/* * Copyright 2008, The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #include #include #include #include #include "hardware_legacy/wifi.h" #include "libwpa_client/wpa_ctrl.h" #define LOG_TAG "WifiHW" #include "cutils/log.h" #include "cutils/memory.h" #include "cutils/misc.h" #include "cutils/properties.h" #include "private/android_filesystem_config.h" #ifdef HAVE_LIBC_SYSTEM_PROPERTIES #define _REALLY_INCLUDE_SYS__SYSTEM_PROPERTIES_H_ #include #endif /* PRIMARY refers to the connection on the primary interface * SECONDARY refers to an optional connection on a p2p interface * * For concurrency, we only support one active p2p connection and * one active STA connection at a time */ #define PRIMARY 0 #define SECONDARY 1 #define MAX_CONNS 2 static struct wpa_ctrl *ctrl_conn[MAX_CONNS]; static struct wpa_ctrl *monitor_conn[MAX_CONNS]; /* socket pair used to exit from a blocking read */ static int exit_sockets[MAX_CONNS][2]; extern int do_dhcp(); extern int ifc_init(); extern void ifc_close(); extern char *dhcp_lasterror(); extern void get_dhcp_info(); extern int init_module(void *, unsigned long, const char *); extern int delete_module(const char *, unsigned int); static char primary_iface[PROPERTY_VALUE_MAX]; // TODO: use new ANDROID_SOCKET mechanism, once support for multiple // sockets is in #ifndef WIFI_DRIVER_MODULE_ARG #define WIFI_DRIVER_MODULE_ARG "" #endif #ifndef WIFI_FIRMWARE_LOADER #define WIFI_FIRMWARE_LOADER "" #endif #define WIFI_TEST_INTERFACE "sta" #ifndef WIFI_DRIVER_FW_PATH_STA #define WIFI_DRIVER_FW_PATH_STA NULL #endif #ifndef WIFI_DRIVER_FW_PATH_AP #define WIFI_DRIVER_FW_PATH_AP NULL #endif #ifndef WIFI_DRIVER_FW_PATH_P2P #define WIFI_DRIVER_FW_PATH_P2P NULL #endif #ifndef WIFI_DRIVER_FW_PATH_PARAM #define WIFI_DRIVER_FW_PATH_PARAM "/sys/module/wlan/parameters/fwpath" #endif #define WIFI_DRIVER_LOADER_DELAY 1000000 static const char IFACE_DIR[] = "/data/system/wpa_supplicant"; #ifdef WIFI_DRIVER_MODULE_PATH static const char DRIVER_MODULE_NAME[] = WIFI_DRIVER_MODULE_NAME; static const char DRIVER_MODULE_TAG[] = WIFI_DRIVER_MODULE_NAME " "; static const char DRIVER_MODULE_PATH[] = WIFI_DRIVER_MODULE_PATH; static const char DRIVER_MODULE_ARG[] = WIFI_DRIVER_MODULE_ARG; #endif static const char FIRMWARE_LOADER[] = WIFI_FIRMWARE_LOADER; static const char DRIVER_PROP_NAME[] = "wlan.driver.status"; static const char SUPPLICANT_NAME[] = "wpa_supplicant"; static const char SUPP_PROP_NAME[] = "init.svc.wpa_supplicant"; static const char P2P_SUPPLICANT_NAME[] = "p2p_supplicant"; static const char P2P_PROP_NAME[] = "init.svc.p2p_supplicant"; static const char SUPP_CONFIG_TEMPLATE[]= "/system/etc/wifi/wpa_supplicant.conf"; static const char SUPP_CONFIG_FILE[] = "/data/misc/wifi/wpa_supplicant.conf"; static const char P2P_CONFIG_FILE[] = "/data/misc/wifi/p2p_supplicant.conf"; static const char CONTROL_IFACE_PATH[] = "/data/misc/wifi/sockets"; static const char MODULE_FILE[] = "/proc/modules"; static const char SUPP_ENTROPY_FILE[] = WIFI_ENTROPY_FILE; static unsigned char dummy_key[21] = { 0x02, 0x11, 0xbe, 0x33, 0x43, 0x35, 0x68, 0x47, 0x84, 0x99, 0xa9, 0x2b, 0x1c, 0xd3, 0xee, 0xff, 0xf1, 0xe2, 0xf3, 0xf4, 0xf5 }; /* Is either SUPPLICANT_NAME or P2P_SUPPLICANT_NAME */ static char supplicant_name[PROPERTY_VALUE_MAX]; /* Is either SUPP_PROP_NAME or P2P_PROP_NAME */ static char supplicant_prop_name[PROPERTY_KEY_MAX]; static int is_primary_interface(const char *ifname) { //Treat NULL as primary interface to allow control //on STA without an interface if (ifname == NULL || !strncmp(ifname, primary_iface, strlen(primary_iface))) { return 1; } return 0; } static int insmod(const char *filename, const char *args) { void *module; unsigned int size; int ret; module = load_file(filename, &size); if (!module) return -1; ret = init_module(module, size, args); free(module); return ret; } static int rmmod(const char *modname) { int ret = -1; int maxtry = 10; while (maxtry-- > 0) { ret = delete_module(modname, O_NONBLOCK | O_EXCL); if (ret < 0 && errno == EAGAIN) usleep(500000); else break; } if (ret != 0) ALOGD("Unable to unload driver module \"%s\": %s\n", modname, strerror(errno)); return ret; } int do_dhcp_request(int *ipaddr, int *gateway, int *mask, int *dns1, int *dns2, int *server, int *lease) { /* For test driver, always report success */ if (strcmp(primary_iface, WIFI_TEST_INTERFACE) == 0) return 0; if (ifc_init() < 0) return -1; if (do_dhcp(primary_iface) < 0) { ifc_close(); return -1; } ifc_close(); get_dhcp_info(ipaddr, gateway, mask, dns1, dns2, server, lease); return 0; } const char *get_dhcp_error_string() { return dhcp_lasterror(); } int is_wifi_driver_loaded() { char driver_status[PROPERTY_VALUE_MAX]; #ifdef WIFI_DRIVER_MODULE_PATH FILE *proc; char line[sizeof(DRIVER_MODULE_TAG)+10]; #endif if (!property_get(DRIVER_PROP_NAME, driver_status, NULL) || strcmp(driver_status, "ok") != 0) { return 0; /* driver not loaded */ } #ifdef WIFI_DRIVER_MODULE_PATH /* * If the property says the driver is loaded, check to * make sure that the property setting isn't just left * over from a previous manual shutdown or a runtime * crash. */ if ((proc = fopen(MODULE_FILE, "r")) == NULL) { ALOGW("Could not open %s: %s", MODULE_FILE, strerror(errno)); property_set(DRIVER_PROP_NAME, "unloaded"); return 0; } while ((fgets(line, sizeof(line), proc)) != NULL) { if (strncmp(line, DRIVER_MODULE_TAG, strlen(DRIVER_MODULE_TAG)) == 0) { fclose(proc); return 1; } } fclose(proc); property_set(DRIVER_PROP_NAME, "unloaded"); return 0; #else return 1; #endif } int wifi_load_driver() { #ifdef WIFI_DRIVER_MODULE_PATH char driver_status[PROPERTY_VALUE_MAX]; int count = 100; /* wait at most 20 seconds for completion */ if (is_wifi_driver_loaded()) { return 0; } if (insmod(DRIVER_MODULE_PATH, DRIVER_MODULE_ARG) < 0) return -1; if (strcmp(FIRMWARE_LOADER,"") == 0) { /* usleep(WIFI_DRIVER_LOADER_DELAY); */ property_set(DRIVER_PROP_NAME, "ok"); } else { property_set("ctl.start", FIRMWARE_LOADER); } sched_yield(); while (count-- > 0) { if (property_get(DRIVER_PROP_NAME, driver_status, NULL)) { if (strcmp(driver_status, "ok") == 0) return 0; else if (strcmp(DRIVER_PROP_NAME, "failed") == 0) { wifi_unload_driver(); return -1; } } usleep(200000); } property_set(DRIVER_PROP_NAME, "timeout"); wifi_unload_driver(); return -1; #else property_set(DRIVER_PROP_NAME, "ok"); return 0; #endif } int wifi_unload_driver() { usleep(200000); /* allow to finish interface down */ #ifdef WIFI_DRIVER_MODULE_PATH if (rmmod(DRIVER_MODULE_NAME) == 0) { int count = 20; /* wait at most 10 seconds for completion */ while (count-- > 0) { if (!is_wifi_driver_loaded()) break; usleep(500000); } usleep(500000); /* allow card removal */ if (count) { return 0; } return -1; } else return -1; #else property_set(DRIVER_PROP_NAME, "unloaded"); return 0; #endif } int ensure_entropy_file_exists() { int ret; int destfd; ret = access(SUPP_ENTROPY_FILE, R_OK|W_OK); if ((ret == 0) || (errno == EACCES)) { if ((ret != 0) && (chmod(SUPP_ENTROPY_FILE, S_IRUSR|S_IWUSR|S_IRGRP|S_IWGRP) != 0)) { ALOGE("Cannot set RW to \"%s\": %s", SUPP_ENTROPY_FILE, strerror(errno)); return -1; } return 0; } destfd = TEMP_FAILURE_RETRY(open(SUPP_ENTROPY_FILE, O_CREAT|O_RDWR, 0660)); if (destfd < 0) { ALOGE("Cannot create \"%s\": %s", SUPP_ENTROPY_FILE, strerror(errno)); return -1; } if (TEMP_FAILURE_RETRY(write(destfd, dummy_key, sizeof(dummy_key))) != sizeof(dummy_key)) { ALOGE("Error writing \"%s\": %s", SUPP_ENTROPY_FILE, strerror(errno)); close(destfd); return -1; } close(destfd); /* chmod is needed because open() didn't set permisions properly */ if (chmod(SUPP_ENTROPY_FILE, 0660) < 0) { ALOGE("Error changing permissions of %s to 0660: %s", SUPP_ENTROPY_FILE, strerror(errno)); unlink(SUPP_ENTROPY_FILE); return -1; } if (chown(SUPP_ENTROPY_FILE, AID_SYSTEM, AID_WIFI) < 0) { ALOGE("Error changing group ownership of %s to %d: %s", SUPP_ENTROPY_FILE, AID_WIFI, strerror(errno)); unlink(SUPP_ENTROPY_FILE); return -1; } return 0; } int update_ctrl_interface(const char *config_file) { int srcfd, destfd; int nread; char ifc[PROPERTY_VALUE_MAX]; char *pbuf; char *sptr; struct stat sb; if (stat(config_file, &sb) != 0) return -1; pbuf = malloc(sb.st_size + PROPERTY_VALUE_MAX); if (!pbuf) return 0; srcfd = TEMP_FAILURE_RETRY(open(config_file, O_RDONLY)); if (srcfd < 0) { ALOGE("Cannot open \"%s\": %s", config_file, strerror(errno)); free(pbuf); return 0; } nread = TEMP_FAILURE_RETRY(read(srcfd, pbuf, sb.st_size)); close(srcfd); if (nread < 0) { ALOGE("Cannot read \"%s\": %s", config_file, strerror(errno)); free(pbuf); return 0; } if (!strcmp(config_file, SUPP_CONFIG_FILE)) { property_get("wifi.interface", ifc, WIFI_TEST_INTERFACE); } else { strcpy(ifc, CONTROL_IFACE_PATH); } /* * if there is a "ctrl_interface=" entry, re-write it ONLY if it is * NOT a directory. The non-directory value option is an Android add-on * that allows the control interface to be exchanged through an environment * variable (initialized by the "init" program when it starts a service * with a "socket" option). * * The is deemed to be a directory if the "DIR=" form is used or * the value begins with "/". */ if ((sptr = strstr(pbuf, "ctrl_interface=")) && (!strstr(pbuf, "ctrl_interface=DIR=")) && (!strstr(pbuf, "ctrl_interface=/"))) { char *iptr = sptr + strlen("ctrl_interface="); int ilen = 0; int mlen = strlen(ifc); int nwrite; if (strncmp(ifc, iptr, mlen) != 0) { ALOGE("ctrl_interface != %s", ifc); while (((ilen + (iptr - pbuf)) < nread) && (iptr[ilen] != '\n')) ilen++; mlen = ((ilen >= mlen) ? ilen : mlen) + 1; memmove(iptr + mlen, iptr + ilen + 1, nread - (iptr + ilen + 1 - pbuf)); memset(iptr, '\n', mlen); memcpy(iptr, ifc, strlen(ifc)); destfd = TEMP_FAILURE_RETRY(open(config_file, O_RDWR, 0660)); if (destfd < 0) { ALOGE("Cannot update \"%s\": %s", config_file, strerror(errno)); free(pbuf); return -1; } TEMP_FAILURE_RETRY(write(destfd, pbuf, nread + mlen - ilen -1)); close(destfd); } } free(pbuf); return 0; } int ensure_config_file_exists(const char *config_file) { char buf[2048]; int srcfd, destfd; struct stat sb; int nread; int ret; ret = access(config_file, R_OK|W_OK); if ((ret == 0) || (errno == EACCES)) { if ((ret != 0) && (chmod(config_file, S_IRUSR|S_IWUSR|S_IRGRP|S_IWGRP) != 0)) { ALOGE("Cannot set RW to \"%s\": %s", config_file, strerror(errno)); return -1; } /* return if filesize is at least 10 bytes */ if (stat(config_file, &sb) == 0 && sb.st_size > 10) { return update_ctrl_interface(config_file); } } else if (errno != ENOENT) { ALOGE("Cannot access \"%s\": %s", config_file, strerror(errno)); return -1; } srcfd = TEMP_FAILURE_RETRY(open(SUPP_CONFIG_TEMPLATE, O_RDONLY)); if (srcfd < 0) { ALOGE("Cannot open \"%s\": %s", SUPP_CONFIG_TEMPLATE, strerror(errno)); return -1; } destfd = TEMP_FAILURE_RETRY(open(config_file, O_CREAT|O_RDWR, 0660)); if (destfd < 0) { close(srcfd); ALOGE("Cannot create \"%s\": %s", config_file, strerror(errno)); return -1; } while ((nread = TEMP_FAILURE_RETRY(read(srcfd, buf, sizeof(buf)))) != 0) { if (nread < 0) { ALOGE("Error reading \"%s\": %s", SUPP_CONFIG_TEMPLATE, strerror(errno)); close(srcfd); close(destfd); unlink(config_file); return -1; } TEMP_FAILURE_RETRY(write(destfd, buf, nread)); } close(destfd); close(srcfd); /* chmod is needed because open() didn't set permisions properly */ if (chmod(config_file, 0660) < 0) { ALOGE("Error changing permissions of %s to 0660: %s", config_file, strerror(errno)); unlink(config_file); return -1; } if (chown(config_file, AID_SYSTEM, AID_WIFI) < 0) { ALOGE("Error changing group ownership of %s to %d: %s", config_file, AID_WIFI, strerror(errno)); unlink(config_file); return -1; } return update_ctrl_interface(config_file); } /** * wifi_wpa_ctrl_cleanup() - Delete any local UNIX domain socket files that * may be left over from clients that were previously connected to * wpa_supplicant. This keeps these files from being orphaned in the * event of crashes that prevented them from being removed as part * of the normal orderly shutdown. */ void wifi_wpa_ctrl_cleanup(void) { DIR *dir; struct dirent entry; struct dirent *result; size_t dirnamelen; size_t maxcopy; char pathname[PATH_MAX]; char *namep; char *local_socket_dir = CONFIG_CTRL_IFACE_CLIENT_DIR; char *local_socket_prefix = CONFIG_CTRL_IFACE_CLIENT_PREFIX; if ((dir = opendir(local_socket_dir)) == NULL) return; dirnamelen = (size_t)snprintf(pathname, sizeof(pathname), "%s/", local_socket_dir); if (dirnamelen >= sizeof(pathname)) { closedir(dir); return; } namep = pathname + dirnamelen; maxcopy = PATH_MAX - dirnamelen; while (readdir_r(dir, &entry, &result) == 0 && result != NULL) { if (strncmp(entry.d_name, local_socket_prefix, strlen(local_socket_prefix)) == 0) { if (strlcpy(namep, entry.d_name, maxcopy) < maxcopy) { unlink(pathname); } } } closedir(dir); } int wifi_start_supplicant(int p2p_supported) { char supp_status[PROPERTY_VALUE_MAX] = {'\0'}; int count = 200; /* wait at most 20 seconds for completion */ #ifdef HAVE_LIBC_SYSTEM_PROPERTIES const prop_info *pi; unsigned serial = 0, i; #endif if (p2p_supported) { strcpy(supplicant_name, P2P_SUPPLICANT_NAME); strcpy(supplicant_prop_name, P2P_PROP_NAME); /* Ensure p2p config file is created */ if (ensure_config_file_exists(P2P_CONFIG_FILE) < 0) { ALOGE("Failed to create a p2p config file"); return -1; } } else { strcpy(supplicant_name, SUPPLICANT_NAME); strcpy(supplicant_prop_name, SUPP_PROP_NAME); } /* Check whether already running */ if (property_get(supplicant_name, supp_status, NULL) && strcmp(supp_status, "running") == 0) { return 0; } /* Before starting the daemon, make sure its config file exists */ if (ensure_config_file_exists(SUPP_CONFIG_FILE) < 0) { ALOGE("Wi-Fi will not be enabled"); return -1; } if (ensure_entropy_file_exists() < 0) { ALOGE("Wi-Fi entropy file was not created"); } /* Clear out any stale socket files that might be left over. */ wifi_wpa_ctrl_cleanup(); /* Reset sockets used for exiting from hung state */ for (i=0; i running => stopped (i.e., * it start up, but fails right away) from the case in which * it starts in the stopped state and never manages to start * running at all. */ pi = __system_property_find(supplicant_prop_name); if (pi != NULL) { serial = pi->serial; } #endif property_get("wifi.interface", primary_iface, WIFI_TEST_INTERFACE); property_set("ctl.start", supplicant_name); sched_yield(); while (count-- > 0) { #ifdef HAVE_LIBC_SYSTEM_PROPERTIES if (pi == NULL) { pi = __system_property_find(supplicant_prop_name); } if (pi != NULL) { __system_property_read(pi, NULL, supp_status); if (strcmp(supp_status, "running") == 0) { return 0; } else if (pi->serial != serial && strcmp(supp_status, "stopped") == 0) { return -1; } } #else if (property_get(supplicant_prop_name, supp_status, NULL)) { if (strcmp(supp_status, "running") == 0) return 0; } #endif usleep(100000); } return -1; } int wifi_stop_supplicant() { char supp_status[PROPERTY_VALUE_MAX] = {'\0'}; int count = 50; /* wait at most 5 seconds for completion */ /* Check whether supplicant already stopped */ if (property_get(supplicant_prop_name, supp_status, NULL) && strcmp(supp_status, "stopped") == 0) { return 0; } property_set("ctl.stop", supplicant_name); sched_yield(); while (count-- > 0) { if (property_get(supplicant_prop_name, supp_status, NULL)) { if (strcmp(supp_status, "stopped") == 0) return 0; } usleep(100000); } return -1; } int wifi_connect_on_socket_path(int index, const char *path) { char supp_status[PROPERTY_VALUE_MAX] = {'\0'}; /* Make sure supplicant is running */ if (!property_get(supplicant_prop_name, supp_status, NULL) || strcmp(supp_status, "running") != 0) { ALOGE("Supplicant not running, cannot connect"); return -1; } ctrl_conn[index] = wpa_ctrl_open(path); if (ctrl_conn[index] == NULL) { ALOGE("Unable to open connection to supplicant on \"%s\": %s", path, strerror(errno)); return -1; } monitor_conn[index] = wpa_ctrl_open(path); if (monitor_conn[index] == NULL) { wpa_ctrl_close(ctrl_conn[index]); ctrl_conn[index] = NULL; return -1; } if (wpa_ctrl_attach(monitor_conn[index]) != 0) { wpa_ctrl_close(monitor_conn[index]); wpa_ctrl_close(ctrl_conn[index]); ctrl_conn[index] = monitor_conn[index] = NULL; return -1; } if (socketpair(AF_UNIX, SOCK_STREAM, 0, exit_sockets[index]) == -1) { wpa_ctrl_close(monitor_conn[index]); wpa_ctrl_close(ctrl_conn[index]); ctrl_conn[index] = monitor_conn[index] = NULL; return -1; } return 0; } /* Establishes the control and monitor socket connections on the interface */ int wifi_connect_to_supplicant(const char *ifname) { char path[256]; if (is_primary_interface(ifname)) { if (access(IFACE_DIR, F_OK) == 0) { snprintf(path, sizeof(path), "%s/%s", IFACE_DIR, primary_iface); } else { strlcpy(path, primary_iface, sizeof(path)); } return wifi_connect_on_socket_path(PRIMARY, path); } else { sprintf(path, "%s/%s", CONTROL_IFACE_PATH, ifname); return wifi_connect_on_socket_path(SECONDARY, path); } } int wifi_send_command(int index, const char *cmd, char *reply, size_t *reply_len) { int ret; if (ctrl_conn[index] == NULL) { ALOGV("Not connected to wpa_supplicant - \"%s\" command dropped.\n", cmd); return -1; } ret = wpa_ctrl_request(ctrl_conn[index], cmd, strlen(cmd), reply, reply_len, NULL); if (ret == -2) { ALOGD("'%s' command timed out.\n", cmd); /* unblocks the monitor receive socket for termination */ TEMP_FAILURE_RETRY(write(exit_sockets[index][0], "T", 1)); return -2; } else if (ret < 0 || strncmp(reply, "FAIL", 4) == 0) { return -1; } if (strncmp(cmd, "PING", 4) == 0) { reply[*reply_len] = '\0'; } return 0; } int wifi_ctrl_recv(int index, char *reply, size_t *reply_len) { int res; int ctrlfd = wpa_ctrl_get_fd(monitor_conn[index]); struct pollfd rfds[2]; memset(rfds, 0, 2 * sizeof(struct pollfd)); rfds[0].fd = ctrlfd; rfds[0].events |= POLLIN; rfds[1].fd = exit_sockets[index][1]; rfds[1].events |= POLLIN; res = TEMP_FAILURE_RETRY(poll(rfds, 2, -1)); if (res < 0) { ALOGE("Error poll = %d", res); return res; } if (rfds[0].revents & POLLIN) { return wpa_ctrl_recv(monitor_conn[index], reply, reply_len); } else if (rfds[1].revents & POLLIN) { /* Close only the p2p sockets on receive side * see wifi_close_supplicant_connection() */ if (index == SECONDARY) { ALOGD("close sockets %d", index); wifi_close_sockets(index); } } return -2; } int wifi_wait_on_socket(int index, char *buf, size_t buflen) { size_t nread = buflen - 1; int fd; fd_set rfds; int result; struct timeval tval; struct timeval *tptr; if (monitor_conn[index] == NULL) { ALOGD("Connection closed\n"); strncpy(buf, WPA_EVENT_TERMINATING " - connection closed", buflen-1); buf[buflen-1] = '\0'; return strlen(buf); } result = wifi_ctrl_recv(index, buf, &nread); /* Terminate reception on exit socket */ if (result == -2) { strncpy(buf, WPA_EVENT_TERMINATING " - connection closed", buflen-1); buf[buflen-1] = '\0'; return strlen(buf); } if (result < 0) { ALOGD("wifi_ctrl_recv failed: %s\n", strerror(errno)); strncpy(buf, WPA_EVENT_TERMINATING " - recv error", buflen-1); buf[buflen-1] = '\0'; return strlen(buf); } buf[nread] = '\0'; /* Check for EOF on the socket */ if (result == 0 && nread == 0) { /* Fabricate an event to pass up */ ALOGD("Received EOF on supplicant socket\n"); strncpy(buf, WPA_EVENT_TERMINATING " - signal 0 received", buflen-1); buf[buflen-1] = '\0'; return strlen(buf); } /* * Events strings are in the format * * CTRL-EVENT-XXX * * where N is the message level in numerical form (0=VERBOSE, 1=DEBUG, * etc.) and XXX is the event name. The level information is not useful * to us, so strip it off. */ if (buf[0] == '<') { char *match = strchr(buf, '>'); if (match != NULL) { nread -= (match+1-buf); memmove(buf, match+1, nread+1); } } return nread; } int wifi_wait_for_event(const char *ifname, char *buf, size_t buflen) { if (is_primary_interface(ifname)) { return wifi_wait_on_socket(PRIMARY, buf, buflen); } else { return wifi_wait_on_socket(SECONDARY, buf, buflen); } } void wifi_close_sockets(int index) { if (ctrl_conn[index] != NULL) { wpa_ctrl_close(ctrl_conn[index]); ctrl_conn[index] = NULL; } if (monitor_conn[index] != NULL) { wpa_ctrl_close(monitor_conn[index]); monitor_conn[index] = NULL; } if (exit_sockets[index][0] >= 0) { close(exit_sockets[index][0]); exit_sockets[index][0] = -1; } if (exit_sockets[index][1] >= 0) { close(exit_sockets[index][1]); exit_sockets[index][1] = -1; } } void wifi_close_supplicant_connection(const char *ifname) { char supp_status[PROPERTY_VALUE_MAX] = {'\0'}; int count = 50; /* wait at most 5 seconds to ensure init has stopped stupplicant */ if (is_primary_interface(ifname)) { wifi_close_sockets(PRIMARY); } else { /* p2p socket termination needs unblocking the monitor socket * STA connection does not need it since supplicant gets shutdown */ TEMP_FAILURE_RETRY(write(exit_sockets[SECONDARY][0], "T", 1)); /* p2p sockets are closed after the monitor thread * receives the terminate on the exit socket */ return; } while (count-- > 0) { if (property_get(supplicant_prop_name, supp_status, NULL)) { if (strcmp(supp_status, "stopped") == 0) return; } usleep(100000); } } int wifi_command(const char *ifname, const char *command, char *reply, size_t *reply_len) { if (is_primary_interface(ifname)) { return wifi_send_command(PRIMARY, command, reply, reply_len); } else { return wifi_send_command(SECONDARY, command, reply, reply_len); } } const char *wifi_get_fw_path(int fw_type) { switch (fw_type) { case WIFI_GET_FW_PATH_STA: return WIFI_DRIVER_FW_PATH_STA; case WIFI_GET_FW_PATH_AP: return WIFI_DRIVER_FW_PATH_AP; case WIFI_GET_FW_PATH_P2P: return WIFI_DRIVER_FW_PATH_P2P; } return NULL; } int wifi_change_fw_path(const char *fwpath) { int len; int fd; int ret = 0; if (!fwpath) return ret; fd = TEMP_FAILURE_RETRY(open(WIFI_DRIVER_FW_PATH_PARAM, O_WRONLY)); if (fd < 0) { ALOGE("Failed to open wlan fw path param (%s)", strerror(errno)); return -1; } len = strlen(fwpath) + 1; if (TEMP_FAILURE_RETRY(write(fd, fwpath, len)) != len) { ALOGE("Failed to write wlan fw path param (%s)", strerror(errno)); ret = -1; } close(fd); return ret; }