/* libusbmuxd - client library to talk to usbmuxd Copyright (C) 2009-2010 Nikias Bassen Copyright (C) 2009 Paul Sladen Copyright (C) 2009 Martin Szulecki This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation, either version 2.1 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include #include #include #include #include #ifdef HAVE_CONFIG_H #include #endif #ifdef WIN32 #include #include #define sleep(x) Sleep(x*1000) #ifndef EPROTO #define EPROTO 134 #endif #ifndef EBADMSG #define EBADMSG 104 #endif #else #include #include #include #endif #ifdef HAVE_INOTIFY #include #define EVENT_SIZE (sizeof (struct inotify_event)) #define EVENT_BUF_LEN (1024 * (EVENT_SIZE + 16)) #define USBMUXD_DIRNAME "/var/run" #define USBMUXD_SOCKET_NAME "usbmuxd" #endif /* HAVE_INOTIFY */ #include #include #include #define PLIST_BUNDLE_ID "com.marcansoft.usbmuxd" #define PLIST_CLIENT_VERSION_STRING "usbmuxd built for freedom" #define PLIST_PROGNAME "libusbmuxd" #define PLIST_LIBUSBMUX_VERSION 3 // usbmuxd public interface #include "usbmuxd.h" // usbmuxd protocol #include "usbmuxd-proto.h" // socket utility functions #include "sock_stuff.h" // misc utility functions #include "collection.h" static int libusbmuxd_debug = 0; #define DEBUG(x, y, ...) if (x <= libusbmuxd_debug) fprintf(stderr, (y), __VA_ARGS__); static struct collection devices; static usbmuxd_event_cb_t event_cb = NULL; #ifdef WIN32 HANDLE devmon = NULL; CRITICAL_SECTION mutex; static int mutex_initialized = 0; #define LOCK if (!mutex_initialized) { InitializeCriticalSection(&mutex); mutex_initialized = 1; } EnterCriticalSection(&mutex); #define UNLOCK LeaveCriticalSection(&mutex); #else pthread_t devmon; pthread_mutex_t mutex = PTHREAD_MUTEX_INITIALIZER; #define LOCK pthread_mutex_lock(&mutex) #define UNLOCK pthread_mutex_unlock(&mutex) #endif static int listenfd = -1; static int use_tag = 0; static int proto_version = 1; static int try_list_devices = 1; /** * Finds a device info record by its handle. * if the record is not found, NULL is returned. */ static usbmuxd_device_info_t *devices_find(uint32_t handle) { FOREACH(usbmuxd_device_info_t *dev, &devices) { if (dev && dev->handle == handle) { return dev; } } ENDFOREACH return NULL; } /** * Creates a socket connection to usbmuxd. * For Mac/Linux it is a unix domain socket, * for Windows it is a tcp socket. */ static int connect_usbmuxd_socket() { #if defined(WIN32) || defined(__CYGWIN__) return connect_socket("127.0.0.1", USBMUXD_SOCKET_PORT); #else return connect_unix_socket(USBMUXD_SOCKET_FILE); #endif } static struct usbmuxd_device_record* device_record_from_plist(plist_t props) { struct usbmuxd_device_record* dev = NULL; plist_t n = NULL; uint64_t val = 0; char *strval = NULL; dev = (struct usbmuxd_device_record*)malloc(sizeof(struct usbmuxd_device_record)); if (!dev) return NULL; memset(dev, 0, sizeof(struct usbmuxd_device_record)); n = plist_dict_get_item(props, "DeviceID"); if (n && plist_get_node_type(n) == PLIST_UINT) { plist_get_uint_val(n, &val); dev->device_id = (uint32_t)val; } n = plist_dict_get_item(props, "ProductID"); if (n && plist_get_node_type(n) == PLIST_UINT) { plist_get_uint_val(n, &val); dev->product_id = (uint32_t)val; } n = plist_dict_get_item(props, "SerialNumber"); if (n && plist_get_node_type(n) == PLIST_STRING) { plist_get_string_val(n, &strval); if (strval) { strncpy(dev->serial_number, strval, 255); free(strval); } } n = plist_dict_get_item(props, "LocationID"); if (n && plist_get_node_type(n) == PLIST_UINT) { plist_get_uint_val(n, &val); dev->location = (uint32_t)val; } return dev; } static int receive_packet(int sfd, struct usbmuxd_header *header, void **payload, int timeout) { int recv_len; struct usbmuxd_header hdr; char *payload_loc = NULL; header->length = 0; header->version = 0; header->message = 0; header->tag = 0; recv_len = recv_buf_timeout(sfd, &hdr, sizeof(hdr), 0, timeout); if (recv_len < 0) { return recv_len; } else if ((size_t)recv_len < sizeof(hdr)) { return recv_len; } uint32_t payload_size = hdr.length - sizeof(hdr); if (payload_size > 0) { payload_loc = (char*)malloc(payload_size); if (recv_buf_timeout(sfd, payload_loc, payload_size, 0, 5000) != (int)payload_size) { DEBUG(1, "%s: Error receiving payload of size %d\n", __func__, payload_size); free(payload_loc); return -EBADMSG; } } if (hdr.message == MESSAGE_PLIST) { char *message = NULL; plist_t plist = NULL; plist_from_xml(payload_loc, payload_size, &plist); free(payload_loc); if (!plist) { DEBUG(1, "%s: Error getting plist from payload!\n", __func__); return -EBADMSG; } plist_t node = plist_dict_get_item(plist, "MessageType"); if (!node || plist_get_node_type(node) != PLIST_STRING) { *payload = plist; hdr.length = sizeof(hdr); memcpy(header, &hdr, sizeof(hdr)); return hdr.length; } plist_get_string_val(node, &message); if (message) { uint64_t val = 0; if (strcmp(message, "Result") == 0) { /* result message */ uint32_t dwval = 0; plist_t n = plist_dict_get_item(plist, "Number"); plist_get_uint_val(n, &val); *payload = malloc(sizeof(uint32_t)); dwval = val; memcpy(*payload, &dwval, sizeof(dwval)); hdr.length = sizeof(hdr) + sizeof(dwval); hdr.message = MESSAGE_RESULT; } else if (strcmp(message, "Attached") == 0) { /* device add message */ struct usbmuxd_device_record *dev = NULL; plist_t props = plist_dict_get_item(plist, "Properties"); if (!props) { DEBUG(1, "%s: Could not get properties for message '%s' from plist!\n", __func__, message); free(message); plist_free(plist); return -EBADMSG; } dev = device_record_from_plist(props); if (!dev) { DEBUG(1, "%s: Could not create device record object from properties!\n", __func__); free(message); plist_free(plist); return -EBADMSG; } *payload = (void*)dev; hdr.length = sizeof(hdr) + sizeof(struct usbmuxd_device_record); hdr.message = MESSAGE_DEVICE_ADD; } else if (strcmp(message, "Detached") == 0) { /* device remove message */ uint32_t dwval = 0; plist_t n = plist_dict_get_item(plist, "DeviceID"); if (n) { plist_get_uint_val(n, &val); *payload = malloc(sizeof(uint32_t)); dwval = val; memcpy(*payload, &dwval, sizeof(dwval)); hdr.length = sizeof(hdr) + sizeof(dwval); hdr.message = MESSAGE_DEVICE_REMOVE; } } else { DEBUG(1, "%s: Unexpected message '%s' in plist!\n", __func__, message); free(message); plist_free(plist); return -EBADMSG; } free(message); } plist_free(plist); } else { *payload = payload_loc; } memcpy(header, &hdr, sizeof(hdr)); return hdr.length; } /** * Retrieves the result code to a previously sent request. */ static int usbmuxd_get_result(int sfd, uint32_t tag, uint32_t *result, void **result_plist) { struct usbmuxd_header hdr; int recv_len; uint32_t *res = NULL; if (!result) { return -EINVAL; } *result = -1; if (result_plist) { *result_plist = NULL; } if ((recv_len = receive_packet(sfd, &hdr, (void**)&res, 5000)) < 0) { DEBUG(1, "%s: Error receiving packet: %d\n", __func__, errno); if (res) free(res); return -errno; } if ((size_t)recv_len < sizeof(hdr)) { DEBUG(1, "%s: Received packet is too small!\n", __func__); if (res) free(res); return -EPROTO; } if (hdr.message == MESSAGE_RESULT) { int ret = 0; if (res && (hdr.tag == tag)) { memcpy(result, res, sizeof(uint32_t)); ret = 1; } if (res) free(res); return ret; } else if (hdr.message == MESSAGE_PLIST) { if (!result_plist) { DEBUG(1, "%s: MESSAGE_PLIST result but result_plist pointer is NULL!\n", __func__); return -1; } *result_plist = (plist_t)res; *result = RESULT_OK; return 1; } DEBUG(1, "%s: Unexpected message of type %d received!\n", __func__, hdr.message); if (res) free(res); return -EPROTO; } static int send_packet(int sfd, uint32_t message, uint32_t tag, void *payload, uint32_t payload_size) { struct usbmuxd_header header; header.length = sizeof(struct usbmuxd_header); header.version = proto_version; header.message = message; header.tag = tag; if (payload && (payload_size > 0)) { header.length += payload_size; } int sent = send_buf(sfd, &header, sizeof(header)); if (sent != sizeof(header)) { DEBUG(1, "%s: ERROR: could not send packet header\n", __func__); return -1; } if (payload && (payload_size > 0)) { sent += send_buf(sfd, payload, payload_size); } if (sent != (int)header.length) { DEBUG(1, "%s: ERROR: could not send whole packet\n", __func__); close_socket(sfd); return -1; } return sent; } static int send_plist_packet(int sfd, uint32_t tag, plist_t message) { int res; char *payload = NULL; uint32_t payload_size = 0; plist_to_xml(message, &payload, &payload_size); res = send_packet(sfd, MESSAGE_PLIST, tag, payload, payload_size); free(payload); return res; } static plist_t create_plist_message(const char* message_type) { plist_t plist = plist_new_dict(); plist_dict_insert_item(plist, "BundleID", plist_new_string(PLIST_BUNDLE_ID)); plist_dict_insert_item(plist, "ClientVersionString", plist_new_string(PLIST_CLIENT_VERSION_STRING)); plist_dict_insert_item(plist, "MessageType", plist_new_string(message_type)); plist_dict_insert_item(plist, "ProgName", plist_new_string(PLIST_PROGNAME)); plist_dict_insert_item(plist, "kLibUSBMuxVersion", plist_new_uint(PLIST_LIBUSBMUX_VERSION)); return plist; } static int send_listen_packet(int sfd, uint32_t tag) { int res = 0; if (proto_version == 1) { /* construct message plist */ plist_t plist = create_plist_message("Listen"); res = send_plist_packet(sfd, tag, plist); plist_free(plist); } else { /* binary packet */ res = send_packet(sfd, MESSAGE_LISTEN, tag, NULL, 0); } return res; } static int send_connect_packet(int sfd, uint32_t tag, uint32_t device_id, uint16_t port) { int res = 0; if (proto_version == 1) { /* construct message plist */ plist_t plist = create_plist_message("Connect"); plist_dict_insert_item(plist, "DeviceID", plist_new_uint(device_id)); plist_dict_insert_item(plist, "PortNumber", plist_new_uint(htons(port))); res = send_plist_packet(sfd, tag, plist); plist_free(plist); } else { /* binary packet */ struct { uint32_t device_id; uint16_t port; uint16_t reserved; } conninfo; conninfo.device_id = device_id; conninfo.port = htons(port); conninfo.reserved = 0; res = send_packet(sfd, MESSAGE_CONNECT, tag, &conninfo, sizeof(conninfo)); } return res; } static int send_list_devices_packet(int sfd, uint32_t tag) { int res = -1; /* construct message plist */ plist_t plist = create_plist_message("ListDevices"); res = send_plist_packet(sfd, tag, plist); plist_free(plist); return res; } static int send_read_buid_packet(int sfd, uint32_t tag) { int res = -1; /* construct message plist */ plist_t plist = create_plist_message("ReadBUID"); res = send_plist_packet(sfd, tag, plist); plist_free(plist); return res; } static int send_pair_record_packet(int sfd, uint32_t tag, const char* msgtype, const char* pair_record_id, plist_t data) { int res = -1; /* construct message plist */ plist_t plist = create_plist_message(msgtype); plist_dict_insert_item(plist, "PairRecordID", plist_new_string(pair_record_id)); if (data) { plist_dict_insert_item(plist, "PairRecordData", plist_copy(data)); } res = send_plist_packet(sfd, tag, plist); plist_free(plist); return res; } /** * Generates an event, i.e. calls the callback function. * A reference to a populated usbmuxd_event_t with information about the event * and the corresponding device will be passed to the callback function. */ static void generate_event(usbmuxd_event_cb_t callback, const usbmuxd_device_info_t *dev, enum usbmuxd_event_type event, void *user_data) { usbmuxd_event_t ev; if (!callback || !dev) { return; } ev.event = event; memcpy(&ev.device, dev, sizeof(usbmuxd_device_info_t)); callback(&ev, user_data); } static int usbmuxd_listen_poll() { int sfd; sfd = connect_usbmuxd_socket(); if (sfd < 0) { while (event_cb) { if ((sfd = connect_usbmuxd_socket()) > 0) { break; } sleep(1); } } return sfd; } #ifdef HAVE_INOTIFY static int use_inotify = 1; static int usbmuxd_listen_inotify() { int inot_fd; int watch_d; int sfd; if (!use_inotify) { return -2; } sfd = connect_usbmuxd_socket(); if (sfd >= 0) return sfd; sfd = -1; inot_fd = inotify_init (); if (inot_fd < 0) { DEBUG(1, "%s: Failed to setup inotify\n", __func__); return -2; } /* inotify is setup, listen for events that concern us */ watch_d = inotify_add_watch (inot_fd, USBMUXD_DIRNAME, IN_CREATE); if (watch_d < 0) { DEBUG(1, "%s: Failed to setup watch descriptor for socket dir\n", __func__); close (inot_fd); return -2; } while (1) { ssize_t len, i; char buff[EVENT_BUF_LEN] = {0}; i = 0; len = read (inot_fd, buff, EVENT_BUF_LEN -1); if (len < 0) goto end; while (i < len) { struct inotify_event *pevent = (struct inotify_event *) & buff[i]; /* check that it's ours */ if (pevent->mask & IN_CREATE && pevent->len && pevent->name != NULL && strcmp(pevent->name, USBMUXD_SOCKET_NAME) == 0) { sfd = connect_usbmuxd_socket (); goto end; } i += EVENT_SIZE + pevent->len; } } end: inotify_rm_watch(inot_fd, watch_d); close(inot_fd); return sfd; } #endif /* HAVE_INOTIFY */ /** * Tries to connect to usbmuxd and wait if it is not running. */ static int usbmuxd_listen() { int sfd; uint32_t res = -1; retry: #ifdef HAVE_INOTIFY sfd = usbmuxd_listen_inotify(); if (sfd == -2) sfd = usbmuxd_listen_poll(); #else sfd = usbmuxd_listen_poll(); #endif if (sfd < 0) { DEBUG(1, "%s: ERROR: usbmuxd was supposed to be running here...\n", __func__); return sfd; } use_tag++; LOCK; if (send_listen_packet(sfd, use_tag) <= 0) { UNLOCK; DEBUG(1, "%s: ERROR: could not send listen packet\n", __func__); close_socket(sfd); return -1; } if (usbmuxd_get_result(sfd, use_tag, &res, NULL) && (res != 0)) { UNLOCK; close_socket(sfd); if ((res == RESULT_BADVERSION) && (proto_version == 1)) { proto_version = 0; goto retry; } DEBUG(1, "%s: ERROR: did not get OK but %d\n", __func__, res); return -1; } UNLOCK; return sfd; } /** * Waits for an event to occur, i.e. a packet coming from usbmuxd. * Calls generate_event to pass the event via callback to the client program. */ static int get_next_event(int sfd, usbmuxd_event_cb_t callback, void *user_data) { struct usbmuxd_header hdr; void *payload = NULL; /* block until we receive something */ if (receive_packet(sfd, &hdr, &payload, 0) < 0) { // when then usbmuxd connection fails, // generate remove events for every device that // is still present so applications know about it FOREACH(usbmuxd_device_info_t *dev, &devices) { generate_event(callback, dev, UE_DEVICE_REMOVE, user_data); collection_remove(&devices, dev); free(dev); } ENDFOREACH return -EIO; } if ((hdr.length > sizeof(hdr)) && !payload) { DEBUG(1, "%s: Invalid packet received, payload is missing!\n", __func__); return -EBADMSG; } if (hdr.message == MESSAGE_DEVICE_ADD) { struct usbmuxd_device_record *dev = payload; usbmuxd_device_info_t *devinfo = (usbmuxd_device_info_t*)malloc(sizeof(usbmuxd_device_info_t)); if (!devinfo) { DEBUG(1, "%s: Out of memory!\n", __func__); free(payload); return -1; } devinfo->handle = dev->device_id; devinfo->product_id = dev->product_id; memset(devinfo->udid, '\0', sizeof(devinfo->udid)); memcpy(devinfo->udid, dev->serial_number, sizeof(devinfo->udid)); if (strcasecmp(devinfo->udid, "ffffffffffffffffffffffffffffffffffffffff") == 0) { sprintf(devinfo->udid + 32, "%08x", devinfo->handle); } collection_add(&devices, devinfo); generate_event(callback, devinfo, UE_DEVICE_ADD, user_data); } else if (hdr.message == MESSAGE_DEVICE_REMOVE) { uint32_t handle; usbmuxd_device_info_t *devinfo; memcpy(&handle, payload, sizeof(uint32_t)); devinfo = devices_find(handle); if (!devinfo) { DEBUG(1, "%s: WARNING: got device remove message for handle %d, but couldn't find the corresponding handle in the device list. This event will be ignored.\n", __func__, handle); } else { generate_event(callback, devinfo, UE_DEVICE_REMOVE, user_data); collection_remove(&devices, devinfo); free(devinfo); } } else if (hdr.length > 0) { DEBUG(1, "%s: Unexpected message type %d length %d received!\n", __func__, hdr.message, hdr.length); } if (payload) { free(payload); } return 0; } static void device_monitor_cleanup(void* data) { FOREACH(usbmuxd_device_info_t *dev, &devices) { collection_remove(&devices, dev); free(dev); } ENDFOREACH collection_free(&devices); close_socket(listenfd); listenfd = -1; } /** * Device Monitor thread function. * * This function sets up a connection to usbmuxd */ static void *device_monitor(void *data) { collection_init(&devices); #ifndef WIN32 pthread_cleanup_push(device_monitor_cleanup, NULL); #endif while (event_cb) { listenfd = usbmuxd_listen(); if (listenfd < 0) { continue; } while (event_cb) { int res = get_next_event(listenfd, event_cb, data); if (res < 0) { break; } } } #ifndef WIN32 pthread_cleanup_pop(1); #else device_monitor_cleanup(NULL); #endif return NULL; } int usbmuxd_subscribe(usbmuxd_event_cb_t callback, void *user_data) { int res; if (!callback) { return -EINVAL; } event_cb = callback; #ifdef WIN32 res = 0; devmon = CreateThread(NULL, 0, (LPTHREAD_START_ROUTINE)device_monitor, user_data, 0, NULL); if (devmon == NULL) { res = GetLastError(); } #else res = pthread_create(&devmon, NULL, device_monitor, user_data); #endif if (res != 0) { DEBUG(1, "%s: ERROR: Could not start device watcher thread!\n", __func__); return res; } return 0; } int usbmuxd_unsubscribe() { event_cb = NULL; shutdown_socket(listenfd, SHUT_RDWR); #ifdef WIN32 if (devmon != NULL) { WaitForSingleObject(devmon, INFINITE); } #else if (pthread_kill(devmon, 0) == 0) { pthread_cancel(devmon); pthread_join(devmon, NULL); } #endif return 0; } static usbmuxd_device_info_t *device_info_from_device_record(struct usbmuxd_device_record *dev) { if (!dev) { return NULL; } usbmuxd_device_info_t *devinfo = (usbmuxd_device_info_t*)malloc(sizeof(usbmuxd_device_info_t)); if (!devinfo) { DEBUG(1, "%s: Out of memory!\n", __func__); return NULL; } devinfo->handle = dev->device_id; devinfo->product_id = dev->product_id; memset(devinfo->udid, '\0', sizeof(devinfo->udid)); memcpy(devinfo->udid, dev->serial_number, sizeof(devinfo->udid)); if (strcasecmp(devinfo->udid, "ffffffffffffffffffffffffffffffffffffffff") == 0) { sprintf(devinfo->udid + 32, "%08x", devinfo->handle); } return devinfo; } int usbmuxd_get_device_list(usbmuxd_device_info_t **device_list) { int sfd; int listen_success = 0; uint32_t res; struct collection tmpdevs; usbmuxd_device_info_t *newlist = NULL; struct usbmuxd_header hdr; struct usbmuxd_device_record *dev; int dev_cnt = 0; void *payload = NULL; *device_list = NULL; retry: sfd = connect_usbmuxd_socket(); if (sfd < 0) { DEBUG(1, "%s: error opening socket!\n", __func__); return sfd; } use_tag++; LOCK; if ((proto_version == 1) && (try_list_devices)) { if (send_list_devices_packet(sfd, use_tag) > 0) { plist_t list = NULL; if (usbmuxd_get_result(sfd, use_tag, &res, &list) && (res == 0)) { plist_t devlist = plist_dict_get_item(list, "DeviceList"); if (devlist && plist_get_node_type(devlist) == PLIST_ARRAY) { collection_init(&tmpdevs); uint32_t numdevs = plist_array_get_size(devlist); uint32_t i; for (i = 0; i < numdevs; i++) { plist_t pdev = plist_array_get_item(devlist, i); plist_t props = plist_dict_get_item(pdev, "Properties"); dev = device_record_from_plist(props); usbmuxd_device_info_t *devinfo = device_info_from_device_record(dev); if (!devinfo) { UNLOCK; DEBUG(1, "%s: can't create device info object\n", __func__); free(payload); return -1; } collection_add(&tmpdevs, devinfo); } goto got_device_list; } } else { if (res == RESULT_BADVERSION) { proto_version = 0; } UNLOCK; close_socket(sfd); try_list_devices = 0; goto retry; } } } if (send_listen_packet(sfd, use_tag) > 0) { res = -1; // get response if (usbmuxd_get_result(sfd, use_tag, &res, NULL) && (res == 0)) { listen_success = 1; } else { UNLOCK; close_socket(sfd); if ((res == RESULT_BADVERSION) && (proto_version == 1)) { proto_version = 0; goto retry; } DEBUG(1, "%s: Did not get response to scan request (with result=0)...\n", __func__); return res; } } if (!listen_success) { UNLOCK; DEBUG(1, "%s: Could not send listen request!\n", __func__); return -1; } collection_init(&tmpdevs); // receive device list while (1) { if (receive_packet(sfd, &hdr, &payload, 100) > 0) { if (hdr.message == MESSAGE_DEVICE_ADD) { dev = payload; usbmuxd_device_info_t *devinfo = device_info_from_device_record(dev); if (!devinfo) { UNLOCK; DEBUG(1, "%s: can't create device info object\n", __func__); free(payload); return -1; } collection_add(&tmpdevs, devinfo); } else if (hdr.message == MESSAGE_DEVICE_REMOVE) { uint32_t handle; usbmuxd_device_info_t *devinfo = NULL; memcpy(&handle, payload, sizeof(uint32_t)); FOREACH(usbmuxd_device_info_t *di, &tmpdevs) { if (di && di->handle == handle) { devinfo = di; break; } } ENDFOREACH if (devinfo) { collection_remove(&tmpdevs, devinfo); free(devinfo); } } else { DEBUG(1, "%s: Unexpected message %d\n", __func__, hdr.message); } if (payload) free(payload); } else { // we _should_ have all of them now. // or perhaps an error occured. break; } } got_device_list: UNLOCK; // explicitly close connection close_socket(sfd); // create copy of device info entries from collection newlist = (usbmuxd_device_info_t*)malloc(sizeof(usbmuxd_device_info_t) * (collection_count(&tmpdevs) + 1)); dev_cnt = 0; FOREACH(usbmuxd_device_info_t *di, &tmpdevs) { if (di) { memcpy(&newlist[dev_cnt], di, sizeof(usbmuxd_device_info_t)); free(di); dev_cnt++; } } ENDFOREACH collection_free(&tmpdevs); memset(&newlist[dev_cnt], 0, sizeof(usbmuxd_device_info_t)); *device_list = newlist; return dev_cnt; } int usbmuxd_device_list_free(usbmuxd_device_info_t **device_list) { if (device_list) { free(*device_list); } return 0; } int usbmuxd_get_device_by_udid(const char *udid, usbmuxd_device_info_t *device) { usbmuxd_device_info_t *dev_list = NULL; if (!device) { return -EINVAL; } if (usbmuxd_get_device_list(&dev_list) < 0) { return -ENODEV; } int i; int result = 0; for (i = 0; dev_list[i].handle > 0; i++) { if (!udid) { device->handle = dev_list[i].handle; device->product_id = dev_list[i].product_id; strcpy(device->udid, dev_list[i].udid); result = 1; break; } if (!strcmp(udid, dev_list[i].udid)) { device->handle = dev_list[i].handle; device->product_id = dev_list[i].product_id; strcpy(device->udid, dev_list[i].udid); result = 1; break; } } free(dev_list); return result; } int usbmuxd_connect(const int handle, const unsigned short port) { int sfd; int connected = 0; uint32_t res = -1; retry: sfd = connect_usbmuxd_socket(); if (sfd < 0) { DEBUG(1, "%s: Error: Connection to usbmuxd failed: %s\n", __func__, strerror(errno)); return sfd; } use_tag++; if (send_connect_packet(sfd, use_tag, (uint32_t)handle, (uint16_t)port) <= 0) { DEBUG(1, "%s: Error sending connect message!\n", __func__); } else { // read ACK DEBUG(2, "%s: Reading connect result...\n", __func__); if (usbmuxd_get_result(sfd, use_tag, &res, NULL)) { if (res == 0) { DEBUG(2, "%s: Connect success!\n", __func__); connected = 1; } else { if ((res == RESULT_BADVERSION) && (proto_version == 1)) { proto_version = 0; close_socket(sfd); goto retry; } DEBUG(1, "%s: Connect failed, Error code=%d\n", __func__, res); } } } if (connected) { return sfd; } close_socket(sfd); return -1; } int usbmuxd_disconnect(int sfd) { return close_socket(sfd); } int usbmuxd_send(int sfd, const char *data, uint32_t len, uint32_t *sent_bytes) { int num_sent; if (sfd < 0) { return -EINVAL; } num_sent = send(sfd, (void*)data, len, 0); if (num_sent < 0) { *sent_bytes = 0; DEBUG(1, "%s: Error %d when sending: %s\n", __func__, num_sent, strerror(errno)); return num_sent; } else if ((uint32_t)num_sent < len) { DEBUG(1, "%s: Warning: Did not send enough (only %d of %d)\n", __func__, num_sent, len); } *sent_bytes = num_sent; return 0; } int usbmuxd_recv_timeout(int sfd, char *data, uint32_t len, uint32_t *recv_bytes, unsigned int timeout) { int num_recv = recv_buf_timeout(sfd, (void*)data, len, 0, timeout); if (num_recv < 0) { *recv_bytes = 0; return num_recv; } *recv_bytes = num_recv; return 0; } int usbmuxd_recv(int sfd, char *data, uint32_t len, uint32_t *recv_bytes) { return usbmuxd_recv_timeout(sfd, data, len, recv_bytes, 5000); } int usbmuxd_read_buid(char **buid) { int sfd; int ret = 0; if (!buid) { return -EINVAL; } *buid = NULL; sfd = connect_usbmuxd_socket(); if (sfd < 0) { DEBUG(1, "%s: Error: Connection to usbmuxd failed: %s\n", __func__, strerror(errno)); return sfd; } proto_version = 1; use_tag++; if (send_read_buid_packet(sfd, use_tag) <= 0) { DEBUG(1, "%s: Error sending ReadBUID message!\n", __func__); } else { uint32_t rc = 0; plist_t pl = NULL; if (usbmuxd_get_result(sfd, use_tag, &rc, &pl)) { plist_t node = plist_dict_get_item(pl, "BUID"); if (node && plist_get_node_type(node) == PLIST_STRING) { plist_get_string_val(node, buid); } } else { ret = -(int)rc; } if (pl) plist_free(pl); } return ret; } int usbmuxd_read_pair_record(const char* record_id, char **record_data, uint32_t *record_size) { int sfd; int ret = -1; if (!record_id || !record_data || !record_size) { return -EINVAL; } *record_data = NULL; *record_size = 0; sfd = connect_usbmuxd_socket(); if (sfd < 0) { DEBUG(1, "%s: Error: Connection to usbmuxd failed: %s\n", __func__, strerror(errno)); return sfd; } proto_version = 1; use_tag++; if (send_pair_record_packet(sfd, use_tag, "ReadPairRecord", record_id, NULL) <= 0) { DEBUG(1, "%s: Error sending ReadPairRecord message!\n", __func__); } else { uint32_t rc = 0; plist_t pl = NULL; if (usbmuxd_get_result(sfd, use_tag, &rc, &pl)) { plist_t node = plist_dict_get_item(pl, "PairRecordData"); if (node && plist_get_node_type(node) == PLIST_DATA) { uint64_t int64val = 0; plist_get_data_val(node, record_data, &int64val); if (record_data && int64val > 0) { *record_size = (uint32_t)int64val; ret = 0; } } } else { ret = -(int)rc; } if (pl) plist_free(pl); } return ret; } int usbmuxd_save_pair_record(const char* record_id, const char *record_data, uint32_t record_size) { int sfd; int ret = -1; if (!record_id || !record_data || !record_size) { return -EINVAL; } sfd = connect_usbmuxd_socket(); if (sfd < 0) { DEBUG(1, "%s: Error: Connection to usbmuxd failed: %s\n", __func__, strerror(errno)); return sfd; } proto_version = 1; use_tag++; plist_t data = plist_new_data(record_data, record_size); if (send_pair_record_packet(sfd, use_tag, "SavePairRecord", record_id, data) <= 0) { DEBUG(1, "%s: Error sending SavePairRecord message!\n", __func__); } else { uint32_t rc = 0; if (usbmuxd_get_result(sfd, use_tag, &rc, NULL)) { ret = 0; } else { ret = -(int)rc; DEBUG(1, "%s: Error: saving pair record failed: %d\n", __func__, ret); } } plist_free(data); return ret; } int usbmuxd_delete_pair_record(const char* record_id) { int sfd; int ret = -1; if (!record_id) { return -EINVAL; } sfd = connect_usbmuxd_socket(); if (sfd < 0) { DEBUG(1, "%s: Error: Connection to usbmuxd failed: %s\n", __func__, strerror(errno)); return sfd; } proto_version = 1; use_tag++; if (send_pair_record_packet(sfd, use_tag, "DeletePairRecord", record_id, NULL) <= 0) { DEBUG(1, "%s: Error sending DeletePairRecord message!\n", __func__); } else { uint32_t rc = 0; if (usbmuxd_get_result(sfd, use_tag, &rc, NULL)) { ret = 0; } else { ret = -(int)rc; DEBUG(1, "%s: Error: deleting pair record failed: %d\n", __func__, ret); } } return ret; } void libusbmuxd_set_use_inotify(int set) { #ifdef HAVE_INOTIFY use_inotify = set; #endif return; } void libusbmuxd_set_debug_level(int level) { libusbmuxd_debug = level; sock_stuff_set_verbose(level); }