void Custom_META_USBVirtualComDisconnect(void)
{
#if defined(__USB_ENABLE__)
DCL_BOOL dcl_data = DCL_TRUE;
DCL_HANDLE usb_dcl_handle;
usb_dcl_handle = DclUSB_DRV_Open(DCL_USB, FLAGS_NONE);
DclUSB_DRV_Control(usb_dcl_handle, USB_DRV_CMD_PDN_ENABLE, (DCL_CTRL_DATA_T *)&dcl_data);
DclUSB_DRV_Close(usb_dcl_handle);
#endif // #if defined(__USB_ENABLE__)
}
/*******************************************************************************
*
* FUNCTION
* FT_PowerOff
*
* DESCRIPTION
* Power off sequence in META mode
*
* CALLS
* custom_ft_util_check_if_usb_enable_support for check the USB_ENABLE compile option
* USB_PowerControl
* DclRTC_Open/DclRTC_Control (RTC_CMD_FT_POWEROFF command)/DclRTC_Close for RTC power off sequence (scramble PDN1 bit 7 for flashtool entering META mode)
* DclPW_Open/DclPW_Control (PW_CMD_POWEROFF command)/DclPW_Close for Driver power off sequence
* DclWDT_Open/DclWDT_Control (WDT_CMD_DRV_RESET command)/DclWDT_Close for Driver reset sequence
*
* PARAMETERS
* void
*
* RETURNS
* void
*
* GLOBALS AFFECTED
* N/A
*
*******************************************************************************/
void FT_PowerOff(void)
{
#if (!defined(__SMART_PHONE_MODEM__))
kal_bool toolUsbReset = KAL_FALSE;
if(true == custom_ft_util_check_if_usb_enable_support())
{
// shutdown USB module
/**
* USB_PowerControl(KAL_FALSE) is no longer
* to disable the usb power anymore.
**/
#if defined(__USB_ENABLE__)
DCL_BOOL dcl_data = DCL_TRUE;
DCL_HANDLE usb_dcl_handle;
usb_dcl_handle = DclUSB_DRV_Open(DCL_USB, FLAGS_NONE);
DclUSB_DRV_Control(usb_dcl_handle, USB_DRV_CMD_PDN_ENABLE, (DCL_CTRL_DATA_T *)&dcl_data);
DclUSB_DRV_Close(usb_dcl_handle);
// USB_PDNmode(KAl_TRUE);
#endif //#if defined(__USB_ENABLE__)
}
Custom_META_USBVirtualComDisconnect();
toolUsbReset = FT_ClearPowerKey();
if(tst_hal_USBDL_Is_USB_Download_Mode() == KAL_TRUE ||
/* Note: FEATURE compile option and references should be checked before patch-back */
tst_hal_USBDL_Is_USB_Fast_Meta_Mode() == KAL_TRUE)
{
// Driver power off sequence
{
DCL_HANDLE dcl_pmu_handle;
dcl_pmu_handle=DclPW_Open(DCL_PW, FLAGS_NONE);
DclPW_Control(dcl_pmu_handle,PW_CMD_POWEROFF,NULL);
DclPW_Close(dcl_pmu_handle);
}
// really turn off the target because USB will provide power automatically to target side
if(toolUsbReset == KAL_FALSE)
{
DCL_HANDLE dcl_wdt_handle;
dcl_wdt_handle = DclWDT_Open(DCL_WDT, FLAGS_NONE);
DclWDT_Control(dcl_wdt_handle, WDT_CMD_DRV_RESET, FLAGS_NONE);
DclWDT_Close(dcl_wdt_handle);
}
else
{
while(1);
}
}
#endif // #if (!defined(__SMART_PHONE_MODEM__))
}
CHR_DET_TYPE_ENUM DclPW_charger_usb_det_USB(void)
{
#if defined(__USB_ENABLE__)
kal_uint32 i;
CHR_DET_TYPE_ENUM state = PW_NO_CHR;
// Call this function to init USB H/W
DclUSB_DRV_Control(chrDet_UsbHandler, USB_DRV_CMD_INITIALIZE_DRV_PHASE_1, NULL);
//USB_Initialize_Drv_Phase1();
// Detect init setting
USB_Charger_Detect_Init();
// Init setting debounce
for (i=0;i<1000000;i++){
;
}
// Check USB or Charger
if (USB_Detect_Is_Charger_In()){
// Charger
// Init setting to detect Standard/Non-standard charger
USB_Check_Standard_Charger();
// Init setting debounce
for (i=0;i<10000;i++){
;
}
if (USB_Detect_Is_Standard_Charger_In()){
// Standard charger
state = PW_AC_CHR;
}else{
// Non-standard charger
state = PW_AC_NON_STD_CHR;
}
}
else
{
// USB
state = PW_USB_CHR;
}
USB_Charger_Detect_Release();
return state;
#else // #if defined(__USB_ENABLE__)
return PW_NO_CHR;
#endif // #if defined(__USB_ENABLE__)
}
void CHR_USB_Det_EINT_Return(CHR_DET_TYPE_ENUM state)
{
if ( state == PW_USB_CHR || state == PW_USB_CHARGING_HOST_CHR)
{
// kal_prompt_trace(MOD_BMT,"USB IN");
if(state == PW_USB_CHR)
{
kal_brief_trace( TRACE_STATE,BMT_USB_IN_TRC);
}
else
{
kal_brief_trace( TRACE_STATE,BMT_USB_CHARGING_HOST_IN_TRC);
}
chr_usb_detect.chr_usb_present = USB_PRESENT;
// Set central control owner bit
CHR_USB_EINT_Owner_SetMask(CHR_DET_EINT_OWNER_BMT);
CHR_USB_EINT_Owner_SetMask(CHR_DET_EINT_OWNER_USB);
CHRDET_HISR();
#if defined(__USB_ENABLE__)
chr_usb_det_mgr.usb_det_hisr();
#endif // #if defined(__USB_ENABLE__)
}
else if (state == PW_AC_CHR || state==PW_AC_NON_STD_CHR)
{
if(state == PW_AC_CHR)
{
//kal_prompt_trace(MOD_BMT,"AC IN");
kal_brief_trace( TRACE_STATE,BMT_AC_IN_TRC);
chr_usb_detect.chr_usb_present = CHARGER_PRESENT;
}
else // non standard charger
{
//kal_prompt_trace(MOD_BMT,"Non AC IN");
kal_brief_trace( TRACE_STATE,BMT_NON_AC_IN_TRC);
chr_usb_detect.chr_usb_present = CHARGER_PRESENT_NON;
}
CHR_USB_EINT_Owner_SetMask(CHR_DET_EINT_OWNER_BMT);
CHRDET_HISR();
#if ( defined(__USB_AND_UART_WITH_ONE_GPIO__) || defined(__USB_AND_UART_WITH_ONE_PORT__) )
/* We must call this function in chr_usb_det_mgr.usb_det_hisr() in the case that USB and UART with one GPIO */
//USB_UART_Share(KAL_TRUE);
{
DCL_HANDLE usb_dcl_handle;
DCL_BOOL dcl_data;
usb_dcl_handle = DclUSB_DRV_Open(DCL_USB, FLAGS_NONE);
dcl_data = DCL_TRUE;
DclUSB_DRV_Control(usb_dcl_handle, USB_DRV_CMD_USB_UART_SHARE, (DCL_CTRL_DATA_T *)&dcl_data);
DclUSB_DRV_Close(usb_dcl_handle);
}
#endif // #if ( defined(__USB_AND_UART_WITH_ONE_GPIO__) || defined(__USB_AND_UART_WITH_ONE_PORT__) )
//#endif // #if defined(__CHINA_CHARGER_STANDARD__)
}
CHR_USB_EINT_UnMask(CHR_DET_EINT_OWNER_BMT); // EINT_UnMask(chr_usb_detect.chr_usb_eint);
}
void Drv_Init_Phase1(void)
{
#if defined(DRV_GPT_GPT3)
DCL_HANDLE gpt_handle;
#endif //defined(DRV_GPT_GPT3)
#ifndef DRV_RTC_NOT_EXIST
DCL_HANDLE rtc_handler;
#endif //#ifndef DRV_RTC_NOT_EXIST
DCL_HANDLE uart_handle;
UART_CTRL_INIT_T data_init;
extern Seriport_HANDLER_T Uart_Drv_Handler;
#ifdef __USB_COM_PORT_ENABLE__
DCL_HANDLE usb_dcl_handle;
DCL_BOOL dcl_data;
kal_bool b_is_dl_mode;
usb_dcl_handle = DclUSB_DRV_Open(DCL_USB, FLAGS_NONE);
DclUSB_DRV_Control(usb_dcl_handle, USB_DRV_CMD_USBDL_UPDATE_USB_DL_MODE, NULL);
DclUSB_DRV_Control(usb_dcl_handle, USB_DRV_CMD_USBDL_IS_USB_DL_MODE, (DCL_CTRL_DATA_T *)&dcl_data);
b_is_dl_mode = (kal_bool)dcl_data;
if(b_is_dl_mode == KAL_TRUE)
{
UPLL_Enable(UPLL_OWNER_USB);
}
DclUSB_DRV_Close(usb_dcl_handle);
#endif //__USB_COM_PORT_ENABLE__
#if defined(__HW_US_TIMER_SUPPORT__ )
USC_Start();
#endif
#ifdef __BACKUP_DOWNLOAD_RESTORE_WITHOUT_BATTERY__
if (INT_GetSysStaByCmd(CHK_USB_META_WO_BAT, NULL)==KAL_TRUE)
{
DCL_HANDLE handle;
DclPMU_Initialize();
handle = DclPMU_Open(DCL_PMU, FLAGS_NONE);
DclPMU_Control(handle, CHR_SET_CHARGE_WITHOUT_BATTERY, NULL);
DclPMU_Close(handle);
}
#endif //#ifdef __BACKUP_DOWNLOAD_RESTORE_WITHOUT_BATTERY__
print_bootup_trace_enter(SST_INIT_DRV1_DRVHISR);
drv_hisr_init();
print_bootup_trace_exit(SST_INIT_DRV1_DRVHISR);
#if defined(__DSP_FCORE4__)
print_bootup_trace_enter(SST_INIT_DRV1_MDCIHW);
mdci_hw_init(1,0x0);
print_bootup_trace_exit(SST_INIT_DRV1_MDCIHW);
#endif
#if defined(__SMART_PHONE_MODEM__)
print_bootup_trace_enter(SST_INIT_DRV1_CCCI);
ccif_init(1,0x0);
ipc_msgsvc_init();
FS_CCCI_Init();
ccci_init(CCCI_FS_CHANNEL, FS_CCCI_Callback);
ccci_init(CCCI_FS_ACK_CHANNEL, FS_CCCI_Callback);
uart_handle = DclSerialPort_Open(uart_port_tst_ccci, 0);
DclSerialPort_RegisterCallback(uart_handle, &CCCI_Uart_Drv_Handler);
uart_handle = DclSerialPort_Open(uart_port_at_ccci, 0);
DclSerialPort_RegisterCallback(uart_handle, &CCCI_Uart_Drv_Handler);
#if defined(__UPS_SUPPORT__)
uart_handle = DclSerialPort_Open(uart_port_ccmni1_ccci, 0);
DclSerialPort_RegisterCallback(uart_handle, &CCCI_Uart_Drv_Handler);
uart_handle = DclSerialPort_Open(uart_port_ccmni2_ccci, 0);
DclSerialPort_RegisterCallback(uart_handle, &CCCI_Uart_Drv_Handler);
uart_handle = DclSerialPort_Open(uart_port_ccmni3_ccci, 0);
DclSerialPort_RegisterCallback(uart_handle, &CCCI_Uart_Drv_Handler);
#endif /* __UPS_SUPPORT__ */
uart_handle = DclSerialPort_Open(uart_port_gps_ccci, 0);
DclSerialPort_RegisterCallback(uart_handle, &CCCI_Uart_Drv_Handler);
print_bootup_trace_exit(SST_INIT_DRV1_CCCI);
#endif /* __SMART_PHONE_MODEM__ */
#if defined(DRV_EMIMPU)
print_bootup_trace_enter(SST_INIT_DRV1_EMIMPU);
emimpu_init();
print_bootup_trace_exit(SST_INIT_DRV1_EMIMPU);
#endif /* DRV_EMIMPU */
print_bootup_trace_enter(SST_INIT_DRV1_LPWR);
lpwr_init();
print_bootup_trace_exit(SST_INIT_DRV1_LPWR);
print_bootup_trace_enter(SST_INIT_DRV1_DRVPDN);
DRVPDN_ini();
print_bootup_trace_exit(SST_INIT_DRV1_DRVPDN);
print_bootup_trace_enter(SST_INIT_DRV1_PWM);
DclPWM_Initialize();
print_bootup_trace_exit(SST_INIT_DRV1_PWM);
/*To get all customized data*/
print_bootup_trace_enter(SST_INIT_DRV1_CUSTOM);
DclSADC_Initialize();
Drv_Customize_Init();
custom_drv_init();
print_bootup_trace_exit(SST_INIT_DRV1_CUSTOM);
#if defined(DRV_GPT_GPT3)
print_bootup_trace_enter(SST_INIT_DRV1_GPT3);
/*turn on gpt3 to count powen on period*/
DclFGPT_Initialize();
gpt_handle=DclFGPT_Open(DCL_GPT_FreeRUN3,0);
DclFGPT_Control(gpt_handle,FGPT_CMD_START,0);
DclFGPT_Close(gpt_handle);
print_bootup_trace_exit(SST_INIT_DRV1_GPT3);
#endif
#if !defined(__L1_STANDALONE__) && !defined(__MAUI_BASIC__) && !defined(__SMART_PHONE_MODEM__)
print_bootup_trace_enter(SST_INIT_DRV1_VISUAL);
Visual_Init();
print_bootup_trace_exit(SST_INIT_DRV1_VISUAL);
#endif /*!defined(__L1_STANDALONE__) && !defined(__MAUI_BASIC__) && !defined(__SMART_PHONE_MODEM__)*/
#if defined(DRV_TIMING_DEBUG) && defined(DRV_GPT_6218B_GPT3_TIMING_DEBUG)
DRV_MISC_WriteReg(0x8010001c,1);
DRV_MISC_WriteReg(0x80100024,0x04);
//DRV_WriteReg(0x80100024,1); // (1/16K)
#endif
#ifdef DRV_MISC_DMA_NO_MEMCPY
DRV_MEMCPY = (MEMCPY_FUNC)0x48000150;
#elif defined(DRV_MISC_DMA_MEMCPY)
DRV_MEMCPY_PTR = (MEMCPY_FUNC)0x48000134;
#endif
print_bootup_trace_enter(SST_INIT_DRV1_GPTI);
DclSGPT_Initialize();
print_bootup_trace_exit(SST_INIT_DRV1_GPTI);
print_bootup_trace_enter(SST_INIT_DRV1_WDT);
WDT_init();
print_bootup_trace_exit(SST_INIT_DRV1_WDT);
print_bootup_trace_enter(SST_INIT_DRV1_DMA);
DMA_Ini();
print_bootup_trace_exit(SST_INIT_DRV1_DMA);
#ifndef DRV_RTC_NOT_EXIST
// need to set XOSC earlier
print_bootup_trace_enter(SST_INIT_DRV1_XOSC);
rtc_handler = DclRTC_Open(DCL_RTC,FLAGS_NONE);
DclRTC_Control(rtc_handler, RTC_CMD_SETXOSC, (DCL_CTRL_DATA_T *)NULL);
print_bootup_trace_exit(SST_INIT_DRV1_XOSC);
#endif /*DRV_RTC_NOT_EXIST*/
print_bootup_trace_enter(SST_INIT_DRV1_ADC);
DclHADC_Initialize( );
print_bootup_trace_exit(SST_INIT_DRV1_ADC);
#ifdef __CS_FAC_DET__
print_bootup_trace_enter(SST_INIT_DRV1_CSFACDET);
cs_fac_det = cs_fac_det_get_interface();
cs_fac_det->drv_init();
print_bootup_trace_exit(SST_INIT_DRV1_CSFACDET);
#endif // #ifdef __CS_FAC_DET__
#ifdef __DRV_EXT_ACCESSORY_DETECTION__
#ifdef __USB_COM_PORT_ENABLE__
usb_dcl_handle = DclUSB_DRV_Open(DCL_USB, FLAGS_NONE);
DclUSB_DRV_Control(usb_dcl_handle, USB_DRV_CMD_USBDL_IS_USB_DL_MODE, (DCL_CTRL_DATA_T *)&dcl_data);
b_is_dl_mode = (kal_bool)dcl_data;
DclUSB_DRV_Close(usb_dcl_handle);
if(b_is_dl_mode == KAL_FALSE)
#endif
{
print_bootup_trace_enter(SST_INIT_DRV1_EXTACCDET);
aux_ext_acc_det = aux_custom_get_ext_accessory_det();
aux_ext_acc_det->drv_init();
print_bootup_trace_exit(SST_INIT_DRV1_EXTACCDET);
}
#endif // #ifdef __DRV_EXT_ACCESSORY_DETECTION__
//#if (defined(__ACCDET_SUPPORT__) && !defined(__L1_STANDALONE__))
print_bootup_trace_enter(SST_INIT_DRV1_ACCDET);
DclAUX_Initialize();
print_bootup_trace_exit(SST_INIT_DRV1_ACCDET);
//#endif //#if defined(__ACCDET_SUPPORT__)
#if defined(__RESOURCE_MANAGER__)
print_bootup_trace_enter(SST_INIT_DRV1_RM);
RMInit();
print_bootup_trace_exit(SST_INIT_DRV1_RM);
#endif //__RESOURCE_MANAGER__
#ifndef DRV_LCD_NOT_EXIST
print_bootup_trace_enter(SST_INIT_DRV1_LCD);
lcd_system_init();
print_bootup_trace_exit(SST_INIT_DRV1_LCD);
#endif /*DRV_LCD_NOT_EXIST*/
#ifndef DRV_RTC_NOT_EXIST
#ifdef DRV_RTC_HW_CALI
print_bootup_trace_enter(SST_INIT_DRV1_RTCHW);
DclRTC_Control(rtc_handler, RTC_CMD_HW_INIT, (DCL_CTRL_DATA_T *)NULL);
print_bootup_trace_exit(SST_INIT_DRV1_RTCHW);
#endif
#endif /*DRV_RTC_NOT_EXIST*/
DclPW_Initialize();
DclPMU_Initialize();
Drv_PW_Init();
/* update the system boot mode */
/*lint -e552*/
system_boot_mode = Drv_query_boot_mode();
/*lint +e552*/
print_boot_mode();
#ifdef __DMA_UART_VIRTUAL_FIFO__
// print_bootup_trace_enter(SST_INIT_DRV1_DMAVFIFO);
// DMA_Vfifo_init();
// print_bootup_trace_exit(SST_INIT_DRV1_DMAVFIFO);
#if defined(__MD_STANDALONE__)
// This is to configure AP side VFIFO ALT register, to avoid un-init AP side DMA setting
// conflict MD side setting
// This is only used in MD DVT load, when both side are ready, we shouldn't overwrite AP side setting via back door
// Hack DMA channel 13 (VFIFO channel) in AP side in order to avoid conflict
*(volatile kal_uint32 *)(0xF0022000 + 0xD40) = 0x3F;
// Hack DMA channel 14 (VFIFO channel) in AP side in order to avoid conflict
*(volatile kal_uint32 *)(0xF0022000 + 0xE40) = 0x3F;
#endif // #if defined(__MD_STANDALONE__)
#endif
print_bootup_trace_enter(SST_INIT_DRV1_UART1);
data_init.u4Flag = KAL_FALSE;
uart_handle = DclSerialPort_Open(uart_port1, 0);
DclSerialPort_RegisterCallback(uart_handle, &Uart_Drv_Handler);
// Initialization
DclSerialPort_Control(uart_handle,SIO_CMD_INIT,(DCL_CTRL_DATA_T *)&data_init);
print_bootup_trace_exit(SST_INIT_DRV1_UART1);
// Register the callback function
print_bootup_trace_enter(SST_INIT_DRV1_UART2);
uart_handle = DclSerialPort_Open(uart_port2, 0);
DclSerialPort_RegisterCallback(uart_handle, &Uart_Drv_Handler);
// Initialization
DclSerialPort_Control(uart_handle,SIO_CMD_INIT,(DCL_CTRL_DATA_T *)&data_init);
print_bootup_trace_exit(SST_INIT_DRV1_UART2);
#ifdef __UART3_SUPPORT__
print_bootup_trace_enter(SST_INIT_DRV1_UART3);
// Register the callback function
uart_handle = DclSerialPort_Open(uart_port3, 0);
DclSerialPort_RegisterCallback(uart_handle,&Uart_Drv_Handler);
DclSerialPort_Control(uart_handle,SIO_CMD_INIT,(DCL_CTRL_DATA_T *)&data_init);
print_bootup_trace_exit(SST_INIT_DRV1_UART3);
#endif
}
