kal_internal_api.h
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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) 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:
* ---------
* kal_internal_api.h
*
* Project:
* --------
* Maui_Software
*
* Description:
* ------------
* This header file is used to define internal api, do not export!
*
* Author:
* -------
* -------
*
*============================================================================
* HISTORY
* Below this line, this part is controlled by PVCS VM. DO NOT MODIFY!!
*------------------------------------------------------------------------------
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*============================================================================
****************************************************************************/
#ifndef __KAL_INTERNAL_API__
#define __KAL_INTERNAL_API__
#include "kal_release.h"
#ifdef __cplusplus
extern "C" {
#endif
#define KAL_INTERNAL_NILTASK_ID (kal_internal_taskid)NULL
#define KAL_INTERNAL_NILTIMER_ID (kal_internal_timerid)NULL
#define KAL_INTERNAL_NILPOOL_ID (kal_internal_poolid)NULL
#define KAL_INTERNAL_NILMUTEX_ID (kal_internal_mutexid)NULL
#define KAL_INTERNAL_NILSEM_ID (kal_internal_semid)NULL
#define KAL_INTERNAL_NILQ_ID (kal_internal_msgqid)NULL
typedef enum {
KAL_MUTEX_GIVEN,
KAL_MUTEX_TAKEN
} kal_mutex_state;
typedef enum
{
#define X_KAL_ERROR_CODE
#include "kal_error_code.h"
KAL_ERROR_CODE_END
#undef X_KAL_ERROR_CODE
} kal_error_type;
typedef enum
{
#define X_KAL_ERROR_STRING
#include "kal_error_code.h"
KAL_ERROR_STRING_END
#undef X_KAL_ERROR_STRING
} kal_error_str;
typedef struct
{
kal_uint32 param1;
kal_uint32 param2;
kal_uint32 param3;
kal_uint32 param4;
kal_uint32 param5;
kal_uint32 param6;
kal_uint32 param7;
kal_uint32 param8;
} kal_error_param;
#if defined(__MTK_TARGET__)
#if defined(KAL_ON_NUCLEUS)
#if defined(__NUCLEUS_VERSION_2__)
extern void TMCT_Timer_Interrupt(int) ;
#define Kal_Timer_Interrupt() TMCT_Timer_Interrupt(0);
#else /* __NUCLEUS_VERSION_2__ */
#if defined(__EVENT_BASED_TIMER__)
extern void TMC_Timer_Interrupt(void) ;
#define Kal_Timer_Interrupt() TMC_Timer_Interrupt();
#else /* __EVENT_BASED_TIMER__ */
extern void TMT_Timer_Interrupt(void) ;
#define Kal_Timer_Interrupt() TMT_Timer_Interrupt();
#endif /* __EVENT_BASED_TIMER__ */
#endif /* __NUCLEUS_VERSION_2__ */
#elif defined(KAL_ON_THREADX) /* KAL_ON_NUCLEUS */
extern void _tx_timer_interrupt(void);
#define Kal_Timer_Interrupt() _tx_timer_interrupt();
#else
#error "Unknown OS!"
#endif /* KAL_ON_NUCLEUS */
#endif /* __MTK_TARGET__ */
/*******************************************************************************
* Category 1 : StdLib-like Function (MISC.)
*******************************************************************************/
extern char *basename(char *file);
/*******************************************************************************
* Category 3 : LISR, HISR and TASK functions
*******************************************************************************/
void *kal_create_thread_stack(kal_uint32 stack_size, kal_bool in_intsram, kal_uint32 *real_size);
kal_taskid kal_create_task(kal_char *task_name_ptr, kal_uint8 priority, void *stack_addr, kal_uint32 stack_size, \
kal_task_func_ptr entry_func_ptr, void *entry_param_ptr, kal_uint8 options);
void kal_delete_task(kal_taskid task_id);
#if !defined(__MTK_TARGET__)
kal_hisrid kal_create_hisr(kal_char* hisr_name, kal_uint8 priority, kal_uint32 stack_size, \
kal_hisr_func_ptr entry_func, kal_uint8 options);
#endif
extern kal_bool stack_is_task_existed(module_type module_id);
/*******************************************************************************
* Category 4 : Message Passing and Queue
*******************************************************************************/
void kal_delete_msg_q(kal_msgqid queue_id);
/*******************************************************************************
* Category 5 : Synchronous Mechanism
*******************************************************************************/
kal_uint32 kal_take_thread_protect(void);
void kal_give_thread_protect(kal_uint32 v);
/*******************************************************************************
* Category 6 : Application Memory Management ADM , AFM
*******************************************************************************/
/* obsolete API (for backward compatible only) */
extern void *kal_adm_internal_alloc(KAL_ADM_ID adm_id, kal_uint32 size, char *filename, kal_uint32 line);
/*******************************************************************************
* Category 7 : System and Modem Memory Management
*******************************************************************************/
extern void *kal_sys_mem_alloc(kal_uint32 size);
extern void kal_sys_mem_free(void *ptr);
extern kal_uint32 kal_sys_mem_query_freesize(void);
extern void kal_sys_mem_sort_frags(void);
#ifdef DEBUG_KAL
extern void *kal_debug_mem_alloc(kal_uint32 size);
extern void kal_debug_mem_free(void *p);
extern kal_uint32 kal_debug_mem_query_freesize(void);
#endif
kal_poolid kal_create_buff_pool(kal_uint32 buff_size, kal_uint16 num_buffs);
void kal_delete_buff_pool(kal_poolid pool_id);
void *kal_get_buffer(kal_poolid ext_pool_id, kal_uint32 alloc_id, kal_uint32 size,
kal_char* alloc_file, kal_uint32 alloc_line, kal_uint32 caller_addr);
void kal_release_buffer(void *usr_buff, kal_uint32 dealloc_id,
kal_char *dealloc_file, kal_uint32 dealloc_line);
kal_uint32 kal_get_num_free_buffs( kal_poolid pool_id );
kal_bool kal_query_ctrlbuf_max_consumption(kal_uint32 *ptr);
kal_uint32 kal_query_ctrlbuf_size_level(void);
kal_uint32 kal_query_ctrlbuf_size(kal_uint32 level);
kal_bool kal_query_ctrlbuf_alloc_num(kal_uint32 *ptr);
kal_bool kal_retrieve_ctrlbuf_info(kal_uint32 level, kal_uint32 index, kal_uint32 *ptr);
/*******************************************************************************
* Category 8 : Timer Service
*******************************************************************************/
void kal_evshed_create_pool(void);
void* kal_evshed_get_mem(kal_uint32 size);
void kal_evshed_free_mem(void* buff_ptr);
kal_uint32 kal_check_allowed_sleep_clock(kal_uint32 period_ticks);
void kal_recover_clock(kal_uint32 delayed_ticks);
void kal_invoke_expired_events(kal_uint32 delayed_ticks);
#ifdef KAL_ON_OSCAR
/* this routine adjust simulated tick time in millisecond by user */
void kal_adjust_sim_tick(kal_uint32 new_msec);
#endif
/*******************************************************************************
* Category 9 : Error Handling
*******************************************************************************/
typedef void (*kal_error_func_ptr)(kal_uint32, kal_uint32);
#if defined(__KAL_ASSERT_LEVEL4__) && defined(__MTK_TARGET__)
#define kal_fatal_error_handler(code1, code2) \
do { \
extern void INT_ExceptionSaveCpuReg(void); \
extern void kal_fatal_error_handler_int(kal_uint32 error_code, kal_uint32 os_error_code); \
INT_ExceptionSaveCpuReg(); \
kal_fatal_error_handler_int(code1, code2); \
} while(0)
#else /* __KAL_ASSERT_LEVEL4__ */
#define kal_fatal_error_handler(code1, code2) \
do { \
extern void kal_fatal_error_handler_int(kal_uint32 error_code, kal_uint32 os_error_code); \
kal_fatal_error_handler_int(code1, code2); \
} while(0)
#endif /* __KAL_ASSERT_LEVEL4__ */
void kal_register_fatal_error_handler(kal_error_func_ptr fatal_handler_ptr);
void kal_exit(void);
extern void stack_rand_seed(kal_uint32 seed);
#if defined(KAL_ON_NUCLEUS)
#include "Nucleus.h"
#elif defined (KAL_ON_OSCAR)
#include "osc_release.h"
#elif defined(KAL_ON_THREADX)
#include "tx_api.h"
#endif
#if defined(KAL_ON_NUCLEUS)
#if KAL_CONSUME != NU_OR_CONSUME
#error KAL_CONSUME is not equals to NU_OR_CONSUME
#endif
#if KAL_AND != NU_AND
#error KAL_AND is not equals to NU_AND
#endif
#if KAL_AND_CONSUME != NU_AND_CONSUME
#error KAL_AND_CONSUME is not equals to NU_AND_CONSUME
#endif
#if KAL_OR != NU_OR
#error KAL_OR is not equals to NU_OR
#endif
#if KAL_OR_CONSUME != NU_OR_CONSUME
#error KAL_OR_CONSUME is not equals to NU_OR_CONSUME
#endif
#if KAL_NO_SUSPEND != NU_NO_SUSPEND
#error KAL_NO_SUSPEND is not equals to NU_NO_SUSPEND
#endif
#if KAL_SUSPEND != NU_SUSPEND
#error KAL_SUSPEND is not equals to NU_SUSPEND
#endif
#elif defined (KAL_ON_OSCAR) /* KAL_ON_NUCLEUS */
#if KAL_CONSUME != OSC_ACTION_CLS
#error KAL_CONSUME is not equals to NU_OR_CONSUME
#endif
#if KAL_AND != OSC_ACTION_FULL_SET
#error KAL_AND is not equals to OSC_ACTION_FULL_SET
#endif
#if KAL_AND_CONSUME != (OSC_ACTION_FULL_SET | OSC_ACTION_CLS)
#error KAL_AND_CONSUME is not equals to (OSC_ACTION_FULL_SET | OSC_ACTION_CLS)
#endif
#if KAL_OR != OSC_ACTION_PART_SET
#error KAL_OR is not equals to OSC_ACTION_PART_SET
#endif
#if KAL_OR_CONSUME != (OSC_ACTION_PART_SET | OSC_ACTION_CLS)
#error KAL_OR_CONSUME is not equals to OSC_ACTION_PART_SET | OSC_ACTION_CLS
#endif
#if KAL_NO_SUSPEND != OSC_TIMEOUT_NONE
#error KAL_NO_SUSPEND is not equals to OSC_TIMEOUT_NONE
#endif
#if KAL_SUSPEND != OSC_TIMEOUT_FOREVER
#error KAL_SUSPEND is not equals to OSC_TIMEOUT_FOREVER
#endif
#elif defined(KAL_ON_THREADX) /* KAL_ON_NUCLEUS */
#if KAL_CONSUME != TX_OR_CLEAR
#error KAL_CONSUME is not equals to TX_OR_CLEAR
#endif
#if KAL_AND != TX_AND
#error KAL_AND is not equals to TX_AND
#endif
#if KAL_AND_CONSUME != TX_AND_CLEAR
#error KAL_AND_CONSUME is not equals to TX_AND_CLEAR
#endif
#if KAL_OR != TX_OR
#error KAL_OR is not equals to TX_OR
#endif
#if KAL_OR_CONSUME != TX_OR_CLEAR
#error KAL_OR_CONSUME is not equals to TX_OR_CLEAR
#endif
#if KAL_NO_SUSPEND != TX_NO_WAIT
#error KAL_NO_SUSPEND is not equals to TX_NO_WAIT
#endif
#if KAL_SUSPEND != TX_WAIT_FOREVER
#error KAL_SUSPEND is not equals to TX_WAIT_FOREVER
#endif
#endif /* KAL_ON_NUCLEUS */
#if defined(KAL_ON_NUCLEUS)
#include "kal_nucleus_common_defs.h"
#include "kal_nucleus.h"
#elif defined(KAL_ON_OSCAR)
#include "kal_oscar_common_defs.h"
#include "kal_oscar.h"
#elif defined(KAL_ON_THREADX)
#include "kal_threadx.h"
#endif
#include "kal_debug_common_defs.h"
#if defined(KAL_ON_NUCLEUS)
#include "kal_debug_nucleus.h"
#elif defined(KAL_ON_OSCAR)
#include "kal_debug_oscar.h"
#endif
#include "kal_debug.h"
#if defined(__MTK_TARGET__) || defined (KAL_ON_OSCAR)
/*************************************************************************
* Type Definitions
*************************************************************************/
struct ptr_node {
void* ptr;
kal_uint32 size;
struct ptr_node* next_ptr;
};
#if defined(DEBUG_KAL) && defined(DEBUG_BUF1)
typedef struct kal_pool_statistics_struct {
kal_uint16 current_allocation;
kal_uint16 max_num_allocated;
} *kal_pool_statistics;
#endif /* defined(DEBUG_KAL) && defined(DEBUG_BUF1) */
#if defined(DEBUG_KAL) && defined(DEBUG_BUF2)
typedef struct kal_pool_statistics_struct {
kal_uint16 current_allocation;
kal_uint16 max_num_allocated;
kal_uint32 max_size_requested;/* Maximum requested size from the pool */
} *kal_pool_statistics;
#endif /* defined(DEBUG_KAL) && defined(DEBUG_BUF2) */
#if defined(DEBUG_KAL) && defined(DEBUG_BUF1)
typedef struct kal_int_pool_statistics_struct {
struct kal_pool_statistics_struct pool_info;
kal_uint32* buff_caller_addr;
} *kal_internal_pool_statistics, kal_pool_stat_type;
#endif /* defined(DEBUG_KAL) && defined(DEBUG_BUF1) */
#if defined(DEBUG_KAL) && defined(DEBUG_BUF2)
typedef struct kal_buff_stats {
kal_uint8 unused;
}* kal_buff_statistics;
typedef struct kal_int_pool_statistics_struct {
struct kal_pool_statistics_struct pool_info;
struct kal_int_buff_stats* buff_stat;
} *kal_internal_pool_statistics, kal_pool_stat_type;
#endif /* defined(DEBUG_KAL) && defined(DEBUG_BUF2) */
typedef void(*kal_print_string_func_ptr)(kal_char*);
#if defined(DEBUG_KAL) && defined(DEBUG_TASK)
typedef struct kal_task_statistics_struct {
kal_uint8 unused;
} *kal_task_statistics;
#endif /* defined(DEBUG_KAL) && defined(DEBUG_TASK) */
#if defined(DEBUG_KAL) && defined(DEBUG_ITC)
typedef struct kal_queue_statistics_struct {
kal_uint8 unused;
}* kal_queue_statistics;
#endif /* defined(DEBUG_KAL) && defined(DEBUG_ITC) */
#if defined(DEBUG_TIMER) && defined(DEBUG_KAL)
typedef struct kal_timer_statistics_struct {
kal_uint8 unused;
}* kal_timer_statistics;
#endif /* defined(DEBUG_TIMER) && defined(DEBUG_KAL) */
/*************************************************************************
* Task Management
*************************************************************************/
#if defined(DEBUG_KAL) && defined(DEBUG_TASK)
#define kal_get_task_statistics( task_id, stat_ptr ) {}
#define kal_reset_task_statistics( task_id ) {}
#else /* defined(DEBUG_KAL) && defined(DEBUG_TASK) */
#define kal_get_task_statistics( task_id, stat_ptr ) {}
#define kal_reset_task_statistics( task_id ) {}
#endif /* defined(DEBUG_KAL) && defined(DEBUG_TASK) */
/*************************************************************************
* ITC Management
*************************************************************************/
#if defined(DEBUG_KAL) && defined(DEBUG_ITC)
#define kal_get_q_statistics(queue_id, stat_ptr ) \
kal_debug_get_q_statistics(queue_id, stat_ptr )
#define kal_reset_q_statistics( queue_id )\
kal_debug_reset_q_statistics( queue_id )
void kal_debug_get_q_statistics( kal_msgqid queue_id, kal_queue_statistics* stat_ptr );
void kal_debug_reset_q_statistics( kal_msgqid queue_id );
#else /* defined(DEBUG_KAL) && defined(DEBUG_ITC) */
#define kal_get_q_statistics(queue_id, stat_ptr ) {}
#define kal_reset_q_statistics( queue_id ) {}
#endif /* defined(DEBUG_KAL) && defined(DEBUG_ITC) */
/*************************************************************************
* Buffer Management
*************************************************************************/
#if defined(DEBUG_KAL) && ( defined(DEBUG_BUF1) || defined(DEBUG_BUF2) )
#define KAL_GET_POOL_STATISTICS_ADDR( pool_id ) \
(kal_pool_statistics) ((kal_internal_poolid) pool_id)->pool_stat
void kal_debug_reset_pool_statistics(kal_poolid pool_id);
#ifdef DEBUG_BUF2
#define KAL_BUFF_STAT_SET_INUSE(buff_stat_ptr) \
(buff_stat_ptr)->owner_task = (kal_internal_taskid)((kal_uint32)(buff_stat_ptr)->owner_task | 0x01)
void kal_debug_get_buffer_statistics(void* buffer_ptr, kal_buff_statistics* stat_ptr);
void kal_debug_reset_buffer_statistics(void* buffer_ptr);
#endif
#endif /* defined(DEBUG_KAL) && ( defined(DEBUG_BUF1) || defined(DEBUG_BUF2) ) */
/*************************************************************************
* Memory Management
*************************************************************************/
/*************************************************************************
* Timer Management
*************************************************************************/
#if defined(DEBUG_TIMER) && defined(DEBUG_KAL)
void kal_debug_get_timer_statistics(kal_timerid timer_id, kal_timer_statistics* stat_ptr);
void kal_debug_reset_timer_statistics(kal_timerid timer_id );
#define kal_get_timer_statistics( timer_id, stat_ptr ) ;\
kal_debug_get_timer_statistics( timer_id, stat_ptr ) ;
#define kal_reset_timer_statistics(timer_id )\
kal_debug_reset_timer_statistics(timer_id )
#else /* defined(DEBUG_TIMER) && defined(DEBUG_KAL) */
#define kal_get_timer_statistics( timer_id, stat_ptr ) ; {}
#define kal_reset_timer_statistics(timer_id ) {}
#endif /* defined(DEBUG_TIMER) && defined(DEBUG_KAL) */
/*************************************************************************
* Error Handling and Debug Management
*************************************************************************/
/*What a pity, RVCT C doesn't support inline function*/
#ifdef __MTK_TARGET__
#define kal_get_linker_address(ret_value)\
do\
{\
kal_uint32 link_register;\
/* \
* NoteXXX: retrieve link register before any function call\
*\
*/\
link_register = __return_address();\
if(link_register & 0x01)\
{\
link_register -= 3;\
}\
else\
{\
link_register -= 4; \
} \
ret_value = link_register; \
}while(0)
#else
#define kal_get_linker_address(ret_value)\
do \
{ \
ret_value = (kal_uint32)_ReturnAddress(); \
}while(0)
#endif
#if defined(DEBUG_KAL)
#ifdef DEBUG_LEAK
void kal_settimeout(void* addr, kal_timer_func_ptr handler_func_ptr,
void* handler_param_ptr, kal_uint32 delay);
void kal_untimeout(void* addr);
void kal_default_timeouthandler(void*);
#endif /* DEBUG_LEAK */
void kal_debug_register_print_string_function (kal_print_string_func_ptr func_ptr);
void kal_debug_print(kal_char* string_to_be_printed);
void kal_debug_print_int(kal_int32 int_to_be_printed);
void kal_debug_print_uint(kal_uint32 int_to_be_printed);
void kal_debug_print_uint_in_hex(kal_uint32 int_to_be_printed);
void kal_debug_abort( void );
void kal_debug_reset( void );
#define kal_register_print_string_function( to_be_registered_func)\
kal_debug_register_print_string_function( to_be_registered_func)
#define kal_print_int( int_to_be_printed )\
kal_debug_print_int( int_to_be_printed )
#define kal_print_uint( int_to_be_printed )\
kal_debug_print_uint( int_to_be_printed )
#define kal_print_uint_in_hex( int_to_be_printed )\
kal_debug_print_uint_in_hex( int_to_be_printed )
#define kal_enable_debug( debug_code, flag )\
kal_debug_enable_debug( debug_code, flag )
#define kal_abort() kal_debug_abort()
#define kal_reset() kal_debug_reset()
#else /* defined(DEBUG_KAL) */
#define kal_register_print_string_function( to_be_registered_func) {}
#define kal_print_int( int_to_be_printed ) {}
#define kal_print_uint( int_to_be_printed ) {}
#define kal_print_uint_in_hex( int_to_be_printed ) {}
#define kal_enable_debug( debug_code, flag ) {}
#define kal_abort() {}
#define kal_reset() {}
#endif /* defined(DEBUG_KAL) */
#if defined(__MTK_TARGET__) && defined(__KAL_STACK_SHARING__)
extern NU_PROTECT g_stack_pool_protect;
extern NU_PROTECT TCD_System_Protect;
extern void TCT_Unprotect_Specific(NU_PROTECT *protect);
#define KAL_ENTER_STACK_POOL_CS TCT_Protect(&g_stack_pool_protect)
#define KAL_LEAVE_STACK_POOL_CS TCT_Unprotect_Specific(&g_stack_pool_protect)
#define KAL_ENTER_SYSTEM_CS TCT_Protect(&TCD_System_Protect);
#define KAL_LEAVE_SYSTEM_CS TCT_Unprotect_Specific(&TCD_System_Protect);
#define KAL_STACK_MOVABLE_BIT 0x01
#define KAL_STACK_LOCK_SHARING_BIT 0x02
#define KAL_STACK_FLAG_INITIAL_PATTERN 0xFF00FFFF
#define SET_INI_STACK_SIZE(dst_addr,size) do{ \
(*dst_addr) &= 0xFFFF0000; \
(*dst_addr) |= ( (size) & 0x0000ffff); \
}while(0)
#define SET_MOVABLE_FLAG(dst_addr,flag) do{ \
(*dst_addr) &= 0xFF00FFFF; \
(*dst_addr) |= ( ((flag) << 16) & 0x00ff0000 ); \
}while(0)
#define SET_TASK_INDEX(dst_addr,index) do{ \
(*dst_addr) &= 0x00FFFFFF; \
(*dst_addr) |= ( ((index) << 24) & 0xff000000); \
}while(0)
#define GET_INI_STACK_SIZE(src_word) ((src_word) & 0x0000ffff)
#define GET_MOVABLE_FLAG(src_word) (((src_word) >> 16) & 0x000000ff)
#define GET_TASK_INDEX(src_word) (((src_word) >> 24) & 0x000000ff)
extern void *__kal_stack_realloc(KAL_ADM_ID adm_id, void *p, kal_uint32 size, kal_uint32 *actual_size, kal_uint32 option, char *filename, kal_uint32 line);
KAL_ADM_ID kal_adm_create_for_stack(void *mem_addr, kal_uint32 size, kal_uint32 *subpool_size, kal_uint32 flags);
void *kal_adm_alloc_for_stack(KAL_ADM_ID adm_id, kal_uint32 size,kal_uint32 option);
void *kal_adm_realloc_for_stack(KAL_ADM_ID adm_id, void *p, kal_uint32 size);
void kal_adm_free_for_stack(KAL_ADM_ID adm_id, void *mem_addr);
kal_bool kal_is_task_stack_nonshareable(kal_uint32 task_index);
/*************************************************************************
* <GROUP Functions>
*
* FUNCTION
* kal_check_all_task_stacks
*
* DESCRIPTION
* This routine is to check whether the start of all task stack is corrupted.
* If so, the system enter fatal error handling.
*
* PARAMETERS
* N/A
* RETURNS
*
* GLOBALS AFFECTED
*
*************************************************************************/
void kal_check_all_task_stacks(void);
#endif
#endif /* defined(__MTK_TARGET__) || defined (KAL_ON_OSCAR) */
/*************************************************************************
* Types used by run-time sysmem statistic
*************************************************************************/
#if defined(__MTK_TARGET__)
#define KAL_RT_SYSMEM_SIZE_MUTEX ( sizeof(kal_mutex_type) )
#define KAL_RT_SYSMEM_SIZE_SEM ( sizeof(kal_sem_type) )
#define KAL_RT_SYSMEM_SIZE_EVENT_GROUP ( sizeof(kal_eventgrp_type) )
#define KAL_RT_SYSMEM_SIZE_KAL_TIMER ( sizeof(kal_timer_type) )
#define KAL_RT_SYSMEM_SIZE_STACK_TIMER ( KAL_RT_SYSMEM_SIZE_KAL_TIMER + sizeof(stack_timer_struct) )
#define KAL_RT_SYSMEM_SIZE_EVSHED ( KAL_RT_SYSMEM_SIZE_STACK_TIMER + sizeof(event_scheduler_int) )
#if defined(DEBUG_KAL) && defined(KAL_ON_NUCLEUS)
#define KAL_RT_SYSMEM_SIZE_ENH_MUTEX ( sizeof(kal_internal_enhmutex_type) )
#endif
#if defined(DEBUG_KAL)
extern kal_uint8 system_resource_amount[];
#endif
#endif
#ifdef __cplusplus
}
#endif
#endif /* __KAL_INTERNAL_API__ */