#ifndef _GNU_SOURCE #define _GNU_SOURCE #endif #include "../kms_shared.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #define MAX_CONNECTORS 32 typedef struct { int drmfd; drmModePlaneResPtr planes; } gsr_drm; typedef struct { uint32_t connector_id; uint64_t crtc_id; uint64_t hdr_metadata_blob_id; } connector_crtc_pair; typedef struct { connector_crtc_pair maps[MAX_CONNECTORS]; int num_maps; } connector_to_crtc_map; static int max_int(int a, int b) { return a > b ? a : b; } static int count_num_fds(const gsr_kms_response *response) { int num_fds = 0; for(int i = 0; i < response->num_items; ++i) { num_fds += response->items[i].num_dma_bufs; } return num_fds; } static int send_msg_to_client(int client_fd, gsr_kms_response *response) { struct iovec iov; iov.iov_base = response; iov.iov_len = sizeof(*response); struct msghdr response_message = {0}; response_message.msg_iov = &iov; response_message.msg_iovlen = 1; const int num_fds = count_num_fds(response); char cmsgbuf[CMSG_SPACE(sizeof(int) * max_int(1, num_fds))]; memset(cmsgbuf, 0, sizeof(cmsgbuf)); if(num_fds > 0) { response_message.msg_control = cmsgbuf; response_message.msg_controllen = sizeof(cmsgbuf); struct cmsghdr *cmsg = CMSG_FIRSTHDR(&response_message); cmsg->cmsg_level = SOL_SOCKET; cmsg->cmsg_type = SCM_RIGHTS; cmsg->cmsg_len = CMSG_LEN(sizeof(int) * num_fds); int *fds = (int*)CMSG_DATA(cmsg); int fd_index = 0; for(int i = 0; i < response->num_items; ++i) { for(int j = 0; j < response->items[i].num_dma_bufs; ++j) { fds[fd_index++] = response->items[i].dma_buf[j].fd; } } response_message.msg_controllen = cmsg->cmsg_len; } return sendmsg(client_fd, &response_message, 0); } static int recv_msg_from_client(int client_fd, gsr_kms_request *request) { struct iovec iov; iov.iov_base = request; iov.iov_len = sizeof(*request); struct msghdr response_message = {0}; response_message.msg_iov = &iov; response_message.msg_iovlen = 1; char cmsgbuf[CMSG_SPACE(sizeof(int) * 1)]; memset(cmsgbuf, 0, sizeof(cmsgbuf)); response_message.msg_control = cmsgbuf; response_message.msg_controllen = sizeof(cmsgbuf); int res = recvmsg(client_fd, &response_message, MSG_WAITALL); if(res <= 0) return res; if(request->new_connection_fd > 0) { struct cmsghdr *cmsg = CMSG_FIRSTHDR(&response_message); if(cmsg) { int *fds = (int*)CMSG_DATA(cmsg); request->new_connection_fd = fds[0]; } else { if(request->new_connection_fd > 0) { close(request->new_connection_fd); request->new_connection_fd = 0; } } } return res; } static bool connector_get_property_by_name(int drmfd, drmModeConnectorPtr props, const char *name, uint64_t *result) { for(int i = 0; i < props->count_props; ++i) { drmModePropertyPtr prop = drmModeGetProperty(drmfd, props->props[i]); if(prop) { if(strcmp(name, prop->name) == 0) { *result = props->prop_values[i]; drmModeFreeProperty(prop); return true; } drmModeFreeProperty(prop); } } return false; } typedef enum { PLANE_PROPERTY_X = 1 << 0, PLANE_PROPERTY_Y = 1 << 1, PLANE_PROPERTY_SRC_X = 1 << 2, PLANE_PROPERTY_SRC_Y = 1 << 3, PLANE_PROPERTY_SRC_W = 1 << 4, PLANE_PROPERTY_SRC_H = 1 << 5, PLANE_PROPERTY_IS_CURSOR = 1 << 6, PLANE_PROPERTY_IS_PRIMARY = 1 << 7, } plane_property_mask; /* Returns plane_property_mask */ static uint32_t plane_get_properties(int drmfd, uint32_t plane_id, int *x, int *y, int *src_x, int *src_y, int *src_w, int *src_h) { *x = 0; *y = 0; *src_x = 0; *src_y = 0; *src_w = 0; *src_h = 0; plane_property_mask property_mask = 0; drmModeObjectPropertiesPtr props = drmModeObjectGetProperties(drmfd, plane_id, DRM_MODE_OBJECT_PLANE); if(!props) return property_mask; // TODO: Dont do this every frame for(uint32_t i = 0; i < props->count_props; ++i) { drmModePropertyPtr prop = drmModeGetProperty(drmfd, props->props[i]); if(!prop) continue; // SRC_* values are fixed 16.16 points const uint32_t type = prop->flags & (DRM_MODE_PROP_LEGACY_TYPE | DRM_MODE_PROP_EXTENDED_TYPE); if((type & DRM_MODE_PROP_SIGNED_RANGE) && strcmp(prop->name, "CRTC_X") == 0) { *x = (int)props->prop_values[i]; property_mask |= PLANE_PROPERTY_X; } else if((type & DRM_MODE_PROP_SIGNED_RANGE) && strcmp(prop->name, "CRTC_Y") == 0) { *y = (int)props->prop_values[i]; property_mask |= PLANE_PROPERTY_Y; } else if((type & DRM_MODE_PROP_RANGE) && strcmp(prop->name, "SRC_X") == 0) { *src_x = (int)(props->prop_values[i] >> 16); property_mask |= PLANE_PROPERTY_SRC_X; } else if((type & DRM_MODE_PROP_RANGE) && strcmp(prop->name, "SRC_Y") == 0) { *src_y = (int)(props->prop_values[i] >> 16); property_mask |= PLANE_PROPERTY_SRC_Y; } else if((type & DRM_MODE_PROP_RANGE) && strcmp(prop->name, "SRC_W") == 0) { *src_w = (int)(props->prop_values[i] >> 16); property_mask |= PLANE_PROPERTY_SRC_W; } else if((type & DRM_MODE_PROP_RANGE) && strcmp(prop->name, "SRC_H") == 0) { *src_h = (int)(props->prop_values[i] >> 16); property_mask |= PLANE_PROPERTY_SRC_H; } else if((type & DRM_MODE_PROP_ENUM) && strcmp(prop->name, "type") == 0) { const uint64_t current_enum_value = props->prop_values[i]; for(int j = 0; j < prop->count_enums; ++j) { if(prop->enums[j].value == current_enum_value && strcmp(prop->enums[j].name, "Primary") == 0) { property_mask |= PLANE_PROPERTY_IS_PRIMARY; break; } else if(prop->enums[j].value == current_enum_value && strcmp(prop->enums[j].name, "Cursor") == 0) { property_mask |= PLANE_PROPERTY_IS_CURSOR; break; } } } drmModeFreeProperty(prop); } drmModeFreeObjectProperties(props); return property_mask; } /* Returns 0 if not found */ static const connector_crtc_pair* get_connector_pair_by_crtc_id(const connector_to_crtc_map *c2crtc_map, uint32_t crtc_id) { for(int i = 0; i < c2crtc_map->num_maps; ++i) { if(c2crtc_map->maps[i].crtc_id == crtc_id) return &c2crtc_map->maps[i]; } return NULL; } static void map_crtc_to_connector_ids(gsr_drm *drm, connector_to_crtc_map *c2crtc_map) { c2crtc_map->num_maps = 0; drmModeResPtr resources = drmModeGetResources(drm->drmfd); if(!resources) return; for(int i = 0; i < resources->count_connectors && c2crtc_map->num_maps < MAX_CONNECTORS; ++i) { drmModeConnectorPtr connector = drmModeGetConnectorCurrent(drm->drmfd, resources->connectors[i]); if(!connector) continue; uint64_t crtc_id = 0; connector_get_property_by_name(drm->drmfd, connector, "CRTC_ID", &crtc_id); uint64_t hdr_output_metadata_blob_id = 0; connector_get_property_by_name(drm->drmfd, connector, "HDR_OUTPUT_METADATA", &hdr_output_metadata_blob_id); c2crtc_map->maps[c2crtc_map->num_maps].connector_id = connector->connector_id; c2crtc_map->maps[c2crtc_map->num_maps].crtc_id = crtc_id; c2crtc_map->maps[c2crtc_map->num_maps].hdr_metadata_blob_id = hdr_output_metadata_blob_id; ++c2crtc_map->num_maps; drmModeFreeConnector(connector); } drmModeFreeResources(resources); } static void drm_mode_cleanup_handles(int drmfd, drmModeFB2Ptr drmfb) { for(int i = 0; i < 4; ++i) { if(!drmfb->handles[i]) continue; bool already_closed = false; for(int j = 0; j < i; ++j) { if(drmfb->handles[i] == drmfb->handles[j]) { already_closed = true; break; } } if(already_closed) continue; drmCloseBufferHandle(drmfd, drmfb->handles[i]); } } static bool get_hdr_metadata(int drm_fd, uint64_t hdr_metadata_blob_id, struct hdr_output_metadata *hdr_metadata) { drmModePropertyBlobPtr hdr_metadata_blob = drmModeGetPropertyBlob(drm_fd, hdr_metadata_blob_id); if(!hdr_metadata_blob) return false; if(hdr_metadata_blob->length >= sizeof(struct hdr_output_metadata)) *hdr_metadata = *(struct hdr_output_metadata*)hdr_metadata_blob->data; drmModeFreePropertyBlob(hdr_metadata_blob); return true; } /* Returns the number of drm handles that we managed to get */ static int drm_prime_handles_to_fds(gsr_drm *drm, drmModeFB2Ptr drmfb, int *fb_fds) { for(int i = 0; i < GSR_KMS_MAX_DMA_BUFS; ++i) { if(!drmfb->handles[i]) return i; const int ret = drmPrimeHandleToFD(drm->drmfd, drmfb->handles[i], O_RDONLY, &fb_fds[i]); if(ret != 0 || fb_fds[i] == -1) return i; } return GSR_KMS_MAX_DMA_BUFS; } static int kms_get_fb(gsr_drm *drm, gsr_kms_response *response, connector_to_crtc_map *c2crtc_map) { int result = -1; response->result = KMS_RESULT_OK; response->err_msg[0] = '\0'; response->num_items = 0; for(uint32_t i = 0; i < drm->planes->count_planes && response->num_items < GSR_KMS_MAX_ITEMS; ++i) { drmModePlanePtr plane = NULL; drmModeFB2Ptr drmfb = NULL; plane = drmModeGetPlane(drm->drmfd, drm->planes->planes[i]); if(!plane) { response->result = KMS_RESULT_FAILED_TO_GET_PLANE; snprintf(response->err_msg, sizeof(response->err_msg), "failed to get drm plane with id %u, error: %s\n", drm->planes->planes[i], strerror(errno)); fprintf(stderr, "kms server error: %s\n", response->err_msg); goto next; } if(!plane->fb_id) { fprintf(stderr, "no fb id\n"); goto next; } drmfb = drmModeGetFB2(drm->drmfd, plane->fb_id); if(!drmfb) { fprintf(stderr, "failed to get drm fb\n"); // Commented out for now because we get here if the cursor is moved to another monitor and we dont care about the cursor //response->result = KMS_RESULT_FAILED_TO_GET_PLANE; //snprintf(response->err_msg, sizeof(response->err_msg), "drmModeGetFB2 failed, error: %s", strerror(errno)); //fprintf(stderr, "kms server error: %s\n", response->err_msg); goto next; } if(!drmfb->handles[0]) { response->result = KMS_RESULT_FAILED_TO_GET_PLANE; snprintf(response->err_msg, sizeof(response->err_msg), "drmfb handle is NULL"); fprintf(stderr, "kms server error: %s\n", response->err_msg); goto cleanup_handles; } // TODO: Check if dimensions have changed by comparing width and height to previous time this was called. // TODO: Support other plane formats than rgb (with multiple planes, such as direct YUV420 on wayland). int x = 0, y = 0, src_x = 0, src_y = 0, src_w = 0, src_h = 0; plane_property_mask property_mask = plane_get_properties(drm->drmfd, plane->plane_id, &x, &y, &src_x, &src_y, &src_w, &src_h); if(!(property_mask & PLANE_PROPERTY_IS_PRIMARY) && !(property_mask & PLANE_PROPERTY_IS_CURSOR)) { fprintf(stderr, "No property mask\n"); continue; } int fb_fds[GSR_KMS_MAX_DMA_BUFS]; const int num_fb_fds = drm_prime_handles_to_fds(drm, drmfb, fb_fds); if(num_fb_fds == 0) { response->result = KMS_RESULT_FAILED_TO_GET_PLANE; snprintf(response->err_msg, sizeof(response->err_msg), "failed to get fd from drm handle, error: %s", strerror(errno)); fprintf(stderr, "kms server error: %s\n", response->err_msg); goto cleanup_handles; } const int item_index = response->num_items; const connector_crtc_pair *crtc_pair = get_connector_pair_by_crtc_id(c2crtc_map, plane->crtc_id); if(crtc_pair && crtc_pair->hdr_metadata_blob_id) { response->items[item_index].has_hdr_metadata = get_hdr_metadata(drm->drmfd, crtc_pair->hdr_metadata_blob_id, &response->items[item_index].hdr_metadata); } else { response->items[item_index].has_hdr_metadata = false; } for(int j = 0; j < num_fb_fds; ++j) { response->items[item_index].dma_buf[j].fd = fb_fds[j]; response->items[item_index].dma_buf[j].pitch = drmfb->pitches[j]; response->items[item_index].dma_buf[j].offset = drmfb->offsets[j]; } response->items[item_index].num_dma_bufs = num_fb_fds; response->items[item_index].width = drmfb->width; response->items[item_index].height = drmfb->height; response->items[item_index].pixel_format = drmfb->pixel_format; response->items[item_index].modifier = drmfb->modifier; response->items[item_index].connector_id = crtc_pair ? crtc_pair->connector_id : 0; response->items[item_index].is_cursor = property_mask & PLANE_PROPERTY_IS_CURSOR; if(property_mask & PLANE_PROPERTY_IS_CURSOR) { response->items[item_index].x = x; response->items[item_index].y = y; response->items[item_index].src_w = 0; response->items[item_index].src_h = 0; } else { response->items[item_index].x = src_x; response->items[item_index].y = src_y; response->items[item_index].src_w = src_w; response->items[item_index].src_h = src_h; } ++response->num_items; fprintf(stderr, "got valid drm fd: %u, %u\n", drmfb->width, drmfb->height); cleanup_handles: drm_mode_cleanup_handles(drm->drmfd, drmfb); next: if(drmfb) drmModeFreeFB2(drmfb); if(plane) drmModeFreePlane(plane); } if(response->num_items > 0) response->result = KMS_RESULT_OK; if(response->result == KMS_RESULT_OK) { result = 0; } else { for(int i = 0; i < response->num_items; ++i) { for(int j = 0; j < response->items[i].num_dma_bufs; ++j) { gsr_kms_response_dma_buf *dma_buf = &response->items[i].dma_buf[j]; if(dma_buf->fd > 0) { close(dma_buf->fd); dma_buf->fd = -1; } } response->items[i].num_dma_bufs = 0; } response->num_items = 0; } return result; } static double clock_get_monotonic_seconds(void) { struct timespec ts; ts.tv_sec = 0; ts.tv_nsec = 0; clock_gettime(CLOCK_MONOTONIC, &ts); return (double)ts.tv_sec + (double)ts.tv_nsec * 0.000000001; } // static bool readlink_realpath(const char *filepath, char *buffer) { // char symlinked_path[PATH_MAX]; // ssize_t bytes_written = readlink(filepath, symlinked_path, sizeof(symlinked_path) - 1); // if(bytes_written == -1 && errno == EINVAL) { // /* Not a symlink */ // snprintf(symlinked_path, sizeof(symlinked_path), "%s", filepath); // } else if(bytes_written == -1) { // return false; // } else { // symlinked_path[bytes_written] = '\0'; // } // if(!realpath(symlinked_path, buffer)) // return false; // return true; // } // static void file_get_directory(char *filepath) { // char *end = strrchr(filepath, '/'); // if(end == NULL) // filepath[0] = '\0'; // else // *end = '\0'; // } // static bool string_ends_with(const char *str, const char *ends_with) { // const int len = strlen(str); // const int ends_with_len = strlen(ends_with); // return len >= ends_with_len && memcmp(str + len - ends_with_len, ends_with, ends_with_len) == 0; // } // This is not foolproof, but the assumption is that gsr-kms-server and gpu-screen-recorder are installed in the same directory // in a location that only the root user can write to (usually /usr/bin or /usr/local/bin) and if the client runs from that location // and is called gpu-screen-recorder then gsr-kms-server can only be used by a malicious program if the malicious program // had root access, to modify that program install directory. // static bool is_remote_peer_program_gpu_screen_recorder(int socket_fd) { // // TODO: Use SO_PEERPIDFD on kernel >= 6.5 to avoid a race condition in the /proc/ check // struct ucred cred; // socklen_t ucred_len = sizeof(cred); // if(getsockopt(socket_fd, SOL_SOCKET, SO_PEERCRED, &cred, &ucred_len) == -1) { // fprintf(stderr, "kms server error: failed to get peer credentials, error: %s\n", strerror(errno)); // return false; // } // char self_directory[PATH_MAX]; // if(!readlink_realpath("/proc/self/exe", self_directory)) { // fprintf(stderr, "kms server error: failed to resolve /proc/self/exe\n"); // return false; // } // file_get_directory(self_directory); // char peer_directory[PATH_MAX]; // char peer_exe_path[PATH_MAX]; // snprintf(peer_exe_path, sizeof(peer_exe_path), "/proc/%d/exe", (int)cred.pid); // if(!readlink_realpath(peer_exe_path, peer_directory)) { // fprintf(stderr, "kms server error: failed to resolve /proc/self/exe\n"); // return false; // } // if(!string_ends_with(peer_directory, "/gpu-screen-recorder")) { // fprintf(stderr, "kms server error: only gpu-screen-recorder can use gsr-kms-server. client program location is %s\n", peer_directory); // return false; // } // file_get_directory(peer_directory); // if(strcmp(self_directory, peer_directory) != 0) { // fprintf(stderr, "kms server error: the client program is in directory %s but only programs in %s can run gsr-kms-server\n", peer_directory, self_directory); // return false; // } // return true; // } int main(int argc, char **argv) { int res = 0; int socket_fd = 0; gsr_drm drm; drm.drmfd = 0; drm.planes = NULL; if(argc != 3) { fprintf(stderr, "usage: gsr-kms-server \n"); return 1; } const char *domain_socket_path = argv[1]; socket_fd = socket(AF_UNIX, SOCK_STREAM, 0); if(socket_fd == -1) { fprintf(stderr, "kms server error: failed to create socket, error: %s\n", strerror(errno)); return 2; } const char *card_path = argv[2]; drm.drmfd = open(card_path, O_RDONLY); if(drm.drmfd < 0) { fprintf(stderr, "kms server error: failed to open %s, error: %s", card_path, strerror(errno)); res = 2; goto done; } if(drmSetClientCap(drm.drmfd, DRM_CLIENT_CAP_UNIVERSAL_PLANES, 1) != 0) { fprintf(stderr, "kms server error: drmSetClientCap DRM_CLIENT_CAP_UNIVERSAL_PLANES failed, error: %s\n", strerror(errno)); res = 2; goto done; } if(drmSetClientCap(drm.drmfd, DRM_CLIENT_CAP_ATOMIC, 1) != 0) { fprintf(stderr, "kms server warning: drmSetClientCap DRM_CLIENT_CAP_ATOMIC failed, error: %s. The wrong monitor may be captured as a result\n", strerror(errno)); } drm.planes = drmModeGetPlaneResources(drm.drmfd); if(!drm.planes) { fprintf(stderr, "kms server error: failed to get plane resources, error: %s\n", strerror(errno)); res = 2; goto done; } connector_to_crtc_map c2crtc_map; c2crtc_map.num_maps = 0; map_crtc_to_connector_ids(&drm, &c2crtc_map); fprintf(stderr, "kms server info: connecting to the client\n"); bool connected = false; const double connect_timeout_sec = 5.0; const double start_time = clock_get_monotonic_seconds(); while(clock_get_monotonic_seconds() - start_time < connect_timeout_sec) { struct sockaddr_un remote_addr = {0}; remote_addr.sun_family = AF_UNIX; snprintf(remote_addr.sun_path, sizeof(remote_addr.sun_path), "%s", domain_socket_path); // TODO: Check if parent disconnected if(connect(socket_fd, (struct sockaddr*)&remote_addr, sizeof(remote_addr.sun_family) + strlen(remote_addr.sun_path)) == -1) { if(errno == ECONNREFUSED || errno == ENOENT) { goto next; } else if(errno == EISCONN) { connected = true; break; } fprintf(stderr, "kms server error: connect failed, error: %s (%d)\n", strerror(errno), errno); res = 2; goto done; } next: usleep(30 * 1000); // 30 milliseconds } if(connected) { fprintf(stderr, "kms server info: connected to the client\n"); } else { fprintf(stderr, "kms server error: failed to connect to the client in %f seconds\n", connect_timeout_sec); res = 2; goto done; } // if(!is_remote_peer_program_gpu_screen_recorder(socket_fd)) { // res = 3; // goto done; // } for(;;) { gsr_kms_request request; request.version = 0; request.type = -1; request.new_connection_fd = 0; const int recv_res = recv_msg_from_client(socket_fd, &request); if(recv_res == 0) { fprintf(stderr, "kms server info: kms client shutdown, shutting down the server\n"); res = 3; goto done; } else if(recv_res == -1) { const int err = errno; fprintf(stderr, "kms server error: failed to read all data in client request (error: %s), ignoring\n", strerror(err)); if(err == EBADF) { fprintf(stderr, "kms server error: invalid client fd, shutting down the server\n"); res = 3; goto done; } continue; } if(request.version != GSR_KMS_PROTOCOL_VERSION) { fprintf(stderr, "kms server error: expected gpu screen recorder protocol version to be %u, but it's %u. please reinstall gpu screen recorder\n", GSR_KMS_PROTOCOL_VERSION, request.version); /* if(request.new_connection_fd > 0) close(request.new_connection_fd); */ continue; } switch(request.type) { case KMS_REQUEST_TYPE_REPLACE_CONNECTION: { gsr_kms_response response; response.version = GSR_KMS_PROTOCOL_VERSION; response.num_items = 0; if(request.new_connection_fd > 0) { if(socket_fd > 0) close(socket_fd); socket_fd = request.new_connection_fd; response.result = KMS_RESULT_OK; if(send_msg_to_client(socket_fd, &response) == -1) fprintf(stderr, "kms server error: failed to respond to client KMS_REQUEST_TYPE_REPLACE_CONNECTION request\n"); } else { response.result = KMS_RESULT_INVALID_REQUEST; snprintf(response.err_msg, sizeof(response.err_msg), "received invalid connection fd"); fprintf(stderr, "kms server error: %s\n", response.err_msg); if(send_msg_to_client(socket_fd, &response) == -1) fprintf(stderr, "kms server error: failed to respond to client request\n"); } break; } case KMS_REQUEST_TYPE_GET_KMS: { gsr_kms_response response; response.version = GSR_KMS_PROTOCOL_VERSION; response.num_items = 0; if(kms_get_fb(&drm, &response, &c2crtc_map) == 0) { if(send_msg_to_client(socket_fd, &response) == -1) fprintf(stderr, "kms server error: failed to respond to client KMS_REQUEST_TYPE_GET_KMS request\n"); } else { if(send_msg_to_client(socket_fd, &response) == -1) fprintf(stderr, "kms server error: failed to respond to client KMS_REQUEST_TYPE_GET_KMS request\n"); } for(int i = 0; i < response.num_items; ++i) { for(int j = 0; j < response.items[i].num_dma_bufs; ++j) { gsr_kms_response_dma_buf *dma_buf = &response.items[i].dma_buf[j]; if(dma_buf->fd > 0) { close(dma_buf->fd); dma_buf->fd = -1; } } response.items[i].num_dma_bufs = 0; } response.num_items = 0; break; } default: { gsr_kms_response response; response.version = GSR_KMS_PROTOCOL_VERSION; response.result = KMS_RESULT_INVALID_REQUEST; response.num_items = 0; snprintf(response.err_msg, sizeof(response.err_msg), "invalid request type %d, expected %d (%s)", request.type, KMS_REQUEST_TYPE_GET_KMS, "KMS_REQUEST_TYPE_GET_KMS"); fprintf(stderr, "kms server error: %s\n", response.err_msg); if(send_msg_to_client(socket_fd, &response) == -1) fprintf(stderr, "kms server error: failed to respond to client request\n"); break; } } } done: if(drm.planes) drmModeFreePlaneResources(drm.planes); if(drm.drmfd > 0) close(drm.drmfd); if(socket_fd > 0) close(socket_fd); return res; }