Run the server from a dedicated thread

Define server callbacks, start the server asynchronously and listen to
connection events to initialize scrcpy properly.

It will help to simplify the server code, and allows to run the UI event
loop while the server is connecting. In particular, this will allow to
receive SIGINT/Ctrl+C events during connection to interrupt immediately.
This commit is contained in:
Romain Vimont 2021-10-30 15:33:23 +02:00
parent 5b9c88693e
commit 0426708544
4 changed files with 181 additions and 78 deletions

View file

@ -1,2 +1,4 @@
#define EVENT_NEW_FRAME SDL_USEREVENT
#define EVENT_STREAM_STOPPED (SDL_USEREVENT + 1)
#define EVENT_SERVER_CONNECTION_FAILED (SDL_USEREVENT + 2)
#define EVENT_SERVER_CONNECTED (SDL_USEREVENT + 3)

View file

@ -217,6 +217,29 @@ event_loop(struct scrcpy *s, const struct scrcpy_options *options) {
return false;
}
static bool
await_for_server(void) {
SDL_Event event;
while (SDL_WaitEvent(&event)) {
switch (event.type) {
case SDL_QUIT:
LOGD("User requested to quit");
return false;
case EVENT_SERVER_CONNECTION_FAILED:
LOGE("Server connection failed");
return false;
case EVENT_SERVER_CONNECTED:
LOGD("Server connected");
return true;
default:
break;
}
}
LOGE("SDL_WaitEvent() error: %s", SDL_GetError());
return false;
}
static SDL_LogPriority
sdl_priority_from_av_level(int level) {
switch (level) {
@ -262,6 +285,32 @@ stream_on_eos(struct stream *stream, void *userdata) {
PUSH_EVENT(EVENT_STREAM_STOPPED);
}
static void
server_on_connection_failed(struct server *server, void *userdata) {
(void) server;
(void) userdata;
PUSH_EVENT(EVENT_SERVER_CONNECTION_FAILED);
}
static void
server_on_connected(struct server *server, void *userdata) {
(void) server;
(void) userdata;
PUSH_EVENT(EVENT_SERVER_CONNECTED);
}
static void
server_on_disconnected(struct server *server, void *userdata) {
(void) server;
(void) userdata;
LOGD("Server disconnected");
// Do nothing, the disconnection will be handled by the "stream stopped"
// event
}
bool
scrcpy(struct scrcpy_options *options) {
static struct scrcpy scrcpy;
@ -310,7 +359,12 @@ scrcpy(struct scrcpy_options *options) {
.power_off_on_close = options->power_off_on_close,
};
if (!server_init(&s->server, &params)) {
static const struct server_callbacks cbs = {
.on_connection_failed = server_on_connection_failed,
.on_connected = server_on_connected,
.on_disconnected = server_on_disconnected,
};
if (!server_init(&s->server, &params, &cbs, NULL)) {
return false;
}
@ -332,12 +386,14 @@ scrcpy(struct scrcpy_options *options) {
sdl_configure(options->display, options->disable_screensaver);
struct server_info info;
if (!server_connect_to(&s->server, &info)) {
// Await for server without blocking Ctrl+C handling
if (!await_for_server()) {
goto end;
}
// It is necessarily initialized here, since the device is connected
struct server_info *info = &s->server.info;
if (options->display && options->control) {
if (!file_handler_init(&s->file_handler, options->serial,
options->push_target)) {
@ -361,7 +417,7 @@ scrcpy(struct scrcpy_options *options) {
if (!recorder_init(&s->recorder,
options->record_filename,
options->record_format,
info.frame_size)) {
info->frame_size)) {
goto end;
}
rec = &s->recorder;
@ -407,11 +463,11 @@ scrcpy(struct scrcpy_options *options) {
if (options->display) {
const char *window_title =
options->window_title ? options->window_title : info.device_name;
options->window_title ? options->window_title : info->device_name;
struct screen_params screen_params = {
.window_title = window_title,
.frame_size = info.frame_size,
.frame_size = info->frame_size,
.always_on_top = options->always_on_top,
.window_x = options->window_x,
.window_y = options->window_y,
@ -435,7 +491,7 @@ scrcpy(struct scrcpy_options *options) {
#ifdef HAVE_V4L2
if (options->v4l2_device) {
if (!sc_v4l2_sink_init(&s->v4l2_sink, options->v4l2_device,
info.frame_size, options->v4l2_buffer)) {
info->frame_size, options->v4l2_buffer)) {
goto end;
}

View file

@ -402,7 +402,8 @@ connect_to_server(struct server *server, uint32_t attempts, sc_tick delay) {
}
bool
server_init(struct server *server, const struct server_params *params) {
server_init(struct server *server, const struct server_params *params,
const struct server_callbacks *cbs, void *cbs_userdata) {
bool ok = server_params_copy(&server->params, params);
if (!ok) {
LOGE("Could not copy server params");
@ -424,7 +425,6 @@ server_init(struct server *server, const struct server_params *params) {
return false;
}
server->process = SC_PROCESS_NONE;
server->stopped = false;
server->server_socket = SC_INVALID_SOCKET;
@ -436,6 +436,14 @@ server_init(struct server *server, const struct server_params *params) {
server->tunnel_enabled = false;
server->tunnel_forward = false;
assert(cbs);
assert(cbs->on_connection_failed);
assert(cbs->on_connected);
assert(cbs->on_disconnected);
server->cbs = cbs;
server->cbs_userdata = cbs_userdata;
return true;
}
@ -458,7 +466,7 @@ device_read_info(sc_socket device_socket, struct server_info *info) {
return true;
}
bool
static bool
server_connect_to(struct server *server, struct server_info *info) {
assert(server->tunnel_enabled);
@ -531,6 +539,9 @@ fail:
}
}
// Always leave this function with tunnel disabled
disable_tunnel(server);
return false;
}
@ -547,57 +558,68 @@ server_on_terminated(void *userdata) {
net_interrupt(server->server_socket);
}
server->cbs->on_disconnected(server, server->cbs_userdata);
LOGD("Server terminated");
}
bool
server_start(struct server *server) {
static int
run_server(void *data) {
struct server *server = data;
const struct server_params *params = &server->params;
if (!push_server(params->serial)) {
/* server->serial will be freed on server_destroy() */
return false;
bool ok = push_server(params->serial);
if (!ok) {
goto error_connection_failed;
}
if (!enable_tunnel_any_port(server, params->port_range,
params->force_adb_forward)) {
return false;
ok = enable_tunnel_any_port(server, params->port_range,
params->force_adb_forward);
if (!ok) {
goto error_connection_failed;
}
// server will connect to our server socket
server->process = execute_server(server, params);
if (server->process == SC_PROCESS_NONE) {
goto error;
sc_pid pid = execute_server(server, params);
if (pid == SC_PROCESS_NONE) {
disable_tunnel(server);
goto error_connection_failed;
}
static const struct sc_process_listener listener = {
.on_terminated = server_on_terminated,
};
bool ok = sc_process_observer_init(&server->observer, server->process,
&listener, server);
struct sc_process_observer observer;
ok = sc_process_observer_init(&observer, pid, &listener, server);
if (!ok) {
sc_process_terminate(server->process);
sc_process_wait(server->process, true); // ignore exit code
goto error;
}
return true;
error:
// The server socket (if any) will be closed on server_destroy()
sc_process_terminate(pid);
sc_process_wait(pid, true); // ignore exit code
disable_tunnel(server);
return false;
goto error_connection_failed;
}
void
server_stop(struct server *server) {
ok = server_connect_to(server, &server->info);
// The tunnel is always closed by server_connect_to()
if (!ok) {
sc_process_terminate(pid);
sc_process_wait(pid, true); // ignore exit code
sc_process_observer_join(&observer);
sc_process_observer_destroy(&observer);
goto error_connection_failed;
}
// Now connected
server->cbs->on_connected(server, server->cbs_userdata);
// Wait for server_stop()
sc_mutex_lock(&server->mutex);
server->stopped = true;
sc_cond_signal(&server->cond_stopped);
while (!server->stopped) {
sc_cond_wait(&server->cond_stopped, &server->mutex);
}
sc_mutex_unlock(&server->mutex);
// Server stop has been requested
if (server->server_socket != SC_INVALID_SOCKET) {
if (!net_interrupt(server->server_socket)) {
LOGW("Could not interrupt server socket");
@ -614,18 +636,10 @@ server_stop(struct server *server) {
}
}
assert(server->process != SC_PROCESS_NONE);
if (server->tunnel_enabled) {
// ignore failure
disable_tunnel(server);
}
// Give some delay for the server to terminate properly
#define WATCHDOG_DELAY SC_TICK_FROM_SEC(1)
sc_tick deadline = sc_tick_now() + WATCHDOG_DELAY;
bool terminated =
sc_process_observer_timedwait(&server->observer, deadline);
bool terminated = sc_process_observer_timedwait(&observer, deadline);
// After this delay, kill the server if it's not dead already.
// On some devices, closing the sockets is not sufficient to wake up the
@ -635,32 +649,44 @@ server_stop(struct server *server) {
// reaped (closed) yet, so its PID is still valid, and it is ok to call
// sc_process_terminate() even in that case.
LOGW("Killing the server...");
sc_process_terminate(server->process);
sc_process_terminate(pid);
}
sc_process_observer_join(&server->observer);
sc_process_observer_destroy(&server->observer);
sc_process_observer_join(&observer);
sc_process_observer_destroy(&observer);
sc_process_close(server->process);
sc_process_close(pid);
return 0;
error_connection_failed:
server->cbs->on_connection_failed(server, server->cbs_userdata);
return -1;
}
bool
server_start(struct server *server) {
bool ok = sc_thread_create(&server->thread, run_server, "server", server);
if (!ok) {
LOGE("Could not create server thread");
return false;
}
return true;
}
void
server_stop(struct server *server) {
sc_mutex_lock(&server->mutex);
server->stopped = true;
sc_cond_signal(&server->cond_stopped);
sc_mutex_unlock(&server->mutex);
sc_thread_join(&server->thread, NULL);
}
void
server_destroy(struct server *server) {
if (server->server_socket != SC_INVALID_SOCKET) {
if (!net_close(server->server_socket)) {
LOGW("Could not close server socket");
}
}
if (server->video_socket != SC_INVALID_SOCKET) {
if (!net_close(server->video_socket)) {
LOGW("Could not close video socket");
}
}
if (server->control_socket != SC_INVALID_SOCKET) {
if (!net_close(server->control_socket)) {
LOGW("Could not close control socket");
}
}
server_params_destroy(&server->params);
sc_cond_destroy(&server->cond_stopped);
sc_mutex_destroy(&server->mutex);

View file

@ -43,9 +43,8 @@ struct server {
// The internal allocated strings are copies owned by the server
struct server_params params;
sc_pid process;
// alive only between start() and stop()
struct sc_process_observer observer;
sc_thread thread;
struct server_info info; // initialized once connected
sc_mutex mutex;
sc_cond cond_stopped;
@ -57,20 +56,40 @@ struct server {
uint16_t local_port; // selected from port_range
bool tunnel_enabled;
bool tunnel_forward; // use "adb forward" instead of "adb reverse"
const struct server_callbacks *cbs;
void *cbs_userdata;
};
struct server_callbacks {
/**
* Called when the server failed to connect
*
* If it is called, then on_connected() and on_disconnected() will never be
* called.
*/
void (*on_connection_failed)(struct server *server, void *userdata);
/**
* Called on server connection
*/
void (*on_connected)(struct server *server, void *userdata);
/**
* Called on server disconnection (after it has been connected)
*/
void (*on_disconnected)(struct server *server, void *userdata);
};
// init the server with the given params
bool
server_init(struct server *server, const struct server_params *params);
server_init(struct server *server, const struct server_params *params,
const struct server_callbacks *cbs, void *cbs_userdata);
// push, enable tunnel et start the server
// start the server asynchronously
bool
server_start(struct server *server);
// block until the communication with the server is established
bool
server_connect_to(struct server *server, struct server_info *info);
// disconnect and kill the server process
void
server_stop(struct server *server);