#include "server.h" #include "const.h" #include "hid.h" #include "json.h" #include "net.h" #include "util.h" #include "vec.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include // Arguments for a connection thread struct Connection { int socket; uint32_t id; bool closed; }; struct DeviceThreadArgs { int index; char *tag; Controller **controller; struct Connection *conn; }; static void default_timespec(void *ptr) { *(struct timespec *)ptr = POLL_DEVICE_INTERVAL; } static void default_request_timeout(void *ptr) { *(uint32_t *)ptr = REQUEST_TIMEOUT; } const JSONPropertyAdapter FilterAdapterProps[] = { {".uniq", &StringAdapter, offsetof(ControllerFilter, uniq), default_to_zero_u64, tsf_uniq_to_u64}, {".vendor", &StringAdapter, offsetof(ControllerFilter, vendor), default_to_negative_one_i32, tsf_hex_to_i32 }, {".product", &StringAdapter, offsetof(ControllerFilter, product), default_to_negative_one_i32, tsf_hex_to_i32 }, {".js", &BooleanAdapter, offsetof(ControllerFilter, js), default_to_false, NULL }, {".name", &StringAdapter, offsetof(ControllerFilter, name), default_to_null, NULL }, }; const JSONAdapter FilterAdapter = { .props = FilterAdapterProps, .prop_count = sizeof(FilterAdapterProps) / sizeof(JSONPropertyAdapter), .size = sizeof(ControllerFilter), }; const JSONPropertyAdapter ControllerAdapterProps[] = { {".filter", &FilterAdapter, offsetof(ServerConfigController, filter), NULL, NULL}, {".tag", &StringAdapter, offsetof(ServerConfigController, tag), default_to_null, NULL}, {".properties.duplicate", &BooleanAdapter, offsetof(ServerConfigController, duplicate), default_to_false, NULL}, {".properties.ps4_hidraw", &BooleanAdapter, offsetof(ServerConfigController, ps4_hidraw), default_to_false, NULL}, }; const JSONAdapter ControllerAdapter = { .props = ControllerAdapterProps, .prop_count = sizeof(ControllerAdapterProps) / sizeof(JSONPropertyAdapter), .size = sizeof(ServerConfigController), }; const JSONPropertyAdapter ConfigAdapterProps[] = { {".controllers[]", &ControllerAdapter, offsetof(ServerConfig, controllers), default_to_null, NULL }, {".poll_interval", &NumberAdapter, offsetof(ServerConfig, poll_interval), default_timespec, tsf_numsec_to_timespec}, {".request_timeout", &NumberAdapter, offsetof(ServerConfig, request_timeout), default_request_timeout, tsf_numsec_to_intms } }; const JSONAdapter ConfigAdapter = { .props = ConfigAdapterProps, .prop_count = sizeof(ConfigAdapterProps) / sizeof(JSONPropertyAdapter), .size = sizeof(ServerConfig), }; static ServerConfig config; static pthread_key_t device_args_key; static sigset_t empty_sigset; #define TRAP(sig, handler) \ if (sigaction(sig, &(struct sigaction){.sa_handler = handler, .sa_mask = empty_sigset, .sa_flags = 0}, NULL) != 0) \ printf("SERVER: can't trap " #sig ".\n") #define TRAP_IGN(sig) \ if (sigaction(sig, &(struct sigaction){{SIG_IGN}}, NULL) != 0) \ printf("SERVER: can't ignore " #sig ".\n") void device_thread_exit(int _sig) { struct DeviceThreadArgs *args = pthread_getspecific(device_args_key); printf("CONN(%d): [%d] exiting\n", args->conn->id, args->index); Controller *ctr = *args->controller; if (ctr != NULL) { return_device(ctr); } free(args->tag); free(args); pthread_exit(NULL); } void *device_thread(void *args_) { struct DeviceThreadArgs *args = args_; pthread_setspecific(device_args_key, args); TRAP_IGN(SIGPIPE); TRAP(SIGTERM, device_thread_exit); uint8_t buf[2048] __attribute__((aligned(4))) = {0}; MessageDeviceInfo dev_info; while (true) { *args->controller = NULL; Controller *ctr = get_device(args->tag, &args->conn->closed); if(ctr == NULL) { break; } *args->controller = ctr; dev_info = ctr->dev.device_info; dev_info.index = args->index; printf("CONN(%d): [%d] Found suitable [%s] device: '%s' (%016lx)\n", args->conn->id, args->index, args->tag, ctr->dev.name, ctr->dev.id); // Send over device info { int len = msg_serialize(buf, 2048, (Message *)&dev_info); if (write(args->conn->socket, buf, len) == -1) { printf("CONN(%d): [%d] Couldn't send device info\n", args->conn->id, args->index); break; } } MessageDeviceReport report = {0}; report.code = DeviceReport; report.abs_count = ctr->dev.device_info.abs_count; report.rel_count = ctr->dev.device_info.rel_count; report.key_count = ctr->dev.device_info.key_count; report.index = args->index; while (true) { struct input_event event; int len = read(ctr->dev.event, &event, sizeof(struct input_event)); if (len <= 0) { // We lost the device, so we mark it as broken (we forget it) and try to get a new one (in the next iteration of // the outer while) forget_device(ctr); break; } if (len < sizeof(struct input_event)) { printf("CONN(%d): [%d] error reading event\n", args->conn->id, args->index); continue; } if (event.type == EV_SYN) { int len = msg_serialize(buf, 2048, (Message *)&report); if (len < 0) { printf("CONN(%d): [%d] Couldn't serialize report %d\n", args->conn->id, args->index, len); continue; }; send(args->conn->socket, buf, len, 0); } else if (event.type == EV_ABS) { int index = ctr->dev.mapping.abs_indices[event.code]; if (index < 0) { printf("CONN(%d): [%d] Invalid abs\n", args->conn->id, args->index); continue; }; report.abs[index] = event.value; } else if (event.type == EV_REL) { int index = ctr->dev.mapping.rel_indices[event.code]; if (index < 0) { printf("CONN(%d): [%d] Invalid rel\n", args->conn->id, args->index); continue; }; report.rel[index] = event.value; } else if (event.type == EV_KEY) { int index = ctr->dev.mapping.key_indices[event.code]; if (index < 0) { printf("CONN(%d): [%d] Invalid key\n", args->conn->id, args->index); continue; }; report.key[index] = !!event.value; } } // Send device destroy message { MessageDestroy dstr; dstr.code = DeviceDestroy; dstr.index = args->index; int len = msg_serialize(buf, 2048, (Message *)&dstr); if (write(args->conn->socket, buf, len) == -1) { printf("CONN(%d): [%d] Couldn't send device destroy message\n", args->conn->id, args->index); break; } } } device_thread_exit(SIGTERM); return NULL; } void *server_handle_conn(void *args_) { struct Connection *args = args_; printf("CONN(%u): start\n", args->id); if (setsockopt(args->socket, SOL_SOCKET, SO_KEEPALIVE, &TCP_KEEPALIVE_ENABLE, sizeof(int)) != 0) printf("ERR(server_handle_conn): Enabling socket keepalives on client\n"); if (setsockopt(args->socket, SOL_TCP, TCP_KEEPIDLE, &TCP_KEEPALIVE_IDLE_TIME, sizeof(int)) != 0) printf("ERR(server_handle_conn): Setting initial idle-time value\n"); if (setsockopt(args->socket, SOL_TCP, TCP_KEEPCNT, &TCP_KEEPALIVE_RETRY_COUNT, sizeof(int)) != 0) printf("ERR(server_handle_conn): Setting idle retry count\n"); if (setsockopt(args->socket, SOL_TCP, TCP_KEEPINTVL, &TCP_KEEPALIVE_RETRY_INTERVAL, sizeof(int)) != 0) printf("ERR(server_handle_conn): Setting idle retry interval\n"); uint8_t buf[2048] __attribute__((aligned(4))) = {0}; char *closing_message = ""; bool got_request = false; Vec device_threads = vec_of(pthread_t); Vec device_controllers = vec_of(Controller *); struct pollfd pfd = {.fd = args->socket, .events = POLLIN}; while (1) { int rc = poll(&pfd, 1, config.request_timeout); // If poll timed out if (rc == 0) { if (!got_request) { printf("CONN(%d): Didn't get a device request within %i.%03ds\n", args->id, config.request_timeout / 1000, config.request_timeout % 1000); closing_message = "Timed out"; goto conn_end; } continue; } else if (rc < 0) { // If poll failed (basically never) closing_message = "Poll error"; goto conn_end; } // Test for error on socket if (pfd.revents & POLLHUP || pfd.revents & POLLERR) { closing_message = "Lost peer"; goto conn_end; } // Receive data int len = recv(args->socket, buf, 2048, 0); if (len <= 0) { closing_message = "Lost peer (from recv)"; goto conn_end; } else if (len > 1 + MAGIC_SIZE * 2) { printf("CONN(%d): Got message: ", args->id); printf("\n"); } else { printf("CONN(%d): Malformed message\n", args->id); } // Parse message Message msg; int msg_len = msg_deserialize(buf, len, &msg); if (msg_len < 0) { if (len > 1 + MAGIC_SIZE * 2) { printf("CONN(%d): Couldn't parse message: ", args->id); print_message_buffer(buf, len); printf("\n"); } else { printf("CONN(%d): Couldn't parse message", args->id); } continue; } // Handle message if (msg.code == ControllerState) { int i = msg.controller_state.index; if (i >= device_controllers.len) { printf("CONN(%d): Invalid controller index in controller state message\n", args->id); continue; } Controller *ctr = *(Controller **)vec_get(&device_controllers, i); if (ctr == NULL) { printf("CONN(%d): Received controller state message but the device hasn't yet been received\n", args->id); continue; } apply_controller_state(ctr, &msg.controller_state); } else if (msg.code == Request) { if (got_request) { printf("CONN(%d): Illegal Request message after initial request\n", args->id); msg_free(&msg); continue; } got_request = true; printf("CONN(%d): Got client request\n", args->id); for (int i = 0; i < msg.request.request_count; i++) { int index = device_controllers.len; Controller *ctr = NULL; vec_push(&device_controllers, &ctr); struct DeviceThreadArgs *dev_args = malloc(sizeof(struct DeviceThreadArgs)); dev_args->controller = vec_get(&device_controllers, index); dev_args->tag = strdup(msg.request.requests[i]); dev_args->conn = args; dev_args->index = index; pthread_t thread; pthread_create(&thread, NULL, device_thread, dev_args); vec_push(&device_threads, &thread); } msg_free(&msg); } else { printf("CONN(%d): Illegal message\n", args->id); } } conn_end: shutdown(args->socket, SHUT_RDWR); printf("CONN(%u): connection closed (%s)\n", args->id, closing_message); args->closed = true; for (int i = 0; i < device_threads.len; i++) { pthread_t thread = *(pthread_t *)vec_get(&device_threads, i); pthread_kill(thread, SIGTERM); pthread_join(thread, NULL); } free(args); vec_free(device_threads); vec_free(device_controllers); return NULL; } static int sockfd; void clean_exit(int _sig) { printf("\rSERVER: exiting\n"); close(sockfd); exit(0); } void server_run(uint16_t port, char *config_path) { sigemptyset(&empty_sigset); pthread_key_create(&device_args_key, NULL); printf("SERVER: start\n"); // Parse the config { FILE *configfd = fopen(config_path, "r"); if (configfd == NULL) { perror("SERVER: Couldn't open config file"); exit(1); } char *cbuf = malloc(8192); uint8_t *jbuf = (uint8_t *)cbuf + 4096; int len = fread(cbuf, 1, 4096, configfd); if (json_parse(cbuf, len, jbuf, 4096) != 0) { printf("SERVER: Couldn't parse config, %s (at index %lu)\n", json_strerr(), json_errloc()); exit(1); } json_adapt(jbuf, &ConfigAdapter, &config); free(cbuf); fclose(configfd); } // Start the hid thread { pthread_t _thread; pthread_create(&_thread, NULL, hid_thread, &config); } // Start the TCP server int sock = socket(AF_INET, SOCK_STREAM, 0); if (sock < 0) { panicf("Couldn't open socket\n"); } sockfd = sock; TRAP(SIGINT, clean_exit); TRAP(SIGHUP, clean_exit); TRAP(SIGQUIT, clean_exit); TRAP(SIGTERM, clean_exit); if (setsockopt(sock, SOL_SOCKET, SO_REUSEADDR, &(int){1}, sizeof(int)) < 0) printf("SERVER: error when trying to enable SO_REUSEADDR\n"); if (setsockopt(sock, SOL_SOCKET, SO_REUSEPORT, &(int){1}, sizeof(int)) < 0) printf("SERVER: error when trying to enable SO_REUSEPORT\n"); struct sockaddr_in addr = {0}; addr.sin_family = AF_INET; addr.sin_addr.s_addr = htonl(INADDR_ANY); addr.sin_port = htons(port); if (bind(sock, (struct sockaddr *)&addr, sizeof(addr)) != 0) { panicf("Couldn't bind to the socket\n"); } if (listen(sock, 16) != 0) { panicf("Couldn't listen on socket\n"); } uint32_t ids = 0; while (1) { struct sockaddr con_addr; socklen_t con_len = sizeof(con_addr); struct Connection conn; conn.socket = accept(sock, &con_addr, &con_len); conn.closed = false; if (conn.socket >= 0) { printf("SERVER: got connection\n"); conn.id = ids++; struct Connection *conn_ptr = malloc(sizeof(struct Connection)); memcpy(conn_ptr, &conn, sizeof(struct Connection)); pthread_t thread; pthread_create(&thread, NULL, server_handle_conn, conn_ptr); } else { printf("Couldn't accept connection (%d)\n", conn.socket); } } }