scrcpy/app/src/server.c
Romain Vimont 345f8858d3 Send frame meta only if recording is enabled
The client needs the PTS for each frame only if recording is enabled.
Otherwise, the PTS are not necessary, and the protocol is more
straighforward.
2018-11-11 21:37:31 +01:00

271 lines
8.3 KiB
C

#include "server.h"
#include <errno.h>
#include <inttypes.h>
#include <stdint.h>
#include <stdio.h>
#include <SDL2/SDL_assert.h>
#include <SDL2/SDL_timer.h>
#include "config.h"
#include "log.h"
#include "net.h"
#define SOCKET_NAME "scrcpy"
#ifdef OVERRIDE_SERVER_PATH
# define DEFAULT_SERVER_PATH OVERRIDE_SERVER_PATH
#else
# define DEFAULT_SERVER_PATH PREFIX PREFIXED_SERVER_PATH
#endif
#define DEVICE_SERVER_PATH "/data/local/tmp/scrcpy-server.jar"
static const char *get_server_path(void) {
const char *server_path = getenv("SCRCPY_SERVER_PATH");
if (!server_path) {
server_path = DEFAULT_SERVER_PATH;
}
return server_path;
}
static SDL_bool push_server(const char *serial) {
process_t process = adb_push(serial, get_server_path(), DEVICE_SERVER_PATH);
return process_check_success(process, "adb push");
}
static SDL_bool remove_server(const char *serial) {
process_t process = adb_remove_path(serial, DEVICE_SERVER_PATH);
return process_check_success(process, "adb shell rm");
}
static SDL_bool enable_tunnel_reverse(const char *serial, Uint16 local_port) {
process_t process = adb_reverse(serial, SOCKET_NAME, local_port);
return process_check_success(process, "adb reverse");
}
static SDL_bool disable_tunnel_reverse(const char *serial) {
process_t process = adb_reverse_remove(serial, SOCKET_NAME);
return process_check_success(process, "adb reverse --remove");
}
static SDL_bool enable_tunnel_forward(const char *serial, Uint16 local_port) {
process_t process = adb_forward(serial, local_port, SOCKET_NAME);
return process_check_success(process, "adb forward");
}
static SDL_bool disable_tunnel_forward(const char *serial, Uint16 local_port) {
process_t process = adb_forward_remove(serial, local_port);
return process_check_success(process, "adb forward --remove");
}
static SDL_bool enable_tunnel(struct server *server) {
if (enable_tunnel_reverse(server->serial, server->local_port)) {
return SDL_TRUE;
}
LOGW("'adb reverse' failed, fallback to 'adb forward'");
server->tunnel_forward = SDL_TRUE;
return enable_tunnel_forward(server->serial, server->local_port);
}
static SDL_bool disable_tunnel(struct server *server) {
if (server->tunnel_forward) {
return disable_tunnel_forward(server->serial, server->local_port);
}
return disable_tunnel_reverse(server->serial);
}
static process_t execute_server(const char *serial,
Uint16 max_size, Uint32 bit_rate,
SDL_bool tunnel_forward, const char *crop,
SDL_bool send_frame_meta) {
char max_size_string[6];
char bit_rate_string[11];
sprintf(max_size_string, "%"PRIu16, max_size);
sprintf(bit_rate_string, "%"PRIu32, bit_rate);
const char *const cmd[] = {
"shell",
"CLASSPATH=/data/local/tmp/scrcpy-server.jar",
"app_process",
"/", // unused
"com.genymobile.scrcpy.Server",
max_size_string,
bit_rate_string,
tunnel_forward ? "true" : "false",
crop ? crop : "''",
send_frame_meta ? "true" : "false",
};
return adb_execute(serial, cmd, sizeof(cmd) / sizeof(cmd[0]));
}
#define IPV4_LOCALHOST 0x7F000001
static socket_t listen_on_port(Uint16 port) {
return net_listen(IPV4_LOCALHOST, port, 1);
}
static socket_t connect_and_read_byte(Uint16 port) {
socket_t socket = net_connect(IPV4_LOCALHOST, port);
if (socket == INVALID_SOCKET) {
return INVALID_SOCKET;
}
char byte;
// the connection may succeed even if the server behind the "adb tunnel"
// is not listening, so read one byte to detect a working connection
if (net_recv_all(socket, &byte, 1) != 1) {
// the server is not listening yet behind the adb tunnel
return INVALID_SOCKET;
}
return socket;
}
static socket_t connect_to_server(Uint16 port, Uint32 attempts, Uint32 delay) {
do {
LOGD("Remaining connection attempts: %d", (int) attempts);
socket_t socket = connect_and_read_byte(port);
if (socket != INVALID_SOCKET) {
// it worked!
return socket;
}
if (attempts) {
SDL_Delay(delay);
}
} while (--attempts > 0);
return INVALID_SOCKET;
}
static void close_socket(socket_t *socket) {
SDL_assert(*socket != INVALID_SOCKET);
net_shutdown(*socket, SHUT_RDWR);
if (!net_close(*socket)) {
LOGW("Cannot close socket");
return;
}
*socket = INVALID_SOCKET;
}
void server_init(struct server *server) {
*server = (struct server) SERVER_INITIALIZER;
}
SDL_bool server_start(struct server *server, const char *serial,
Uint16 local_port, Uint16 max_size, Uint32 bit_rate,
const char *crop, SDL_bool send_frame_meta) {
server->local_port = local_port;
if (serial) {
server->serial = SDL_strdup(serial);
if (!server->serial) {
return SDL_FALSE;
}
}
if (!push_server(serial)) {
SDL_free((void *) server->serial);
return SDL_FALSE;
}
server->server_copied_to_device = SDL_TRUE;
if (!enable_tunnel(server)) {
SDL_free((void *) server->serial);
return SDL_FALSE;
}
// if "adb reverse" does not work (e.g. over "adb connect"), it fallbacks to
// "adb forward", so the app socket is the client
if (!server->tunnel_forward) {
// At the application level, the device part is "the server" because it
// serves video stream and control. However, at the network level, the
// client listens and the server connects to the client. That way, the
// client can listen before starting the server app, so there is no need to
// try to connect until the server socket is listening on the device.
server->server_socket = listen_on_port(local_port);
if (server->server_socket == INVALID_SOCKET) {
LOGE("Could not listen on port %" PRIu16, local_port);
disable_tunnel(server);
SDL_free((void *) server->serial);
return SDL_FALSE;
}
}
// server will connect to our server socket
server->process = execute_server(serial, max_size, bit_rate,
server->tunnel_forward, crop,
send_frame_meta);
if (server->process == PROCESS_NONE) {
if (!server->tunnel_forward) {
close_socket(&server->server_socket);
}
disable_tunnel(server);
SDL_free((void *) server->serial);
return SDL_FALSE;
}
server->tunnel_enabled = SDL_TRUE;
return SDL_TRUE;
}
socket_t server_connect_to(struct server *server) {
if (!server->tunnel_forward) {
server->device_socket = net_accept(server->server_socket);
} else {
Uint32 attempts = 100;
Uint32 delay = 100; // ms
server->device_socket = connect_to_server(server->local_port, attempts, delay);
}
if (server->device_socket == INVALID_SOCKET) {
return INVALID_SOCKET;
}
if (!server->tunnel_forward) {
// we don't need the server socket anymore
close_socket(&server->server_socket);
}
// the server is started, we can clean up the jar from the temporary folder
remove_server(server->serial); // ignore failure
server->server_copied_to_device = SDL_FALSE;
// we don't need the adb tunnel anymore
disable_tunnel(server); // ignore failure
server->tunnel_enabled = SDL_FALSE;
return server->device_socket;
}
void server_stop(struct server *server) {
SDL_assert(server->process != PROCESS_NONE);
if (!cmd_terminate(server->process)) {
LOGW("Cannot terminate server");
}
cmd_simple_wait(server->process, NULL); // ignore exit code
LOGD("Server terminated");
if (server->tunnel_enabled) {
// ignore failure
disable_tunnel(server);
}
if (server->server_copied_to_device) {
remove_server(server->serial); // ignore failure
}
}
void server_destroy(struct server *server) {
if (server->server_socket != INVALID_SOCKET) {
close_socket(&server->server_socket);
}
if (server->device_socket != INVALID_SOCKET) {
close_socket(&server->device_socket);
}
SDL_free((void *) server->serial);
}