本文档分析了Android的WIFI功能代码,对Android的WIFI功能实现起到一定的参考作用。
在Linux中,wlan(无线局域网)设备驱动是网络设备,使用网络接口。Wlan 在用户空间使用标准的socket 接口进行控制。
内核的移植(wifi驱动的加载):
一、WIFI 协议和驱动程序在内核进行 menuconfig 配置时,配置选项为: 1、“networking support ”>"wireless".
2.、“device drivers” > "network device support" >"wireless LAN"
二、android wifi 基本架构
JAVA应用层 Setting、WifiSwitcher等应用
上下的通讯为Binder机制
JAVA框架层
Wifi manager
Wifi service
上下通讯为JNI
C/C++ 框架层
Wifi的JNI
WPA适配层
Wpa_supplicant程序
内核空间 Wifi的内核驱动程序
5. WIFI中间层的运行解析
1、android下如何通过jni监控wifi网络连接、dhcpcd执行和power电源控制
libs/android_runtime/android_net_wifi_Wifi.Cpp
部分jni接口
static JNINativeMethod gWifiMethods[] = {
{ "loadDriver", "()Z", (void *)android_net_wifi_loadDriver },
{ "setPowerModeCommand", "(I)Z", (void*) android_net_wifi_setPowerModeCommand },//电源管理
{ "connectToSupplicant", "()Z", (void *)android_net_wifi_connectToSupplicant },
{ "waitForEvent", "()Ljava/lang/String;", (void*) android_net_wifi_waitForEvent },
{ "disconnectCommand", "()Z", (void *)android_net_wifi_disconnectCommand },
...
};
int register_android_net_wifi_WifiManager(JNIEnv* env)
{
...
return AndroidRuntime::registerNativeMethods(env,
WIFI_PKG_NAME, gWifiMethods, NELEM(gWifiMethods));//登记jni
}
libs/android_runtime/AndroidRuntime.cpp
static const RegJNIRec gRegJNI[] = {
...
REG_JNI(register_android_net_wifi_WifiManager),
...
};
int AndroidRuntime::startReg(JNIEnv* env)
{
...
register_jni_procs(gRegJNI, NELEM(gRegJNI), env);
...
}
AndroidRuntime::start
=>startReg(env)即调用方法int AndroidRuntime::startReg(JNIEnv* env)
==============================================================================
wifi_load_driver
wifi_start_supplicant
=>ensure_config_file_exists
//检查/data/misc/wifi/wpa_supplicant.conf文件是否存在,如果不存在,那么从/system/etc/wifi/wpa_supplicant.conf动态拷贝一份
android_net_wifi_connectToSupplicant
=>wifi_connect_to_supplicant
=>
ctrl_conn = wpa_ctrl_open(ifname);
monitor_conn = wpa_ctrl_open(ifname);
wpa_ctrl_attach(monitor_conn);
android_net_wifi_waitForEvent
=>wifi_wait_for_event
=>wpa_ctrl_recv(monitor_conn, buf, &nread);
=>recv(ctrl->s, reply, *reply_len, 0);//阻塞等待wpa_supplicant的netlink数据过来
=>如果接收的buf数据区,buf[0]为'<',那么说明有level级别信息,所以将'<'...'>'数据剔除,然后wifi_wait_for_event函数返回[luther.gliethttp].
java/android/android/net/wifi/WifiMonitor.java
public class WifiMonitor {
...
public void startMonitoring() {
new MonitorThread().start();//启动java线程
}
class MonitorThread extends Thread {
public MonitorThread() {
super("WifiMonitor");
}
public void run() {
for (;;) {
ensureSupplicantConnection();//=>WifiNative.connectToSupplicant调用jni函数android_net_wifi_connectToSupplicant
String eventStr = WifiNative.waitForEvent();//=>调用jni函数android_net_wifi_waitForEvent
//private static final int CONNECTED = 1;
//private static final int DISCONNECTED = 2;
//private static final String eventPrefix = "CTRL-EVENT-";
//private static final int eventPrefixLen = eventPrefix.length();
//private static final String connectedEvent = "CONNECTED";
//private static final String disconnectedEvent = "DISCONNECTED";
String eventName = eventStr.substring(eventPrefixLen);//去掉"CTRL-EVENT-"字符串
int nameEnd = eventName.indexOf(' ');//找到随后的空格位置,这在wpa_supplicant发送时
//#define WPA_EVENT_CONNECTED "CTRL-EVENT-CONNECTED "中,已经内置空格了.
if (nameEnd != -1)
eventName = eventName.substring(0, nameEnd);
int event;
if (eventName.equals(connectedEvent))//检测netlink过来的字符串action类型
event = CONNECTED;
else if (eventName.equals(disconnectedEvent))
event = DISCONNECTED;
...
int ind = eventStr.indexOf(" - ");//CTRL-EVENT-CONNECTED - Connection to ...
if (ind != -1)
eventData = eventStr.substring(ind + 3);
//剔除前导控制字符,将" - "后面的描述字符串作为真实数据,继续处理
...
if (event == STATE_CHANGE) {
handleSupplicantStateChange(eventData);
} else if (event == DRIVER_STATE) {
handleDriverEvent(eventData);
} else {
handleEvent(event, eventData);//对于CONNECTED和DISCONNECTED等netlink事件将执行此操作来处理[luther.gliethttp]
// If supplicant is gone, exit the thread
if (event == TERMINATING) {
break;
}
}
...
void handleEvent(int event, String remainder) {
switch (event) {
case DISCONNECTED:
handleNetworkStateChange(NetworkInfo.DetailedState.DISCONNECTED, remainder);
break;
case CONNECTED:
handleNetworkStateChange(NetworkInfo.DetailedState.CONNECTED, remainder);//控制界面显示
break;
...
}
public class WifiStateTracker extends NetworkStateTracker {
...
public void startEventLoop() {
mWifiMonitor.startMonitoring();//启动上面的MonitorThread线程
}
...
}
java/services/com/android/server/WifiService.java
public class WifiService extends IWifiManager.Stub {
...
private boolean setWifiEnabledBlocking(boolean enable) {
final int eventualWifiState = enable ? WIFI_STATE_ENABLED : WIFI_STATE_DISABLED;
...
if (enable) {
if (WifiNative.loadDriver()) {
Log.e(TAG, "Failed to load Wi-Fi driver.");
updateWifiState(WIFI_STATE_UNKNOWN);
return false;
}
if (WifiNative.startSupplicant()) {
WifiNative.unloadDriver();
Log.e(TAG, "Failed to start supplicant daemon.");
updateWifiState(WIFI_STATE_UNKNOWN);
return false;
}
mWifiStateTracker.startEventLoop();
//启动MonitorThread线程,等待wpa_supplicant将netlink数据转发过来,然后根据netlink动作类型,进一步影响界面显示[luther.gliethttp].
}
...
}
java/android/android/net/wifi/WifiStateTracker.java
电源管理
private void handleConnectedState() {
...
mDhcpTarget.obtainMessage(EVENT_DHCP_START).sendToTarget();//传递到下面的handleMessage方法
...
}
public void onChange(boolean selfChange) {
...
handleConnectedState();
...
}
public class WifiStateTracker extends NetworkStateTracker {
...
public void handleMessage(Message msg) {
switch (msg.what) {
case EVENT_SUPPLICANT_CONNECTION:
case EVENT_NETWORK_STATE_CHANGED:
handleConnectedState();//调用
...
private class DhcpHandler extends Handler {
private Handler mTarget;
public DhcpHandler(Looper looper, Handler target) {
super(looper);
mTarget = target;
}
public void handleMessage(Message msg) {
int event;
//private static final int DRIVER_POWER_MODE_AUTO = 0;
//private static final int DRIVER_POWER_MODE_ACTIVE = 1;
switch (msg.what) {
case EVENT_DHCP_START:
synchronized (this) {
WifiNative.setPowerModeCommand(DRIVER_POWER_MODE_ACTIVE);//设置电源模式,调用android_net_wifi_setPowerModeCommand
}
Log.d(TAG, "DhcpHandler: DHCP request started");
//libs/android_runtime/android_net_NetUtils.cpp
//static JNINativeMethod gNetworkUtilMethods[] = {
//{ "runDhcp", "(Ljava/lang/String;Landroid/net/DhcpInfo;)Z", (void *)android_net_utils_runDhcp },
// ...
//};
if (NetworkUtils.runDhcp(mInterfaceName, mDhcpInfo)) {//执行dhcp申请ip地址操作
event = EVENT_INTERFACE_CONFIGURATION_SUCCEEDED;
if (LOCAL_LOGD) Log.v(TAG, "DhcpHandler: DHCP request succeeded");
} else {
event = EVENT_INTERFACE_CONFIGURATION_FAILED;
Log.i(TAG, "DhcpHandler: DHCP request failed: " +
NetworkUtils.getDhcpError());
//如果dhcpcd分配ip失败,那么Message.obtain(mTarget, event).sendToTarget();将执行
//WifiNative.disconnectCommand();即:static JNINativeMethod gWifiMethods[] = {
//android_net_wifi_disconnectCommand发送"DISCONNECT"字符串[luther.gliethttp]
//然后在wpa_supplicant服务端执行wpa_supplicant_ctrl_iface_process
//wpa_supplicant_disassociate
}
synchronized (this) {
WifiNative.setPowerModeCommand(DRIVER_POWER_MODE_AUTO);
}
Message.obtain(mTarget, event).sendToTarget();
break;
}
}
}
...
/**
* Send the tracker a notification that a connection to the supplicant
* daemon has been established.
*/
//在上面的public class WifiMonitor=>ensureSupplicantConnection
//=>
//while (!supplicantConnected) {
// boolean connected;
//synchronized (mWifiStateTracker) {
//connected = WifiNative.connectToSupplicant();//如果没有连接成功,那么while循环尝试,直到尝试成功,或者定义了oneShot,仅一次尝试
//=>mWifiStateTracker.notifySupplicantConnection();//如果WifiNative.connectToSupplicant()成功,那么将执行
//mWifiStateTracker.notifySupplicantConnection();的调用.
void notifySupplicantConnection() {//向对象发送message
Message.obtain(this, EVENT_SUPPLICANT_CONNECTION).sendToTarget();
}
void notifyStateChange(SupplicantState newState) {
Message.obtain(this, EVENT_SUPPLICANT_STATE_CHANGED, newState).sendToTarget();
}
...
}
static jboolean android_net_wifi_setPowerModeCommand(JNIEnv* env, jobject clazz, jint mode)
{
char cmdstr[256];
sprintf(cmdstr, "DRIVER POWERMODE %d", mode);
return doBooleanCommand(cmdstr, "OK");
}
android_net_wifi_setPowerModeCommand
=>doBooleanCommand
=>doCommand
=>wifi_command
=>wifi_send_command
=>wpa_ctrl_request
=>send给wpa_supplicant
然后wpa_supplicant将做如下接收操作:
system/extra/wpa_supplicant/main.c
=>wpa_supplicant_add_iface
=>wpa_supplicant_init_iface2
=>wpa_supplicant_ctrl_iface_init
=>注册ctrl_conn控制端口和monitor_conn监听端口的处理函数
eloop_register_read_sock(priv->sock, wpa_supplicant_ctrl_iface_receive, wpa_s, priv);//ctrl_conn端口的handler处理函数
wpa_msg_register_cb(wpa_supplicant_ctrl_iface_msg_cb);//monitor_conn端口的回调处理函数,处理netlink数据到所有monitor_conn监听端口
=>wpa_supplicant_ctrl_iface_receive//对于unix通信方式
=>wpa_supplicant_ctrl_iface_process
=>如果wpa_cli发送的是wpa_cli driver xxx形式的命令,那么调用这个函数
if (os_strncmp(buf, "DRIVER ", 7) == 0) {//掠过前7个,直接将命令传过去
reply_len = wpa_supplicant_driver_cmd(wpa_s, buf + 7, reply, reply_size);
=>wpa_supplicant_driver_cmd
=>wpa_drv_driver_cmd
=>自定义DRIVER扩展处理函数,所以对于java传递过来的power电源管理命令,wpa_drv_driver_cmd将收到"POWERMODE 0"或者"POWERMODE 1"字符串[luther.gliethttp]
===========================================================================================
jni
=>runDhcp
=>android_net_utils_runDhcp
libs/netutils/dhcp_utils.c
=>dhcp_do_request
=>
static const char DAEMON_NAME[] = "dhcpcd";
static const char DAEMON_PROP_NAME[] = "init.svc.dhcpcd";
static const char DHCP_PROP_NAME_PREFIX[] = "dhcp";
const char *ctrl_prop = "ctl.start";
const char *desired_status = "running";
snprintf(result_prop_name, sizeof(result_prop_name), "%s.%s.result",
DHCP_PROP_NAME_PREFIX,
interface);
property_set(result_prop_name, "");//设置dhcp.eth0.result="";等到成功完成dhcp之后,
property_set(ctrl_prop, DAEMON_NAME);//向名字为dhcpcd的service,发送"ctrl.start"启动命令字,该service在init.rc中
//init.rc中dhcpcd服务进程命令字
//service dhcpcd /system/bin/dhcpcd eth0
// disabled
// oneshot
wait_for_property(DAEMON_PROP_NAME, desired_status, 10);
//init.c=>init进程
//=>handle_property_set_fd因为是"ctrl.start"命令字,所以调用handle_control_message处理控制信息
//=>handle_control_message
//=>msg_start
//=>
// struct service *svc = service_find_by_name(name);
// service_start(svc);//启动svc,即执行:/system/bin/dhcpcd eth0
//=>service_start
//=>pid = fork();
// if(pid == 0)execve(svc->args[0], (char**) svc->args, (char**) ENV);子进程执行execve运行/system/bin/dhcpcd,参数为eth0
//=>否则父进程,即init进程将
//=>notify_service_state(svc->name, "running");设置该svc的状态prop
// snprintf(pname, sizeof(pname), "init.svc.%s", name);
// property_set(pname, state);//所以这样上面wait_for_property(DAEMON_PROP_NAME, desired_status, 10);也才能够正常pass[luther.gliethttp].
wait_for_property(result_prop_name, NULL, 15);//等待dhcp.eth0.result=非空
===========================================================================================
system/extra/dhcpcd-4.0.0-beta9/dhcpcd.c
dhcpcd
=>main
# define SYSCONFDIR "/system/etc/dhcpcd"
#define PACKAGE "dhcpcd"
# define CONFIG SYSCONFDIR "/" PACKAGE ".conf"
# define LIBEXECDIR "/system/etc/dhcpcd"
# define SCRIPT LIBEXECDIR "/" PACKAGE "-run-hooks"
=>strlcpy(options->script, SCRIPT,sizeof(options->script));//默认的options->script="/system/etc/dhcpcd/dhcpcd-run-hooks"
=>f = fopen(cf ? cf : CONFIG, "r");//如果没有指定.conf文件,那么使用默认.conf文件
=>parse_config_line//解析"/system/etc/dhcpcd/dhcpcd.conf"默认配置文件
=>parse_option
=>如果在"/system/etc/dhcpcd/dhcpcd.conf"有"script"这个节
=>那么执行strlcpy(options->script, oarg, sizeof(options->script));直接拷贝
/*
{"script", required_argument, NULL, 'c'},
{"option", required_argument, NULL, 'o'},
"/system/etc/dhcpcd/dhcpcd.conf"中的部分内容如下:
...
option domain_name_servers, domain_name, domain_search, host_name
...
*/
=>dhcp_run
=>handle_dhcp_packet
=>handle_dhcp
=>bind_dhcp
reason = "TIMEOUT";reason = "BOUND";reason = "REBIND";reason = "RENEW";
system/extra/dhcpcd-4.0.0-beta9/configure.c
=> configure(iface, reason, state->new, state->old, &state->lease, options, 1);
//如果dhcp超时或者dhcp成功,都会调用exec_script来执行脚本,
//执行setprop dhcp.${interface}.result "failed"或者
//执行setprop dhcp.${interface}.result "ok"
=>exec_script(options, iface->name, reason, NULL, old);
=>然后configure_env通过环境变量将reason传递到脚本中
int exec_script(const struct options *options, const char *iface, const char *reason,
const struct dhcp_message *dhcpn, const struct dhcp_message *dhcpo)
=>pid = fork();
=>if(pid == 0)execve(options->script, argv, env);//子进程执行脚本,默认"/system/etc/dhcpcd/dhcpcd-run-hooks"
//dhcpcd-run-hooks脚本会根据level值,决定是否执行system/etc/dhcpcd/dhcpcd-hook/*目录下的相应文件
//我们的系统在该system/etc/dhcpcd/dhcpcd-hook/*目录下有如下3个文件
//95-configured
//20-dns.conf
//01-test
=>父进程返回while (waitpid(pid, &status, 0) == -1)等待子进程脚本执行完成
system/extra/dhcpcd-4.0.0-beta9/dhcpcd-hooks/20-dns.conf
system/extra/dhcpcd-4.0.0-beta9/dhcpcd-hooks/95-configured
...
setprop dhcp.${interface}.ipaddress "${new_ip_address}"
setprop dhcp.${interface}.result "ok"//设置属性为ok
setprop dhcp.${interface}.result "failed"
...
===========================================================================================
inet_init、tcp_prot
sock->ops->sendmsg(iocb, sock, msg, size);
=>inetsw_array[]
=>inet_stream_ops
=>tcp_sendmsg
===========================================================================================
wpa_cli.c
=>main
=>wpa_cli_interactive
=>wpa_cli_recv_pending(monitor_conn, 0, 0);//阻塞等待wpa_supplicant发送数据过来
=>如果action_monitor为true,那么将执行一些简单加工操作,否则将直接将wpa_supplicant发过来的数据打印到console上[luther.gliethttp].
参考文献
网络资源:
http://osdir.com/ml/android-porting/2009-06/msg00714.html
http://osdir.com/ml/android-porting/2009-07/msg00303.html
http://bbs.imp3.net/redirect.php?tid=747705&goto=newpost
http://osdir.com/ml/android-porting/2010-02/msg00152.html
http://blog.chinaunix.net/u2/66024/showart_1926589.html
关于 wifi问题的处理
wifi porting文件和目录
porting wifi主要分为两个部分,源码的修改和配置文件的修改,其中配置文件的修改包括源码未编译时配置文件的修改和源码编译后的配置文件修改,下面就这两部分分析:
A:android未编译时的配置文件修改和源码修改
1:/android-cupcake/build/target/board/generic/ BoardConfig.mk
确定是否存在HAVE_CUSTOM_WIFI_DRIVER_2 := true,如果没有则添加该选项
/android-eclair/external/wpa_supplicant/.config.h
确定.config.h中,是否存在以下3个选项
CONFIG_WIRELESS_EXTENSION=y
CONFIG_CTRL_IFACE=y
CONFIG_DRIVER_WEXT=y
以上是支持wifi驱动的选项!
2:修改的源码文件
2.1/android-cupcake/system/wlan/ti/sta_dk_4_0_4_32/CUDK/tiwlan_loader/tiwlan_loader.c
这个文件修改的tiwlan_loader服务,这个服务在android1.5中需要返回成功,表示加载wifi的固件到eeprom中成功,而实际内核在加载wifi驱动的时候,同时加载了固件(即提供的bin文件)。但是在android2.0中,这个服务不是必须的!在编译tiwlan_loader.c时需要/android-cupcake/system/wlan/ti/sta_dk_4_0_4_32/CUDK/UtilityAdapter编译出来的库。
2.2/android-cupcake/hardware/libhardware_legacy/wifi/wifi.c
这个是porting wifi驱动的最重要的文件,其中包括驱动加载,连接wpa_supplicant服务都是在wifi.c中完成。所以要修改驱动加载的网络接口名和相关的宏。
2.3/android-cupcake/frameworks/base/wifi/java/android/net/wifi
这个目录下是wifi中相关的java代码,其中修改的WifiStateTracker.java,这个主要修改dhcp时,获取动态ip地址的网络接口名。
2.4 external/wpa_supplicant/ctrl_iface_unix.c
这个主要修改wpa_supplicatn连接时的权限,wpa_supplicant服务启动的时候客户端和服务端通过unixsocket通信,JAVA UI界面是通过此socket文件与驱动联系,此服务生成的socket在/data/system/wpa_supplicant/目录下,如果涉及到权限问题,则需要修改 external/wpa_supplicant/ctrl_iface_unix.c中相关的目录的权限
2.5 frameworks/base/services/java/com/android/server/WifiService.java
这个在android1.5中,上传到BSSID,ISSID,java代码无法识别。在android2.0中无需修改。
B:android编译后的相关配置文件的修改
3.1/system/etc/wifi/wpa_supplicant.conf
看目录下是否存在该文件,如果不存在,则添加;并且添加wpa_supplicant服务socket的服务接口,如下所示:
ctrl_interface=/data/system/wpa_supplicant//默认的mlan0无线网络接口的目录
update_config=1 //这个可能是更新的配置,但不确认
3.2/system/etc/dhcpcd/dhcpcd.conf
看是否存在改文件,不存在则添加,并且修改无线网络接口的网络名字,如android默认的是tiwlan0 ,而我的无线网络接口是mlan0,则把interface 后面的接口改成mlan0
3.3 init.rc
service wpa_supplicant /system/bin/wpa_supplicant -imlan0 -c/system/etc/wifi/wpa_supplicant.conf
disable
oneshot
service dhcpcd /system/bin/dhcpcd -d -f /system/etc/dhcpcd/dhcpcd.conf mlan0
disable
oneshot
以上是添加在wifi的服务。
mkdir /data/misc/wifi 0777 wifi wifi
mkdir /data/misc/wifi/sockets 0777 wifi wifi
mkdir /data/system/wpa_supplicant 0777 wifi wifi
mkdir /data/misc/dhcp 0777 dhcp dhcp
chown dhcp dhcp /data/misc/dhcp
新建以上的目录。
如果你不的平台不出稀奇古怪的问题的话,现在你已经可以ping通你想用的ip地址咯!