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192.168.1.100 / T800_MD_V1.6 / c33b3079c38f91561c2f84f1ebed20ad8c60532a / . / mcu / service / hif / hmu / src / hmu.c
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/*****************************************************************************
* Copyright Statement:
* --------------------
* This software is protected by Copyright and the information contained
* herein is confidential. The software may not be copied and the information
* contained herein may not be used or disclosed except with the written
* permission of MediaTek Inc. (C) 2012
*
* BY OPENING THIS FILE, BUYER HEREBY UNEQUIVOCALLY ACKNOWLEDGES AND AGREES
* THAT THE SOFTWARE/FIRMWARE AND ITS DOCUMENTATIONS ("MEDIATEK SOFTWARE")
* RECEIVED FROM MEDIATEK AND/OR ITS REPRESENTATIVES ARE PROVIDED TO BUYER ON
* AN "AS-IS" BASIS ONLY. MEDIATEK EXPRESSLY DISCLAIMS ANY AND ALL WARRANTIES,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT.
* NEITHER DOES MEDIATEK PROVIDE ANY WARRANTY WHATSOEVER WITH RESPECT TO THE
* SOFTWARE OF ANY THIRD PARTY WHICH MAY BE USED BY, INCORPORATED IN, OR
* SUPPLIED WITH THE MEDIATEK SOFTWARE, AND BUYER AGREES TO LOOK ONLY TO SUCH
* THIRD PARTY FOR ANY WARRANTY CLAIM RELATING THERETO. MEDIATEK SHALL ALSO
* NOT BE RESPONSIBLE FOR ANY MEDIATEK SOFTWARE RELEASES MADE TO BUYER'S
* SPECIFICATION OR TO CONFORM TO A PARTICULAR STANDARD OR OPEN FORUM.
*
* BUYER'S SOLE AND EXCLUSIVE REMEDY AND MEDIATEK'S ENTIRE AND CUMULATIVE
* LIABILITY WITH RESPECT TO THE MEDIATEK SOFTWARE RELEASED HEREUNDER WILL BE,
* AT MEDIATEK'S OPTION, TO REVISE OR REPLACE THE MEDIATEK SOFTWARE AT ISSUE,
* OR REFUND ANY SOFTWARE LICENSE FEES OR SERVICE CHARGE PAID BY BUYER TO
* MEDIATEK FOR SUCH MEDIATEK SOFTWARE AT ISSUE.
*
* THE TRANSACTION CONTEMPLATED HEREUNDER SHALL BE CONSTRUED IN ACCORDANCE
* WITH THE LAWS OF THE STATE OF CALIFORNIA, USA, EXCLUDING ITS CONFLICT OF
* LAWS PRINCIPLES. ANY DISPUTES, CONTROVERSIES OR CLAIMS ARISING THEREOF AND
* RELATED THERETO SHALL BE SETTLED BY ARBITRATION IN SAN FRANCISCO, CA, UNDER
* THE RULES OF THE INTERNATIONAL CHAMBER OF COMMERCE (ICC).
*
*****************************************************************************/
/*****************************************************************************
*
* Filename:
* ---------
* hmu.c
*
* Project:
* --------
* MOLY
*
* Description:
* ------------
* This file implement the function of Host Interface Management Unit.
*
* Author:
* -------
* -------
*
*
* ==========================================================================
* $Log$
*
* 11 10 2020 viney.kaushik
* [MOLY00539149] [M70][DataCard][HOST_DRIVER_ASYNC_HANDSHAKE][RDIT] MD Crash ffender: MD Offender:HMU
*
* update timeout to 31s as max sleep time is 29.x(s..
*
* 12 09 2019 viney.kaushik
* [MOLY00399255] HMU log modification
*
* remove hmu_tick++ from log to ensure always execution.
*
* 04 16 2019 viney.kaushik
* [MOLY00399255] HMU log modification
* add log to print every 100ms.
*
* 08 24 2017 cs.huang
* [MOLY00273609] [Zion][MT6739][RDIT][PHONE][MD_Pre-Sanity] sim1 3G web browsing fail
* [HMU] Add tg sync
*
* 08 24 2017 cs.huang
* [MOLY00273609] [Zion][MT6739][RDIT][PHONE][MD_Pre-Sanity] sim1 3G web browsing fail
* [HMU] Add tg sync
*
* 08 07 2017 cs.huang
* [MOLY00268551] Task batch scheduling for LTE Low power
* HMU for TG change
*
* 06 23 2017 cs.huang
* [MOLY00258471] [LHIFCore] Enable LHIF HW log interrupt to reduce polling times
* merge HMU part
*
* 05 09 2017 cs.huang
* [MOLY00248075] [HMU] remove call IPCORE reload API
* [HMU] remove call IPCORE reload API
*
* 11 23 2016 ap.wang
* [MOLY00210820] [HMU] Add exception step
* .
*
* 11 23 2016 ap.wang
* [MOLY00210824] [HMU] Remove PCCIF IRQ VPE5 HRT log
* .
*
* 09 22 2016 ap.wang
* [MOLY00204207] [HMU] Fix multi event wait issue
* .
*
* 08 01 2016 ap.wang
* [MOLY00194819] [Elbrus][4G FDD][ATE][CMW500][DSP-BRP] Assert fail: ccci_error_code.c 101 0x102 0xcb6a02 0x1 - EL2
* Add spinlock for DSP tick switch timing issue
*
* 07 28 2016 i-wei.tsai
* [MOLY00194135] [HMU] Add more debug log for GPT
*
* .add debug log for GPT timer
*
* 07 12 2016 ap.wang
* [MOLY00190479] [MSH][MT6292][ELBRUS][EVB][Sanity][LWCTG][Lt+C][SIM1 CMCC][SIM2 CT]Externel (EE),0,0,99,/data/core/,1,modem,md1:(MCU_core0,vpe0,tc0(VPE0)) [ASSERT] file:common/service/hif/ccci/src/ccci_error_code.c
* Fix hmu fisrt time wait issue
*
* 05 30 2016 ap.wang
* [MOLY00182249] [HMU] Fix build warning
* .
*
* 05 25 2016 ap.wang
* [MOLY00181629] [HMU] Fix timer detect
* .
*
* 05 25 2016 ap.wang
* [MOLY00180578] [HMU] HMU spinlock for Multi core
* .
*
* 05 19 2016 ap.wang
* [MOLY00180578] [HMU] HMU spinlock for Multi core
* .
*
* 01 07 2016 ap.wang
* [MOLY00156091] [HMU] Fix USB multi event unsync
* .
*
* 11 17 2015 ap.wang
* [MOLY00148746] [HMU] Check timer feature
*
* Disable Timer check from UMOLY Trunk for 92 FPGA
*
* 11 10 2015 ap.wang
* [MOLY00148746] [HMU] Check timer feature
* .
*
* 11 10 2015 ap.wang
* [MOLY00148746] [HMU] Check timer feature
*
* 01 07 2015 ap.wang
* [MOLY00091565] [HMU] Modify assert to fatal for CR dispatch
* .
*
* 12 31 2014 ap.wang
* [MOLY00089916] [HMU] HIF ON/OFF for power saving
* .
*
* 11 17 2014 ap.wang
* [MOLY00084709] [HMU] Modify for GPT enable on MODIS
* .
*
* 08 06 2014 ap.wang
* [MOLY00074692] [HMU] Modify exception init function table
* .
*
* 07 04 2014 ap.wang
* [MOLY00071481] [HMU] Add HIF boot init to Application init
* .
*
* 07 01 2014 ap.wang
* [MOLY00071092] [HMU] Add tick count
* .
*
* 06 10 2014 ap.wang
* [MOLY00067367] [HMU] Modify GPT timer to MS callback for R8 on MOLY
* .
*
* 04 28 2014 ap.wang
* [MOLY00063912] [HMU] HMU temp solution for K2 MD2
* HMU temp solution for K2 MD2
*
* 04 17 2014 box.wu
* [MOLY00063010] [MT6595] HIF polling timeout check
* cldma timeout check
*
* 03 21 2014 ap.wang
* [MOLY00060351] [ETHERCORE] add ethercore enhancement feature
* Add ethercore DL retry
*
* 02 26 2014 ap.wang
* [MOLY00057680] [L2][HMU][DHL] L2 trace and L2 timestamp support
* Add L2trc_fill_4G_time to HMU GPT for L2 trace
*
* 11 07 2013 ap.wang
* [MOLY00043564] [klocwork_95][LTE] in hmu.c, line 345
* Fix Klocwork warning: succeeded might be used uninitialized in this function.
*
* 08 28 2013 ap.wang
* [MOLY00035451] [HMU] Add L2 trace log
* [HMU] Add L2 trace for event trigger
*
* 08 27 2013 ap.wang
* [MOLY00035456] [HMU] Modify for multi hif exception init
* [HMU] Modify for multi dev type exception init
*
* 07 31 2013 ap.wang
* [MOLY00031843] [HMU] Add trace log
* .
*
* 07 31 2013 ap.wang
* [MOLY00031843] [HMU] Add trace log
* [HMU] Add trace log
*
* 03 11 2013 ap.wang
* [MOLY00011696] [HMU] HMU code refine and compile warning fix
* [HMU] Add copyright header and change ipc_reload condition
****************************************************************************/
/*******************************************************************************
* Include header files
*******************************************************************************/
#include "kal_general_types.h"
#include "kal_public_api.h"
#include "kal_public_defs.h"
#include "nvram_interface.h"
#include "nvram_data_items.h"
#include "hmu_conf_data.h"
#include "hmu.h"
#include "hmu_debug.h"
#include "swla_public.h"
#if defined(__IPCORE_SUPPORT__) && !defined(IPCORE_NOT_PRESENT)
#include "ipc_api.h"
#endif
#include "dcl_gpt.h"
#include "kal_internal_api.h" // for fatal error code
#include "us_timer.h"
#include "ccci_if.h"
#ifdef __HMU_TG_TIMER_SUPPORT__
#include "tg_hisr.h"
#endif
#if defined(__LHIFCORE_SUPPORT__)
#include "lhif_if.h"
#endif
#if !defined(_MTK_TARGET_) && defined(_MSC_VER) && (_MSC_VER >= 1500)
#pragma warning( disable : 4100 )
#endif
#define HMU_LOCK(_s) _s = SaveAndSetIRQMask()
#define HMU_UNLOCK(_s) RestoreIRQMask(_s)
#if !defined(__HMU_TG_TIMER_SUPPORT__)
static DCL_HANDLE hmu_gpt_handle = 0 ;
#endif /* !__HMU_TG_TIMER_SUPPORT__ */
static kal_spinlockid hmu_spinlock = NULL;
static kal_bool hmu_gpt_enable = KAL_TRUE ;
static kal_uint32 hmu_hifeg_enable = 0 ; // hifeg enable bit mask
static kal_uint32 hmu_hifeg_enable_mask = 0 ; // use to indicate which hifeg need to enable at first time
static kal_bool hmu_dsp_timer_exist = KAL_FALSE ;
static hmu_internal_state_struct hmu_internal_state = {KAL_FALSE, KAL_FALSE, NULL};
extern hmu_tick_interval hmu_tick_interval_table[];
extern hmu_uldrv_except_initfunc uldrv_except_init_func_table[];
extern unsigned int uldrv_except_init_func_table_num;
#if defined(__MTK_TARGET__)
#if defined(__CLDMACORE_SUPPORT__) || defined(__CCIFCORE_SUPPORT__)
kal_uint32 hmu_trigger_hif_pending_count = 0;
#endif
#endif
kal_uint32 hmu_tick = 0;
// Timer source correctness detection
#define HMU_TIMER_SOURCE_TIMEOUT_ERROR (31 * 1000 * 1000) // us
#define HMU_TIMER_SOURCE_TIMEOUT_WARNING (5 * 1000) // us
static kal_bool hmu_detect_timer_enable = KAL_TRUE;
static kal_uint32 hmu_detect_start_time = 0;
static kal_uint32 duration = 0;
/*****************************************************************************
* @brief hmu_get_current_time is to get current time
* @param NA
* @return kal_uint32 current time
* Unit: micro second
*
*****************************************************************************/
kal_uint32 hmu_get_current_time()
{
#if defined(__MTK_TARGET__)
return ust_get_current_time();
#else // MODIS
return 0;
#endif
}
/*****************************************************************************
* @brief hmu_get_duration is to calculate the duration between start time and end time
* @param start: start time
* end: end time
* @return kal_uint32 time duration
* Unit: micro second
*
*****************************************************************************/
kal_uint32 hmu_get_duration(kal_uint32 start, kal_uint32 end)
{
#if defined(__MTK_TARGET__)
return ust_us_duration(start, end);
#else // MODIS
return 0;
#endif
}
/*****************************************************************************
* FUNCTION
* hmu_hifeg_init
* DESCRIPTION
*
* PARAMETERS
*
* RETURNS
*
*****************************************************************************/
kal_int32 hmu_hifeg_init(){
if (hmu_internal_state.hmuHifEgId == NULL){
hmu_internal_state.hmuHifEgId = kal_create_event_group(HIF_DRV_EG_NAME) ;
}
return HMU_OK ;
}
/*****************************************************************************
* FUNCTION
* hmu_hifeg_set
* DESCRIPTION
*
* PARAMETERS
*
* RETURNS
*
*****************************************************************************/
#ifdef __CCMNI_IT__
void ccmni_it_reload_rgpds();
#endif
#if defined(__ETHERCORE_SUPPORT__) && !defined(ETHERCORE_NOT_PRESENT)
void ethc_check_dl_handle_packet_retry(void);
#endif
kal_status hmu_hifeg_set(kal_uint32 events) {
kal_int32 index = 0;
hmu_tick_interval *hif;
/*
* Check if each uplink IP stream GPD is required to be relaoded or not.
* Note that, the uplink GPD realoding will be done in IPCORE context not here.
*/
if (HIF_DRV_EG_HIF_TICK_EVENT_GROUP & events) {
#if defined(__IPCORE_SUPPORT__) && !defined(IPCORE_NOT_PRESENT) && defined(__CCCICCMNI_SUPPORT__)
ipc_check_ul_reload_retry();
#endif
#if defined(__ETHERCORE_SUPPORT__) && !defined(ETHERCORE_NOT_PRESENT)
ethc_check_dl_handle_packet_retry();
#endif
#ifdef __CCMNI_IT__
/* Use for CCMNI_IT rgpds reload, move from sdiocore to here*/
ccmni_it_reload_rgpds();
#endif
}
/* Clear events if interval is not reached */
for(index = 0; hmu_tick_interval_table[index].hif_event != 0; index++){
hif = &(hmu_tick_interval_table[index]);
if (hif->hif_current_tick > 0){
events &= ~(hif->hif_event);
hif->hif_current_tick--;
}
else{
hif->hif_current_tick = hif->hif_event_tick_count;
}
}
if (HIF_DRV_EG_HIF_TICK_EVENT_GROUP & events) {
#if defined(__LHIFCORE_SUPPORT__)
lhifcore_task_hmu_wake_up(events);
#endif
}
#if defined(__MTK_TARGET__)
#if defined(__CLDMACORE_SUPPORT__) || defined(__CCIFCORE_SUPPORT__)
#define HIF_PENDING_LIMIT (4000)
/* add hif pending count and this count should be reset when hif polling task wakes up */
if (events & HIF_DRV_EG_HIF_TICK_EVENT_CLDMA){
if (hmu_trigger_hif_pending_count++ > HIF_PENDING_LIMIT) {
/* assert if over pending limit */
kal_fatal_error_handler(KAL_ERROR_HMU_DETECT_LONG_TIME_NO_RESPONSE,0);
}
}
// Check timer
hmu_check_timer(events);
#endif
#endif
hmu_data_trace(MD_TRC_HMU_DATA_EVENT_TRIGGER, kal_get_active_module_id(), hmu_gpt_enable, events, hmu_tick, duration);
hmu_tick++;
if(hmu_tick%100 == 0) {
hmu_data_trace(MD_TRC_HMU_ALIVE_EVENT, hmu_gpt_enable, events, hmu_tick);
}
return kal_set_eg_events(hmu_internal_state.hmuHifEgId, events, KAL_OR) ;
}
/*****************************************************************************
* FUNCTION
* hmu_hifeg_wait
* DESCRIPTION
*
* PARAMETERS
*
* RETURNS
*
*****************************************************************************/
kal_uint32 hmu_hifeg_wait(kal_uint32 events) {
kal_uint32 rt_event = 0;
#if defined(__HMU_TG_TIMER_SUPPORT__)
kal_bool tg_start = KAL_FALSE;
#endif
kal_take_spinlock(hmu_spinlock, KAL_INFINITE_WAIT);
if(((hmu_hifeg_enable_mask | events) ^ hmu_hifeg_enable_mask) != 0){ //HIF first time wait, never start/stop hmu_hifeg
hmu_hifeg_enable |= ((hmu_hifeg_enable_mask | events) ^ hmu_hifeg_enable_mask);
hmu_hifeg_enable_mask |= events;
if (hmu_dsp_timer_exist == KAL_FALSE){ //should have tick source for HIF first time wait
hmu_start_hif_sys_timer();
#if defined(__HMU_TG_TIMER_SUPPORT__)
tg_start = KAL_TRUE;
#endif
}
}
kal_give_spinlock(hmu_spinlock);
#if defined(__HMU_TG_TIMER_SUPPORT__)
if(tg_start == KAL_TRUE)
tg_hmu_callback_control_sync();
#endif
kal_retrieve_eg_events(hmu_internal_state.hmuHifEgId, events, KAL_OR_CONSUME, &rt_event, KAL_SUSPEND);
return rt_event;
}
#if !defined(__HMU_TG_TIMER_SUPPORT__)
static void hmu_gpt_callback(void *data) // HISR level !!
{
SGPT_CTRL_START_T re_schedule;
if (hmu_gpt_enable == KAL_TRUE){
re_schedule.u2Tick=HMU_GPTIMER_PRIODIC_INTERVAL ;
re_schedule.pfCallback=hmu_gpt_callback;
re_schedule.vPara=NULL;
l2trc_fill_4G_time();
hmu_hifeg_set(hmu_hifeg_enable & HIF_DRV_EG_HIF_TICK_EVENT_GROUP);
DclSGPT_Control(hmu_gpt_handle, SGPT_CMD_START, (DCL_CTRL_DATA_T*)&re_schedule) ;
}
else
{
hmu_data_trace(MD_TRC_HMU_GPT_CB_NO_NEXT);
}
}
#endif /* !__HMU_TG_TIMER_SUPPORT__ */
void hmu_stop_hif_sys_timer(){
//kal_take_enh_mutex(hmu_gpt_mutex);
#ifdef __HMU_TG_TIMER_SUPPORT__
tg_hmu_callback_control(KAL_FALSE);
#else
hmu_gpt_enable = KAL_FALSE ;
DclSGPT_Control(hmu_gpt_handle, SGPT_CMD_STOP, (DCL_CTRL_DATA_T*)NULL) ;
#endif
//kal_give_enh_mutex(hmu_gpt_mutex);
}
void hmu_start_hif_sys_timer(){
#ifdef __HMU_TG_TIMER_SUPPORT__
tg_hmu_callback_control(KAL_TRUE);
#else
SGPT_CTRL_START_T start;
//kal_take_enh_mutex(hmu_gpt_mutex);
hmu_gpt_enable = KAL_TRUE ;
start.u2Tick=HMU_GPTIMER_PRIODIC_INTERVAL;
start.pfCallback=hmu_gpt_callback;
start.vPara=NULL;
DclSGPT_Control(hmu_gpt_handle, SGPT_CMD_START, (DCL_CTRL_DATA_T*)&start) ;
//kal_give_enh_mutex(hmu_gpt_mutex);
#endif
}
void hmu_dsp_timer_kick(){
hmu_hifeg_set(hmu_hifeg_enable & HIF_DRV_EG_HIF_TICK_EVENT_GROUP);
kal_take_spinlock(hmu_spinlock, KAL_INFINITE_WAIT);
if (hmu_dsp_timer_exist == KAL_TRUE){
hmu_stop_hif_sys_timer();
kal_give_spinlock(hmu_spinlock);
hmu_data_trace(MD_TRC_HMU_STOP_GPT, kal_get_active_module_id());
}else{
kal_give_spinlock(hmu_spinlock);
}
}
static void hmu_init_hif_timer()
{
hmu_dsp_timer_exist = KAL_FALSE ;
hmu_gpt_enable = KAL_TRUE ;
#ifdef __HMU_TG_TIMER_SUPPORT__
// Default timer is TRUE
// tg_hmu_callback_control(KAL_TRUE);
#else
{
SGPT_CTRL_START_T start;
start.u2Tick=HMU_GPTIMER_PRIODIC_INTERVAL;
start.pfCallback=hmu_gpt_callback;
start.vPara=NULL;
DclSGPT_Control(hmu_gpt_handle, SGPT_CMD_START, (DCL_CTRL_DATA_T*)&start) ;
}
#endif
}
void hmu_switch_hif_timer(hmuTimerSource_enum source)
{
#if !defined(__HMU_TG_TIMER_SUPPORT__)
SGPT_CTRL_START_T start;
start.u2Tick=HMU_GPTIMER_PRIODIC_INTERVAL;
start.pfCallback=hmu_gpt_callback;
start.vPara=NULL;
kal_take_spinlock(hmu_spinlock, KAL_INFINITE_WAIT);
if (source == HMU_TIMER_SOURCE_DSP){
SLA_CustomLogging("DSP", SA_label);
hmu_dsp_timer_exist = KAL_TRUE ;
kal_give_spinlock(hmu_spinlock);
hmu_data_trace(MD_TRC_HMU_CHANGE_TIMER_DSP);
}else if(source == HMU_TIMER_SOURCE_SYS){
SLA_CustomLogging("GPT", SA_label);
hmu_dsp_timer_exist = KAL_FALSE ;
if( (hmu_hifeg_enable & HIF_DRV_EG_HIF_TICK_EVENT_GROUP) != 0){
hmu_gpt_enable = KAL_TRUE ;
DclSGPT_Control(hmu_gpt_handle, SGPT_CMD_START, (DCL_CTRL_DATA_T*)&start) ;
}
kal_give_spinlock(hmu_spinlock);
hmu_data_trace(MD_TRC_HMU_CHANGE_TIMER_GPT);
}
#endif /* !__HMU_TG_TIMER_SUPPORT__ */
}
kal_int32 hmu_boot_init()
{
if (hmu_internal_state.hmuBootInit == KAL_TRUE) {
return HMU_ALREADY_INIT;
}
hmu_hifeg_init() ;
#if !defined(__HMU_TG_TIMER_SUPPORT__)
if (hmu_gpt_handle == 0) {
hmu_gpt_handle = DclSGPT_Open(DCL_GPT_CB_MS, FLAGS_NONE);
if (hmu_gpt_handle == DCL_HANDLE_INVALID || hmu_gpt_handle == DCL_HANDLE_OCCUPIED){
ASSERT(0);
}
}
#endif /* !__HMU_TG_TIMER_SUPPORT__ */
if (hmu_spinlock == NULL) {
hmu_spinlock = kal_create_spinlock ("hmu_spinlock");
if (hmu_spinlock == NULL) {
ASSERT(0);
}
}
hmu_init_hif_timer() ;
hmu_internal_state.hmuBootInit = KAL_TRUE ;
return 0 ;
}
/*****************************************************************************
* FUNCTION
* hmu_except_init
*
* DESCRIPTION
* Trigger an upper layer device module to hook with TTYCORE and then proceed
* exception flow if an exception happens before hmu_init() completes.
*
* PARAMETERS
* N/A
*
* RETURNS
* KAL_TRUE if caller is allowed to proceed the exception flow;
* KAL_FALSE if there's no proper callback function registered by
* upper layer device modules or something wrong while executing
* the callback function.
*****************************************************************************/
#define hmu_except_step_logging_pattern 0x484D5500
kal_uint32 except_step = hmu_except_step_logging_pattern;
#if !defined(__HIF_CCCI_SUPPORT__)
#define ccci_excep_dbg_logging_InHS2(...)
#endif
kal_bool hmu_except_init(void)
{
kal_bool succeeded = KAL_TRUE;
kal_bool ret = 0;
kal_uint32 idx;
for (idx = 0; idx < uldrv_except_init_func_table_num; idx++) {
except_step = hmu_except_step_logging_pattern | (idx & 0xFF);
ccci_excep_dbg_logging_InHS2(CCCI_EXCEP_DBG_STEP, &except_step);
if (uldrv_except_init_func_table[idx].except_init_func != NULL){
ret = uldrv_except_init_func_table[idx].except_init_func(uldrv_except_init_func_table[idx].port_id, 0, NULL);
}
if (ret != 0){
succeeded = KAL_FALSE;
}
}
except_step = hmu_except_step_logging_pattern | 0xFF;
ccci_excep_dbg_logging_InHS2(CCCI_EXCEP_DBG_STEP, &except_step);
return succeeded;
}
/*****************************************************************************
* FUNCTION
* hif_boot_init
* DESCRIPTION
* HIF boot init function to initial HIF module without task.
* PARAMETERS
*
* RETURNS
* success or fail
*****************************************************************************/
kal_int32 hif_boot_init()
{
hmu_boot_init();
return 0 ;
}
/*****************************************************************************
* FUNCTION
* hmu_hifeg_stop
* DESCRIPTION
*
* PARAMETERS
*
* RETURNS
*
*****************************************************************************/
kal_uint32 hmu_hifeg_stop(kal_uint32 events) {
#if defined(__HMU_TG_TIMER_SUPPORT__)
kal_bool tg_stop = KAL_FALSE;
#endif
kal_take_spinlock(hmu_spinlock, KAL_INFINITE_WAIT);
hmu_hifeg_enable &= ~events;
hmu_hifeg_enable_mask |= events;
if( (hmu_hifeg_enable & HIF_DRV_EG_HIF_TICK_EVENT_GROUP) == 0){
hmu_stop_hif_sys_timer();
hmu_check_timer_stop();
#if defined(__HMU_TG_TIMER_SUPPORT__)
tg_stop = KAL_TRUE;
#endif
}
kal_give_spinlock(hmu_spinlock);
#if defined(__HMU_TG_TIMER_SUPPORT__)
if(tg_stop == KAL_TRUE)
tg_hmu_callback_control_sync();
#endif /* __HMU_TG_TIMER_SUPPORT__ */
hmu_data_trace(MD_TRC_HMU_HIFEG_STOP, kal_get_active_module_id(), events, hmu_hifeg_enable);
return hmu_hifeg_enable;
}
/*****************************************************************************
* FUNCTION
* hmu_hifeg_stop
* DESCRIPTION
*
* PARAMETERS
*
* RETURNS
*
*****************************************************************************/
kal_uint32 hmu_hifeg_start(kal_uint32 events) {
#if defined(__HMU_TG_TIMER_SUPPORT__)
kal_bool tg_start = KAL_FALSE;
#endif
kal_take_spinlock(hmu_spinlock, KAL_INFINITE_WAIT);
hmu_check_timer_start();
hmu_hifeg_enable |= events;
hmu_hifeg_enable_mask |= events;
if (hmu_dsp_timer_exist == KAL_FALSE){
hmu_start_hif_sys_timer();
#if defined(__HMU_TG_TIMER_SUPPORT__)
tg_start = KAL_TRUE;
#endif
}
kal_give_spinlock(hmu_spinlock);
#if defined(__HMU_TG_TIMER_SUPPORT__)
if(tg_start == KAL_TRUE)
tg_hmu_callback_control_sync();
#endif /* __HMU_TG_TIMER_SUPPORT__ */
hmu_data_trace(MD_TRC_HMU_HIFEG_START, kal_get_active_module_id(), events, hmu_hifeg_enable);
return hmu_hifeg_enable;
}
/*****************************************************************************
* FUNCTION
* hmu_check_timer_start / hmu_check_timer_stop
* DESCRIPTION
* Start / Stop HMU checking timer
* PARAMETERS
*
* RETURNS
*****************************************************************************/
void hmu_check_timer_start()
{
hmu_detect_timer_enable = KAL_TRUE;
/*
* Case 1. when stop timer then start, need to get current time again
* Case 2. when dsp change to gpt, dsp will call set_eg again, so will get checking timer
* So, need to check hmu_hifeg_enable then get current time
*/
if(hmu_detect_start_time == 0 || (hmu_hifeg_enable & HIF_DRV_EG_HIF_TICK_EVENT_GROUP) == 0)
hmu_detect_start_time = hmu_get_current_time();
}
void hmu_check_timer_stop()
{
hmu_detect_timer_enable = KAL_FALSE;
hmu_detect_start_time = 0;
}
/*****************************************************************************
* FUNCTION
* hmu_check_timer
* DESCRIPTION
* Check HMU timer source whether is normal
* PARAMETERS
*
* RETURNS
* HMU_CHECK_TIMER_ENUM : return checking result
*****************************************************************************/
kal_uint32 hmu_check_timer(kal_uint32 events)
{
if(hmu_detect_start_time != 0)
duration = hmu_get_duration(hmu_detect_start_time, hmu_get_current_time());
hmu_detect_start_time = hmu_get_current_time();
if(duration > HMU_TIMER_SOURCE_TIMEOUT_ERROR && hmu_detect_timer_enable){ // error log
//hmu_data_trace(MD_TRC_HMU_DATA_EVENT_TRIGGER_TIMEOUT_ERROR, hmu_gpt_enable, events, hmu_tick, duration);
#ifdef __HIF_CCCI_SUPPORT__
if(hmu_gpt_enable == KAL_FALSE)
CCCI_ERROR_CODE_ASSERT(CCCI_FA_HMU_DSP_TIMER_BROKEN, duration, hmu_gpt_enable);
else if(hmu_gpt_enable == KAL_TRUE)
CCCI_ERROR_CODE_ASSERT(CCCI_FA_HMU_GPT_TIMER_BROKEN, duration, hmu_gpt_enable);
#else
EXT_ASSERT(KAL_FALSE, hmu_tick, duration, hmu_gpt_enable);
#endif
return HMU_CHECK_TIMER_ERROR;
}
else if( duration > HMU_TIMER_SOURCE_TIMEOUT_WARNING && hmu_detect_timer_enable){ // warning log
hmu_data_trace(MD_TRC_HMU_DATA_EVENT_TRIGGER_TIMEOUT_WARNING, hmu_gpt_enable, events, hmu_tick, duration);
return HMU_CHECK_TIMER_WARNING;
}
else{ // normal log
return HMU_CHECK_TIMER_SUCCESS;
}
}
/*****************************************************************************
* FUNCTION
* hmu_tg_callback
* DESCRIPTION
* Callback from task group hisr
* PARAMETERS
*
* RETURNS
*****************************************************************************/
#ifdef __HMU_TG_TIMER_SUPPORT__
void hmu_tg_timer_callback()
{
#ifndef __MTK_TARGET__ // MoDIS only
l2trc_fill_4G_time(); // for DHL polling log in MoDIS
#endif
hmu_hifeg_set(hmu_hifeg_enable & HIF_DRV_EG_HIF_TICK_EVENT_GROUP);
}
#endif