone. We need to set it to something that's not
// invalid. (We should just move the arena up to main)
log.opts.filter_scopes = &.{};
log.fatal(.app, "exit", .{ .err = err });
std.posix.exit(1);
};
}
// Handle app shutdown gracefuly on signals.
fn shutdown() void {
const sigaction: std.posix.Sigaction = .{
.handler = .{
.handler = struct {
pub fn handler(_: c_int) callconv(.c) void {
// Shutdown service gracefuly.
if (_server) |server| {
server.deinit();
}
if (_app) |app| {
app.deinit();
}
std.posix.exit(0);
}
}.handler,
},
.mask = std.posix.empty_sigset,
.flags = 0,
};
// Exit the program on SIGINT signal. When running the browser in a Docker
// container, sending a CTRL-C (SIGINT) signal is catched but doesn't exit
// the program. Here we force exiting on SIGINT.
std.posix.sigaction(std.posix.SIG.INT, &sigaction, null);
std.posix.sigaction(std.posix.SIG.TERM, &sigaction, null);
std.posix.sigaction(std.posix.SIG.QUIT, &sigaction, null);
}
fn run(alloc: Allocator) !void {
var args_arena = std.heap.ArenaAllocator.init(alloc);
defer args_arena.deinit();
const args = try parseArgs(args_arena.allocator());
fn run(gpa: Allocator, arena: Allocator, sighandler: *SigHandler) !void {
const args = try parseArgs(arena);
switch (args.mode) {
.help => {
@@ -110,13 +85,13 @@ fn run(alloc: Allocator) !void {
const user_agent = blk: {
const USER_AGENT = "User-Agent: Lightpanda/1.0";
if (args.userAgentSuffix()) |suffix| {
break :blk try std.fmt.allocPrintSentinel(args_arena.allocator(), "{s} {s}", .{ USER_AGENT, suffix }, 0);
break :blk try std.fmt.allocPrintSentinel(arena, "{s} {s}", .{ USER_AGENT, suffix }, 0);
}
break :blk USER_AGENT;
};
// _app is global to handle graceful shutdown.
_app = try App.init(alloc, .{
var app = try App.init(gpa, .{
.run_mode = args.mode,
.http_proxy = args.httpProxy(),
.proxy_bearer_token = args.proxyBearerToken(),
@@ -127,8 +102,6 @@ fn run(alloc: Allocator) !void {
.http_max_concurrent = args.httpMaxConcurrent(),
.user_agent = user_agent,
});
const app = _app.?;
defer app.deinit();
app.telemetry.record(.{ .run = {} });
@@ -141,10 +114,11 @@ fn run(alloc: Allocator) !void {
};
// _server is global to handle graceful shutdown.
_server = try Server.init(app, address);
const server = &_server.?;
var server = try Server.init(app, address);
defer server.deinit();
try sighandler.on(Server.stop, .{&server});
// max timeout of 1 week.
const timeout = if (opts.timeout > 604_800) 604_800_000 else @as(i32, opts.timeout) * 1000;
server.run(address, timeout) catch |err| {

43
src/server.zig
View File

@@ -38,7 +38,7 @@ const MAX_MESSAGE_SIZE = 512 * 1024 + 14 + 140;
pub const Server = struct {
app: *App,
shutdown: bool,
shutdown: bool = false,
allocator: Allocator,
client: ?posix.socket_t,
listener: ?posix.socket_t,
@@ -53,16 +53,36 @@ pub const Server = struct {
.app = app,
.client = null,
.listener = null,
.shutdown = false,
.allocator = allocator,
.json_version_response = json_version_response,
};
}
/// Interrupts the server so that main can complete normally and call all defer handlers.
pub fn stop(self: *Server) void {
if (@atomicRmw(bool, &self.shutdown, .Xchg, true, .monotonic)) {
return;
}
// Linux and BSD/macOS handle canceling a socket blocked on accept differently.
// For Linux, we use std.shutdown, which will cause accept to return error.SocketNotListening (EINVAL).
// For BSD, shutdown will return an error. Instead we call posix.close, which will result with error.ConnectionAborted (BADF).
if (self.listener) |listener| switch (builtin.target.os.tag) {
.linux => posix.shutdown(listener, .recv) catch |err| {
log.warn(.app, "listener shutdown", .{ .err = err });
},
.macos, .freebsd, .netbsd, .openbsd => {
self.listener = null;
posix.close(listener);
},
else => unreachable,
};
}
pub fn deinit(self: *Server) void {
self.shutdown = true;
if (self.listener) |listener| {
posix.close(listener);
self.listener = null;
}
// *if* server.run is running, we should really wait for it to return
// before existing from here.
@@ -83,14 +103,19 @@ pub const Server = struct {
try posix.listen(listener, 1);
log.info(.app, "server running", .{ .address = address });
while (true) {
while (!@atomicLoad(bool, &self.shutdown, .monotonic)) {
const socket = posix.accept(listener, null, null, posix.SOCK.NONBLOCK) catch |err| {
if (self.shutdown) {
return;
switch (err) {
error.SocketNotListening, error.ConnectionAborted => {
log.info(.app, "server stopped", .{});
break;
},
else => {
log.err(.app, "CDP accept", .{ .err = err });
std.Thread.sleep(std.time.ns_per_s);
continue;
},
}
log.err(.app, "CDP accept", .{ .err = err });
std.Thread.sleep(std.time.ns_per_s);
continue;
};
self.client = socket;

88
src/sighandler.zig Normal file
View File

@@ -0,0 +1,88 @@
//! This structure processes operating system signals (SIGINT, SIGTERM)
//! and runs callbacks to clean up the system gracefully.
//!
//! The structure does not clear the memory allocated in the arena,
//! clear the entire arena when exiting the program.
const std = @import("std");
const assert = std.debug.assert;
const Allocator = std.mem.Allocator;
const log = @import("log.zig");
pub const SigHandler = struct {
arena: Allocator,
sigset: std.posix.sigset_t = undefined,
handle_thread: ?std.Thread = null,
attempt: u32 = 0,
listeners: std.ArrayList(Listener) = .empty,
pub const Listener = struct {
args: []const u8,
start: *const fn (context: *const anyopaque) void,
};
pub fn install(self: *SigHandler) !void {
// Block SIGINT and SIGTERM for the current thread and all created from it
self.sigset = std.posix.sigemptyset();
std.posix.sigaddset(&self.sigset, std.posix.SIG.INT);
std.posix.sigaddset(&self.sigset, std.posix.SIG.TERM);
std.posix.sigaddset(&self.sigset, std.posix.SIG.QUIT);
std.posix.sigprocmask(std.posix.SIG.BLOCK, &self.sigset, null);
self.handle_thread = try std.Thread.spawn(.{ .allocator = self.arena }, SigHandler.sighandle, .{self});
self.handle_thread.?.detach();
}
pub fn on(self: *SigHandler, func: anytype, args: std.meta.ArgsTuple(@TypeOf(func))) !void {
assert(@typeInfo(@TypeOf(func)).@"fn".return_type.? == void);
const Args = @TypeOf(args);
const TypeErased = struct {
fn start(context: *const anyopaque) void {
const args_casted: *const Args = @ptrCast(@alignCast(context));
@call(.auto, func, args_casted.*);
}
};
const buffer = try self.arena.alignedAlloc(u8, .of(Args), @sizeOf(Args));
errdefer self.arena.free(buffer);
const bytes: []const u8 = @ptrCast((&args)[0..1]);
@memcpy(buffer, bytes);
try self.listeners.append(self.arena, .{
.args = buffer,
.start = TypeErased.start,
});
}
fn sighandle(self: *SigHandler) noreturn {
while (true) {
var sig: c_int = 0;
const rc = std.c.sigwait(&self.sigset, &sig);
if (rc != 0) {
log.err(.app, "Unable to process signal {}", .{rc});
std.process.exit(1);
}
switch (sig) {
std.posix.SIG.INT, std.posix.SIG.TERM => {
if (self.attempt > 1) {
std.process.exit(1);
}
self.attempt += 1;
log.info(.app, "Received termination signal...", .{});
for (self.listeners.items) |*item| {
item.start(item.args.ptr);
}
continue;
},
else => continue,
}
}
}
};