android 蓝牙Bluetooth 4.2.2打开蓝牙实现
2015-12-05 13:48
639 查看
4.2的蓝牙打开流程这一部分还是有些变化的,从界面上看蓝牙开关就是设置settings里那个switch开关,widget开关当然也可以,起点不同而已,后续的流程是一样的。先来看systemServer.java的代码,蓝牙服务开启的地方,最后一个else分支是我们关心的,前两个是模拟器的一个测试模式的。
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if (SystemProperties.get("ro.kernel.qemu").equals("1")) {
Slog.i(TAG, "No Bluetooh Service (emulator)");
} else if (factoryTest == SystemServer.FACTORY_TEST_LOW_LEVEL) {
Slog.i(TAG, "No Bluetooth Service (factory test)");
} else {
Slog.i(TAG, "Bluetooth Manager Service");
bluetooth = new BluetoothManagerService(context);
ServiceManager.addService(BluetoothAdapter.BLUETOOTH_MANAGER_SERVICE, bluetooth);
}
暂且看下bluetoothManagerService的构造方法,代码有点多,我们只看两个地方, loadStoredNameAndAddress()是读取蓝牙打开默认名称的地方,isBluetoothPersistedStateOn()是判断是否已打开蓝牙的,如果已打开,后续操作要执行开启蓝牙的动作,前面那几行注册广播其中就有这个作用。
[java] view
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BluetoothManagerService(Context context) {
...一些变量声明初始化...
IntentFilter filter = new IntentFilter(Intent.ACTION_BOOT_COMPLETED);
filter.addAction(BluetoothAdapter.ACTION_LOCAL_NAME_CHANGED);
filter.addAction(Intent.ACTION_USER_SWITCHED);
registerForAirplaneMode(filter);
mContext.registerReceiver(mReceiver, filter);
loadStoredNameAndAddress();
if (isBluetoothPersistedStateOn()) {
mEnableExternal = true;
}
}
回到界面开关那个看得着的地方,界面上开关就是BluetoothEnabler.java这个类了,而setBluetoothEnabled()则是具体开关动作。看下代码
[java] view
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public void onCheckedChanged(CompoundButton buttonView, boolean isChecked) {
// Show toast message if Bluetooth is not allowed in airplane mode
if (isChecked &&
!WirelessSettings.isRadioAllowed(mContext, Settings.Global.RADIO_BLUETOOTH)) {
Toast.makeText(mContext, R.string.wifi_in_airplane_mode, Toast.LENGTH_SHORT).show();
// Reset switch to off
buttonView.setChecked(false);
}
if (mLocalAdapter != null) {
mLocalAdapter.setBluetoothEnabled(isChecked);
}
mSwitch.setEnabled(false);
}
这里在判断是飞行模式不知道为什么没有return,如果是飞行模式会有提示toast弹出,既然这样源码为什么还要执行下面打开流程呢,也许是个bug?不细究这个了,继续看setBluetoothEnabled()方法做什么了,很明显mLocalAdapter(LocalBluetoothAdapter )只是个过渡,里面的 mAdapter(BluetoothAdapter)才是真正的主角,代码如下:
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public void setBluetoothEnabled(boolean enabled) {
boolean success = enabled ? mAdapter.enable() : mAdapter.disable();
if (success) {
setBluetoothStateInt(enabled
? BluetoothAdapter.STATE_TURNING_ON
: BluetoothAdapter.STATE_TURNING_OFF);
} else {
.........
}
}
在BluetoothAdapter.java里可以看到一个单例模式的应用,主要提供给其它程序调用蓝牙的一些方法用的,外部程序想调用蓝牙的方法就要先用这个
拿到BluetoothAdapter对象,代码也简单看下吧,里面是典型的binder应用。
[java] view
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public static synchronized BluetoothAdapter getDefaultAdapter() {
if (sAdapter == null) {
IBinder b = ServiceManager.getService(BLUETOOTH_MANAGER_SERVICE);
if (b != null) {
IBluetoothManager managerService = IBluetoothManager.Stub.asInterface(b);
sAdapter = new BluetoothAdapter(managerService);
} else {
Log.e(TAG, "Bluetooth binder is null");
}
}
return sAdapter;
此时我们更关心mAdapter.enable()的后续操作,外部其它应用到getDefaultAdapter()也是调用enable(),注意,到了BluetoothAdapter我们已经在framework层了,顺着BluetoothAdapter.java的enable()调用先回到BluetoothManagerService.java的enable(),再进一步来到BluetoothManagerService.java中的handleEnable()
方法,后面要跳转到新类了,贴出来一起看下,这部分好像不同版本还有些出入,不过核心的启动service是一样的,不影响理解。
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private void handleEnable(boolean persist, boolean quietMode) {
synchronized(mConnection) {
if ((mBluetooth == null) && (!mBinding)) {
//Start bind timeout and bind
Message timeoutMsg=mHandler.obtainMessage(MESSAGE_TIMEOUT_BIND);
mHandler.sendMessageDelayed(timeoutMsg,TIMEOUT_BIND_MS);
mConnection.setGetNameAddressOnly(false);
Intent i = new Intent(IBluetooth.class.getName());
if (!mContext.bindService(i, mConnection,Context.BIND_AUTO_CREATE,
UserHandle.USER_CURRENT)) {
mHandler.removeMessages(MESSAGE_TIMEOUT_BIND);
Log.e(TAG, "Fail to bind to: " + IBluetooth.class.getName());
} else {
mBinding = true;
}
}
下面跑到哪个service里去了呢,在log信息里可以看到"ActivityManager: Start proc com.android.bluetooth for service com.android.bluetooth/.btservice.AdapterService:"
这样的信息,那就是去AdapterService里看看,里面一共有三个enable(),跳转关系不复杂,我们直接看最后一个关键的。
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public synchronized boolean enable(boolean quietMode) {
enforceCallingOrSelfPermission(BLUETOOTH_ADMIN_PERM,
"Need BLUETOOTH ADMIN permission");
if (DBG)debugLog("Enable called with quiet mode status = " + mQuietmode);
mQuietmode = quietMode;
Message m =
mAdapterStateMachine.obtainMessage(AdapterState.USER_TURN_ON);
mAdapterStateMachine.sendMessage(m);
return true;
}
状态机来了,状态转换图,从一个状态接受命令跳到另一个状态,因为我们是在开启蓝牙,所以先去的AdapterState.java内部类offstate.java里面找,在这个分支USER_TURN_ON看到mAdapterService.processStart();在这里面可以看到蓝牙遍历下所支持的profile,最后又发出个带AdapterState.STARTED标识的消息
处理在同文件下面的代码里
[java] view
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case STARTED: {
if (DBG) Log.d(TAG,"CURRENT_STATE=PENDING, MESSAGE = STARTED, isTurningOn=" + isTurningOn + ", isTurningOff=" + isTurningOff);
//Remove start timeout
removeMessages(START_TIMEOUT);
//Enable
boolean ret = mAdapterService.enableNative();
if (!ret) {
Log.e(TAG, "Error while turning Bluetooth On");
notifyAdapterStateChange(BluetoothAdapter.STATE_OFF);
transitionTo(mOffState);
} else {
sendMessageDelayed(ENABLE_TIMEOUT, ENABLE_TIMEOUT_DELAY);
}
看到那个enableNative()函数调用了吧,又要用到JNI了,稍微回头看下前面的代码,我们先从应用界面开关BluetoothEnabler走到framework的BluetoothAdapter,又回到package的adapterService,现在又要去JNI的C++代码了,往常一般是packages -->framework-->下面一层,这次顺序有些颠倒了,不过这不能影响我们跟踪代码,最后
还是要到下面去的。一起往下看吧。
根据android JNI的函数命名惯例很容易找到enableNative对应的C++函数在packages/apps/Bluetooth/jni/com_android_bluetooth_btservice_AdapterService.cpp里面
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static jboolean enableNative(JNIEnv* env, jobject obj) {
ALOGV("%s:",__FUNCTION__);
jboolean result = JNI_FALSE;
if (!sBluetoothInterface) return result;
int ret = sBluetoothInterface->enable();
result = (ret == BT_STATUS_SUCCESS) ? JNI_TRUE : JNI_FALSE;
return result;
}
代码瞬间简洁了不少,看来更多的故事还在下面,sBluetoothInterface这是什么,直接关系到下一步去哪的问题,看下变量声明,原来是
Const bt_interface_t *sBluetoothInterface = NULL; 再去找在哪初始化,搜索external目录可以找到/external/bluetooth/bluedroid/btif/src/bluetooth.c
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static const bt_interface_t bluetoothInterface = {
sizeof(bt_interface_t),
init,
enable,
disable,
.............
start_discovery,
cancel_discovery,
create_bond,
remove_bond,
cancel_bond,
...............
};
原来在这里,说下怎么找到,直接跳转是不成了,看这个文件夹下的mk文件,那里面有libhardware目录是编译的时候要用到,这个多半在hardware目录里,在这里面很快可以看到bluetooth.h,那里面有最我们要找的结构体定义,头文件找到了,再找同名C文件就快了,好了继续吧看下enable()里是怎么实现的
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static int enable( void )
{
ALOGI("enable");
/* sanity check */
if (interface_ready() == FALSE)
return BT_STATUS_NOT_READY;
return btif_enable_bluetooth();
}
又是一个新函数,直接跳转,比起刚才的寻觅这太幸福了
[cpp] view
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bt_status_t btif_enable_bluetooth(void)
{
BTIF_TRACE_DEBUG0("BTIF ENABLE BLUETOOTH");
if (btif_core_state != BTIF_CORE_STATE_DISABLED)
{
ALOGD("not disabled\n");
return BT_STATUS_DONE;
}
btif_core_state = BTIF_CORE_STATE_ENABLING;
/* Create the GKI tasks and run them */
bte_main_enable(btif_local_bd_addr.address);
return BT_STATUS_SUCCESS;
}
忘了写路径了 好在可以直接跳转,下面是/external/bluetooth/bluedroid/main/bte_main.c,有点长,暂时只关心set_power那部分就好了,
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void bte_main_enable(uint8_t *local_addr)
{
APPL_TRACE_DEBUG1("%s", __FUNCTION__);
........................
#if (defined (BT_CLEAN_TURN_ON_DISABLED) && BT_CLEAN_TURN_ON_DISABLED == TRUE)
APPL_TRACE_DEBUG1("%s Not Turninig Off the BT before Turninig ON", __FUNCTION__);
#else
/* toggle chip power to ensure we will reset chip in case
a previous stack shutdown wasn't completed gracefully */
bt_hc_if->set_power(BT_HC_CHIP_PWR_OFF);
#endif
bt_hc_if->set_power(BT_HC_CHIP_PWR_ON);
bt_hc_if->preload(NULL);
}
.............................
}
路径在这里/external/bluetooth/bluedroid/hci/src/bt_hci_bdroid.c,看看set_power里面有什么,快到头了
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static void set_power(bt_hc_chip_power_state_t state)
{
int pwr_state;
BTHCDBG("set_power %d", state);
/* Calling vendor-specific part */
pwr_state = (state == BT_HC_CHIP_PWR_ON) ? BT_VND_PWR_ON : BT_VND_PWR_OFF;
if (bt_vnd_if)
bt_vnd_if->op(BT_VND_OP_POWER_CTRL, &pwr_state);
else
ALOGE("vendor lib is missing!");
}
这下又有新东西了bt_vnd_if,这个是什么,bt_vendor_interface_t *bt_vnd_if=NULL;和刚才的bt_interface_t 一样,我们希望可以找到它的初始化,那样就可以继续跟踪了,不过看到下面的代码和注释,在源码中我们要绝望了。路径:/external/bluetooth/bluedroid/hci/include/bt_vendor_lib.h
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/* Entry point of DLib --
* Vendor library needs to implement the body of bt_vendor_interface_t
* structure and uses the below name as the variable name. HCI library
* will use this symbol name to get address of the object through the
* dlsym call.
*/
extern const bt_vendor_interface_t BLUETOOTH_VENDOR_LIB_INTERFACE;
bt_vendor_interface_t *bt_vnd_if=NULL;
google定义好了接口,具体实现要看vendor厂商来做了,这后面怎么实现就看各家芯片商怎么写了,肯定各有不同,而且这一部分代码一般是不会公开,当然授权购买后除外了。所以在4.2的源码中我们只跟到这里了,那后面会做什么呢,加载驱动和上电这两项肯定要有了,打开蓝牙没这两步怎么行,类似下面的字符串
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static const char* BT_DRIVER_MODULE_PATH = "/system/lib/modules/mbt8xxx.ko";
static const char* BT_DRIVER_MODULE_NAME = "bt8xxx";
static const char* BT_DRIVER_MODULE_INIT_ARG = " init_cfg=";
static const char* BT_DRIVER_MODULE_INIT_CFG_PATH = "bt_init_cfg.conf";
在有类似下面的动作,insmod加载驱动,rfkill控制上下电,具体厂商具体做法也不同。
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ret = insmod(BT_DRIVER_MODULE_PATH, arg_buf);
ret = system("/system/bin/rfkill block all");
写到这,关于4.2源码的蓝牙打开流程就算结束了,比起4.1之前的代码感觉没有以前的直观,对于vendor那部分的代码大家只能看各自厂商的代码了,一般蓝牙开启后才会上电,这样也比较符合逻辑和节省电量,是否上电可以连上手机用adb shell看sys/class/rfkill目录下的state状态值,有些厂商会把蓝牙和wifi的上电算在一起,这个也是要注意的,小心误判。
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if (SystemProperties.get("ro.kernel.qemu").equals("1")) {
Slog.i(TAG, "No Bluetooh Service (emulator)");
} else if (factoryTest == SystemServer.FACTORY_TEST_LOW_LEVEL) {
Slog.i(TAG, "No Bluetooth Service (factory test)");
} else {
Slog.i(TAG, "Bluetooth Manager Service");
bluetooth = new BluetoothManagerService(context);
ServiceManager.addService(BluetoothAdapter.BLUETOOTH_MANAGER_SERVICE, bluetooth);
}
暂且看下bluetoothManagerService的构造方法,代码有点多,我们只看两个地方, loadStoredNameAndAddress()是读取蓝牙打开默认名称的地方,isBluetoothPersistedStateOn()是判断是否已打开蓝牙的,如果已打开,后续操作要执行开启蓝牙的动作,前面那几行注册广播其中就有这个作用。
[java] view
plaincopy
BluetoothManagerService(Context context) {
...一些变量声明初始化...
IntentFilter filter = new IntentFilter(Intent.ACTION_BOOT_COMPLETED);
filter.addAction(BluetoothAdapter.ACTION_LOCAL_NAME_CHANGED);
filter.addAction(Intent.ACTION_USER_SWITCHED);
registerForAirplaneMode(filter);
mContext.registerReceiver(mReceiver, filter);
loadStoredNameAndAddress();
if (isBluetoothPersistedStateOn()) {
mEnableExternal = true;
}
}
回到界面开关那个看得着的地方,界面上开关就是BluetoothEnabler.java这个类了,而setBluetoothEnabled()则是具体开关动作。看下代码
[java] view
plaincopy
public void onCheckedChanged(CompoundButton buttonView, boolean isChecked) {
// Show toast message if Bluetooth is not allowed in airplane mode
if (isChecked &&
!WirelessSettings.isRadioAllowed(mContext, Settings.Global.RADIO_BLUETOOTH)) {
Toast.makeText(mContext, R.string.wifi_in_airplane_mode, Toast.LENGTH_SHORT).show();
// Reset switch to off
buttonView.setChecked(false);
}
if (mLocalAdapter != null) {
mLocalAdapter.setBluetoothEnabled(isChecked);
}
mSwitch.setEnabled(false);
}
这里在判断是飞行模式不知道为什么没有return,如果是飞行模式会有提示toast弹出,既然这样源码为什么还要执行下面打开流程呢,也许是个bug?不细究这个了,继续看setBluetoothEnabled()方法做什么了,很明显mLocalAdapter(LocalBluetoothAdapter )只是个过渡,里面的 mAdapter(BluetoothAdapter)才是真正的主角,代码如下:
[java] view
plaincopy
public void setBluetoothEnabled(boolean enabled) {
boolean success = enabled ? mAdapter.enable() : mAdapter.disable();
if (success) {
setBluetoothStateInt(enabled
? BluetoothAdapter.STATE_TURNING_ON
: BluetoothAdapter.STATE_TURNING_OFF);
} else {
.........
}
}
在BluetoothAdapter.java里可以看到一个单例模式的应用,主要提供给其它程序调用蓝牙的一些方法用的,外部程序想调用蓝牙的方法就要先用这个
拿到BluetoothAdapter对象,代码也简单看下吧,里面是典型的binder应用。
[java] view
plaincopy
public static synchronized BluetoothAdapter getDefaultAdapter() {
if (sAdapter == null) {
IBinder b = ServiceManager.getService(BLUETOOTH_MANAGER_SERVICE);
if (b != null) {
IBluetoothManager managerService = IBluetoothManager.Stub.asInterface(b);
sAdapter = new BluetoothAdapter(managerService);
} else {
Log.e(TAG, "Bluetooth binder is null");
}
}
return sAdapter;
此时我们更关心mAdapter.enable()的后续操作,外部其它应用到getDefaultAdapter()也是调用enable(),注意,到了BluetoothAdapter我们已经在framework层了,顺着BluetoothAdapter.java的enable()调用先回到BluetoothManagerService.java的enable(),再进一步来到BluetoothManagerService.java中的handleEnable()
方法,后面要跳转到新类了,贴出来一起看下,这部分好像不同版本还有些出入,不过核心的启动service是一样的,不影响理解。
[java] view
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private void handleEnable(boolean persist, boolean quietMode) {
synchronized(mConnection) {
if ((mBluetooth == null) && (!mBinding)) {
//Start bind timeout and bind
Message timeoutMsg=mHandler.obtainMessage(MESSAGE_TIMEOUT_BIND);
mHandler.sendMessageDelayed(timeoutMsg,TIMEOUT_BIND_MS);
mConnection.setGetNameAddressOnly(false);
Intent i = new Intent(IBluetooth.class.getName());
if (!mContext.bindService(i, mConnection,Context.BIND_AUTO_CREATE,
UserHandle.USER_CURRENT)) {
mHandler.removeMessages(MESSAGE_TIMEOUT_BIND);
Log.e(TAG, "Fail to bind to: " + IBluetooth.class.getName());
} else {
mBinding = true;
}
}
下面跑到哪个service里去了呢,在log信息里可以看到"ActivityManager: Start proc com.android.bluetooth for service com.android.bluetooth/.btservice.AdapterService:"
这样的信息,那就是去AdapterService里看看,里面一共有三个enable(),跳转关系不复杂,我们直接看最后一个关键的。
[java] view
plaincopy
public synchronized boolean enable(boolean quietMode) {
enforceCallingOrSelfPermission(BLUETOOTH_ADMIN_PERM,
"Need BLUETOOTH ADMIN permission");
if (DBG)debugLog("Enable called with quiet mode status = " + mQuietmode);
mQuietmode = quietMode;
Message m =
mAdapterStateMachine.obtainMessage(AdapterState.USER_TURN_ON);
mAdapterStateMachine.sendMessage(m);
return true;
}
状态机来了,状态转换图,从一个状态接受命令跳到另一个状态,因为我们是在开启蓝牙,所以先去的AdapterState.java内部类offstate.java里面找,在这个分支USER_TURN_ON看到mAdapterService.processStart();在这里面可以看到蓝牙遍历下所支持的profile,最后又发出个带AdapterState.STARTED标识的消息
处理在同文件下面的代码里
[java] view
plaincopy
case STARTED: {
if (DBG) Log.d(TAG,"CURRENT_STATE=PENDING, MESSAGE = STARTED, isTurningOn=" + isTurningOn + ", isTurningOff=" + isTurningOff);
//Remove start timeout
removeMessages(START_TIMEOUT);
//Enable
boolean ret = mAdapterService.enableNative();
if (!ret) {
Log.e(TAG, "Error while turning Bluetooth On");
notifyAdapterStateChange(BluetoothAdapter.STATE_OFF);
transitionTo(mOffState);
} else {
sendMessageDelayed(ENABLE_TIMEOUT, ENABLE_TIMEOUT_DELAY);
}
看到那个enableNative()函数调用了吧,又要用到JNI了,稍微回头看下前面的代码,我们先从应用界面开关BluetoothEnabler走到framework的BluetoothAdapter,又回到package的adapterService,现在又要去JNI的C++代码了,往常一般是packages -->framework-->下面一层,这次顺序有些颠倒了,不过这不能影响我们跟踪代码,最后
还是要到下面去的。一起往下看吧。
根据android JNI的函数命名惯例很容易找到enableNative对应的C++函数在packages/apps/Bluetooth/jni/com_android_bluetooth_btservice_AdapterService.cpp里面
[java] view
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static jboolean enableNative(JNIEnv* env, jobject obj) {
ALOGV("%s:",__FUNCTION__);
jboolean result = JNI_FALSE;
if (!sBluetoothInterface) return result;
int ret = sBluetoothInterface->enable();
result = (ret == BT_STATUS_SUCCESS) ? JNI_TRUE : JNI_FALSE;
return result;
}
代码瞬间简洁了不少,看来更多的故事还在下面,sBluetoothInterface这是什么,直接关系到下一步去哪的问题,看下变量声明,原来是
Const bt_interface_t *sBluetoothInterface = NULL; 再去找在哪初始化,搜索external目录可以找到/external/bluetooth/bluedroid/btif/src/bluetooth.c
[cpp] view
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static const bt_interface_t bluetoothInterface = {
sizeof(bt_interface_t),
init,
enable,
disable,
.............
start_discovery,
cancel_discovery,
create_bond,
remove_bond,
cancel_bond,
...............
};
原来在这里,说下怎么找到,直接跳转是不成了,看这个文件夹下的mk文件,那里面有libhardware目录是编译的时候要用到,这个多半在hardware目录里,在这里面很快可以看到bluetooth.h,那里面有最我们要找的结构体定义,头文件找到了,再找同名C文件就快了,好了继续吧看下enable()里是怎么实现的
[cpp] view
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static int enable( void )
{
ALOGI("enable");
/* sanity check */
if (interface_ready() == FALSE)
return BT_STATUS_NOT_READY;
return btif_enable_bluetooth();
}
又是一个新函数,直接跳转,比起刚才的寻觅这太幸福了
[cpp] view
plaincopy
bt_status_t btif_enable_bluetooth(void)
{
BTIF_TRACE_DEBUG0("BTIF ENABLE BLUETOOTH");
if (btif_core_state != BTIF_CORE_STATE_DISABLED)
{
ALOGD("not disabled\n");
return BT_STATUS_DONE;
}
btif_core_state = BTIF_CORE_STATE_ENABLING;
/* Create the GKI tasks and run them */
bte_main_enable(btif_local_bd_addr.address);
return BT_STATUS_SUCCESS;
}
忘了写路径了 好在可以直接跳转,下面是/external/bluetooth/bluedroid/main/bte_main.c,有点长,暂时只关心set_power那部分就好了,
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void bte_main_enable(uint8_t *local_addr)
{
APPL_TRACE_DEBUG1("%s", __FUNCTION__);
........................
#if (defined (BT_CLEAN_TURN_ON_DISABLED) && BT_CLEAN_TURN_ON_DISABLED == TRUE)
APPL_TRACE_DEBUG1("%s Not Turninig Off the BT before Turninig ON", __FUNCTION__);
#else
/* toggle chip power to ensure we will reset chip in case
a previous stack shutdown wasn't completed gracefully */
bt_hc_if->set_power(BT_HC_CHIP_PWR_OFF);
#endif
bt_hc_if->set_power(BT_HC_CHIP_PWR_ON);
bt_hc_if->preload(NULL);
}
.............................
}
路径在这里/external/bluetooth/bluedroid/hci/src/bt_hci_bdroid.c,看看set_power里面有什么,快到头了
[cpp] view
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static void set_power(bt_hc_chip_power_state_t state)
{
int pwr_state;
BTHCDBG("set_power %d", state);
/* Calling vendor-specific part */
pwr_state = (state == BT_HC_CHIP_PWR_ON) ? BT_VND_PWR_ON : BT_VND_PWR_OFF;
if (bt_vnd_if)
bt_vnd_if->op(BT_VND_OP_POWER_CTRL, &pwr_state);
else
ALOGE("vendor lib is missing!");
}
这下又有新东西了bt_vnd_if,这个是什么,bt_vendor_interface_t *bt_vnd_if=NULL;和刚才的bt_interface_t 一样,我们希望可以找到它的初始化,那样就可以继续跟踪了,不过看到下面的代码和注释,在源码中我们要绝望了。路径:/external/bluetooth/bluedroid/hci/include/bt_vendor_lib.h
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/* Entry point of DLib --
* Vendor library needs to implement the body of bt_vendor_interface_t
* structure and uses the below name as the variable name. HCI library
* will use this symbol name to get address of the object through the
* dlsym call.
*/
extern const bt_vendor_interface_t BLUETOOTH_VENDOR_LIB_INTERFACE;
bt_vendor_interface_t *bt_vnd_if=NULL;
google定义好了接口,具体实现要看vendor厂商来做了,这后面怎么实现就看各家芯片商怎么写了,肯定各有不同,而且这一部分代码一般是不会公开,当然授权购买后除外了。所以在4.2的源码中我们只跟到这里了,那后面会做什么呢,加载驱动和上电这两项肯定要有了,打开蓝牙没这两步怎么行,类似下面的字符串
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static const char* BT_DRIVER_MODULE_PATH = "/system/lib/modules/mbt8xxx.ko";
static const char* BT_DRIVER_MODULE_NAME = "bt8xxx";
static const char* BT_DRIVER_MODULE_INIT_ARG = " init_cfg=";
static const char* BT_DRIVER_MODULE_INIT_CFG_PATH = "bt_init_cfg.conf";
在有类似下面的动作,insmod加载驱动,rfkill控制上下电,具体厂商具体做法也不同。
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ret = insmod(BT_DRIVER_MODULE_PATH, arg_buf);
ret = system("/system/bin/rfkill block all");
写到这,关于4.2源码的蓝牙打开流程就算结束了,比起4.1之前的代码感觉没有以前的直观,对于vendor那部分的代码大家只能看各自厂商的代码了,一般蓝牙开启后才会上电,这样也比较符合逻辑和节省电量,是否上电可以连上手机用adb shell看sys/class/rfkill目录下的state状态值,有些厂商会把蓝牙和wifi的上电算在一起,这个也是要注意的,小心误判。
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