/* * 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. */ #define LOG_TAG "wifi" #include "jni.h" #include "JniConstants.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "wifi.h" #include "wifi_hal.h" #include "jni_helper.h" #include "rtt.h" #include "wifi_hal_stub.h" #define REPLY_BUF_SIZE 4096 + 1 // wpa_supplicant's maximum size + 1 for nul #define EVENT_BUF_SIZE 2048 #define WAKE_REASON_TYPE_MAX 10 namespace android { extern "C" jint Java_com_android_server_wifi_WifiNative_registerNanNatives(JNIEnv* env, jclass clazz); static jint DBG = false; //Please put all HAL function call here and call from the function table instead of directly call wifi_hal_fn hal_fn; static bool doCommand(JNIEnv* env, jstring javaCommand, char* reply, size_t reply_len) { ScopedUtfChars command(env, javaCommand); if (command.c_str() == NULL) { return false; // ScopedUtfChars already threw on error. } if (DBG) { ALOGD("doCommand: %s", command.c_str()); } --reply_len; // Ensure we have room to add NUL termination. if (::wifi_command(command.c_str(), reply, &reply_len) != 0) { return false; } // Strip off trailing newline. if (reply_len > 0 && reply[reply_len-1] == '\n') { reply[reply_len-1] = '\0'; } else { reply[reply_len] = '\0'; } return true; } static jint doIntCommand(JNIEnv* env, jstring javaCommand) { char reply[REPLY_BUF_SIZE]; if (!doCommand(env, javaCommand, reply, sizeof(reply))) { return -1; } return static_cast(atoi(reply)); } static jboolean doBooleanCommand(JNIEnv* env, jstring javaCommand) { char reply[REPLY_BUF_SIZE]; if (!doCommand(env, javaCommand, reply, sizeof(reply))) { return JNI_FALSE; } jboolean result = (strcmp(reply, "OK") == 0); if (!result) { ScopedUtfChars command(env, javaCommand); ALOGI("command '%s' returned '%s", command.c_str(), reply); } return result; } // Send a command to the supplicant, and return the reply as a String. static jstring doStringCommand(JNIEnv* env, jstring javaCommand) { char reply[REPLY_BUF_SIZE]; if (!doCommand(env, javaCommand, reply, sizeof(reply))) { return NULL; } return env->NewStringUTF(reply); } static jboolean android_net_wifi_isDriverLoaded(JNIEnv* env, jclass) { return (::is_wifi_driver_loaded() == 1); } static jboolean android_net_wifi_loadDriver(JNIEnv* env, jclass) { return (::wifi_load_driver() == 0); } static jboolean android_net_wifi_unloadDriver(JNIEnv* env, jclass) { return (::wifi_unload_driver() == 0); } static jboolean android_net_wifi_startSupplicant(JNIEnv* env, jclass, jboolean p2pSupported) { return (::wifi_start_supplicant(p2pSupported) == 0); } static jboolean android_net_wifi_killSupplicant(JNIEnv* env, jclass, jboolean p2pSupported) { return (::wifi_stop_supplicant(p2pSupported) == 0); } static jboolean android_net_wifi_connectToSupplicant(JNIEnv* env, jclass) { return (::wifi_connect_to_supplicant() == 0); } static void android_net_wifi_closeSupplicantConnection(JNIEnv* env, jclass) { ::wifi_close_supplicant_connection(); } static jstring android_net_wifi_waitForEvent(JNIEnv* env, jclass) { char buf[EVENT_BUF_SIZE]; int nread = ::wifi_wait_for_event(buf, sizeof buf); if (nread > 0) { return env->NewStringUTF(buf); } else { return NULL; } } static jboolean android_net_wifi_doBooleanCommand(JNIEnv* env, jclass, jstring javaCommand) { return doBooleanCommand(env, javaCommand); } static jint android_net_wifi_doIntCommand(JNIEnv* env, jclass, jstring javaCommand) { return doIntCommand(env, javaCommand); } static jstring android_net_wifi_doStringCommand(JNIEnv* env, jclass, jstring javaCommand) { return doStringCommand(env,javaCommand); } /* wifi_hal <==> WifiNative bridge */ static jclass mCls; /* saved WifiNative object */ static JavaVM *mVM; /* saved JVM pointer */ static const char *WifiHandleVarName = "sWifiHalHandle"; static const char *WifiIfaceHandleVarName = "sWifiIfaceHandles"; wifi_handle getWifiHandle(JNIHelper &helper, jclass cls) { return (wifi_handle) helper.getStaticLongField(cls, WifiHandleVarName); } wifi_interface_handle getIfaceHandle(JNIHelper &helper, jclass cls, jint index) { return (wifi_interface_handle) helper.getStaticLongArrayField(cls, WifiIfaceHandleVarName, index); } jboolean setSSIDField(JNIHelper helper, jobject scanResult, const char *rawSsid) { int len = strlen(rawSsid); if (len > 0) { JNIObject ssidBytes = helper.newByteArray(len); helper.setByteArrayRegion(ssidBytes, 0, len, (jbyte *) rawSsid); jboolean ret = helper.callStaticMethod(mCls, "setSsid", "([BLandroid/net/wifi/ScanResult;)Z", ssidBytes.get(), scanResult); return ret; } else { //empty SSID or SSID start with \0 return true; } } static JNIObject createScanResult(JNIHelper &helper, wifi_scan_result *result, bool fill_ie) { // ALOGD("creating scan result"); JNIObject scanResult = helper.createObject("android/net/wifi/ScanResult"); if (scanResult == NULL) { ALOGE("Error in creating scan result"); return JNIObject(helper, NULL); } ALOGV("setting SSID to %s", result->ssid); if (!setSSIDField(helper, scanResult, result->ssid)) { ALOGE("Error on set SSID"); return JNIObject(helper, NULL); } char bssid[32]; sprintf(bssid, "%02x:%02x:%02x:%02x:%02x:%02x", result->bssid[0], result->bssid[1], result->bssid[2], result->bssid[3], result->bssid[4], result->bssid[5]); helper.setStringField(scanResult, "BSSID", bssid); helper.setIntField(scanResult, "level", result->rssi); helper.setIntField(scanResult, "frequency", result->channel); helper.setLongField(scanResult, "timestamp", result->ts); if (fill_ie) { JNIObject elements = helper.newByteArray(result->ie_length); if (elements == NULL) { ALOGE("Error in allocating elements array, length=%d", result->ie_length); return JNIObject(helper, NULL); } jbyte * bytes = (jbyte *)&(result->ie_data[0]); helper.setByteArrayRegion(elements, 0, result->ie_length, bytes); helper.setObjectField(scanResult, "bytes", "[B", elements); } return scanResult; } int set_iface_flags(const char *ifname, bool dev_up) { struct ifreq ifr; int ret; int sock = socket(PF_INET, SOCK_DGRAM, 0); if (sock < 0) { ALOGD("Bad socket: %d\n", sock); return -errno; } //ALOGD("setting interface %s flags (%s)\n", ifname, dev_up ? "UP" : "DOWN"); memset(&ifr, 0, sizeof(ifr)); strlcpy(ifr.ifr_name, ifname, IFNAMSIZ); //ALOGD("reading old value\n"); if (ioctl(sock, SIOCGIFFLAGS, &ifr) != 0) { ret = errno ? -errno : -999; ALOGE("Could not read interface %s flags: %d\n", ifname, errno); close(sock); return ret; } else { //ALOGD("writing new value\n"); } if (dev_up) { if (ifr.ifr_flags & IFF_UP) { // ALOGD("interface %s is already up\n", ifname); close(sock); return 0; } ifr.ifr_flags |= IFF_UP; } else { if (!(ifr.ifr_flags & IFF_UP)) { // ALOGD("interface %s is already down\n", ifname); close(sock); return 0; } ifr.ifr_flags &= ~IFF_UP; } if (ioctl(sock, SIOCSIFFLAGS, &ifr) != 0) { ALOGE("Could not set interface %s flags: %d\n", ifname, errno); ret = errno ? -errno : -999; close(sock); return ret; } else { ALOGD("set interface %s flags (%s)\n", ifname, dev_up ? "UP" : "DOWN"); } close(sock); return 0; } static jboolean android_net_wifi_set_interface_up(JNIEnv* env, jclass cls, jboolean up) { return (set_iface_flags("wlan0", (bool)up) == 0); } static jboolean android_net_wifi_startHal(JNIEnv* env, jclass cls) { JNIHelper helper(env); wifi_handle halHandle = getWifiHandle(helper, cls); if (halHandle == NULL) { if(init_wifi_stub_hal_func_table(&hal_fn) != 0 ) { ALOGE("Can not initialize the basic function pointer table"); return false; } wifi_error res = init_wifi_vendor_hal_func_table(&hal_fn); if (res != WIFI_SUCCESS) { ALOGE("Can not initialize the vendor function pointer table"); return false; } int ret = set_iface_flags("wlan0", true); if(ret != 0) { return false; } res = hal_fn.wifi_initialize(&halHandle); if (res == WIFI_SUCCESS) { helper.setStaticLongField(cls, WifiHandleVarName, (jlong)halHandle); ALOGD("Did set static halHandle = %p", halHandle); } env->GetJavaVM(&mVM); mCls = (jclass) env->NewGlobalRef(cls); ALOGD("halHandle = %p, mVM = %p, mCls = %p", halHandle, mVM, mCls); return res == WIFI_SUCCESS; } else { return (set_iface_flags("wlan0", true) == 0); } } void android_net_wifi_hal_cleaned_up_handler(wifi_handle handle) { ALOGD("In wifi cleaned up handler"); JNIHelper helper(mVM); helper.setStaticLongField(mCls, WifiHandleVarName, 0); helper.deleteGlobalRef(mCls); mCls = NULL; mVM = NULL; } static void android_net_wifi_stopHal(JNIEnv* env, jclass cls) { ALOGD("In wifi stop Hal"); JNIHelper helper(env); wifi_handle halHandle = getWifiHandle(helper, cls); if (halHandle == NULL) return; ALOGD("halHandle = %p, mVM = %p, mCls = %p", halHandle, mVM, mCls); hal_fn.wifi_cleanup(halHandle, android_net_wifi_hal_cleaned_up_handler); } static void android_net_wifi_waitForHalEvents(JNIEnv* env, jclass cls) { ALOGD("waitForHalEvents called, vm = %p, obj = %p, env = %p", mVM, mCls, env); JNIHelper helper(env); wifi_handle halHandle = getWifiHandle(helper, cls); hal_fn.wifi_event_loop(halHandle); set_iface_flags("wlan0", false); } static int android_net_wifi_getInterfaces(JNIEnv *env, jclass cls) { int n = 0; JNIHelper helper(env); wifi_handle halHandle = getWifiHandle(helper, cls); wifi_interface_handle *ifaceHandles = NULL; int result = hal_fn.wifi_get_ifaces(halHandle, &n, &ifaceHandles); if (result < 0) { return result; } if (n < 0) { THROW(helper,"android_net_wifi_getInterfaces no interfaces"); return 0; } if (ifaceHandles == NULL) { THROW(helper,"android_net_wifi_getInterfaces null interface array"); return 0; } if (n > 8) { THROW(helper,"Too many interfaces"); return 0; } jlongArray array = (env)->NewLongArray(n); if (array == NULL) { THROW(helper,"Error in accessing array"); return 0; } jlong elems[8]; for (int i = 0; i < n; i++) { elems[i] = reinterpret_cast(ifaceHandles[i]); } helper.setLongArrayRegion(array, 0, n, elems); helper.setStaticLongArrayField(cls, WifiIfaceHandleVarName, array); return (result < 0) ? result : n; } static jstring android_net_wifi_getInterfaceName(JNIEnv *env, jclass cls, jint i) { char buf[EVENT_BUF_SIZE]; JNIHelper helper(env); jlong value = helper.getStaticLongArrayField(cls, WifiIfaceHandleVarName, i); wifi_interface_handle handle = (wifi_interface_handle) value; int result = hal_fn.wifi_get_iface_name(handle, buf, sizeof(buf)); if (result < 0) { return NULL; } else { JNIObject name = helper.newStringUTF(buf); return name.detach(); } } static void onScanEvent(wifi_request_id id, wifi_scan_event event) { JNIHelper helper(mVM); // ALOGD("onScanStatus called, vm = %p, obj = %p, env = %p", mVM, mCls, env); helper.reportEvent(mCls, "onScanStatus", "(II)V", id, event); } static void onFullScanResult(wifi_request_id id, wifi_scan_result *result, unsigned buckets_scanned) { JNIHelper helper(mVM); //ALOGD("onFullScanResult called, vm = %p, obj = %p, env = %p", mVM, mCls, env); JNIObject scanResult = createScanResult(helper, result, true); if (scanResult == NULL) { return; } helper.reportEvent(mCls, "onFullScanResult", "(ILandroid/net/wifi/ScanResult;II)V", id, scanResult.get(), buckets_scanned, (jint) result->capability); } static jboolean android_net_wifi_startScan( JNIEnv *env, jclass cls, jint iface, jint id, jobject settings) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); // ALOGD("starting scan on interface[%d] = %p", iface, handle); wifi_scan_cmd_params params; memset(¶ms, 0, sizeof(params)); params.base_period = helper.getIntField(settings, "base_period_ms"); params.max_ap_per_scan = helper.getIntField(settings, "max_ap_per_scan"); params.report_threshold_percent = helper.getIntField(settings, "report_threshold_percent"); params.report_threshold_num_scans = helper.getIntField(settings, "report_threshold_num_scans"); ALOGD("Initialized common fields %d, %d, %d, %d", params.base_period, params.max_ap_per_scan, params.report_threshold_percent, params.report_threshold_num_scans); const char *bucket_array_type = "[Lcom/android/server/wifi/WifiNative$BucketSettings;"; const char *channel_array_type = "[Lcom/android/server/wifi/WifiNative$ChannelSettings;"; params.num_buckets = helper.getIntField(settings, "num_buckets"); // ALOGD("Initialized num_buckets to %d", params.num_buckets); for (int i = 0; i < params.num_buckets; i++) { JNIObject bucket = helper.getObjectArrayField( settings, "buckets", bucket_array_type, i); params.buckets[i].bucket = helper.getIntField(bucket, "bucket"); params.buckets[i].band = (wifi_band) helper.getIntField(bucket, "band"); params.buckets[i].period = helper.getIntField(bucket, "period_ms"); params.buckets[i].max_period = helper.getIntField(bucket, "max_period_ms"); // Although HAL API allows configurable base value for the truncated // exponential back off scan. Native API and above support only // truncated binary exponential back off scan. // Hard code value of base to 2 here. params.buckets[i].base = 2; params.buckets[i].step_count = helper.getIntField(bucket, "step_count"); int report_events = helper.getIntField(bucket, "report_events"); params.buckets[i].report_events = report_events; if (DBG) { ALOGD("bucket[%d] = %d:%d:%d:%d:%d:%d:%d", i, params.buckets[i].bucket, params.buckets[i].band, params.buckets[i].period, params.buckets[i].max_period, params.buckets[i].base, params.buckets[i].step_count, report_events); } params.buckets[i].num_channels = helper.getIntField(bucket, "num_channels"); // ALOGD("Initialized num_channels to %d", params.buckets[i].num_channels); for (int j = 0; j < params.buckets[i].num_channels; j++) { JNIObject channel = helper.getObjectArrayField( bucket, "channels", channel_array_type, j); params.buckets[i].channels[j].channel = helper.getIntField(channel, "frequency"); params.buckets[i].channels[j].dwellTimeMs = helper.getIntField(channel, "dwell_time_ms"); bool passive = helper.getBoolField(channel, "passive"); params.buckets[i].channels[j].passive = (passive ? 1 : 0); // ALOGD("Initialized channel %d", params.buckets[i].channels[j].channel); } } // ALOGD("Initialized all fields"); wifi_scan_result_handler handler; memset(&handler, 0, sizeof(handler)); handler.on_full_scan_result = &onFullScanResult; handler.on_scan_event = &onScanEvent; return hal_fn.wifi_start_gscan(id, handle, params, handler) == WIFI_SUCCESS; } static jboolean android_net_wifi_stopScan(JNIEnv *env, jclass cls, jint iface, jint id) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); // ALOGD("stopping scan on interface[%d] = %p", iface, handle); return hal_fn.wifi_stop_gscan(id, handle) == WIFI_SUCCESS; } static int compare_scan_result_timestamp(const void *v1, const void *v2) { const wifi_scan_result *result1 = static_cast(v1); const wifi_scan_result *result2 = static_cast(v2); return result1->ts - result2->ts; } static jobject android_net_wifi_getScanResults( JNIEnv *env, jclass cls, jint iface, jboolean flush) { JNIHelper helper(env); wifi_cached_scan_results scan_data[64]; int num_scan_data = 64; wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); // ALOGD("getting scan results on interface[%d] = %p", iface, handle); byte b = flush ? 0xFF : 0; int result = hal_fn.wifi_get_cached_gscan_results(handle, b, num_scan_data, scan_data, &num_scan_data); if (result == WIFI_SUCCESS) { JNIObject scanData = helper.createObjectArray( "android/net/wifi/WifiScanner$ScanData", num_scan_data); if (scanData == NULL) { ALOGE("Error in allocating array of scanData for getScanResults, length=%d", num_scan_data); return NULL; } for (int i = 0; i < num_scan_data; i++) { JNIObject data = helper.createObject("android/net/wifi/WifiScanner$ScanData"); if (data == NULL) { ALOGE("Error in allocating scanData for getScanResults"); return NULL; } helper.setIntField(data, "mId", scan_data[i].scan_id); helper.setIntField(data, "mFlags", scan_data[i].flags); helper.setIntField(data, "mBucketsScanned", scan_data[i].buckets_scanned); /* sort all scan results by timestamp */ qsort(scan_data[i].results, scan_data[i].num_results, sizeof(wifi_scan_result), compare_scan_result_timestamp); JNIObject scanResults = helper.createObjectArray( "android/net/wifi/ScanResult", scan_data[i].num_results); if (scanResults == NULL) { ALOGE("Error in allocating scanResult array for getScanResults, length=%d", scan_data[i].num_results); return NULL; } wifi_scan_result *results = scan_data[i].results; for (int j = 0; j < scan_data[i].num_results; j++) { JNIObject scanResult = createScanResult(helper, &results[j], false); if (scanResult == NULL) { ALOGE("Error in creating scan result for getScanResults"); return NULL; } helper.setObjectArrayElement(scanResults, j, scanResult); } helper.setObjectField(data, "mResults", "[Landroid/net/wifi/ScanResult;", scanResults); helper.setObjectArrayElement(scanData, i, data); } // ALOGD("retrieved %d scan data from interface[%d] = %p", num_scan_data, iface, handle); return scanData.detach(); } else { return NULL; } } static jboolean android_net_wifi_getScanCapabilities( JNIEnv *env, jclass cls, jint iface, jobject capabilities) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); // ALOGD("getting scan capabilities on interface[%d] = %p", iface, handle); wifi_gscan_capabilities c; memset(&c, 0, sizeof(c)); int result = hal_fn.wifi_get_gscan_capabilities(handle, &c); if (result != WIFI_SUCCESS) { ALOGD("failed to get capabilities : %d", result); return JNI_FALSE; } helper.setIntField(capabilities, "max_scan_cache_size", c.max_scan_cache_size); helper.setIntField(capabilities, "max_scan_buckets", c.max_scan_buckets); helper.setIntField(capabilities, "max_ap_cache_per_scan", c.max_ap_cache_per_scan); helper.setIntField(capabilities, "max_rssi_sample_size", c.max_rssi_sample_size); helper.setIntField(capabilities, "max_scan_reporting_threshold", c.max_scan_reporting_threshold); helper.setIntField(capabilities, "max_hotlist_bssids", c.max_hotlist_bssids); helper.setIntField(capabilities, "max_significant_wifi_change_aps", c.max_significant_wifi_change_aps); helper.setIntField(capabilities, "max_bssid_history_entries", c.max_bssid_history_entries); helper.setIntField(capabilities, "max_number_epno_networks", c.max_number_epno_networks); helper.setIntField(capabilities, "max_number_epno_networks_by_ssid", c.max_number_epno_networks_by_ssid); helper.setIntField(capabilities, "max_number_of_white_listed_ssid", c.max_number_of_white_listed_ssid); return JNI_TRUE; } static byte parseHexChar(char ch) { if (isdigit(ch)) return ch - '0'; else if ('A' <= ch && ch <= 'F') return ch - 'A' + 10; else if ('a' <= ch && ch <= 'f') return ch - 'a' + 10; else { ALOGE("invalid character in bssid %c", ch); return 0; } } static byte parseHexByte(const char * &str) { if (str[0] == '\0') { ALOGE("Passed an empty string"); return 0; } byte b = parseHexChar(str[0]); if (str[1] == '\0' || str[1] == ':') { str ++; } else { b = b << 4 | parseHexChar(str[1]); str += 2; } // Skip trailing delimiter if not at the end of the string. if (str[0] != '\0') { str++; } return b; } static void parseMacAddress(const char *str, mac_addr addr) { addr[0] = parseHexByte(str); addr[1] = parseHexByte(str); addr[2] = parseHexByte(str); addr[3] = parseHexByte(str); addr[4] = parseHexByte(str); addr[5] = parseHexByte(str); } static bool parseMacAddress(JNIEnv *env, jobject obj, mac_addr addr) { JNIHelper helper(env); JNIObject macAddrString = helper.getStringField(obj, "bssid"); if (macAddrString == NULL) { ALOGE("Error getting bssid field"); return false; } ScopedUtfChars chars(env, macAddrString); const char *bssid = chars.c_str(); if (bssid == NULL) { ALOGE("Error getting bssid"); return false; } parseMacAddress(bssid, addr); return true; } static void onHotlistApFound(wifi_request_id id, unsigned num_results, wifi_scan_result *results) { JNIHelper helper(mVM); ALOGD("onHotlistApFound called, vm = %p, obj = %p, num_results = %d", mVM, mCls, num_results); JNIObject scanResults = helper.newObjectArray(num_results, "android/net/wifi/ScanResult", NULL); if (scanResults == NULL) { ALOGE("Error in allocating ScanResult array in onHotlistApFound, length=%d", num_results); return; } for (unsigned i = 0; i < num_results; i++) { JNIObject scanResult = createScanResult(helper, &results[i], false); if (scanResult == NULL) { ALOGE("Error in creating scan result in onHotlistApFound"); return; } helper.setObjectArrayElement(scanResults, i, scanResult); ALOGD("Found AP %32s", results[i].ssid); } helper.reportEvent(mCls, "onHotlistApFound", "(I[Landroid/net/wifi/ScanResult;)V", id, scanResults.get()); } static void onHotlistApLost(wifi_request_id id, unsigned num_results, wifi_scan_result *results) { JNIHelper helper(mVM); ALOGD("onHotlistApLost called, vm = %p, obj = %p, num_results = %d", mVM, mCls, num_results); JNIObject scanResults = helper.newObjectArray(num_results, "android/net/wifi/ScanResult", NULL); if (scanResults == NULL) { ALOGE("Error in allocating ScanResult array onHotlistApLost, length=%d", num_results); return; } for (unsigned i = 0; i < num_results; i++) { JNIObject scanResult = createScanResult(helper, &results[i], false); if (scanResult == NULL) { ALOGE("Error in creating scan result in onHotlistApLost"); return; } helper.setObjectArrayElement(scanResults, i, scanResult); ALOGD("Lost AP %32s", results[i].ssid); } helper.reportEvent(mCls, "onHotlistApLost", "(I[Landroid/net/wifi/ScanResult;)V", id, scanResults.get()); } static jboolean android_net_wifi_setHotlist( JNIEnv *env, jclass cls, jint iface, jint id, jobject ap) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); ALOGD("setting hotlist on interface[%d] = %p", iface, handle); wifi_bssid_hotlist_params params; memset(¶ms, 0, sizeof(params)); params.lost_ap_sample_size = helper.getIntField(ap, "apLostThreshold"); JNIObject array = helper.getArrayField( ap, "bssidInfos", "[Landroid/net/wifi/WifiScanner$BssidInfo;"); params.num_bssid = helper.getArrayLength(array); if (params.num_bssid == 0) { ALOGE("setHotlist array length was 0"); return false; } if (params.num_bssid > static_cast(sizeof(params.ap) / sizeof(params.ap[0]))) { ALOGE("setHotlist array length is too long"); android_errorWriteLog(0x534e4554, "31856351"); return false; } for (int i = 0; i < params.num_bssid; i++) { JNIObject objAp = helper.getObjectArrayElement(array, i); JNIObject macAddrString = helper.getStringField(objAp, "bssid"); if (macAddrString == NULL) { ALOGE("Error getting bssid field"); return false; } ScopedUtfChars chars(env, macAddrString); const char *bssid = chars.c_str(); if (bssid == NULL) { ALOGE("Error getting bssid"); return false; } parseMacAddress(bssid, params.ap[i].bssid); mac_addr addr; memcpy(addr, params.ap[i].bssid, sizeof(mac_addr)); char bssidOut[32]; sprintf(bssidOut, "%0x:%0x:%0x:%0x:%0x:%0x", addr[0], addr[1], addr[2], addr[3], addr[4], addr[5]); ALOGD("Added bssid %s", bssidOut); params.ap[i].low = helper.getIntField(objAp, "low"); params.ap[i].high = helper.getIntField(objAp, "high"); } wifi_hotlist_ap_found_handler handler; memset(&handler, 0, sizeof(handler)); handler.on_hotlist_ap_found = &onHotlistApFound; handler.on_hotlist_ap_lost = &onHotlistApLost; return hal_fn.wifi_set_bssid_hotlist(id, handle, params, handler) == WIFI_SUCCESS; } static jboolean android_net_wifi_resetHotlist(JNIEnv *env, jclass cls, jint iface, jint id) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); ALOGD("resetting hotlist on interface[%d] = %p", iface, handle); return hal_fn.wifi_reset_bssid_hotlist(id, handle) == WIFI_SUCCESS; } void onSignificantWifiChange(wifi_request_id id, unsigned num_results, wifi_significant_change_result **results) { JNIHelper helper(mVM); ALOGD("onSignificantWifiChange called, vm = %p, obj = %p", mVM, mCls); JNIObject scanResults = helper.newObjectArray( num_results, "android/net/wifi/ScanResult", NULL); if (scanResults == NULL) { ALOGE("Error in allocating ScanResult array in onSignificantWifiChange, length=%d", num_results); return; } for (unsigned i = 0; i < num_results; i++) { wifi_significant_change_result &result = *(results[i]); JNIObject scanResult = helper.createObject("android/net/wifi/ScanResult"); if (scanResult == NULL) { ALOGE("Error in creating scan result in onSignificantWifiChange"); return; } // helper.setStringField(scanResult, "SSID", results[i].ssid); char bssid[32]; sprintf(bssid, "%02x:%02x:%02x:%02x:%02x:%02x", result.bssid[0], result.bssid[1], result.bssid[2], result.bssid[3], result.bssid[4], result.bssid[5]); helper.setStringField(scanResult, "BSSID", bssid); helper.setIntField(scanResult, "level", result.rssi[0]); helper.setIntField(scanResult, "frequency", result.channel); // helper.setLongField(scanResult, "timestamp", result.ts); helper.setObjectArrayElement(scanResults, i, scanResult); } helper.reportEvent(mCls, "onSignificantWifiChange", "(I[Landroid/net/wifi/ScanResult;)V", id, scanResults.get()); } static jboolean android_net_wifi_trackSignificantWifiChange( JNIEnv *env, jclass cls, jint iface, jint id, jobject settings) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); ALOGD("tracking significant wifi change on interface[%d] = %p", iface, handle); wifi_significant_change_params params; memset(¶ms, 0, sizeof(params)); params.rssi_sample_size = helper.getIntField(settings, "rssiSampleSize"); params.lost_ap_sample_size = helper.getIntField(settings, "lostApSampleSize"); params.min_breaching = helper.getIntField(settings, "minApsBreachingThreshold"); const char *bssid_info_array_type = "[Landroid/net/wifi/WifiScanner$BssidInfo;"; JNIObject bssids = helper.getArrayField( settings, "bssidInfos", bssid_info_array_type); params.num_bssid = helper.getArrayLength(bssids); if (params.num_bssid == 0) { ALOGE("BssidInfo array length was 0"); return false; } ALOGD("Initialized common fields %d, %d, %d, %d", params.rssi_sample_size, params.lost_ap_sample_size, params.min_breaching, params.num_bssid); for (int i = 0; i < params.num_bssid; i++) { JNIObject objAp = helper.getObjectArrayElement(bssids, i); JNIObject macAddrString = helper.getStringField(objAp, "bssid"); if (macAddrString == NULL) { ALOGE("Error getting bssid field"); return false; } ScopedUtfChars chars(env, macAddrString.get()); const char *bssid = chars.c_str(); if (bssid == NULL) { ALOGE("Error getting bssid"); return false; } mac_addr addr; parseMacAddress(bssid, addr); memcpy(params.ap[i].bssid, addr, sizeof(mac_addr)); char bssidOut[32]; sprintf(bssidOut, "%02x:%02x:%02x:%02x:%02x:%02x", addr[0], addr[1], addr[2], addr[3], addr[4], addr[5]); params.ap[i].low = helper.getIntField(objAp, "low"); params.ap[i].high = helper.getIntField(objAp, "high"); ALOGD("Added bssid %s, [%04d, %04d]", bssidOut, params.ap[i].low, params.ap[i].high); } ALOGD("Added %d bssids", params.num_bssid); wifi_significant_change_handler handler; memset(&handler, 0, sizeof(handler)); handler.on_significant_change = &onSignificantWifiChange; return hal_fn.wifi_set_significant_change_handler(id, handle, params, handler) == WIFI_SUCCESS; } static jboolean android_net_wifi_untrackSignificantWifiChange( JNIEnv *env, jclass cls, jint iface, jint id) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); ALOGD("resetting significant wifi change on interface[%d] = %p", iface, handle); return hal_fn.wifi_reset_significant_change_handler(id, handle) == WIFI_SUCCESS; } wifi_iface_stat link_stat; wifi_radio_stat radio_stat; // L release has support for only one radio u32 *tx_time_per_level_arr = 0; // Let's cache the supported feature set to avoid unnecessary HAL invocations. feature_set cached_feature_set = 0; bool isTxLevelStatsPresent(wifi_radio_stat *radio_stats) { if (IS_SUPPORTED_FEATURE(WIFI_FEATURE_TX_TRANSMIT_POWER, cached_feature_set)) { if(radio_stats->tx_time_per_levels != 0 && radio_stats->num_tx_levels > 0) { return true; } else { ALOGE("Ignoring invalid tx_level info in radio_stats"); } } return false; } void onLinkStatsResults(wifi_request_id id, wifi_iface_stat *iface_stat, int num_radios, wifi_radio_stat *radio_stats) { if (iface_stat != 0) { memcpy(&link_stat, iface_stat, sizeof(wifi_iface_stat)); } else { memset(&link_stat, 0, sizeof(wifi_iface_stat)); } if (num_radios > 0 && radio_stats != 0) { memcpy(&radio_stat, radio_stats, sizeof(wifi_radio_stat)); if (isTxLevelStatsPresent(radio_stats)) { // This realloc should be a no-op after the first allocation because for a given // device, the number of power levels should not change. u32 arr_size = sizeof(u32) * radio_stats->num_tx_levels; tx_time_per_level_arr = (u32 *)realloc(tx_time_per_level_arr, arr_size); memcpy(tx_time_per_level_arr, radio_stats->tx_time_per_levels, arr_size); radio_stat.tx_time_per_levels = tx_time_per_level_arr; } else { radio_stat.num_tx_levels = 0; radio_stat.tx_time_per_levels = 0; } } else { memset(&radio_stat, 0, sizeof(wifi_radio_stat)); } } static void android_net_wifi_setLinkLayerStats (JNIEnv *env, jclass cls, jint iface, int enable) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); wifi_link_layer_params params; params.aggressive_statistics_gathering = enable; params.mpdu_size_threshold = 128; ALOGD("android_net_wifi_setLinkLayerStats: %u\n", enable); hal_fn.wifi_set_link_stats(handle, params); } static jobject android_net_wifi_getLinkLayerStats (JNIEnv *env, jclass cls, jint iface) { JNIHelper helper(env); wifi_stats_result_handler handler; memset(&handler, 0, sizeof(handler)); handler.on_link_stats_results = &onLinkStatsResults; wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); int result; // Cache the features supported by the device to determine if tx level stats are present or not if (cached_feature_set == 0) { result = hal_fn.wifi_get_supported_feature_set(handle, &cached_feature_set); if (result != WIFI_SUCCESS) { cached_feature_set = 0; } } result = hal_fn.wifi_get_link_stats(0, handle, handler); if (result < 0) { ALOGE("android_net_wifi_getLinkLayerStats: failed to get link statistics\n"); return NULL; } JNIObject wifiLinkLayerStats = helper.createObject( "android/net/wifi/WifiLinkLayerStats"); if (wifiLinkLayerStats == NULL) { ALOGE("Error in allocating wifiLinkLayerStats"); return NULL; } JNIObject tx_time_per_level = helper.newIntArray(radio_stat.num_tx_levels); if (tx_time_per_level == NULL) { ALOGE("Error in allocating wifiLinkLayerStats"); return NULL; } helper.setIntField(wifiLinkLayerStats, "beacon_rx", link_stat.beacon_rx); helper.setIntField(wifiLinkLayerStats, "rssi_mgmt", link_stat.rssi_mgmt); helper.setLongField(wifiLinkLayerStats, "rxmpdu_be", link_stat.ac[WIFI_AC_BE].rx_mpdu); helper.setLongField(wifiLinkLayerStats, "rxmpdu_bk", link_stat.ac[WIFI_AC_BK].rx_mpdu); helper.setLongField(wifiLinkLayerStats, "rxmpdu_vi", link_stat.ac[WIFI_AC_VI].rx_mpdu); helper.setLongField(wifiLinkLayerStats, "rxmpdu_vo", link_stat.ac[WIFI_AC_VO].rx_mpdu); helper.setLongField(wifiLinkLayerStats, "txmpdu_be", link_stat.ac[WIFI_AC_BE].tx_mpdu); helper.setLongField(wifiLinkLayerStats, "txmpdu_bk", link_stat.ac[WIFI_AC_BK].tx_mpdu); helper.setLongField(wifiLinkLayerStats, "txmpdu_vi", link_stat.ac[WIFI_AC_VI].tx_mpdu); helper.setLongField(wifiLinkLayerStats, "txmpdu_vo", link_stat.ac[WIFI_AC_VO].tx_mpdu); helper.setLongField(wifiLinkLayerStats, "lostmpdu_be", link_stat.ac[WIFI_AC_BE].mpdu_lost); helper.setLongField(wifiLinkLayerStats, "lostmpdu_bk", link_stat.ac[WIFI_AC_BK].mpdu_lost); helper.setLongField(wifiLinkLayerStats, "lostmpdu_vi", link_stat.ac[WIFI_AC_VI].mpdu_lost); helper.setLongField(wifiLinkLayerStats, "lostmpdu_vo", link_stat.ac[WIFI_AC_VO].mpdu_lost); helper.setLongField(wifiLinkLayerStats, "retries_be", link_stat.ac[WIFI_AC_BE].retries); helper.setLongField(wifiLinkLayerStats, "retries_bk", link_stat.ac[WIFI_AC_BK].retries); helper.setLongField(wifiLinkLayerStats, "retries_vi", link_stat.ac[WIFI_AC_VI].retries); helper.setLongField(wifiLinkLayerStats, "retries_vo", link_stat.ac[WIFI_AC_VO].retries); helper.setIntField(wifiLinkLayerStats, "on_time", radio_stat.on_time); helper.setIntField(wifiLinkLayerStats, "tx_time", radio_stat.tx_time); helper.setIntField(wifiLinkLayerStats, "rx_time", radio_stat.rx_time); helper.setIntField(wifiLinkLayerStats, "on_time_scan", radio_stat.on_time_scan); if (radio_stat.tx_time_per_levels != 0) { helper.setIntArrayRegion(tx_time_per_level, 0, radio_stat.num_tx_levels, (jint *)radio_stat.tx_time_per_levels); } helper.setObjectField(wifiLinkLayerStats, "tx_time_per_level", "[I", tx_time_per_level); return wifiLinkLayerStats.detach(); } static jint android_net_wifi_getSupportedFeatures(JNIEnv *env, jclass cls, jint iface) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); feature_set set = 0; wifi_error result = WIFI_SUCCESS; /* set = WIFI_FEATURE_INFRA | WIFI_FEATURE_INFRA_5G | WIFI_FEATURE_HOTSPOT | WIFI_FEATURE_P2P | WIFI_FEATURE_SOFT_AP | WIFI_FEATURE_GSCAN | WIFI_FEATURE_PNO | WIFI_FEATURE_TDLS | WIFI_FEATURE_EPR; */ result = hal_fn.wifi_get_supported_feature_set(handle, &set); if (result == WIFI_SUCCESS) { // ALOGD("wifi_get_supported_feature_set returned set = 0x%x", set); return set; } else { ALOGE("wifi_get_supported_feature_set returned error = 0x%x", result); return 0; } } static void onRttResults(wifi_request_id id, unsigned num_results, wifi_rtt_result* results[]) { JNIHelper helper(mVM); if (DBG) ALOGD("onRttResults called, vm = %p, obj = %p", mVM, mCls); JNIObject rttResults = helper.newObjectArray( num_results, "android/net/wifi/RttManager$RttResult", NULL); if (rttResults == NULL) { ALOGE("Error in allocating RttResult array in onRttResults, length=%d", num_results); return; } for (unsigned i = 0; i < num_results; i++) { wifi_rtt_result *result = results[i]; JNIObject rttResult = helper.createObject("android/net/wifi/RttManager$RttResult"); if (rttResult == NULL) { ALOGE("Error in creating rtt result in onRttResults"); return; } char bssid[32]; sprintf(bssid, "%02x:%02x:%02x:%02x:%02x:%02x", result->addr[0], result->addr[1], result->addr[2], result->addr[3], result->addr[4], result->addr[5]); helper.setStringField(rttResult, "bssid", bssid); helper.setIntField( rttResult, "burstNumber", result->burst_num); helper.setIntField( rttResult, "measurementFrameNumber", result->measurement_number); helper.setIntField( rttResult, "successMeasurementFrameNumber", result->success_number); helper.setIntField(rttResult, "frameNumberPerBurstPeer", result->number_per_burst_peer); helper.setIntField( rttResult, "status", result->status); helper.setIntField( rttResult, "measurementType", result->type); helper.setIntField(rttResult, "retryAfterDuration", result->retry_after_duration); helper.setLongField(rttResult, "ts", result->ts); helper.setIntField( rttResult, "rssi", result->rssi); helper.setIntField( rttResult, "rssiSpread", result->rssi_spread); helper.setIntField( rttResult, "txRate", result->tx_rate.bitrate); helper.setIntField( rttResult, "rxRate", result->rx_rate.bitrate); helper.setLongField(rttResult, "rtt", result->rtt); helper.setLongField(rttResult, "rttStandardDeviation", result->rtt_sd); helper.setIntField( rttResult, "distance", result->distance_mm / 10); helper.setIntField( rttResult, "distanceStandardDeviation", result->distance_sd_mm / 10); helper.setIntField( rttResult, "distanceSpread", result->distance_spread_mm / 10); helper.setIntField( rttResult, "burstDuration", result->burst_duration); helper.setIntField( rttResult, "negotiatedBurstNum", result->negotiated_burst_num); JNIObject LCI = helper.createObject( "android/net/wifi/RttManager$WifiInformationElement"); if (result->LCI != NULL && result->LCI->len > 0) { helper.setByteField(LCI, "id", result->LCI->id); JNIObject elements = helper.newByteArray(result->LCI->len); jbyte *bytes = (jbyte *)&(result->LCI->data[0]); helper.setByteArrayRegion(elements, 0, result->LCI->len, bytes); helper.setObjectField(LCI, "data", "[B", elements); } else { helper.setByteField(LCI, "id", (byte)(0xff)); } helper.setObjectField(rttResult, "LCI", "Landroid/net/wifi/RttManager$WifiInformationElement;", LCI); JNIObject LCR = helper.createObject( "android/net/wifi/RttManager$WifiInformationElement"); if (result->LCR != NULL && result->LCR->len > 0) { helper.setByteField(LCR, "id", result->LCR->id); JNIObject elements = helper.newByteArray(result->LCI->len); jbyte *bytes = (jbyte *)&(result->LCR->data[0]); helper.setByteArrayRegion(elements, 0, result->LCI->len, bytes); helper.setObjectField(LCR, "data", "[B", elements); } else { helper.setByteField(LCR, "id", (byte)(0xff)); } helper.setObjectField(rttResult, "LCR", "Landroid/net/wifi/RttManager$WifiInformationElement;", LCR); helper.setObjectArrayElement(rttResults, i, rttResult); } helper.reportEvent(mCls, "onRttResults", "(I[Landroid/net/wifi/RttManager$RttResult;)V", id, rttResults.get()); } const int MaxRttConfigs = 16; static jboolean android_net_wifi_requestRange( JNIEnv *env, jclass cls, jint iface, jint id, jobject params) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); if (DBG) ALOGD("sending rtt request [%d] = %p", id, handle); if (params == NULL) { ALOGE("ranging params are empty"); return false; } wifi_rtt_config configs[MaxRttConfigs]; memset(&configs, 0, sizeof(configs)); int len = helper.getArrayLength((jobjectArray)params); if (len > MaxRttConfigs) { return false; } for (int i = 0; i < len; i++) { JNIObject param = helper.getObjectArrayElement((jobjectArray)params, i); if (param == NULL) { ALOGW("could not get element %d", i); continue; } wifi_rtt_config &config = configs[i]; parseMacAddress(env, param, config.addr); config.type = (wifi_rtt_type)helper.getIntField(param, "requestType"); config.peer = (rtt_peer_type)helper.getIntField(param, "deviceType"); config.channel.center_freq = helper.getIntField(param, "frequency"); config.channel.width = (wifi_channel_width) helper.getIntField(param, "channelWidth"); config.channel.center_freq0 = helper.getIntField(param, "centerFreq0"); config.channel.center_freq1 = helper.getIntField(param, "centerFreq1"); config.num_burst = helper.getIntField(param, "numberBurst"); config.burst_period = (unsigned) helper.getIntField(param, "interval"); config.num_frames_per_burst = (unsigned) helper.getIntField(param, "numSamplesPerBurst"); config.num_retries_per_rtt_frame = (unsigned) helper.getIntField(param, "numRetriesPerMeasurementFrame"); config.num_retries_per_ftmr = (unsigned) helper.getIntField(param, "numRetriesPerFTMR"); config.LCI_request = helper.getBoolField(param, "LCIRequest") ? 1 : 0; config.LCR_request = helper.getBoolField(param, "LCRRequest") ? 1 : 0; config.burst_duration = (unsigned) helper.getIntField(param, "burstTimeout"); config.preamble = (wifi_rtt_preamble) helper.getIntField(param, "preamble"); config.bw = (wifi_rtt_bw) helper.getIntField(param, "bandwidth"); } wifi_rtt_event_handler handler; handler.on_rtt_results = &onRttResults; return hal_fn.wifi_rtt_range_request(id, handle, len, configs, handler) == WIFI_SUCCESS; } static jboolean android_net_wifi_cancelRange( JNIEnv *env, jclass cls, jint iface, jint id, jobject params) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); if (DBG) ALOGD("cancelling rtt request [%d] = %p", id, handle); if (params == NULL) { ALOGE("ranging params are empty"); return false; } mac_addr addrs[MaxRttConfigs]; memset(&addrs, 0, sizeof(addrs)); int len = helper.getArrayLength((jobjectArray)params); if (len > MaxRttConfigs) { return false; } for (int i = 0; i < len; i++) { JNIObject param = helper.getObjectArrayElement(params, i); if (param == NULL) { ALOGW("could not get element %d", i); continue; } parseMacAddress(env, param, addrs[i]); } return hal_fn.wifi_rtt_range_cancel(id, handle, len, addrs) == WIFI_SUCCESS; } static jobject android_net_wifi_enableResponder( JNIEnv *env, jclass cls, jint iface, jint id, jint timeout_seconds, jobject channel_hint) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); if (DBG) ALOGD("enabling responder request [%d] = %p", id, handle); wifi_channel_info channel; // Get channel information from HAL if it's not provided by caller. if (channel_hint == NULL) { wifi_rtt_responder responder_info_hint; bool status = hal_fn.wifi_rtt_get_responder_info(handle, &responder_info_hint); if (status != WIFI_SUCCESS) { ALOGE("could not get available channel for responder"); return NULL; } channel = responder_info_hint.channel; } else { channel.center_freq = helper.getIntField(channel_hint, "mPrimaryFrequency"); channel.center_freq0 = helper.getIntField(channel_hint, "mCenterFrequency0"); channel.center_freq1 = helper.getIntField(channel_hint, "mCenterFrequency1"); channel.width = (wifi_channel_width)helper.getIntField(channel_hint, "mChannelWidth"); } if (DBG) { ALOGD("wifi_channel_width: %d, center_freq: %d, center_freq0: %d", channel.width, channel.center_freq, channel.center_freq0); } wifi_rtt_responder responder_info_used; bool status = hal_fn.wifi_enable_responder(id, handle, channel, timeout_seconds, &responder_info_used); if (status != WIFI_SUCCESS) { ALOGE("enabling responder mode failed"); return NULL; } wifi_channel_info channel_used = responder_info_used.channel; if (DBG) { ALOGD("wifi_channel_width: %d, center_freq: %d, center_freq0: %d", channel_used.width, channel_used.center_freq, channel_used.center_freq0); } JNIObject responderConfig = helper.createObject("android/net/wifi/RttManager$ResponderConfig"); if (responderConfig == NULL) return NULL; helper.setIntField(responderConfig, "frequency", channel_used.center_freq); helper.setIntField(responderConfig, "centerFreq0", channel_used.center_freq0); helper.setIntField(responderConfig, "centerFreq1", channel_used.center_freq1); helper.setIntField(responderConfig, "channelWidth", channel_used.width); helper.setIntField(responderConfig, "preamble", responder_info_used.preamble); return responderConfig.detach(); } static jboolean android_net_wifi_disableResponder( JNIEnv *env, jclass cls, jint iface, jint id) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); if (DBG) ALOGD("disabling responder request [%d] = %p", id, handle); return hal_fn.wifi_disable_responder(id, handle) == WIFI_SUCCESS; } static jboolean android_net_wifi_setScanningMacOui(JNIEnv *env, jclass cls, jint iface, jbyteArray param) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); ALOGD("setting scan oui %p", handle); static const unsigned oui_len = 3; /* OUI is upper 3 bytes of mac_address */ int len = helper.getArrayLength(param); if (len != oui_len) { ALOGE("invalid oui length %d", len); return false; } ScopedBytesRW paramBytes(env, param); jbyte* bytes = paramBytes.get(); if (bytes == NULL) { ALOGE("failed to get setScanningMacOui param array"); return false; } return hal_fn.wifi_set_scanning_mac_oui(handle, (byte *)bytes) == WIFI_SUCCESS; } static jboolean android_net_wifi_is_get_channels_for_band_supported(JNIEnv *env, jclass cls){ return (hal_fn.wifi_get_valid_channels == wifi_get_valid_channels_stub); } static jintArray android_net_wifi_getValidChannels(JNIEnv *env, jclass cls, jint iface, jint band) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); ALOGV("getting valid channels %p", handle); static const int MaxChannels = 64; wifi_channel channels[64]; int num_channels = 0; wifi_error result = hal_fn.wifi_get_valid_channels(handle, band, MaxChannels, channels, &num_channels); if (result == WIFI_SUCCESS) { JNIObject channelArray = helper.newIntArray(num_channels); if (channelArray == NULL) { ALOGE("failed to allocate channel list, num_channels=%d", num_channels); return NULL; } helper.setIntArrayRegion(channelArray, 0, num_channels, channels); return channelArray.detach(); } else { ALOGE("failed to get channel list : %d", result); return NULL; } } static jboolean android_net_wifi_setDfsFlag(JNIEnv *env, jclass cls, jint iface, jboolean dfs) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); ALOGD("setting dfs flag to %s, %p", dfs ? "true" : "false", handle); u32 nodfs = dfs ? 0 : 1; wifi_error result = hal_fn.wifi_set_nodfs_flag(handle, nodfs); return result == WIFI_SUCCESS; } static jobject android_net_wifi_get_rtt_capabilities(JNIEnv *env, jclass cls, jint iface) { JNIHelper helper(env); wifi_rtt_capabilities rtt_capabilities; wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); wifi_error ret = hal_fn.wifi_get_rtt_capabilities(handle, &rtt_capabilities); if(WIFI_SUCCESS == ret) { JNIObject capabilities = helper.createObject( "android/net/wifi/RttManager$RttCapabilities"); helper.setBooleanField(capabilities, "oneSidedRttSupported", rtt_capabilities.rtt_one_sided_supported == 1); helper.setBooleanField(capabilities, "twoSided11McRttSupported", rtt_capabilities.rtt_ftm_supported == 1); helper.setBooleanField(capabilities, "lciSupported", rtt_capabilities.lci_support); helper.setBooleanField(capabilities, "lcrSupported", rtt_capabilities.lcr_support); helper.setIntField(capabilities, "preambleSupported", rtt_capabilities.preamble_support); helper.setIntField(capabilities, "bwSupported", rtt_capabilities.bw_support); helper.setBooleanField(capabilities, "responderSupported", rtt_capabilities.responder_supported == 1); if (DBG) { ALOGD("One side RTT is %s", rtt_capabilities.rtt_one_sided_supported == 1 ? "supported" : "not supported"); ALOGD("Two side RTT is %s", rtt_capabilities.rtt_ftm_supported == 1 ? "supported" : "not supported"); ALOGD("LCR is %s", rtt_capabilities.lcr_support == 1 ? "supported" : "not supported"); ALOGD("LCI is %s", rtt_capabilities.lci_support == 1 ? "supported" : "not supported"); ALOGD("Supported preamble is %d", rtt_capabilities.preamble_support); ALOGD("Supported bandwidth is %d", rtt_capabilities.bw_support); ALOGD("Sta responder is %s", rtt_capabilities.responder_supported == 1 ? "supported" : "not supported"); } return capabilities.detach(); } else { return NULL; } } static jobject android_net_wifi_get_apf_capabilities(JNIEnv *env, jclass cls, jint iface) { JNIHelper helper(env); u32 version = 0, max_len = 0; wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); wifi_error ret = hal_fn.wifi_get_packet_filter_capabilities(handle, &version, &max_len); if (WIFI_SUCCESS == ret) { // Cannot just use createObject() because members are final and initializer values must be // passed via ApfCapabilities(). JNIObject apf_cls(helper, env->FindClass("android/net/apf/ApfCapabilities")); if (apf_cls == NULL) { ALOGE("Error in finding class android/net/apf/ApfCapabilities"); return NULL; } jmethodID constructor = env->GetMethodID(apf_cls, "", "(III)V"); if (constructor == 0) { ALOGE("Error in constructor ID for android/net/apf/ApfCapabilities"); return NULL; } JNIObject capabilities(helper, env->NewObject(apf_cls, constructor, version, max_len, ARPHRD_ETHER)); if (capabilities == NULL) { ALOGE("Could not create new object of android/net/apf/ApfCapabilities"); return NULL; } ALOGD("APF version supported: %d", version); ALOGD("Maximum APF program size: %d", max_len); return capabilities.detach(); } else { return NULL; } } static jboolean android_net_wifi_install_packet_filter(JNIEnv *env, jclass cls, jint iface, jbyteArray jfilter) { JNIHelper helper(env); const u8* filter = (uint8_t*)env->GetByteArrayElements(jfilter, NULL); const u32 filter_len = env->GetArrayLength(jfilter); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); wifi_error ret = hal_fn.wifi_set_packet_filter(handle, filter, filter_len); env->ReleaseByteArrayElements(jfilter, (jbyte*)filter, JNI_ABORT); return WIFI_SUCCESS == ret; } static jboolean android_net_wifi_set_Country_Code_Hal(JNIEnv *env,jclass cls, jint iface, jstring country_code) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); ScopedUtfChars chars(env, country_code); const char *country = chars.c_str(); ALOGD("set country code: %s", country); wifi_error res = hal_fn.wifi_set_country_code(handle, country); return res == WIFI_SUCCESS; } static jboolean android_net_wifi_enable_disable_tdls(JNIEnv *env,jclass cls, jint iface, jboolean enable, jstring addr) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); mac_addr address; parseMacAddress(env, addr, address); wifi_tdls_handler tdls_handler; //tdls_handler.on_tdls_state_changed = &on_tdls_state_changed; if(enable) { return (hal_fn.wifi_enable_tdls(handle, address, NULL, tdls_handler) == WIFI_SUCCESS); } else { return (hal_fn.wifi_disable_tdls(handle, address) == WIFI_SUCCESS); } } static void on_tdls_state_changed(mac_addr addr, wifi_tdls_status status) { JNIHelper helper(mVM); ALOGD("on_tdls_state_changed is called: vm = %p, obj = %p", mVM, mCls); char mac[32]; sprintf(mac, "%02x:%02x:%02x:%02x:%02x:%02x", addr[0], addr[1], addr[2], addr[3], addr[4], addr[5]); JNIObject mac_address = helper.newStringUTF(mac); helper.reportEvent(mCls, "onTdlsStatus", "(Ljava/lang/StringII;)V", mac_address.get(), status.state, status.reason); } static jobject android_net_wifi_get_tdls_status(JNIEnv *env,jclass cls, jint iface,jstring addr) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); mac_addr address; parseMacAddress(env, addr, address); wifi_tdls_status status; wifi_error ret; ret = hal_fn.wifi_get_tdls_status(handle, address, &status ); if (ret != WIFI_SUCCESS) { return NULL; } else { JNIObject tdls_status = helper.createObject( "com/android/server/wifi/WifiNative$TdlsStatus"); helper.setIntField(tdls_status, "channel", status.channel); helper.setIntField(tdls_status, "global_operating_class", status.global_operating_class); helper.setIntField(tdls_status, "state", status.state); helper.setIntField(tdls_status, "reason", status.reason); return tdls_status.detach(); } } static jobject android_net_wifi_get_tdls_capabilities(JNIEnv *env, jclass cls, jint iface) { JNIHelper helper(env); wifi_tdls_capabilities tdls_capabilities; wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); wifi_error ret = hal_fn.wifi_get_tdls_capabilities(handle, &tdls_capabilities); if (WIFI_SUCCESS == ret) { JNIObject capabilities = helper.createObject( "com/android/server/wifi/WifiNative$TdlsCapabilities"); helper.setIntField(capabilities, "maxConcurrentTdlsSessionNumber", tdls_capabilities.max_concurrent_tdls_session_num); helper.setBooleanField(capabilities, "isGlobalTdlsSupported", tdls_capabilities.is_global_tdls_supported == 1); helper.setBooleanField(capabilities, "isPerMacTdlsSupported", tdls_capabilities.is_per_mac_tdls_supported == 1); helper.setBooleanField(capabilities, "isOffChannelTdlsSupported", tdls_capabilities.is_off_channel_tdls_supported); ALOGD("TDLS Max Concurrent Tdls Session Number is: %d", tdls_capabilities.max_concurrent_tdls_session_num); ALOGD("Global Tdls is: %s", tdls_capabilities.is_global_tdls_supported == 1 ? "support" : "not support"); ALOGD("Per Mac Tdls is: %s", tdls_capabilities.is_per_mac_tdls_supported == 1 ? "support" : "not support"); ALOGD("Off Channel Tdls is: %s", tdls_capabilities.is_off_channel_tdls_supported == 1 ? "support" : "not support"); return capabilities.detach(); } else { return NULL; } } // ---------------------------------------------------------------------------- // Debug framework // ---------------------------------------------------------------------------- static jint android_net_wifi_get_supported_logger_feature(JNIEnv *env, jclass cls, jint iface){ //Not implemented yet return -1; } static jobject android_net_wifi_get_driver_version(JNIEnv *env, jclass cls, jint iface) { //Need to be fixed. The memory should be allocated from lower layer //char *buffer = NULL; JNIHelper helper(env); int buffer_length = 256; char *buffer = (char *)malloc(buffer_length); if (!buffer) return NULL; memset(buffer, 0, buffer_length); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); ALOGD("android_net_wifi_get_driver_version = %p", handle); if (handle == 0) { free(buffer); return NULL; } wifi_error result = hal_fn.wifi_get_driver_version(handle, buffer, buffer_length); if (result == WIFI_SUCCESS) { ALOGD("buffer is %p, length is %d", buffer, buffer_length); JNIObject driver_version = helper.newStringUTF(buffer); free(buffer); return driver_version.detach(); } else { ALOGE("Fail to get driver version"); free(buffer); return NULL; } } static jobject android_net_wifi_get_firmware_version(JNIEnv *env, jclass cls, jint iface) { //char *buffer = NULL; JNIHelper helper(env); int buffer_length = 256; char *buffer = (char *)malloc(buffer_length); if (!buffer) return NULL; memset(buffer, 0, buffer_length); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); ALOGD("android_net_wifi_get_firmware_version = %p", handle); if (handle == 0) { free(buffer); return NULL; } wifi_error result = hal_fn.wifi_get_firmware_version(handle, buffer, buffer_length); if (result == WIFI_SUCCESS) { ALOGD("buffer is %p, length is %d", buffer, buffer_length); JNIObject firmware_version = helper.newStringUTF(buffer); free(buffer); return firmware_version.detach(); } else { ALOGE("Fail to get Firmware version"); free(buffer); return NULL; } } static jobject android_net_wifi_get_ring_buffer_status (JNIEnv *env, jclass cls, jint iface) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); ALOGD("android_net_wifi_get_ring_buffer_status = %p", handle); if (handle == 0) { return NULL; } //wifi_ring_buffer_status *status = NULL; u32 num_rings = 10; wifi_ring_buffer_status *status = (wifi_ring_buffer_status *)malloc(sizeof(wifi_ring_buffer_status) * num_rings); if (!status) return NULL; memset(status, 0, sizeof(wifi_ring_buffer_status) * num_rings); wifi_error result = hal_fn.wifi_get_ring_buffers_status(handle, &num_rings, status); if (result == WIFI_SUCCESS) { ALOGD("status is %p, number is %d", status, num_rings); JNIObject ringBuffersStatus = helper.newObjectArray( num_rings, "com/android/server/wifi/WifiNative$RingBufferStatus", NULL); wifi_ring_buffer_status *tmp = status; for(u32 i = 0; i < num_rings; i++, tmp++) { JNIObject ringStatus = helper.createObject( "com/android/server/wifi/WifiNative$RingBufferStatus"); if (ringStatus == NULL) { ALOGE("Error in creating ringBufferStatus"); free(status); return NULL; } char name[32]; for(int j = 0; j < 32; j++) { name[j] = tmp->name[j]; } helper.setStringField(ringStatus, "name", name); helper.setIntField(ringStatus, "flag", tmp->flags); helper.setIntField(ringStatus, "ringBufferId", tmp->ring_id); helper.setIntField(ringStatus, "ringBufferByteSize", tmp->ring_buffer_byte_size); helper.setIntField(ringStatus, "verboseLevel", tmp->verbose_level); helper.setIntField(ringStatus, "writtenBytes", tmp->written_bytes); helper.setIntField(ringStatus, "readBytes", tmp->read_bytes); helper.setIntField(ringStatus, "writtenRecords", tmp->written_records); helper.setObjectArrayElement(ringBuffersStatus, i, ringStatus); } free(status); return ringBuffersStatus.detach(); } else { free(status); return NULL; } } static void on_ring_buffer_data(char *ring_name, char *buffer, int buffer_size, wifi_ring_buffer_status *status) { if (!ring_name || !buffer || !status || (unsigned int)buffer_size <= sizeof(wifi_ring_buffer_entry)) { ALOGE("Error input for on_ring_buffer_data!"); return; } JNIHelper helper(mVM); /* ALOGD("on_ring_buffer_data called, vm = %p, obj = %p, env = %p buffer size = %d", mVM, mCls, env, buffer_size); */ JNIObject ringStatus = helper.createObject( "com/android/server/wifi/WifiNative$RingBufferStatus"); if (status == NULL) { ALOGE("Error in creating ringBufferStatus"); return; } helper.setStringField(ringStatus, "name", ring_name); helper.setIntField(ringStatus, "flag", status->flags); helper.setIntField(ringStatus, "ringBufferId", status->ring_id); helper.setIntField(ringStatus, "ringBufferByteSize", status->ring_buffer_byte_size); helper.setIntField(ringStatus, "verboseLevel", status->verbose_level); helper.setIntField(ringStatus, "writtenBytes", status->written_bytes); helper.setIntField(ringStatus, "readBytes", status->read_bytes); helper.setIntField(ringStatus, "writtenRecords", status->written_records); JNIObject bytes = helper.newByteArray(buffer_size); helper.setByteArrayRegion(bytes, 0, buffer_size, (jbyte*)buffer); helper.reportEvent(mCls,"onRingBufferData", "(Lcom/android/server/wifi/WifiNative$RingBufferStatus;[B)V", ringStatus.get(), bytes.get()); } static void on_alert_data(wifi_request_id id, char *buffer, int buffer_size, int err_code){ JNIHelper helper(mVM); ALOGD("on_alert_data called, vm = %p, obj = %p, buffer_size = %d, error code = %d" , mVM, mCls, buffer_size, err_code); if (buffer_size > 0) { JNIObject records = helper.newByteArray(buffer_size); jbyte *bytes = (jbyte *) buffer; helper.setByteArrayRegion(records, 0,buffer_size, bytes); helper.reportEvent(mCls,"onWifiAlert","([BI)V", records.get(), err_code); } else { helper.reportEvent(mCls,"onWifiAlert","([BI)V", NULL, err_code); } } static jboolean android_net_wifi_start_logging_ring_buffer(JNIEnv *env, jclass cls, jint iface, jint verbose_level,jint flags, jint max_interval,jint min_data_size, jstring ring_name) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); ALOGD("android_net_wifi_start_logging_ring_buffer = %p", handle); if (handle == 0) { return false; } ScopedUtfChars chars(env, ring_name); const char* ring_name_const_char = chars.c_str(); int ret = hal_fn.wifi_start_logging(handle, verbose_level, flags, max_interval, min_data_size, const_cast(ring_name_const_char)); if (ret != WIFI_SUCCESS) { ALOGE("Fail to start logging for ring %s", ring_name_const_char); } else { ALOGD("start logging for ring %s", ring_name_const_char); } return ret == WIFI_SUCCESS; } static jboolean android_net_wifi_get_ring_buffer_data(JNIEnv *env, jclass cls, jint iface, jstring ring_name) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); // ALOGD("android_net_wifi_get_ring_buffer_data = %p", handle); ScopedUtfChars chars(env, ring_name); const char* ring_name_const_char = chars.c_str(); int result = hal_fn.wifi_get_ring_data(handle, const_cast(ring_name_const_char)); return result == WIFI_SUCCESS; } static void on_firmware_memory_dump(char *buffer, int buffer_size) { JNIHelper helper(mVM); /* ALOGD("on_firmware_memory_dump called, vm = %p, obj = %p, env = %p buffer_size = %d" , mVM, mCls, env, buffer_size); */ if (buffer_size > 0) { JNIObject dump = helper.newByteArray(buffer_size); jbyte *bytes = (jbyte *) (buffer); helper.setByteArrayRegion(dump, 0, buffer_size, bytes); helper.reportEvent(mCls,"onWifiFwMemoryAvailable","([B)V", dump.get()); } } static jboolean android_net_wifi_get_fw_memory_dump(JNIEnv *env, jclass cls, jint iface){ JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); // ALOGD("android_net_wifi_get_fw_memory_dump = %p", handle); if (handle == NULL) { ALOGE("Can not get wifi_interface_handle"); return false; } wifi_firmware_memory_dump_handler fw_dump_handle; fw_dump_handle.on_firmware_memory_dump = on_firmware_memory_dump; int result = hal_fn.wifi_get_firmware_memory_dump(handle, fw_dump_handle); return result == WIFI_SUCCESS; } std::vector* driver_state_dump_buffer_for_callback = nullptr; static void on_driver_state_dump(char *buffer, int buffer_size); static wifi_driver_memory_dump_callbacks driver_state_dump_callbacks = { on_driver_state_dump }; static void on_driver_state_dump(char *buffer, int buffer_size) { if (!driver_state_dump_buffer_for_callback) { ALOGE("Unexpected call from HAL implementation, into %s", __func__); return; } if (buffer_size > 0) { driver_state_dump_buffer_for_callback->insert( driver_state_dump_buffer_for_callback->end(), buffer, buffer + buffer_size); } } // TODO(quiche): Add unit tests. b/28072392 static jbyteArray android_net_wifi_get_driver_state_dump(JNIEnv *env, jclass cls, jint iface){ JNIHelper helper(env); wifi_interface_handle interface_handle = getIfaceHandle(helper, cls, iface); if (!interface_handle) { return nullptr; } int result; std::vector state_dump_buffer_local; driver_state_dump_buffer_for_callback = &state_dump_buffer_local; result = hal_fn.wifi_get_driver_memory_dump(interface_handle, driver_state_dump_callbacks); driver_state_dump_buffer_for_callback = nullptr; if (result != WIFI_SUCCESS) { ALOGW("HAL's wifi_get_driver_memory_dump returned %d", result); return nullptr; } if (state_dump_buffer_local.empty()) { ALOGW("HAL's wifi_get_driver_memory_dump provided zero bytes"); return nullptr; } const size_t dump_size = state_dump_buffer_local.size(); JNIObject driver_dump_java = helper.newByteArray(dump_size); if (!driver_dump_java) { ALOGW("Failed to allocate Java buffer for driver state dump"); return nullptr; } helper.setByteArrayRegion(driver_dump_java, 0, dump_size, state_dump_buffer_local.data()); return driver_dump_java.detach(); } static jboolean android_net_wifi_set_log_handler(JNIEnv *env, jclass cls, jint iface, jint id) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); ALOGD("android_net_wifi_set_log_handler = %p", handle); //initialize the handler on first time wifi_ring_buffer_data_handler handler; handler.on_ring_buffer_data = &on_ring_buffer_data; int result = hal_fn.wifi_set_log_handler(id, handle, handler); if (result != WIFI_SUCCESS) { ALOGE("Fail to set logging handler"); return false; } //set alter handler This will start alert too wifi_alert_handler alert_handler; alert_handler.on_alert = &on_alert_data; result = hal_fn.wifi_set_alert_handler(id, handle, alert_handler); if (result != WIFI_SUCCESS) { ALOGE(" Fail to set alert handler"); return false; } return true; } static jboolean android_net_wifi_reset_log_handler(JNIEnv *env, jclass cls, jint iface, jint id) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); //reset alter handler ALOGD("android_net_wifi_reset_alert_handler = %p", handle); int result = hal_fn.wifi_reset_alert_handler(id, handle); if (result != WIFI_SUCCESS) { ALOGE(" Fail to reset alert handler"); return false; } //reset log handler ALOGD("android_net_wifi_reset_log_handler = %p", handle); result = hal_fn.wifi_reset_log_handler(id, handle); if (result != WIFI_SUCCESS) { ALOGE("Fail to reset logging handler"); return false; } return true; } static jint android_net_wifi_start_pkt_fate_monitoring(JNIEnv *env, jclass cls, jint iface) { JNIHelper helper(env); return hal_fn.wifi_start_pkt_fate_monitoring( getIfaceHandle(helper, cls, iface)); } // Helper for make_default_fate(). template void set_to_max(T* value) { if (!value) { return; } *value = std::numeric_limits::max(); } // make_default_fate() has two purposes: // 1) Minimize the chances of data leakage. In case the HAL gives us an overlong long |frame_len|, // for example, we want to return zeros, rather than other data from this process. // 2) Make it obvious when the HAL doesn't set a field. We accomplish this by setting fields // to "impossible" values, where possible. // Normally, such work would be done in a ctor. However, doing so would make the HAL API // incompatible with C. So we use a free-standing function instead. // // TODO(quiche): Add unit test for this function. b/27726696 template FateReportT make_default_fate() { FateReportT fate_report; set_to_max(&fate_report.fate); std::fill(std::begin(fate_report.md5_prefix), std::end(fate_report.md5_prefix), 0); set_to_max(&fate_report.frame_inf.payload_type); fate_report.frame_inf.frame_len = 0; fate_report.frame_inf.driver_timestamp_usec = 0; fate_report.frame_inf.firmware_timestamp_usec = 0; std::fill(std::begin(fate_report.frame_inf.frame_content.ieee_80211_mgmt_bytes), std::end(fate_report.frame_inf.frame_content.ieee_80211_mgmt_bytes), 0); return fate_report; } // TODO(quiche): Add unit test for this function. b/27726696 template wifi_error get_pkt_fates( HalFateFetcherT fate_fetcher_func, const char *java_fate_type, JNIEnv *env, jclass cls, jint iface, jobjectArray reports) { JNIHelper helper(env); const size_t n_reports_wanted = std::min(helper.getArrayLength(reports), MAX_FATE_LOG_LEN); std::vector report_bufs(n_reports_wanted, make_default_fate()); size_t n_reports_provided = 0; wifi_error result = fate_fetcher_func( getIfaceHandle(helper, cls, iface), report_bufs.data(), n_reports_wanted, &n_reports_provided); if (result != WIFI_SUCCESS) { return result; } if (n_reports_provided > n_reports_wanted) { LOG_ALWAYS_FATAL( "HAL data exceeds request; memory may be corrupt (provided: %zu, requested: %zu)", n_reports_provided, n_reports_wanted); } for (size_t i = 0; i < n_reports_provided; ++i) { const FateReportT& report(report_bufs[i]); const char *frame_bytes_native = nullptr; size_t max_frame_len; switch (report.frame_inf.payload_type) { case FRAME_TYPE_UNKNOWN: case FRAME_TYPE_ETHERNET_II: max_frame_len = MAX_FRAME_LEN_ETHERNET; frame_bytes_native = report.frame_inf.frame_content.ethernet_ii_bytes; break; case FRAME_TYPE_80211_MGMT: max_frame_len = MAX_FRAME_LEN_80211_MGMT; frame_bytes_native = report.frame_inf.frame_content.ieee_80211_mgmt_bytes; break; default: max_frame_len = 0; frame_bytes_native = 0; } size_t copy_len = report.frame_inf.frame_len; if (copy_len > max_frame_len) { ALOGW("Overly long frame (len: %zu, max: %zu)", copy_len, max_frame_len); copy_len = max_frame_len; } JNIObject frame_bytes_java = helper.newByteArray(copy_len); if (frame_bytes_java.isNull()) { ALOGE("Failed to allocate frame data buffer"); return WIFI_ERROR_OUT_OF_MEMORY; } helper.setByteArrayRegion(frame_bytes_java, 0, copy_len, reinterpret_cast(frame_bytes_native)); JNIObject fate_report = helper.createObjectWithArgs( java_fate_type, "(BJB[B)V", // byte, long, byte, byte array static_cast(report.fate), static_cast(report.frame_inf.driver_timestamp_usec), static_cast(report.frame_inf.payload_type), frame_bytes_java.get()); if (fate_report.isNull()) { ALOGE("Failed to create %s", java_fate_type); return WIFI_ERROR_OUT_OF_MEMORY; } helper.setObjectArrayElement(reports, i, fate_report); } return result; } static jint android_net_wifi_get_tx_pkt_fates(JNIEnv *env, jclass cls, jint iface, jobjectArray reports) { return get_pkt_fates( hal_fn.wifi_get_tx_pkt_fates, "com/android/server/wifi/WifiNative$TxFateReport", env, cls, iface, reports); } static jint android_net_wifi_get_rx_pkt_fates(JNIEnv *env, jclass cls, jint iface, jobjectArray reports) { return get_pkt_fates( hal_fn.wifi_get_rx_pkt_fates, "com/android/server/wifi/WifiNative$RxFateReport", env, cls, iface, reports); } // ---------------------------------------------------------------------------- // ePno framework // ---------------------------------------------------------------------------- static void onPnoNetworkFound(wifi_request_id id, unsigned num_results, wifi_scan_result *results) { JNIHelper helper(mVM); ALOGD("onPnoNetworkFound called, vm = %p, obj = %p, num_results %u", mVM, mCls, num_results); if (results == NULL || num_results == 0) { ALOGE("onPnoNetworkFound: Error no results"); return; } JNIObject scanResults = helper.newObjectArray(num_results, "android/net/wifi/ScanResult", NULL); if (scanResults == NULL) { ALOGE("onpnoNetworkFound: Error in allocating scanResults array"); return; } JNIObject beaconCaps = helper.newIntArray(num_results); if (beaconCaps == NULL) { ALOGE("onpnoNetworkFound: Error in allocating beaconCaps array"); return; } for (unsigned i=0; i scanResult = createScanResult(helper, &results[i], true); if (scanResult == NULL) { ALOGE("Error in creating scan result"); return; } helper.setObjectArrayElement(scanResults, i, scanResult); helper.setIntArrayRegion(beaconCaps, i, 1, (jint *)&(results[i].capability)); if (DBG) { ALOGD("ScanResult: IE length %d, i %u, <%s> rssi=%d %02x:%02x:%02x:%02x:%02x:%02x", results->ie_length, i, results[i].ssid, results[i].rssi, results[i].bssid[0], results[i].bssid[1],results[i].bssid[2], results[i].bssid[3], results[i].bssid[4], results[i].bssid[5]); } } helper.reportEvent(mCls, "onPnoNetworkFound", "(I[Landroid/net/wifi/ScanResult;[I)V", id, scanResults.get(), beaconCaps.get()); } static jboolean android_net_wifi_setPnoListNative( JNIEnv *env, jclass cls, jint iface, jint id, jobject settings) { JNIHelper helper(env); wifi_epno_handler handler; handler.on_network_found = &onPnoNetworkFound; wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); ALOGD("configure ePno list request [%d] = %p", id, handle); if (settings == NULL) { return false; } JNIObject list = helper.getArrayField(settings, "networkList", "[Lcom/android/server/wifi/WifiNative$PnoNetwork;"); if (list == NULL) { return false; } size_t len = helper.getArrayLength(list); if (len > (size_t)MAX_EPNO_NETWORKS) { return false; } wifi_epno_params params; memset(¶ms, 0, sizeof(params)); for (unsigned int i = 0; i < len; i++) { JNIObject pno_net = helper.getObjectArrayElement(list, i); if (pno_net == NULL) { ALOGE("setPnoListNative: could not get element %d", i); continue; } JNIObject sssid = helper.getStringField(pno_net, "ssid"); if (sssid == NULL) { ALOGE("Error setPnoListNative: getting ssid field"); return false; } ScopedUtfChars chars(env, (jstring)sssid.get()); const char *ssid = chars.c_str(); if (ssid == NULL) { ALOGE("Error setPnoListNative: getting ssid"); return false; } int ssid_len = strnlen((const char*)ssid, 33); if (ssid_len > 32) { ALOGE("Error setPnoListNative: long ssid %zu", strnlen((const char*)ssid, 256)); return false; } if (ssid_len > 1 && ssid[0] == '"' && ssid[ssid_len-1] == '"') { // strip leading and trailing '"' ssid++; ssid_len-=2; } if (ssid_len == 0) { ALOGE("Error setPnoListNative: zero length ssid, skip it"); continue; } memcpy(params.networks[i].ssid, ssid, ssid_len); params.networks[i].auth_bit_field = helper.getByteField(pno_net, "auth_bit_field"); params.networks[i].flags = helper.getByteField(pno_net, "flags"); ALOGD(" setPnoListNative: idx %u auth %x flags %x [%s]", i, params.networks[i].auth_bit_field, params.networks[i].flags, params.networks[i].ssid); } params.min5GHz_rssi = helper.getIntField(settings, "min5GHzRssi"); params.min24GHz_rssi = helper.getIntField(settings, "min24GHzRssi"); params.initial_score_max = helper.getIntField(settings, "initialScoreMax"); params.current_connection_bonus = helper.getIntField(settings, "currentConnectionBonus"); params.same_network_bonus = helper.getIntField(settings, "sameNetworkBonus"); params.secure_bonus = helper.getIntField(settings, "secureBonus"); params.band5GHz_bonus = helper.getIntField(settings, "band5GHzBonus"); params.num_networks = len; int result = hal_fn.wifi_set_epno_list(id, handle, ¶ms, handler); ALOGD(" setPnoListNative: result %d", result); return result >= 0; } static jboolean android_net_wifi_resetPnoListNative( JNIEnv *env, jclass cls, jint iface, jint id) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); ALOGD("reset ePno list request [%d] = %p", id, handle); // stop pno int result = hal_fn.wifi_reset_epno_list(id, handle); ALOGD(" ressetPnoListNative: result = %d", result); return result >= 0; } static jboolean android_net_wifi_setBssidBlacklist( JNIEnv *env, jclass cls, jint iface, jint id, jobject list) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); ALOGD("configure BSSID black list request [%d] = %p", id, handle); wifi_bssid_params params; memset(¶ms, 0, sizeof(params)); if (list != NULL) { size_t len = helper.getArrayLength((jobjectArray)list); if (len > (size_t)MAX_BLACKLIST_BSSID) { return false; } for (unsigned int i = 0; i < len; i++) { JNIObject jbssid = helper.getObjectArrayElement(list, i); if (jbssid == NULL) { ALOGE("configure BSSID blacklist: could not get element %d", i); continue; } ScopedUtfChars chars(env, (jstring)jbssid.get()); const char *bssid = chars.c_str(); if (bssid == NULL) { ALOGE("Error getting bssid"); return false; } mac_addr addr; parseMacAddress(bssid, addr); memcpy(params.bssids[i], addr, sizeof(mac_addr)); char bssidOut[32]; sprintf(bssidOut, "%0x:%0x:%0x:%0x:%0x:%0x", addr[0], addr[1], addr[2], addr[3], addr[4], addr[5]); ALOGD("BSSID blacklist: added bssid %s", bssidOut); params.num_bssid++; } } ALOGD("Added %d bssids", params.num_bssid); return hal_fn.wifi_set_bssid_blacklist(id, handle, params) == WIFI_SUCCESS; } static jint android_net_wifi_start_sending_offloaded_packet(JNIEnv *env, jclass cls, jint iface, jint idx, jbyteArray srcMac, jbyteArray dstMac, jbyteArray pkt, jint period) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); ALOGD("Start packet offload [%d] = %p", idx, handle); wifi_error ret; wifi_request_id id = idx; ScopedBytesRO pktBytes(env, pkt), srcMacBytes(env, srcMac), dstMacBytes(env, dstMac); byte * pkt_data = (byte*) pktBytes.get(); unsigned short pkt_len = env->GetArrayLength(pkt); byte* src_mac_addr = (byte*) srcMacBytes.get(); byte* dst_mac_addr = (byte*) dstMacBytes.get(); int i; char macAddr[32]; sprintf(macAddr, "%0x:%0x:%0x:%0x:%0x:%0x", src_mac_addr[0], src_mac_addr[1], src_mac_addr[2], src_mac_addr[3], src_mac_addr[4], src_mac_addr[5]); ALOGD("src_mac_addr %s", macAddr); sprintf(macAddr, "%0x:%0x:%0x:%0x:%0x:%0x", dst_mac_addr[0], dst_mac_addr[1], dst_mac_addr[2], dst_mac_addr[3], dst_mac_addr[4], dst_mac_addr[5]); ALOGD("dst_mac_addr %s", macAddr); ALOGD("pkt_len %d\n", pkt_len); ALOGD("Pkt data : "); for(i = 0; i < pkt_len; i++) { ALOGD(" %x ", pkt_data[i]); } ALOGD("\n"); ret = hal_fn.wifi_start_sending_offloaded_packet(id, handle, pkt_data, pkt_len, src_mac_addr, dst_mac_addr, period); ALOGD("ret= %d\n", ret); return ret; } static jint android_net_wifi_stop_sending_offloaded_packet(JNIEnv *env, jclass cls, jint iface, jint idx) { int ret; JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); ALOGD("Stop packet offload [%d] = %p", idx, handle); ret = hal_fn.wifi_stop_sending_offloaded_packet(idx, handle); ALOGD("ret= %d\n", ret); return ret; } static void onRssiThresholdbreached(wifi_request_id id, u8 *cur_bssid, s8 cur_rssi) { ALOGD("RSSI threshold breached, cur RSSI - %d!!\n", cur_rssi); ALOGD("BSSID %02x:%02x:%02x:%02x:%02x:%02x\n", cur_bssid[0], cur_bssid[1], cur_bssid[2], cur_bssid[3], cur_bssid[4], cur_bssid[5]); JNIHelper helper(mVM); //ALOGD("onRssiThresholdbreached called, vm = %p, obj = %p, env = %p", mVM, mCls, env); helper.reportEvent(mCls, "onRssiThresholdBreached", "(IB)V", id, cur_rssi); } static jint android_net_wifi_start_rssi_monitoring_native(JNIEnv *env, jclass cls, jint iface, jint idx, jbyte maxRssi, jbyte minRssi) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); ALOGD("Start Rssi monitoring = %p", handle); ALOGD("MinRssi %d MaxRssi %d", minRssi, maxRssi); wifi_error ret; wifi_request_id id = idx; wifi_rssi_event_handler eh; eh.on_rssi_threshold_breached = onRssiThresholdbreached; ret = hal_fn.wifi_start_rssi_monitoring(id, handle, maxRssi, minRssi, eh); return ret; } static jint android_net_wifi_stop_rssi_monitoring_native(JNIEnv *env, jclass cls, jint iface, jint idx) { JNIHelper helper(env); wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); ALOGD("Stop Rssi monitoring = %p", handle); wifi_error ret; wifi_request_id id = idx; ret = hal_fn.wifi_stop_rssi_monitoring(id, handle); return ret; } static jobject android_net_wifi_get_wlan_wake_reason_count(JNIEnv *env, jclass cls, jint iface) { JNIHelper helper(env); WLAN_DRIVER_WAKE_REASON_CNT wake_reason_cnt; int cmd_event_wake_cnt_array[WAKE_REASON_TYPE_MAX]; int driver_fw_local_wake_cnt_array[WAKE_REASON_TYPE_MAX]; wifi_interface_handle handle = getIfaceHandle(helper, cls, iface); wifi_error ret; wake_reason_cnt.cmd_event_wake_cnt = cmd_event_wake_cnt_array; wake_reason_cnt.cmd_event_wake_cnt_sz = WAKE_REASON_TYPE_MAX; wake_reason_cnt.cmd_event_wake_cnt_used = 0; wake_reason_cnt.driver_fw_local_wake_cnt = driver_fw_local_wake_cnt_array; wake_reason_cnt.driver_fw_local_wake_cnt_sz = WAKE_REASON_TYPE_MAX; wake_reason_cnt.driver_fw_local_wake_cnt_used = 0; ret = hal_fn.wifi_get_wake_reason_stats(handle, &wake_reason_cnt); if (ret != WIFI_SUCCESS) { ALOGE("android_net_wifi_get_wlan_wake_reason_count: failed to get wake reason count\n"); return NULL; } JNIObject stats = helper.createObject( "android/net/wifi/WifiWakeReasonAndCounts"); if (stats == NULL) { ALOGE("android_net_wifi_get_wlan_wake_reason_count: error allocating object\n"); return NULL; } JNIObject cmd_wake_arr = helper.newIntArray(wake_reason_cnt.cmd_event_wake_cnt_used); if (cmd_wake_arr == NULL) { ALOGE("android_net_wifi_get_wlan_wake_reason_count: error allocating array object\n"); return NULL; } JNIObject local_wake_arr = helper.newIntArray(wake_reason_cnt.driver_fw_local_wake_cnt_used); if (local_wake_arr == NULL) { ALOGE("android_net_wifi_get_wlan_wake_reason_count: error allocating array object\n"); return NULL; } helper.setIntField(stats, "totalCmdEventWake", wake_reason_cnt.total_cmd_event_wake); helper.setIntField(stats, "totalDriverFwLocalWake", wake_reason_cnt.total_driver_fw_local_wake); helper.setIntField(stats, "totalRxDataWake", wake_reason_cnt.total_rx_data_wake); helper.setIntField(stats, "rxUnicast", wake_reason_cnt.rx_wake_details.rx_unicast_cnt); helper.setIntField(stats, "rxMulticast", wake_reason_cnt.rx_wake_details.rx_multicast_cnt); helper.setIntField(stats, "rxBroadcast", wake_reason_cnt.rx_wake_details.rx_broadcast_cnt); helper.setIntField(stats, "icmp", wake_reason_cnt.rx_wake_pkt_classification_info.icmp_pkt); helper.setIntField(stats, "icmp6", wake_reason_cnt.rx_wake_pkt_classification_info.icmp6_pkt); helper.setIntField(stats, "icmp6Ra", wake_reason_cnt.rx_wake_pkt_classification_info.icmp6_ra); helper.setIntField(stats, "icmp6Na", wake_reason_cnt.rx_wake_pkt_classification_info.icmp6_na); helper.setIntField(stats, "icmp6Ns", wake_reason_cnt.rx_wake_pkt_classification_info.icmp6_ns); helper.setIntField(stats, "ipv4RxMulticast", wake_reason_cnt.rx_multicast_wake_pkt_info.ipv4_rx_multicast_addr_cnt); helper.setIntField(stats, "ipv6Multicast", wake_reason_cnt.rx_multicast_wake_pkt_info.ipv6_rx_multicast_addr_cnt); helper.setIntField(stats, "otherRxMulticast", wake_reason_cnt.rx_multicast_wake_pkt_info.other_rx_multicast_addr_cnt); helper.setIntArrayRegion(cmd_wake_arr, 0, wake_reason_cnt.cmd_event_wake_cnt_used, wake_reason_cnt.cmd_event_wake_cnt); helper.setIntArrayRegion(local_wake_arr, 0, wake_reason_cnt.driver_fw_local_wake_cnt_used, wake_reason_cnt.driver_fw_local_wake_cnt); helper.setObjectField(stats, "cmdEventWakeCntArray", "[I", cmd_wake_arr); helper.setObjectField(stats, "driverFWLocalWakeCntArray", "[I", local_wake_arr); return stats.detach(); } static jbyteArray android_net_wifi_readKernelLog(JNIEnv *env, jclass cls) { JNIHelper helper(env); ALOGV("Reading kernel logs"); int size = klogctl(/* SYSLOG_ACTION_SIZE_BUFFER */ 10, 0, 0); if (size < 1) { ALOGD("no kernel logs"); return helper.newByteArray(0).detach(); } char *buf = (char *)malloc(size); if (buf == NULL) { ALOGD("can't allocate temporary storage"); return helper.newByteArray(0).detach(); } int read = klogctl(/* SYSLOG_ACTION_READ_ALL */ 3, buf, size); if (read < 0) { ALOGD("can't read logs - %d", read); free(buf); return helper.newByteArray(0).detach(); } else { ALOGV("read %d bytes", read); } if (read != size) { ALOGV("read %d bytes, expecting %d", read, size); } JNIObject result = helper.newByteArray(read); if (result.isNull()) { ALOGD("can't allocate array"); free(buf); return result.detach(); } helper.setByteArrayRegion(result, 0, read, (jbyte*)buf); free(buf); return result.detach(); } static jint android_net_wifi_configure_nd_offload(JNIEnv *env, jclass cls, jint iface, jboolean enable) { JNIHelper helper(env); return hal_fn.wifi_configure_nd_offload( getIfaceHandle(helper, cls, iface), static_cast(enable)); } // ---------------------------------------------------------------------------- /* * JNI registration. */ static JNINativeMethod gWifiMethods[] = { /* name, signature, funcPtr */ { "loadDriverNative", "()Z", (void *)android_net_wifi_loadDriver }, { "isDriverLoadedNative", "()Z", (void *)android_net_wifi_isDriverLoaded }, { "unloadDriverNative", "()Z", (void *)android_net_wifi_unloadDriver }, { "startSupplicantNative", "(Z)Z", (void *)android_net_wifi_startSupplicant }, { "killSupplicantNative", "(Z)Z", (void *)android_net_wifi_killSupplicant }, { "connectToSupplicantNative", "()Z", (void *)android_net_wifi_connectToSupplicant }, { "closeSupplicantConnectionNative", "()V", (void *)android_net_wifi_closeSupplicantConnection }, { "waitForEventNative", "()Ljava/lang/String;", (void*)android_net_wifi_waitForEvent }, { "doBooleanCommandNative", "(Ljava/lang/String;)Z", (void*)android_net_wifi_doBooleanCommand }, { "doIntCommandNative", "(Ljava/lang/String;)I", (void*)android_net_wifi_doIntCommand }, { "doStringCommandNative", "(Ljava/lang/String;)Ljava/lang/String;", (void*) android_net_wifi_doStringCommand }, { "startHalNative", "()Z", (void*) android_net_wifi_startHal }, { "stopHalNative", "()V", (void*) android_net_wifi_stopHal }, { "waitForHalEventNative", "()V", (void*) android_net_wifi_waitForHalEvents }, { "getInterfacesNative", "()I", (void*) android_net_wifi_getInterfaces}, { "getInterfaceNameNative", "(I)Ljava/lang/String;", (void*) android_net_wifi_getInterfaceName}, { "getScanCapabilitiesNative", "(ILcom/android/server/wifi/WifiNative$ScanCapabilities;)Z", (void *) android_net_wifi_getScanCapabilities}, { "startScanNative", "(IILcom/android/server/wifi/WifiNative$ScanSettings;)Z", (void*) android_net_wifi_startScan}, { "stopScanNative", "(II)Z", (void*) android_net_wifi_stopScan}, { "getScanResultsNative", "(IZ)[Landroid/net/wifi/WifiScanner$ScanData;", (void *) android_net_wifi_getScanResults}, { "setHotlistNative", "(IILandroid/net/wifi/WifiScanner$HotlistSettings;)Z", (void*) android_net_wifi_setHotlist}, { "resetHotlistNative", "(II)Z", (void*) android_net_wifi_resetHotlist}, { "trackSignificantWifiChangeNative", "(IILandroid/net/wifi/WifiScanner$WifiChangeSettings;)Z", (void*) android_net_wifi_trackSignificantWifiChange}, { "untrackSignificantWifiChangeNative", "(II)Z", (void*) android_net_wifi_untrackSignificantWifiChange}, { "getWifiLinkLayerStatsNative", "(I)Landroid/net/wifi/WifiLinkLayerStats;", (void*) android_net_wifi_getLinkLayerStats}, { "setWifiLinkLayerStatsNative", "(II)V", (void*) android_net_wifi_setLinkLayerStats}, { "getSupportedFeatureSetNative", "(I)I", (void*) android_net_wifi_getSupportedFeatures}, { "requestRangeNative", "(II[Landroid/net/wifi/RttManager$RttParams;)Z", (void*) android_net_wifi_requestRange}, { "cancelRangeRequestNative", "(II[Landroid/net/wifi/RttManager$RttParams;)Z", (void*) android_net_wifi_cancelRange}, { "enableRttResponderNative", "(IIILcom/android/server/wifi/WifiNative$WifiChannelInfo;)Landroid/net/wifi/RttManager$ResponderConfig;", (void*) android_net_wifi_enableResponder}, { "disableRttResponderNative", "(II)Z", (void*) android_net_wifi_disableResponder}, { "setScanningMacOuiNative", "(I[B)Z", (void*) android_net_wifi_setScanningMacOui}, { "getChannelsForBandNative", "(II)[I", (void*) android_net_wifi_getValidChannels}, { "setDfsFlagNative", "(IZ)Z", (void*) android_net_wifi_setDfsFlag}, { "setInterfaceUpNative", "(Z)Z", (void*) android_net_wifi_set_interface_up}, { "getRttCapabilitiesNative", "(I)Landroid/net/wifi/RttManager$RttCapabilities;", (void*) android_net_wifi_get_rtt_capabilities}, { "getApfCapabilitiesNative", "(I)Landroid/net/apf/ApfCapabilities;", (void*) android_net_wifi_get_apf_capabilities}, { "installPacketFilterNative", "(I[B)Z", (void*) android_net_wifi_install_packet_filter}, {"setCountryCodeHalNative", "(ILjava/lang/String;)Z", (void*) android_net_wifi_set_Country_Code_Hal}, { "setPnoListNative", "(IILcom/android/server/wifi/WifiNative$PnoSettings;)Z", (void*) android_net_wifi_setPnoListNative}, { "resetPnoListNative", "(II)Z", (void*) android_net_wifi_resetPnoListNative}, {"enableDisableTdlsNative", "(IZLjava/lang/String;)Z", (void*) android_net_wifi_enable_disable_tdls}, {"getTdlsStatusNative", "(ILjava/lang/String;)Lcom/android/server/wifi/WifiNative$TdlsStatus;", (void*) android_net_wifi_get_tdls_status}, {"getTdlsCapabilitiesNative", "(I)Lcom/android/server/wifi/WifiNative$TdlsCapabilities;", (void*) android_net_wifi_get_tdls_capabilities}, {"getSupportedLoggerFeatureSetNative","(I)I", (void*) android_net_wifi_get_supported_logger_feature}, {"getDriverVersionNative", "(I)Ljava/lang/String;", (void*) android_net_wifi_get_driver_version}, {"getFirmwareVersionNative", "(I)Ljava/lang/String;", (void*) android_net_wifi_get_firmware_version}, {"getRingBufferStatusNative", "(I)[Lcom/android/server/wifi/WifiNative$RingBufferStatus;", (void*) android_net_wifi_get_ring_buffer_status}, {"startLoggingRingBufferNative", "(IIIIILjava/lang/String;)Z", (void*) android_net_wifi_start_logging_ring_buffer}, {"getRingBufferDataNative", "(ILjava/lang/String;)Z", (void*) android_net_wifi_get_ring_buffer_data}, {"getFwMemoryDumpNative","(I)Z", (void*) android_net_wifi_get_fw_memory_dump}, {"getDriverStateDumpNative","(I)[B", (void*) android_net_wifi_get_driver_state_dump}, { "setBssidBlacklistNative", "(II[Ljava/lang/String;)Z", (void*)android_net_wifi_setBssidBlacklist}, {"setLoggingEventHandlerNative", "(II)Z", (void *) android_net_wifi_set_log_handler}, {"resetLogHandlerNative", "(II)Z", (void *) android_net_wifi_reset_log_handler}, {"startPktFateMonitoringNative", "(I)I", (void*) android_net_wifi_start_pkt_fate_monitoring}, {"getTxPktFatesNative", "(I[Lcom/android/server/wifi/WifiNative$TxFateReport;)I", (void*) android_net_wifi_get_tx_pkt_fates}, {"getRxPktFatesNative", "(I[Lcom/android/server/wifi/WifiNative$RxFateReport;)I", (void*) android_net_wifi_get_rx_pkt_fates}, { "startSendingOffloadedPacketNative", "(II[B[B[BI)I", (void*)android_net_wifi_start_sending_offloaded_packet}, { "stopSendingOffloadedPacketNative", "(II)I", (void*)android_net_wifi_stop_sending_offloaded_packet}, {"startRssiMonitoringNative", "(IIBB)I", (void*)android_net_wifi_start_rssi_monitoring_native}, {"stopRssiMonitoringNative", "(II)I", (void*)android_net_wifi_stop_rssi_monitoring_native}, { "getWlanWakeReasonCountNative", "(I)Landroid/net/wifi/WifiWakeReasonAndCounts;", (void*) android_net_wifi_get_wlan_wake_reason_count}, {"isGetChannelsForBandSupportedNative", "()Z", (void*)android_net_wifi_is_get_channels_for_band_supported}, {"readKernelLogNative", "()[B", (void*)android_net_wifi_readKernelLog}, {"configureNeighborDiscoveryOffload", "(IZ)I", (void*)android_net_wifi_configure_nd_offload}, }; /* User to register native functions */ extern "C" jint Java_com_android_server_wifi_WifiNative_registerNatives(JNIEnv* env, jclass clazz) { // initialization needed for unit test APK JniConstants::init(env); return jniRegisterNativeMethods(env, "com/android/server/wifi/WifiNative", gWifiMethods, NELEM(gWifiMethods)); } }; // namespace android