mcu/driver/devdrv/cirq/md97p/src/isrentry.c - T800_MD - Gitiles

 /*****************************************************************************
 *  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) 2005
 *
 *  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:
  * ---------
  *   isrentry.c
  *
  * Project:
  * --------
  *   Maui_Software
  *
  * Description:
  * ------------
  *   This Module defines the IRQ service routines for all IRQ sources
  *
  * Author:
  * -------
  * -------
  *
  *============================================================================
  *             HISTORY
  * Below this line, this part is controlled by PVCS VM. DO NOT MODIFY!!
  *------------------------------------------------------------------------------
  * removed!
  * removed!
  * removed!
  *
  * removed!
  * removed!
  * removed!
  * removed!
  *
  * removed!
  * removed!
  * removed!
  *
  * removed!
  * removed!
  * removed!
  *
  *
  *------------------------------------------------------------------------------
  * Upper this line, this part is controlled by PVCS VM. DO NOT MODIFY!!
  *============================================================================
  ****************************************************************************/
 /*******************************************************************************
  * Include header files.
  *******************************************************************************/
 #ifdef __MTK_TARGET__
 #include <mips/mt.h>
 #endif
 #include "reg_base.h"
 #include "isrentry.h"
 #include "intrCtrl.h"
 #include "md97/idle_service.h"
 #include "drv_rstctl.h"

 #include "kal_hrt_api.h"
 #include "sync_data.h"
 #include "kal_general_types.h"
 #include "kal_public_api.h"
 #include "kal_public_defs.h"
 #include "us_timer.h"
 #include "drv_mdcirq.h"
 #include "drv_mdcirq_reg.h"
 #include "kal_iram_section_defs.h"
 #include "drv_vpe_irq.h"
 #include "kal_cpuinfo.h"
 #include "mips_ia_utils.h"
 #include "drv_vpe_irq.h"
 #include "ex_public.h"
 #include "SST_sla.h"
 #include "swtr.h"
 #include "kal_internal_api.h"
 #include "syscomp_config.h"
 #include "kal_wp_hook.h"

 #if defined(__ESL_DBG_UTIL__)
 #include "esl_debug.h"
 #else  /* __ESL_DBG_UTIL__ */
 #define esl_printf(donothing...) do {;}while(0)
 #endif /* __ESL_DBG_UTIL__ */

 /*************************************************************************
  * Define function prototypes and data structures.
  *************************************************************************/

 extern void kal_hrt_mt_save(kal_uint32 irqvector, kal_mt_stack_ptr *stack_ptr);
 extern void kal_hrt_mt_restore(kal_uint32 irqvector, kal_mt_stack_ptr *stack_ptr);

 #if defined(__DUMMY_L1_ON_TARGET_4G5G__)
 extern void xl1r_vpe_idle_setup_False(void);
 #endif

 /*************************************************************************
  * Define imported global data.
  *************************************************************************/
 extern kal_uint16 HWIRQCode2SWIRQCode[];
 extern kal_uint16 SWIRQCode2HWIRQCode[];

 extern const isr_config_s isr_config_tbl[];

 /*************************************************************************
  * Define global data.
  *************************************************************************/
 irqlisr_entry lisr_dispatch_tbl[NUM_IRQ_SOURCES];

 __MCURW_HWRW_C_ALIGNED_L2CACHE_LOCK_ZI(4) void *processing_lisr[MDCIRQ_TOTAL_VPE_NUM];
 __MCURW_HWRW_C_ALIGNED_L2CACHE_LOCK_RW(4) kal_uint32 processing_irqx[MDCIRQ_TOTAL_VPE_NUM] = {IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT};

 __MCURW_HWRW_C_ALIGNED_L2CACHE_LOCK_ZI(4) kal_uint32 processing_irqCnt[MDCIRQ_TOTAL_VPE_NUM];
 __MCURW_HWRW_C_ALIGNED_L2CACHE_LOCK_ZI(4) kal_uint32 max_processing_irqCnt[MDCIRQ_TOTAL_VPE_NUM];

 /* spurious interrupt log */
 #define SPURIOUS_IRQ_LOG_SIZE 20
 kal_uint32 spurious_count[MDCIRQ_TOTAL_VPE_NUM] = {0};
 kal_uint32 spurious_id[MDCIRQ_TOTAL_VPE_NUM][SPURIOUS_IRQ_LOG_SIZE];

 /*************************************************************************
  * Macro Definitions for "CIRQ Dispatch Misbehaviour" SW Workaround      *
  *************************************************************************/
 #define MDCIRQ_DUMMY_DI() \
 do{                       \
     __asm__ __volatile__( \
         "di\n\t"          \
         "ehb\n\t"         \
     );                    \
 } while(0)

 #define MDCIRQ_DUMMY_EI() \
 do{                       \
     __asm__ __volatile__( \
         "ei\n\t"          \
         "ehb\n\t"         \
     );                    \
 } while(0)


 /* Delay 3T CIRQ cycles for GCR_VPE_IRQ_STATE and IE_status to sync to CIRQ     *
  * 3T CIRQ cycles = 18T CPU cycles --> 3 * 6(shaolin to cirq clock ratio) * 2   *
  * (dual issue impact) = 36 ALU Instructions                                    */
 // 3T CIRQ cycles * Dual issue impact
 #define MDCIRQ_DELAY_CYCLES   3 * 2

 // MDCIRQ_DELAY_CYCLES * (5 nop + 1 addiu from for loop) = 36 ALU Instructions
 #define MDCIRQ_DELAY_LOOP()                                                         \
 do{                                                                                 \
     register kal_uint32 _delay_loop;                                                \
     for(_delay_loop = 0; _delay_loop < MDCIRQ_DELAY_CYCLES; _delay_loop++) {        \
         __asm__ __volatile__(                                                       \
             "nop\n\t"                                                               \
             "nop\n\t"                                                               \
             "nop\n\t"                                                               \
             "nop\n\t"                                                               \
             "nop\n\t"                                                               \
         );                                                                          \
     }                                                                               \
 }while(0)

 /*************************************************************************
  * Macro Definitions for "CIRQ Dispatch Misbehaviour" SW Workaround End  *
  *************************************************************************/

 /*************************************************************************
 * FUNCTION
 *  MDCIRQ_IRQ_LISR_Init
 *
 * DESCRIPTION
 *   This function implement IRQ's LISR (Low-level Interrupt Service Routine)
 *  Table initialization.
 *
 * CALLS
 *
 * CALL BY
 *
 * PARAMETERS
 *
 * RETURNS
 *
 *************************************************************************/
 void MDCIRQ_IRQ_LISR_Init()
 {
     kal_uint32 i;
     for (i = NUM_IRQ_SOURCES; i != 0; i--)
     {
         MDCIRQ_IRQ_Register_LISR(i - 1, MDCIRQ_IRQ_Default_LISR, "NULL handler");
     }
 }

 /*************************************************************************
 * FUNCTION
 *  MDCIRQ_IRQ_Register_LISR
 *
 * DESCRIPTION
 *   This function implement method to register IRQ's LISR.
 *
 * CALLS
 *
 * CALL BY
 *
 * PARAMETERS
 *  HWIRQID   -  vector number to register
 *  reg_lisr    -  register LISR's handler
 *  description -  LISR's description pointer to be saved.
 *     Remember, the routine won't duplicate the description,
 *     therefore, caller shouldn't free the description.
 *
 * RETURNS
 *
 *************************************************************************/
 void MDCIRQ_IRQ_Register_LISR(kal_uint16 HWIRQCode, void (*reg_lisr)(kal_uint32), char* description)
 {
     kal_uint32 savedMask, SWIRQCode;
     /* Caller:
      *  1. MDCIRQ_IRQ_LISR_Init() call this API for all IRQ LISR init.
      *  2. Users call this API register their LISR. If user already fill LISR info in gen97_isr_config.h, return directly.
      */
     if(isr_config_tbl[HWIRQCode].irq_hdlr != (irq_isr_hdlr_ptr)MDCIRQ_IRQ_Default_LISR
             && (irq_isr_hdlr_ptr)reg_lisr != (irq_isr_hdlr_ptr)MDCIRQ_IRQ_Default_LISR)
     {
         return;
     }
     savedMask = kal_hrt_SaveAndSetIRQMask();
     SWIRQCode = (kal_uint32)HWIRQCode2SWIRQCode[HWIRQCode];
     lisr_dispatch_tbl[HWIRQCode].vector = SWIRQCode;
     lisr_dispatch_tbl[HWIRQCode].lisr_handler = reg_lisr;
     lisr_dispatch_tbl[HWIRQCode].description = description;
     kal_hrt_RestoreIRQMask(savedMask);
 }

 /**************************************************************************
 * FUNCTION
 *  MDCIRQ_IRQ_Register_LISR_isrc
 *
 * DESCRIPTION
 *   This function implement method to register IRQ's LISR.
 *   This is internal API.
 *   SS team help users register LISR.
 *
 * CALLER
 *   stack_init_lisrs()
 *
 ***************************************************************************/
 void MDCIRQ_IRQ_Register_LISR_isrc(kal_uint32 HWIRQCode, void (*reg_lisr)(kal_uint32), char* description)
 {
     kal_uint32 savedMask, SWIRQCode;
     /* If user DO NOT fill LISR info in gen97_isr_config.h, that means user should register LISR by himself. */
     if((irq_isr_hdlr_ptr)reg_lisr == (irq_isr_hdlr_ptr)MDCIRQ_IRQ_Default_LISR)
     {
         return;
     }
     savedMask = kal_hrt_SaveAndSetIRQMask();
     SWIRQCode = (kal_uint32)HWIRQCode2SWIRQCode[HWIRQCode];
     lisr_dispatch_tbl[HWIRQCode].vector = SWIRQCode;
     lisr_dispatch_tbl[HWIRQCode].lisr_handler = reg_lisr;
     lisr_dispatch_tbl[HWIRQCode].description = description;
     kal_hrt_RestoreIRQMask(savedMask);
 }

 /*************************************************************************
 * FUNCTION
 *  MDCIRQ_IRQ_Retrieve_LISR
 *
 * DESCRIPTION
 *   This function implement to retrieve register LISR handler
 *
 * CALLS
 *
 * CALL BY
 *
 * PARAMETERS
 *
 * RETURNS
 *
 *************************************************************************/
 void* MDCIRQ_IRQ_Retrieve_LISR(kal_uint16 HWIRQCode)
 {
     return(void*)(lisr_dispatch_tbl[HWIRQCode].lisr_handler);
 }

 /*************************************************************************
 * FUNCTION
 *  IRQ_Default_LISR
 *
 * DESCRIPTION
 *   This function implement default IRQ' LISR
 *
 * CALLS
 *
 * CALL BY
 *  IRQ_LISR_Init()
 *
 * PARAMETERS
 *
 * RETURNS
 *
 *************************************************************************/
 void MDCIRQ_IRQ_Default_LISR(kal_uint32 irq_id)
 {
     kal_fatal_error_handler(KAL_ERROR_NON_REGISTERED_LISR, irq_id);
 }

 void INT_Timer_Interrupt(void)
 {
     kal_timer_interrupt();
 }

 void isrC_Main(kal_uint32 vector)
 {

     kal_uint32 vpe_num;
     kal_uint32 irqx_swcode, irqx_swcode_non_spurious;
     kal_uint32 irqx_hwcode, irqx_hwcode_non_spurious;
     void       *processing_lisr_backup;
     kal_uint32 processing_irqx_backup;
     kal_uint32 ori_vpe_state;
     kal_mt_stack_ptr mt_stack_ptr_backup = {{NULL}};

     ASSERT_EXL_SAFE(vector == VPE_IRQID_MDCIRQ);

     vpe_num = kal_get_current_vpe_id();
     processing_lisr_backup = processing_lisr[vpe_num];
     processing_irqx_backup = processing_irqx[vpe_num];

 #if defined(__MDCIRQ_GCR_SIGNAL_DISABLE__)
     irqx_swcode = DRV_Reg32(MDCIRQ_VPE_IRQ_ID_BASE + (vpe_num<<2));
 #else
     irqx_swcode = DRV_Reg32(MDCIRQ_GCR_VPE_IRQ_ID_BASE + (vpe_num<<2));
 #endif

     irqx_swcode_non_spurious = irqx_swcode & 0x1ff;

     /* Set&backup VPE IRQ state */
     ori_vpe_state = drv_mdcirq_SaveAndSet_VPE_state(vpe_num, irqx_swcode_non_spurious);

     /* Reset TC's priority according IRQ's Priority */
     register miu_reg32_t tc_priority;
     if (irqx_swcode < IRQ_HRT_PRIORITY_THRESHOLD) {
         // HRT IRQs
         tc_priority = HRT_CONTEXT_GRP;
     } else {
     	// Non-HRT IRQs and Spurious IRQs
         tc_priority = kal_get_current_domain();
     }
     miu_mtc0(MIU_C0_TCSCHEDULE, tc_priority << MIU_C0_TCSCHEDULE_PRIO_BITFIELD_BEG);

 #if defined(__DUMMY_L1_ON_TARGET_4G5G__)
     /* Record current VPE is not in Idletask for KS IODT FPGA */
     xl1r_vpe_idle_setup_False();
 #endif

     irqx_hwcode_non_spurious = (kal_uint32)SWIRQCode2HWIRQCode[irqx_swcode_non_spurious];
     irqx_hwcode = irqx_hwcode_non_spurious | (irqx_swcode&0x200);

     /* Use HW code to do IRQ logging */
     esl_printf(ESL_SIM_TIME_FLAG|ESL_WALL_TIME_FLAG, "[ISR-%d S]\n", irqx_hwcode);

     /* These global variable will be used by others. The meaning should keep the same as 93*/
     processing_irqx[vpe_num] = irqx_hwcode_non_spurious;
     processing_lisr[vpe_num] = (void*)lisr_dispatch_tbl[irqx_hwcode_non_spurious].lisr_handler;
     processing_irqCnt[vpe_num]++;
     if(processing_irqCnt[vpe_num]>max_processing_irqCnt[vpe_num])
     {
         max_processing_irqCnt[vpe_num] = processing_irqCnt[vpe_num];
     }


     SLA_LoggingLISR(0xaaaa0000 | ((kal_uint32)irqx_hwcode), vpe_num);

     /************************************************************************************
     * SW workaround for "CIRQ Dispatch Misbehaviour"                                    *
     * When low priority IRQ is enterting IRQ handler flow (readID ~ set vpe state), and *
     * high priority IRQ is choosing best vpe according to vpe state, the high priority  *
     * IRQ will dispatch to the same VPE and preempt low priority IRQ since vpe state    *
     * of the low priority IRQ has not yet been updated to CIRQ. This may cause two      *
     * critical LISRS to run on the same VPE while other VPEs are in IDLE. Therefore, we *
     * trigger a dummy DI/EI below to force high priority IRQ to be resent to other VPEs.*
     *************************************************************************************/

 #if defined(__MDCIRQ_GCR_SIGNAL_DISABLE__)
     /* Dummy read APB_VPE_IRQ_STATE to guarantee value has been written to CIRQ */
     ASSERT_EXL_SAFE(MDCIRQ_READ_REG_INDEX(MDCIRQ_VPE_IRQ_STATE_BASE, vpe_num) == irqx_swcode_non_spurious);
 #else
     /* Dummy read GCR_VPE_IRQ_STATE to guarantee value has been written to GCR,
        then wait for 3T CIRQ clock so that the GCR value is synced to CIRQ */
     ASSERT_EXL_SAFE(MDCIRQ_READ_REG_INDEX(MDCIRQ_GCR_VPE_IRQ_STATE_BASE, vpe_num) == irqx_swcode_non_spurious);
     MDCIRQ_DELAY_LOOP();
 #endif

     /* Dummy DI/EI to force pending IRQs to be resent */
     MDCIRQ_DUMMY_DI();
     MDCIRQ_DELAY_LOOP();
     MDCIRQ_DUMMY_EI();

     /************************************************************************************
     * SW workaround for "CIRQ Dispatch Misbehaviour" End                                *
     *************************************************************************************/

     /* Non-Spurious IRQ */
     if(!(irqx_hwcode&0x200))
     {
         kal_hrt_mt_save(irqx_hwcode_non_spurious, &mt_stack_ptr_backup);
 #if defined(__MDCIRQ_OSIPI_SPECIAL_FLOW__)
         /* Mask OSIPI in the first IRQ LISR (because OSIPI is the lowest priority) */
         if( processing_irqCnt[vpe_num] == 1 )
         {
             VPE_IRQ_MASK(VPE_IRQID_OSIPI);
         }
 #endif
         if((kal_get_current_domain() == KAL_DOMAIN_CHRT) && (processing_irqCnt[vpe_num] == 1))
         {
             // enable and kick WDT
             drv_rstctl_set_check_bit((vpeid_e)vpe_num);
             drv_rstctl_set_kick_bit((vpeid_e)vpe_num);
         }

         wp_hook_dispatchLISR_start(vpe_num,irqx_hwcode_non_spurious);
         Clear_EXL();

         lisr_dispatch_tbl[irqx_hwcode_non_spurious].lisr_handler(irqx_hwcode_non_spurious);

         if(Ibit_Status()!=1)  //Ibit cannot be disabled after LISR!
         {
             kal_fatal_error_handler(KAL_ERROR_INTERRUPT_DISABLED_AFTER_LISR_FAILED, (kal_uint32)processing_lisr[vpe_num]);
         }

         Set_EXL();
         wp_hook_dispatchLISR_end(vpe_num,irqx_hwcode_non_spurious);
 #if defined(__MDCIRQ_OSIPI_SPECIAL_FLOW__)
         /* Unmask OSIPI after the first IRQ LISR */
         if( processing_irqCnt[vpe_num] == 1 )
         {
             VPE_IRQ_UNMASK(VPE_IRQID_OSIPI);
         }
 #endif
         if((kal_get_current_domain() == KAL_DOMAIN_CHRT) && (processing_irqCnt[vpe_num] == 1))
         {
             // disable WDT
             drv_rstctl_clr_check_bit((vpeid_e)vpe_num);
             // set wait variable
             Idle_Service_Prepare_WAIT();
         }


         kal_hrt_mt_restore(irqx_hwcode_non_spurious, &mt_stack_ptr_backup);
     }
     else  // spurious IRQ
     {
         spurious_id[vpe_num][spurious_count[vpe_num]%SPURIOUS_IRQ_LOG_SIZE] = irqx_hwcode;
         spurious_count[vpe_num]++;
     }

     processing_irqx[vpe_num] = processing_irqx_backup;
     processing_lisr[vpe_num] = processing_lisr_backup;
     processing_irqCnt[vpe_num]--;

     SLA_LoggingLISR(0xaaaaaaaa, vpe_num);

     /* Use HW code to do IRQ logging */
     esl_printf(ESL_SIM_TIME_FLAG|ESL_WALL_TIME_FLAG, "[ISR-%d E]\n", irqx_hwcode);

     drv_mdcirq_Restore_VPE_state(vpe_num, ori_vpe_state);

     /* Non-Spurious IRQ */
     if(!(irqx_hwcode&0x200))
     {
         /* IRQ idx in SW code view */
         if( processing_irqx_backup == IRQ_NOT_LISR_CONTEXT)
             MDCIRQ_SYS_endIsr(vpe_num, processing_irqx_backup);
         else
             MDCIRQ_SYS_endIsr(vpe_num, (kal_uint32)HWIRQCode2SWIRQCode[processing_irqx_backup]);
     }
 }
	/*****************************************************************************
	* 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) 2005
	*
	* 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:
	* ---------
	* isrentry.c
	*
	* Project:
	* --------
	* Maui_Software
	*
	* Description:
	* ------------
	* This Module defines the IRQ service routines for all IRQ sources
	*
	* Author:
	* -------
	* -------
	*
	*============================================================================
	* HISTORY
	* Below this line, this part is controlled by PVCS VM. DO NOT MODIFY!!
	*------------------------------------------------------------------------------
	* removed!
	* removed!
	* removed!
	*
	* removed!
	* removed!
	* removed!
	* removed!
	*
	* removed!
	* removed!
	* removed!
	*
	* removed!
	* removed!
	* removed!
	*
	*
	*------------------------------------------------------------------------------
	* Upper this line, this part is controlled by PVCS VM. DO NOT MODIFY!!
	*============================================================================
	****************************************************************************/
	/*******************************************************************************
	* Include header files.
	*******************************************************************************/
	#ifdef __MTK_TARGET__
	#include <mips/mt.h>
	#endif
	#include "reg_base.h"
	#include "isrentry.h"
	#include "intrCtrl.h"
	#include "md97/idle_service.h"
	#include "drv_rstctl.h"

	#include "kal_hrt_api.h"
	#include "sync_data.h"
	#include "kal_general_types.h"
	#include "kal_public_api.h"
	#include "kal_public_defs.h"
	#include "us_timer.h"
	#include "drv_mdcirq.h"
	#include "drv_mdcirq_reg.h"
	#include "kal_iram_section_defs.h"
	#include "drv_vpe_irq.h"
	#include "kal_cpuinfo.h"
	#include "mips_ia_utils.h"
	#include "drv_vpe_irq.h"
	#include "ex_public.h"
	#include "SST_sla.h"
	#include "swtr.h"
	#include "kal_internal_api.h"
	#include "syscomp_config.h"
	#include "kal_wp_hook.h"

	#if defined(__ESL_DBG_UTIL__)
	#include "esl_debug.h"
	#else /* __ESL_DBG_UTIL__ */
	#define esl_printf(donothing...) do {;}while(0)
	#endif /* __ESL_DBG_UTIL__ */

	/*************************************************************************
	* Define function prototypes and data structures.
	*************************************************************************/

	extern void kal_hrt_mt_save(kal_uint32 irqvector, kal_mt_stack_ptr *stack_ptr);
	extern void kal_hrt_mt_restore(kal_uint32 irqvector, kal_mt_stack_ptr *stack_ptr);

	#if defined(__DUMMY_L1_ON_TARGET_4G5G__)
	extern void xl1r_vpe_idle_setup_False(void);
	#endif

	/*************************************************************************
	* Define imported global data.
	*************************************************************************/
	extern kal_uint16 HWIRQCode2SWIRQCode[];
	extern kal_uint16 SWIRQCode2HWIRQCode[];

	extern const isr_config_s isr_config_tbl[];

	/*************************************************************************
	* Define global data.
	*************************************************************************/
	irqlisr_entry lisr_dispatch_tbl[NUM_IRQ_SOURCES];

	__MCURW_HWRW_C_ALIGNED_L2CACHE_LOCK_ZI(4) void *processing_lisr[MDCIRQ_TOTAL_VPE_NUM];
	__MCURW_HWRW_C_ALIGNED_L2CACHE_LOCK_RW(4) kal_uint32 processing_irqx[MDCIRQ_TOTAL_VPE_NUM] = {IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT, IRQ_NOT_LISR_CONTEXT};

	__MCURW_HWRW_C_ALIGNED_L2CACHE_LOCK_ZI(4) kal_uint32 processing_irqCnt[MDCIRQ_TOTAL_VPE_NUM];
	__MCURW_HWRW_C_ALIGNED_L2CACHE_LOCK_ZI(4) kal_uint32 max_processing_irqCnt[MDCIRQ_TOTAL_VPE_NUM];

	/* spurious interrupt log */
	#define SPURIOUS_IRQ_LOG_SIZE 20
	kal_uint32 spurious_count[MDCIRQ_TOTAL_VPE_NUM] = {0};
	kal_uint32 spurious_id[MDCIRQ_TOTAL_VPE_NUM][SPURIOUS_IRQ_LOG_SIZE];

	/*************************************************************************
	* Macro Definitions for "CIRQ Dispatch Misbehaviour" SW Workaround *
	*************************************************************************/
	#define MDCIRQ_DUMMY_DI() \
	do{ \
	__asm__ __volatile__( \
	"di\n\t" \
	"ehb\n\t" \
	); \
	} while(0)

	#define MDCIRQ_DUMMY_EI() \
	do{ \
	__asm__ __volatile__( \
	"ei\n\t" \
	"ehb\n\t" \
	); \
	} while(0)


	/* Delay 3T CIRQ cycles for GCR_VPE_IRQ_STATE and IE_status to sync to CIRQ *
	* 3T CIRQ cycles = 18T CPU cycles --> 3 * 6(shaolin to cirq clock ratio) * 2 *
	* (dual issue impact) = 36 ALU Instructions */
	// 3T CIRQ cycles * Dual issue impact
	#define MDCIRQ_DELAY_CYCLES 3 * 2

	// MDCIRQ_DELAY_CYCLES * (5 nop + 1 addiu from for loop) = 36 ALU Instructions
	#define MDCIRQ_DELAY_LOOP() \
	do{ \
	register kal_uint32 _delay_loop; \
	for(_delay_loop = 0; _delay_loop < MDCIRQ_DELAY_CYCLES; _delay_loop++) { \
	__asm__ __volatile__( \
	"nop\n\t" \
	"nop\n\t" \
	"nop\n\t" \
	"nop\n\t" \
	"nop\n\t" \
	); \
	} \
	}while(0)

	/*************************************************************************
	* Macro Definitions for "CIRQ Dispatch Misbehaviour" SW Workaround End *
	*************************************************************************/

	/*************************************************************************
	* FUNCTION
	* MDCIRQ_IRQ_LISR_Init
	*
	* DESCRIPTION
	* This function implement IRQ's LISR (Low-level Interrupt Service Routine)
	* Table initialization.
	*
	* CALLS
	*
	* CALL BY
	*
	* PARAMETERS
	*
	* RETURNS
	*
	*************************************************************************/
	void MDCIRQ_IRQ_LISR_Init()
	{
	kal_uint32 i;
	for (i = NUM_IRQ_SOURCES; i != 0; i--)
	{
	MDCIRQ_IRQ_Register_LISR(i - 1, MDCIRQ_IRQ_Default_LISR, "NULL handler");
	}
	}

	/*************************************************************************
	* FUNCTION
	* MDCIRQ_IRQ_Register_LISR
	*
	* DESCRIPTION
	* This function implement method to register IRQ's LISR.
	*
	* CALLS
	*
	* CALL BY
	*
	* PARAMETERS
	* HWIRQID - vector number to register
	* reg_lisr - register LISR's handler
	* description - LISR's description pointer to be saved.
	* Remember, the routine won't duplicate the description,
	* therefore, caller shouldn't free the description.
	*
	* RETURNS
	*
	*************************************************************************/
	void MDCIRQ_IRQ_Register_LISR(kal_uint16 HWIRQCode, void (reg_lisr)(kal_uint32), char description)
	{
	kal_uint32 savedMask, SWIRQCode;
	/* Caller:
	* 1. MDCIRQ_IRQ_LISR_Init() call this API for all IRQ LISR init.
	* 2. Users call this API register their LISR. If user already fill LISR info in gen97_isr_config.h, return directly.
	*/
	if(isr_config_tbl[HWIRQCode].irq_hdlr != (irq_isr_hdlr_ptr)MDCIRQ_IRQ_Default_LISR
	&& (irq_isr_hdlr_ptr)reg_lisr != (irq_isr_hdlr_ptr)MDCIRQ_IRQ_Default_LISR)
	{
	return;
	}
	savedMask = kal_hrt_SaveAndSetIRQMask();
	SWIRQCode = (kal_uint32)HWIRQCode2SWIRQCode[HWIRQCode];
	lisr_dispatch_tbl[HWIRQCode].vector = SWIRQCode;
	lisr_dispatch_tbl[HWIRQCode].lisr_handler = reg_lisr;
	lisr_dispatch_tbl[HWIRQCode].description = description;
	kal_hrt_RestoreIRQMask(savedMask);
	}

	/**************************************************************************
	* FUNCTION
	* MDCIRQ_IRQ_Register_LISR_isrc
	*
	* DESCRIPTION
	* This function implement method to register IRQ's LISR.
	* This is internal API.
	* SS team help users register LISR.
	*
	* CALLER
	* stack_init_lisrs()
	*
	***************************************************************************/
	void MDCIRQ_IRQ_Register_LISR_isrc(kal_uint32 HWIRQCode, void (reg_lisr)(kal_uint32), char description)
	{
	kal_uint32 savedMask, SWIRQCode;
	/* If user DO NOT fill LISR info in gen97_isr_config.h, that means user should register LISR by himself. */
	if((irq_isr_hdlr_ptr)reg_lisr == (irq_isr_hdlr_ptr)MDCIRQ_IRQ_Default_LISR)
	{
	return;
	}
	savedMask = kal_hrt_SaveAndSetIRQMask();
	SWIRQCode = (kal_uint32)HWIRQCode2SWIRQCode[HWIRQCode];
	lisr_dispatch_tbl[HWIRQCode].vector = SWIRQCode;
	lisr_dispatch_tbl[HWIRQCode].lisr_handler = reg_lisr;
	lisr_dispatch_tbl[HWIRQCode].description = description;
	kal_hrt_RestoreIRQMask(savedMask);
	}

	/*************************************************************************
	* FUNCTION
	* MDCIRQ_IRQ_Retrieve_LISR
	*
	* DESCRIPTION
	* This function implement to retrieve register LISR handler
	*
	* CALLS
	*
	* CALL BY
	*
	* PARAMETERS
	*
	* RETURNS
	*
	*************************************************************************/
	void* MDCIRQ_IRQ_Retrieve_LISR(kal_uint16 HWIRQCode)
	{
	return(void*)(lisr_dispatch_tbl[HWIRQCode].lisr_handler);
	}

	/*************************************************************************
	* FUNCTION
	* IRQ_Default_LISR
	*
	* DESCRIPTION
	* This function implement default IRQ' LISR
	*
	* CALLS
	*
	* CALL BY
	* IRQ_LISR_Init()
	*
	* PARAMETERS
	*
	* RETURNS
	*
	*************************************************************************/
	void MDCIRQ_IRQ_Default_LISR(kal_uint32 irq_id)
	{
	kal_fatal_error_handler(KAL_ERROR_NON_REGISTERED_LISR, irq_id);
	}

	void INT_Timer_Interrupt(void)
	{
	kal_timer_interrupt();
	}

	void isrC_Main(kal_uint32 vector)
	{

	kal_uint32 vpe_num;
	kal_uint32 irqx_swcode, irqx_swcode_non_spurious;
	kal_uint32 irqx_hwcode, irqx_hwcode_non_spurious;
	void *processing_lisr_backup;
	kal_uint32 processing_irqx_backup;
	kal_uint32 ori_vpe_state;
	kal_mt_stack_ptr mt_stack_ptr_backup = {{NULL}};

	ASSERT_EXL_SAFE(vector == VPE_IRQID_MDCIRQ);

	vpe_num = kal_get_current_vpe_id();
	processing_lisr_backup = processing_lisr[vpe_num];
	processing_irqx_backup = processing_irqx[vpe_num];

	#if defined(__MDCIRQ_GCR_SIGNAL_DISABLE__)
	irqx_swcode = DRV_Reg32(MDCIRQ_VPE_IRQ_ID_BASE + (vpe_num<<2));
	#else
	irqx_swcode = DRV_Reg32(MDCIRQ_GCR_VPE_IRQ_ID_BASE + (vpe_num<<2));
	#endif

	irqx_swcode_non_spurious = irqx_swcode & 0x1ff;

	/* Set&backup VPE IRQ state */
	ori_vpe_state = drv_mdcirq_SaveAndSet_VPE_state(vpe_num, irqx_swcode_non_spurious);

	/* Reset TC's priority according IRQ's Priority */
	register miu_reg32_t tc_priority;
	if (irqx_swcode < IRQ_HRT_PRIORITY_THRESHOLD) {
	// HRT IRQs
	tc_priority = HRT_CONTEXT_GRP;
	} else {
	// Non-HRT IRQs and Spurious IRQs
	tc_priority = kal_get_current_domain();
	}
	miu_mtc0(MIU_C0_TCSCHEDULE, tc_priority << MIU_C0_TCSCHEDULE_PRIO_BITFIELD_BEG);

	#if defined(__DUMMY_L1_ON_TARGET_4G5G__)
	/* Record current VPE is not in Idletask for KS IODT FPGA */
	xl1r_vpe_idle_setup_False();
	#endif

	irqx_hwcode_non_spurious = (kal_uint32)SWIRQCode2HWIRQCode[irqx_swcode_non_spurious];
	irqx_hwcode = irqx_hwcode_non_spurious \| (irqx_swcode&0x200);

	/* Use HW code to do IRQ logging */
	esl_printf(ESL_SIM_TIME_FLAG\|ESL_WALL_TIME_FLAG, "[ISR-%d S]\n", irqx_hwcode);

	/* These global variable will be used by others. The meaning should keep the same as 93*/
	processing_irqx[vpe_num] = irqx_hwcode_non_spurious;
	processing_lisr[vpe_num] = (void*)lisr_dispatch_tbl[irqx_hwcode_non_spurious].lisr_handler;
	processing_irqCnt[vpe_num]++;
	if(processing_irqCnt[vpe_num]>max_processing_irqCnt[vpe_num])
	{
	max_processing_irqCnt[vpe_num] = processing_irqCnt[vpe_num];
	}


	SLA_LoggingLISR(0xaaaa0000 \| ((kal_uint32)irqx_hwcode), vpe_num);

	/************************************************************************************
	* SW workaround for "CIRQ Dispatch Misbehaviour" *
	* When low priority IRQ is enterting IRQ handler flow (readID ~ set vpe state), and *
	* high priority IRQ is choosing best vpe according to vpe state, the high priority *
	* IRQ will dispatch to the same VPE and preempt low priority IRQ since vpe state *
	* of the low priority IRQ has not yet been updated to CIRQ. This may cause two *
	* critical LISRS to run on the same VPE while other VPEs are in IDLE. Therefore, we *
	* trigger a dummy DI/EI below to force high priority IRQ to be resent to other VPEs.*
	*************************************************************************************/

	#if defined(__MDCIRQ_GCR_SIGNAL_DISABLE__)
	/* Dummy read APB_VPE_IRQ_STATE to guarantee value has been written to CIRQ */
	ASSERT_EXL_SAFE(MDCIRQ_READ_REG_INDEX(MDCIRQ_VPE_IRQ_STATE_BASE, vpe_num) == irqx_swcode_non_spurious);
	#else
	/* Dummy read GCR_VPE_IRQ_STATE to guarantee value has been written to GCR,
	then wait for 3T CIRQ clock so that the GCR value is synced to CIRQ */
	ASSERT_EXL_SAFE(MDCIRQ_READ_REG_INDEX(MDCIRQ_GCR_VPE_IRQ_STATE_BASE, vpe_num) == irqx_swcode_non_spurious);
	MDCIRQ_DELAY_LOOP();
	#endif

	/* Dummy DI/EI to force pending IRQs to be resent */
	MDCIRQ_DUMMY_DI();
	MDCIRQ_DELAY_LOOP();
	MDCIRQ_DUMMY_EI();

	/************************************************************************************
	* SW workaround for "CIRQ Dispatch Misbehaviour" End *
	*************************************************************************************/

	/* Non-Spurious IRQ */
	if(!(irqx_hwcode&0x200))
	{
	kal_hrt_mt_save(irqx_hwcode_non_spurious, &mt_stack_ptr_backup);
	#if defined(__MDCIRQ_OSIPI_SPECIAL_FLOW__)
	/* Mask OSIPI in the first IRQ LISR (because OSIPI is the lowest priority) */
	if( processing_irqCnt[vpe_num] == 1 )
	{
	VPE_IRQ_MASK(VPE_IRQID_OSIPI);
	}
	#endif
	if((kal_get_current_domain() == KAL_DOMAIN_CHRT) && (processing_irqCnt[vpe_num] == 1))
	{
	// enable and kick WDT
	drv_rstctl_set_check_bit((vpeid_e)vpe_num);
	drv_rstctl_set_kick_bit((vpeid_e)vpe_num);
	}

	wp_hook_dispatchLISR_start(vpe_num,irqx_hwcode_non_spurious);
	Clear_EXL();

	lisr_dispatch_tbl[irqx_hwcode_non_spurious].lisr_handler(irqx_hwcode_non_spurious);

	if(Ibit_Status()!=1) //Ibit cannot be disabled after LISR!
	{
	kal_fatal_error_handler(KAL_ERROR_INTERRUPT_DISABLED_AFTER_LISR_FAILED, (kal_uint32)processing_lisr[vpe_num]);
	}

	Set_EXL();
	wp_hook_dispatchLISR_end(vpe_num,irqx_hwcode_non_spurious);
	#if defined(__MDCIRQ_OSIPI_SPECIAL_FLOW__)
	/* Unmask OSIPI after the first IRQ LISR */
	if( processing_irqCnt[vpe_num] == 1 )
	{
	VPE_IRQ_UNMASK(VPE_IRQID_OSIPI);
	}
	#endif
	if((kal_get_current_domain() == KAL_DOMAIN_CHRT) && (processing_irqCnt[vpe_num] == 1))
	{
	// disable WDT
	drv_rstctl_clr_check_bit((vpeid_e)vpe_num);
	// set wait variable
	Idle_Service_Prepare_WAIT();
	}


	kal_hrt_mt_restore(irqx_hwcode_non_spurious, &mt_stack_ptr_backup);
	}
	else // spurious IRQ
	{
	spurious_id[vpe_num][spurious_count[vpe_num]%SPURIOUS_IRQ_LOG_SIZE] = irqx_hwcode;
	spurious_count[vpe_num]++;
	}

	processing_irqx[vpe_num] = processing_irqx_backup;
	processing_lisr[vpe_num] = processing_lisr_backup;
	processing_irqCnt[vpe_num]--;

	SLA_LoggingLISR(0xaaaaaaaa, vpe_num);

	/* Use HW code to do IRQ logging */
	esl_printf(ESL_SIM_TIME_FLAG\|ESL_WALL_TIME_FLAG, "[ISR-%d E]\n", irqx_hwcode);

	drv_mdcirq_Restore_VPE_state(vpe_num, ori_vpe_state);

	/* Non-Spurious IRQ */
	if(!(irqx_hwcode&0x200))
	{
	/* IRQ idx in SW code view */
	if( processing_irqx_backup == IRQ_NOT_LISR_CONTEXT)
	MDCIRQ_SYS_endIsr(vpe_num, processing_irqx_backup);
	else
	MDCIRQ_SYS_endIsr(vpe_num, (kal_uint32)HWIRQCode2SWIRQCode[processing_irqx_backup]);
	}
	}