Android BlueDroid(三):BlueDroid蓝牙开启过程enable
关键词:bluedroid enableNative BTIF_TASK BTU_TASK bt_hc_work_thread set_power preload GKI
作者:xubin341719(欢迎转载,请注明作者,请尊重版权,谢谢!)
绘图工具:Edraw Maindmap
欢迎指正错误,共同学习、共同进步!!
一、enableNative函数的的实现
(1)、初始化BTE;
(2)、创建BTIU_TASK;
(3)、初始化HCI、串口相关,启动HCI工作主线程:bt_hc_callback,芯片上电、RF参数初始化;
1、应用部分对enableNative函数的调用
packages\apps\Bluetooth\src\com\android\bluetooth\btservice\AdapterState.java
public boolean processMessage(Message msg) {
boolean isTurningOn= isTurningOn();
boolean isTurningOff = isTurningOff();
………………
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 = adapterService.enableNative();//调用Native函数;
if (!ret) {
Log.e(TAG, "Error while turning Bluetooth On");
notifyAdapterStateChange(BluetoothAdapter.STATE_OFF);
transitionTo(mOffState);
} else {
sendMessageDelayed(ENABLE_TIMEOUT, ENABLE_TIMEOUT_DELAY);
}
}
break;
………………
}
/*package*/ native boolean enableNative();
2、JNI函数的实现
packages\apps\Bluetooth\jni\com_android_bluetooth_btservice_AdapterService.cpp
static jboolean enableNative(JNIEnv* env, jobject obj) {
ALOGV("%s:",__FUNCTION__);
jboolean result = JNI_FALSE;
if (!sBluetoothInterface) return result;
int ret = sBluetoothInterface->enable();//JNI部分Native函数调用C语言中的函数实现;
result = (ret == BT_STATUS_SUCCESS) ? JNI_TRUE : JNI_FALSE;//判断是打开还是关闭状态;
return result;
}
3、C函数中对enable函数的实现,这部分和init的流程一样
external\bluetooth\bluedroid\btif\src\bluetooth.c
static int enable( void )
{
ALOGI("enable");
/* sanity check */
if (interface_ready() == FALSE)
return BT_STATUS_NOT_READY;
return btif_enable_bluetooth();//enable汗的具体实现;
}
4、btif_enable_bluetooth函数的实现,Performschip power on and kickstarts OS scheduler
external\bluetooth\bluedroid\btif\src\btif_core.c|
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;//设定为正在打开状态;
/* Create the GKI tasks and run them */
bte_main_enable();//BTE部分的enable
return BT_STATUS_SUCCESS;
}
5、bte_main_enable函数,这个函数是enable函数的具体实现
BTEMAIN API - Creates all the BTE tasks. Should be called part of the Bluetooth stack enable sequence
iexternal\bluetooth\bluedroid\main\bte_main.c
void bte_main_enable()
{
int ret = -1;
APPL_TRACE_DEBUG1("%s", __FUNCTION__);
/* Initialize BTE control block */
BTE_Init();//(1)、初始化BTE控制块;
lpm_enabled = FALSE;
//(2)、创建BTU_TASK 进程
GKI_create_task((TASKPTR)btu_task, BTU_TASK, BTE_BTU_TASK_STR,
(UINT16 *) ((UINT8 *)bte_btu_stack + BTE_BTU_STACK_SIZE),
sizeof(bte_btu_stack));
bte_hci_enable();//(3)、打开HCI和厂商模块控制;
GKI_run(0);
ret = bte_snoop_create_task();//BT log 进程创建;
if(ret != 0)
APPL_TRACE_DEBUG1("bte_snoop_create_task fail %d",ret);
}
(1)、初始化BTE控制块
BTE_Init();
BTU:Bluetooth Upper Layer, The Broadcom implementations of L2CAP RFCOMM, SDP and the BTIf run as one GKI task. The btu_task switches between them.
(2)、创建BTU_TASK 进程
GKI_create_task((TASKPTR)btu_task, BTU_TASK, BTE_BTU_TASK_STR,
(UINT16 *) ((UINT8 *)bte_btu_stack + BTE_BTU_STACK_SIZE),
sizeof(bte_btu_stack));
external\bluetooth\bluedroid\stack\btu\btu_task.c
This is the main task of the Bluetooth Upper Layers unit. It sits in aloop waiting for messages, and dispatches them to the appropiate handlers.
btu_task这个函数非常重要,大部分event的处理都通过它来完成;
BTU_API UINT32 btu_task (UINT32 param)
{
…………
/* Initialize the mandatory core stack control blocks
(BTU, BTM, L2CAP, and SDP)
*/
btu_init_core();//1)、初始化核心control block,比如BTU, BTM, L2CAP, and SDP
/* Initialize any optional stack components */
BTE_InitStack();//2)、初始化BTE控制块,比如RFCOMM, DUN, SPP, HSP2, HFP, OBX, BIP
#if (defined(BTU_BTA_INCLUDED) && BTU_BTA_INCLUDED == TRUE)
bta_sys_init();//3)、初始化BTA
#endif
…………
/* Wait for, and process, events */
for (;;)//进入循环状态
{
event = GKI_wait (0xFFFF, 0);//4)、获取相应EVENT;
if (event & TASK_MBOX_0_EVT_MASK)
{…………}
if (event & TIMER_0_EVT_MASK)
{…………}
#if defined(QUICK_TIMER_TICKS_PER_SEC) && (QUICK_TIMER_TICKS_PER_SEC > 0)
if (event & TIMER_2_EVT_MASK)
{
btu_process_quick_timer_evt();
}
#endif
#if (defined(BTU_BTA_INCLUDED) && BTU_BTA_INCLUDED == TRUE)
if (event & TASK_MBOX_2_EVT_MASK)//这个状态比较重要
{
while ((p_msg = (BT_HDR *) GKI_read_mbox(TASK_MBOX_2)) != NULL)
{
bta_sys_event(p_msg);//接收到的event在这里解析,然后执行BTU中的函数。
}
}
if (event & TIMER_1_EVT_MASK)
{
bta_sys_timer_update();
}
#endif
if (event & EVENT_MASK(APPL_EVT_7))
break;
}
return(0);
}
(3)、bte_hci_enable,Enable HCI & Vendor modules,打开HCI和厂商模块
bte_hci_enable的实现流程如下图所示
external\bluetooth\bluedroid\main\bte_main.c
static void bte_hci_enable(void)
{
APPL_TRACE_DEBUG1("%s", __FUNCTION__);
preload_start_wait_timer();
if (bt_hc_if)
{
int result = bt_hc_if->init(&hc_callbacks, btif_local_bd_addr.address);//初始化串口,HCI_H4、HCI工作线等;
………………
bt_hc_if->set_power(BT_HC_CHIP_PWR_ON);//给相应模块上电;
bt_hc_if->preload(NULL);//下载相关配置参数;
if (hci_logging_enabled == TRUE || hci_logging_config == TRUE)
bt_hc_if->logging(BT_HC_LOGGING_ON, hci_logfile);
}
}
6、相对于HCI接口库接口函数,这部分跟蓝牙芯片相关
external\bluetooth\bluedroid\hci\src\bt_hci_bdroid.c
static const bt_hc_interface_t bluetoothHCLibInterface = {
sizeof(bt_hc_interface_t),
init,//HCLib中的init;
set_power,// HCLib中的power设定;
lpm,
preload, HCLib中的preload;
postload,
transmit_buf,
set_rxflow,
logging,
cleanup
};
7、bluetoothHCLibInterface 中INIT实现过程
完成H4初始化、串口驱动初始化、LMP初始化、启动bt_hc_worker_thread主线程。
(1)、init函数实现
external\bluetooth\bluedroid\hci\src\bt_hci_bdroid.c
static int init(const bt_hc_callbacks_t* p_cb, unsigned char *local_bdaddr)
{
…………
/* store reference to user callbacks */
bt_hc_cbacks = (bt_hc_callbacks_t *) p_cb;
init_vnd_if(local_bdaddr);//完成厂商模块的接口函数;
userial_init();//串口初始化
lpm_init();//LPM初始化
…………
extern tHCI_IF hci_h4_func_table;// 应用HCI H4接口回调
p_hci_if = &hci_h4_func_table;
p_hci_if->init();//调用hci_h4_func_table的init办法,初始化H4模块
utils_queue_init(&tx_q); //初始化发送队列
…………
if (pthread_create(&hc_cb.worker_thread, &thread_attr, \
bt_hc_worker_thread, NULL) != 0) //起工作线程
{
ALOGE("pthread_create failed!");
lib_running = 0;
return BT_HC_STATUS_FAIL;
}
…………
}
1)、bt_hc_callbacks_t*bt_hc_cbacks = (bt_hc_callbacks_t *) p_cb; //保存回调;
2)、init_vnd_if(local_bdaddr);//调用厂商库里面的bt_vendor_interface_t*接口,初始化蓝牙设备;
3)、p_hci_if =&hci_h4_func_table; //应用HCI H4接口回调;
4)、p_hci_if->init(); //调用hci_h4_func_table的init办法,初始化H4模块;
5)、userial_init();//初始化uart数据布局;
6)、lpm_init();//初始化低功耗模块,调用bt_vendor_interface_t的op接口;
7)、utils_queue_init(&tx_q); //初始化发送队列;
8)、pthread_create(&hc_cb.worker_thread,&thread_attr, bt_hc_worker_thread, NULL) != 0) //起工作线程;
(2)、init_vnd_if 的实现过程
idh.code\external\bluetooth\bluedroid\hci\src\bt_hw.c
void init_vnd_if(unsigned char *local_bdaddr)
{
void *dlhandle;
dlhandle = dlopen("libbt-vendor.so", RTLD_NOW);// 1)、dlopen()函数以指定模式打开指定的动态链接库文件,并返回一个句柄给dlsym()的调用进程。
………………
bt_vnd_if = (bt_vendor_interface_t *) dlsym(dlhandle, "BLUETOOTH_VENDOR_LIB_INTERFACE");//2)、返回符号BLUETOOTH_VENDOR_LIB_INTERFACE,所对应的地址。
…………
bt_vnd_if->init(&vnd_callbacks, local_bdaddr);//3)、调用返回地址结构体中的init函数;
}
1)、dlopen()
函数以指定模式打开指定的动态链接库文件,并返回一个句柄给dlsym()的调用进程。
dlhandle = dlopen("libbt-vendor.so", RTLD_NOW);
void * dlopen( const char * pathname, int mode);
mode是打开方式,其值有多个,不同操作系统上实现的功能有所不同,在linux下,按功能可分为三类:
解析方式
|
RTLD_LAZY: |
在dlopen返回前,对于动态库中的未定义的符号不执行解析(只对函数引用有效,对于变量引用总是立即解析)。
|
RTLD_NOW: |
需要在dlopen返回前,解析出所有未定义符号,如果解析不出来,在dlopen会返回NULL,错误为:: undefined symbol: xxxx.......
|
|
作用范围,可与解析方式通过“|”组合使用。
|
RTLD_GLOBAL: |
动态库中定义的符号可被其后打开的其它库重定位。
|
RTLD_LOCAL: |
与RTLD_GLOBAL作用相反,动态库中定义的符号不能被其后打开的其它库重定位。如果没有指明是RTLD_GLOBAL还是RTLD_LOCAL,则缺省为RTLD_LOCAL。
|
|
作用方式
|
RTLD_NODELETE: |
在dlclose()期间不卸载库,并且在以后使用dlopen()重新加载库时不初始化库中的静态变量。这个flag不是POSIX-2001标准。
|
RTLD_NOLOAD: |
不加载库。可用于测试库是否已加载(dlopen()返回NULL说明未加载,否则说明已加载),也可用于改变已加载库的flag,如:先前加载库的flag为RTLD_LOCAL,用dlopen(RTLD_NOLOAD|RTLD_GLOBAL)后flag将变成RTLD_GLOBAL。这个flag不是POSIX-2001标准。
|
|
RTLD_DEEPBIND: |
在搜索全局符号前先搜索库内的符号,避免同名符号的冲突。这个flag不是POSIX-2001标准。
|
2)、dlsym根据动态链接库操作句柄与符号,返回符号对应的地址
返回符号BLUETOOTH_VENDOR_LIB_INTERFACE,所对应的地址,也就是:
const bt_vendor_interface_t BLUETOOTH_VENDOR_LIB_INTERFACE = {
sizeof(bt_vendor_interface_t),
init,
op,
cleanup
};
3)、调用返回地址结构体中的init函数
bt_vnd_if->init(&vnd_callbacks,local_bdaddr);
有两个参数:厂商提供的回调函数vnd_callbacks;蓝牙地址:local_badaddr。
函数init的实现:
vendor\sprd\open-source\libs\libbt\src\bt_vendor_sprd.c
const bt_vendor_interface_t BLUETOOTH_VENDOR_LIB_INTERFACE = {
sizeof(bt_vendor_interface_t),
init,
op,
cleanup
};
BLUETOOTH_VENDOR_LIB_INTERFACE中INIT函数实现
vendor\sprd\open-source\libs\libbt\src\bt_vendor_sprd.c
static int init(const bt_vendor_callbacks_t* p_cb, unsigned char *local_bdaddr)
{
…………
/* store reference to user callbacks */
bt_vendor_cbacks = (bt_vendor_callbacks_t *) p_cb;//把vnd_callbacks回调函数,保存到用户回调bt_vendor_cback;
…………
}
vnd_callbacks,这些函数在
//The libbt-vendor Callback Functions Table
static const bt_vendor_callbacks_t vnd_callbacks = {
sizeof(bt_vendor_callbacks_t),
fwcfg_cb,
scocfg_cb,
lpm_vnd_cb,
alloc,
dealloc,
xmit_cb,
epilog_cb
};
(3)、hci_h4_func_table中init函数的初始化
extern tHCI_IF hci_h4_func_table;
p_hci_if = &hci_h4_func_table;
p_hci_if->init();
const tHCI_IF hci_h4_func_table =
{
hci_h4_init,//HCI_H4初始化;
hci_h4_cleanup,
hci_h4_send_msg,//发送msg;
hci_h4_send_int_cmd,//发送int命令;
hci_h4_get_acl_data_length,
hci_h4_receive_msg//接收信息;
};
2)、 p_hci_if->init();调用hci_h4_func_table的init办法,初始化H4模块,对应实现函数对应:hci_h4_init
void hci_h4_init(void)
{
HCIDBG("hci_h4_init");
memset(&h4_cb, 0, sizeof(tHCI_H4_CB));
utils_queue_init(&(h4_cb.acl_rx_q));
/* Per HCI spec., always starts with 1 */
num_hci_cmd_pkts = 1;
/* Give an initial values of Host Controller's ACL data packet length
* Will update with an internal HCI(_LE)_Read_Buffer_Size request
*/
h4_cb.hc_acl_data_size = 1021;//hci ACL 数据的最大长度;
h4_cb.hc_ble_acl_data_size = 27;//BLE ACL最大数据长度;
btsnoop_init();
}
(4)、初始化串口、LPM
userial_init();
lpm_init();
(5)、创建工作线程
if(pthread_create(&hc_cb.worker_thread, &thread_attr, \
bt_hc_worker_thread, NULL) != 0)
idh.code\external\bluetooth\bluedroid\hci\src\bt_hci_bdroid.c
bt_hc_worker_thread工作线程,监听各种状态,处理相对应。
static void *bt_hc_worker_thread(void *arg)
{
…………
if (events & HC_EVENT_PRELOAD)
{
userial_open(USERIAL_PORT_1);
…………
bt_vnd_if->op(BT_VND_OP_FW_CFG, NULL);
…………
}
if (events & HC_EVENT_POSTLOAD)
…………
if (events & HC_EVENT_TX)
…………
if (events & HC_EVENT_LPM_ENABLE)
………………
}
8、bluetoothHCLibInterface中set_power流程
这部分主要完成上电操作,SPRD的蓝牙芯片集成到AP端,由芯片内部控制。如果用其他蓝牙WIFI芯片,这部分应该对应相关power PIN脚操作。
idh.code\external\bluetooth\bluedroid\hci\src\bt_hci_bdroid.c
/** Chip power control */
static void set_power(bt_hc_chip_power_state_t state)
{
int pwr_state;
…………
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);//设置controller POWER ON/OFF
…………
}
bt_vnd_if这个结构体在idh.code\external\bluetooth\bluedroid\hci\include\bt_vendor_lib.h中定义,相对应的op函数在bt_vendor_sprd.c中实现。
(1)、bt_vnd_if结构体:
typedef struct {
size_t size;
int (*init)(const bt_vendor_callbacks_t* p_cb, unsigned char *local_bdaddr);
int (*op)(bt_vendor_opcode_t opcode, void *param);
void (*cleanup)(void);
} bt_vendor_interface_t;
(2)、bt_vnd_if->op的函数实现
vendor\sprd\open-source\libs\libbt\src\bt_vendor_sprd.c
相对应不同op操作
BT_VND_OP_POWER_CTRL |
Power on or off the BT Controller |
BT_VND_OP_FW_CFG |
Perform any vendor specific initialization or configuration on the BT Controller. This is called before stack initialization |
BT_VND_OP_SCO_CFG |
Perform any vendor specific SCO/PCM configuration on the BT Controller.This is called after stack initialization. |
BT_VND_OP_USERIAL_OPEN |
Open UART port on where the BT Controller is attached. This is called before stack initialization. |
BT_VND_OP_USERIAL_CLOSE |
Close the previously opened UART port. |
BT_VND_OP_GET_LPM_IDLE_TIMEOUT |
Get the LPM idle timeout in milliseconds.The stack uses this information to launch a timer delay before it attempts to de-assert LPM WAKE signal once downstream HCI packet has been delivered. |
BT_VND_OP_LPM_SET_MODE |
Enable or disable LPM mode on BT Controller. |
BT_VND_OP_LPM_WAKE_SET_STATE |
Assert or Deassert LPM WAKE on BT Controller. |
BT_VND_OP_EPILOG |
The epilog call to the vendor module so that it can perform any vendor-specific processes (e.g. send a HCI_RESET to BT Controller)before the caller calls for cleanup(). |
static int op(bt_vendor_opcode_t opcode, void *param)
{
…………
switch(opcode)
{
case BT_VND_OP_POWER_CTRL://如果是power控制
{
ALOGI("bt-vendor : BT_VND_OP_POWER_CTRL");
#if 0//这部分代码展讯平台没有控制;
nState = *(int *) param;
retval = hw_config(nState);
if(nState == BT_VND_PWR_ON
&& retval == 0
&& is_hw_ready() == TRUE)
{
retval = 0;
}
#endif
}
break;
…………
}
9、bluetoothHCLibInterface中Preload流程
这部分主要完成蓝牙MAC地址、RF射频相关设定,流程如下所示。
(1)、发送HC_EVENT_POSTLOAD 信令,线程bt_hc_worker_thread接收并处理
external\bluetooth\bluedroid\hci\src\bt_hci_bdroid.c
/** Called post stack initialization */
static void postload(TRANSAC transac)
{
BTHCDBG("postload");
bthc_signal_event(HC_EVENT_POSTLOAD);//发送信号量给线程bt_hc_worker_thread
}
10、bt_hc_worker_thread处理HC_EVENT_PRELOAD
static void *bt_hc_worker_thread(void *arg)
{
uint16_t events;
HC_BT_HDR *p_msg, *p_next_msg;
…………
if (events & HC_EVENT_PRELOAD)
{
userial_open(USERIAL_PORT_1);//打开串口;
/* Calling vendor-specific part */
if (bt_vnd_if)
{
bt_vnd_if->op(BT_VND_OP_FW_CFG, NULL);//(1)、mac、ini、pskey初始化
}
else
{
if (bt_hc_cbacks)
bt_hc_cbacks->preload_cb(NULL, BT_HC_PRELOAD_FAIL);(2)、失败preload 回调函数
…………
}
11、bt_vnd_if->op(BT_VND_OP_FW_CFG, NULL);调用
vendor\sprd\open-source\libs\libbt\src\bt_vendor_sprd.c中的OP函数:
static int op(bt_vendor_opcode_t opcode, void *param)
{
…………
case BT_VND_OP_FW_CFG:
{
ALOGI("bt-vendor : BT_VND_OP_FW_CFG");
retval = sprd_config_init(s_bt_fd,NULL,NULL);//初始化展讯平台
ALOGI("bt-vendor : sprd_config_init retval = %d.",retval);
if(bt_vendor_cbacks)
{
if(retval == 0)
{
ALOGI("Bluetooth Firmware and smd is initialized");
bt_vendor_cbacks->fwcfg_cb(BT_VND_OP_RESULT_SUCCESS);//初始化成功后回调函数
}
else
{
ALOGE("Error : hci, smd initialization Error");
bt_vendor_cbacks->fwcfg_cb(BT_VND_OP_RESULT_FAIL);
}
}
}
break;
}
(1)、sprd_config_init的实现
这部分针对芯片部分,展讯的蓝牙芯片处理流程,在这里完成:蓝牙MAC地址、RF ini文件相关;
vendor\sprd\open-source\libs\libbt\src\ bt_vendor_sprd.c中sprd_config_init
//******************create bt addr end***********************
int sprd_config_init(int fd, char *bdaddr, struct termios *ti)
{
………………
if(access(BT_MAC_FILE, F_OK) == 0)// MAC地址创建如果btmac不存在,随机生成;
{
ALOGI("%s: %s exists",__FUNCTION__, BT_MAC_FILE);
read_btmac=read_mac_from_file(BT_MAC_FILE,bt_mac);
}
if(read_btmac == 1)
{
for(i=0; i<6; i++)
{
bt_mac_tmp[i*2] = bt_mac[3*(5-i)];
bt_mac_tmp[i*2+1] = bt_mac[3*(5-i)+1];
}
ALOGI("====bt_mac_tmp=%s", bt_mac_tmp);
ConvertHexToBin((uint8*)bt_mac_tmp, strlen(bt_mac_tmp), bt_mac_bin);
}
/* Reset the BT Chip */
memset(resp, 0, sizeof(resp));
ret = bt_getPskeyFromFile(&bt_para_tmp);//1)、GETPSKEY FOROMFILE,这里完成INI文件的初始化
…………
{
ALOGI("get_pskey_from_file ok \n");
/* Send command from pskey_bt.txt*/
if(read_btmac == 1)
{
memcpy(bt_para_tmp.device_addr, bt_mac_bin, sizeof(bt_para_tmp.device_addr));
}
if (write(s_bt_fd, (char *)&bt_para_tmp, sizeof(BT_PSKEY_CONFIG_T)) != sizeof(BT_PSKEY_CONFIG_T))
{
ALOGI("Failed to write pskey command from pskey file\n");
return -1;
}
}
ALOGI("sprd_config_init write pskey command ok \n");
while (1)
{
r = read(s_bt_fd, resp, 1);
if (r <= 0)
return -1;
if (resp[0] == 0x05)
{
ALOGI("read pskey response ok \n");
break;
}
}
ALOGI("sprd_config_init ok \n");
return 0;
}
++++++sprd start 其他平台可以不看+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
vendor\sprd\open-source\libs\libbt\src\bt_vendor_sprd.c
int bt_getPskeyFromFile(void *pData)
{
…………
#ifdef HW_ADC_ADAPT_SUPPORT//不同INI文件
char *CFG_2351_PATH[] = {
"/system/etc/connectivity_configure_hw100.ini",
"/system/etc/connectivity_configure_hw102.ini",
"/system/etc/connectivity_configure_hw104.ini"
};
#else
char *CFG_2351_PATH[] = {
"/system/etc/connectivity_configure.ini"
};
#endif
#ifdef HW_ADC_ADAPT_SUPPORT
//如果是不同的硬件,获取板子信息,给board_type赋值,后面选择用那个ini文件。这个是展讯平台相关,不同平台有不同的做法;
char *BOARD_TYPE_PATH = "/dev/board_type";
int fd_board_type;
char board_type_str[MAX_BOARD_TYPE_LEN] = {0};
fd_board_type = open(BOARD_TYPE_PATH, O_RDONLY);//(1)、获取硬件版本信息
if (fd_board_type<0)
{
ALOGI("#### %s file open %s err ####\n", __FUNCTION__, BOARD_TYPE_PATH);
board_type = 2; // default is 1.0.4
}
else
{
len = read(fd_board_type, board_type_str, MAX_BOARD_TYPE_LEN);
if (strstr(board_type_str, "1.0.0"))
{
board_type = 0;
}
…………
#endif
ALOGI("begin to bt_getPskeyFromFile");
fd = open(CFG_2351_PATH[board_type], O_RDONLY, 0644);
if(-1 != fd)
{
len = bt_getFileSize(CFG_2351_PATH[board_type]);//(2)、获得相应的版本的PSKEY;
pBuf = (unsigned char *)malloc(len);
ret = read(fd, pBuf, len);
…………
ret = bt_getDataFromBuf(pData, pBuf, len);
if(-1 == ret)
{
free(pBuf);
return -1;
}
ALOGI("begin to dumpPskey");
bt_dumpPskey((BT_PSKEY_CONFIG_T *)pData);//(3)、解析相应数据
free(pBuf);
return 0;
}
获取硬件版本信息
fd_board_type = open(BOARD_TYPE_PATH,O_RDONLY);
Board_type如下图:
获得相应的版本的PSKEY;
char *CFG_2351_PATH[] = {
"/system/etc/connectivity_configure_hw100.ini",
"/system/etc/connectivity_configure_hw102.ini",
"/system/etc/connectivity_configure_hw104.ini"
};
解析相应数据
bt_dumpPskey((BT_PSKEY_CONFIG_T*)pData);
12、 配置成功后回调函数fwcfg_cb
bt_vendor_cbacks->fwcfg_cb(BT_VND_OP_RESULT_SUCCESS);//初始化成功后回调函数,这部分在case BT_VND_OP_FW_CFG中完成
external\bluetooth\bluedroid\hci\src\bt_hw.c
static void fwcfg_cb(bt_vendor_op_result_tresult)
{
bt_hc_postload_result_tstatus = (result == BT_VND_OP_RESULT_SUCCESS) ? \
BT_HC_PRELOAD_SUCCESS : BT_HC_PRELOAD_FAIL;//判定prelaod是否成功;
fwcfg_acked = TRUE;
if (bt_hc_cbacks)
bt_hc_cbacks->preload_cb(NULL, status);//对应preload_cb
}preload_cb的实现,把 BT_EVT_PRELOAD_CMPL 成功消息通过GKI返回BTU_TASK;
external\bluetooth\bluedroid\main\bte_main.c
static void preload_cb(TRANSACtransac, bt_hc_preload_result_t result)
{
APPL_TRACE_EVENT1("HC preload_cb %d[0:SUCCESS 1:FAIL]", result);
if (result == BT_HC_PRELOAD_SUCCESS)
{
preload_stop_wait_timer();
/* notify BTU task that libbt-hci isready */
GKI_send_event(BTU_TASK, BT_EVT_PRELOAD_CMPL);//发送BT_EVT_PRELOAD_CMPL到BTU_TASK
}
}preload完成后,回调函数返回到BTU_TASK,启动BT其他协议层的初始化。
下节我们分析:
1、GKI_send_msg进程间通信如何完成;
2、bta_sys_sendmsg event如何解析;
3、GKI_Wait实现流程;