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192.168.1.100 / T800_MD / 1eb8f53f94c145708b5ea2c6b9b96ea3d613f607 / . / mcu / service / config / src / hal / task_config.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) 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:
* ---------
* task_config.c
*
* Project:
* --------
* Maui_Software
*
* Description:
* ------------
* This file contains the source code for configuring the
* data structures that hold task configuration info.
*
* Author:
* -------
* -------
*
*============================================================================
* HISTORY
* Below this line, this part is controlled by PVCS VM. DO NOT MODIFY!!
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*------------------------------------------------------------------------------
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*============================================================================
****************************************************************************/
/*********************************************************************
(C) _____ (year of first publication) Sasken communication
Technologies Limited, All rights reserved.
* This file provides a template for .c files. This space
* should be used to describe the file contents
* Component-specific prefix : xxxx
*********************************************************************/
/*************************************************************************
* Include Statements
*************************************************************************/
#include "kal_public_api.h"
#include "task_config.h"
#include "syscomp_config.h"
//#include "dcl.h"
#if defined(__ESL_COSIM_LTE__)
#include "dhl_trace.h"
#include "drv_hsl.h"
#endif /* __ESL_COSIM_LTE__ */
#ifdef __MULTI_BOOT__
#include "multiboot_config.h"
//#include "fctycomp_config.h"
#endif /* __MULTI_BOOT__ */
#if !defined(KAL_PRIORITY_NODE_BY_CTRL_BUFF) && defined(__MTK_TARGET__)
#include "sys_mem_size.h"
#endif
#include "kal_os.h"
#include "kal_internal_api.h"
#include "kal_internal_def.h"
#include "cache_sw.h"
#include "cpu.h"
/*************************************************************************
* Definitions Of Exported Globals
*************************************************************************/
task_info_struct *task_info_g;
kal_uint32 KALTotalTasks;
kal_uint32 KALTotalModules;
volatile kal_atomic_uint32 taskInitEnterCount[RPS_TOTAL_STACK_TASKS];
kal_uint32 taskInitStartTime[RPS_TOTAL_STACK_TASKS];
kal_uint32 taskInitFinishTime[RPS_TOTAL_STACK_TASKS];
kal_uint32 taskInitResourceIndex = 0xFF;
eventid task_affinity_evt[RPS_TOTAL_STACK_TASKS];
eventid hisr_affinity_evt[RPS_TOTAL_STACK_HISRS];
kal_bool hisr_affinity_set[RPS_TOTAL_STACK_HISRS];
kal_atomic_int32 hisr_affinity_set_msg_handle[RPS_TOTAL_STACK_HISRS];
#ifdef SPLIT_SYS
extern const kal_uint8 tst_routing_table[];
/* Tasks created on target side */
kal_uint32 utontarget_task_mask_g[2];
/* Tasks created on PC side */
kal_uint32 utonmnt_task_mask_g[2];
#endif /* SPLIT_SYS */
kal_uint8 remap_task_index_by_taskID[TASK_ID_DRV_CODE_TAIL];
kal_uint8 remap_task_index_by_moduleID[MODULE_TAG_DRV_DUMMY_TAIL];
kal_uint16 remap_mod_index_by_moduleID[MODULE_TAG_DRV_DUMMY_TAIL];
/* ---------------------
* | HISR Q ID pointers | (KAL_MAX_NUM_HISRS * 4 bytes)
* ---------------------
* | LISR Q ID pointers | (KAL_MAX_NUM_LISRS * 4 bytes)
* ---------------------
*/
isr_q_type *isr_qid_ptrs_g[KAL_MAX_NUM_HISRS + KAL_MAX_NUM_LISRS];
extern const comptask_info_struct sys_comp_config_tbl[];
/*******************************************************************************
* Internal Globals
* these global array is used in kal files
* they should be defined in config file since config internal macro is used as array size
*******************************************************************************/
#ifdef __MTK_TARGET__
__attribute__((section("INTSRAM_RW")))
#endif /* __MTK_TARGET__ */
#if 0
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
/* under construction !*/
#endif
module_type task_active_module_g[RPS_TOTAL_STACK_TASKS];
/*************************************************************************
* Declarations Of Imported functions
*************************************************************************/
extern void *kal_sys_mem_alloc(kal_uint32 size);
/*************************************************************************
* FUNCTION:
* remap_task_index
*
* DESCRIPTION:
* adjust index for save RAM, should call this function when refer task_info_g[task_index]
*
* PARAMETERS:
* module_type
* RETURNS
* task indx: the order in task_info_g[]
*
* GLOBALS AFFECTED
*
*************************************************************************/
kal_uint32 remap_task_index(kal_uint32 task_indx)
{
kal_uint32 task_index = 0;
if (task_indx < TASK_ID_DRV_CODE_TAIL)
task_index = remap_task_index_by_taskID[task_indx];
return task_index;
}
static kal_uint32 remap_task_index_internal(kal_uint32 task_indx)
{
/* should rewrite this function once task id group is rearranged */
kal_uint32 task_index = task_indx;
if (task_index > TASK_ID_DRV_CODE_TAIL || task_index > TASK_ID_CODE_MAX) {
return 0;
}
if (task_indx > TASK_ID_SRV_CODE_TAIL) {
/* SRV group */
task_index = TASK_ID_SRV_CODE_TAIL;
if (task_indx < TASK_ID_MODEM_2G3G_CODE_BEGIN) {
task_index = 0;
} else if (task_indx <= TASK_ID_MODEM_2G3G_CODE_TAIL) {
/* 2G3G MODEM group */
task_index += (task_indx - TASK_ID_MODEM_2G3G_CODE_BEGIN + 1);
} else if (task_indx < TASK_ID_MODEM_4G_CODE_BEGIN) {
task_index = 0;
} else if (task_indx <= TASK_ID_MODEM_4G_CODE_TAIL) {
/* 4G MODEM group */
task_index +=
(TASK_ID_MODEM_2G3G_CODE_TAIL - TASK_ID_MODEM_2G3G_CODE_BEGIN + 1);
task_index += (task_indx - TASK_ID_MODEM_4G_CODE_BEGIN + 1);
} else if (task_indx < TASK_ID_MODEM_5G_CODE_BEGIN) {
task_index = 0;
} else if (task_indx <= TASK_ID_MODEM_5G_CODE_TAIL) {
/* 5G MODEM group */
task_index +=
(TASK_ID_MODEM_2G3G_CODE_TAIL - TASK_ID_MODEM_2G3G_CODE_BEGIN + 1);
task_index +=
(TASK_ID_MODEM_4G_CODE_TAIL - TASK_ID_MODEM_4G_CODE_BEGIN + 1);
task_index += (task_indx - TASK_ID_MODEM_5G_CODE_BEGIN + 1);
} else if (task_indx < TASK_ID_MW_CODE_BEGIN) {
task_index = 0;
} else if (task_indx <= TASK_ID_MW_CODE_TAIL) {
/* MW group */
task_index +=
(TASK_ID_MODEM_2G3G_CODE_TAIL - TASK_ID_MODEM_2G3G_CODE_BEGIN + 1);
task_index +=
(TASK_ID_MODEM_4G_CODE_TAIL - TASK_ID_MODEM_4G_CODE_BEGIN + 1);
task_index +=
(TASK_ID_MODEM_5G_CODE_TAIL - TASK_ID_MODEM_5G_CODE_BEGIN + 1);
task_index += (task_indx - TASK_ID_MW_CODE_BEGIN + 1);
} else if (task_indx < TASK_ID_DRV_CODE_BEGIN) {
task_index = 0;
} else {
/* DRV group */
task_index +=
(TASK_ID_MODEM_2G3G_CODE_TAIL - TASK_ID_MODEM_2G3G_CODE_BEGIN + 1);
task_index +=
(TASK_ID_MODEM_4G_CODE_TAIL - TASK_ID_MODEM_4G_CODE_BEGIN + 1);
task_index +=
(TASK_ID_MODEM_5G_CODE_TAIL - TASK_ID_MODEM_5G_CODE_BEGIN + 1);
task_index += (TASK_ID_MW_CODE_TAIL - TASK_ID_MW_CODE_BEGIN + 1);
task_index += (task_indx - TASK_ID_DRV_CODE_BEGIN + 1);
}
}
return task_index;
}
/*************************************************************************
* FUNCTION:
* remap_module_id
*
* DESCRIPTION:
* adjust index for save RAM, should call this function when refer mod_task_g[module_id]
*
* PARAMETERS:
* module_type
* RETURNS
* moduleid: the order in mod_task_g[]
*
* GLOBALS AFFECTED
*
*************************************************************************/
kal_uint32 remap_module_id(kal_uint32 module_id)
{
kal_uint32 moduleid = 0;
if (module_id < MODULE_TAG_DRV_DUMMY_TAIL)
moduleid = remap_mod_index_by_moduleID[module_id];
return moduleid;
}
static kal_uint32 remap_module_id_internal(kal_uint32 module_id)
{
/* should rewrite this function once task id is rearranged */
kal_uint32 moduleid = 0;
do {
if (module_id <= MOD_ID_SRV_CODE_BEGIN) {
break;
} else if (module_id < MODULE_TAG_SRV_TAIL) {
moduleid = (module_id - MOD_ID_SRV_CODE_BEGIN);
} else if (module_id <= MOD_MODEM_DUMMY_BEGIN) {
break;
} else if (module_id < MODULE_TAG_MODEM_DUMMY_TAIL) {
moduleid = MODULE_TAG_SRV_TAIL - MOD_ID_SRV_CODE_BEGIN;
moduleid += (module_id - MOD_MODEM_DUMMY_BEGIN + 1);
} else if (module_id <= MOD_MODEM_4G_DUMMY_BEGIN) {
break;
} else if (module_id < MODULE_TAG_MODEM_4G_DUMMY_TAIL) {
moduleid = MODULE_TAG_SRV_TAIL - MOD_ID_SRV_CODE_BEGIN;
moduleid += (MODULE_TAG_MODEM_DUMMY_TAIL - MOD_MODEM_DUMMY_BEGIN + 1);
moduleid += (module_id - MOD_MODEM_4G_DUMMY_BEGIN + 1);
} else if (module_id <= MOD_MODEM_5G_DUMMY_BEGIN) {
break;
} else if (module_id < MODULE_TAG_MODEM_5G_DUMMY_TAIL) {
moduleid = MODULE_TAG_SRV_TAIL - MOD_ID_SRV_CODE_BEGIN;
moduleid += (MODULE_TAG_MODEM_DUMMY_TAIL - MOD_MODEM_DUMMY_BEGIN + 1);
moduleid +=
(MODULE_TAG_MODEM_4G_DUMMY_TAIL - MOD_MODEM_4G_DUMMY_BEGIN + 1);
moduleid += (module_id - MOD_MODEM_5G_DUMMY_BEGIN + 1);
} else if (module_id <= MOD_MW_DUMMY_BEGIN) {
break;
} else if (module_id < MODULE_TAG_MW_DUMMY_TAIL) {
moduleid = MODULE_TAG_SRV_TAIL - MOD_ID_SRV_CODE_BEGIN;
moduleid += (MODULE_TAG_MODEM_DUMMY_TAIL - MOD_MODEM_DUMMY_BEGIN + 1);
moduleid +=
(MODULE_TAG_MODEM_4G_DUMMY_TAIL - MOD_MODEM_4G_DUMMY_BEGIN + 1);
moduleid +=
(MODULE_TAG_MODEM_5G_DUMMY_TAIL - MOD_MODEM_5G_DUMMY_BEGIN + 1);
moduleid += (module_id - MOD_MW_DUMMY_BEGIN + 1);
} else if (module_id <= MOD_DRV_DUMMY_BEGIN) {
break;
} else if (module_id < MODULE_TAG_DRV_DUMMY_TAIL) {
moduleid = MODULE_TAG_SRV_TAIL - MOD_ID_SRV_CODE_BEGIN;
moduleid += (MODULE_TAG_MODEM_DUMMY_TAIL - MOD_MODEM_DUMMY_BEGIN + 1);
moduleid +=
(MODULE_TAG_MODEM_4G_DUMMY_TAIL - MOD_MODEM_4G_DUMMY_BEGIN + 1);
moduleid +=
(MODULE_TAG_MODEM_5G_DUMMY_TAIL - MOD_MODEM_5G_DUMMY_BEGIN + 1);
moduleid += (MODULE_TAG_MW_DUMMY_TAIL - MOD_MW_DUMMY_BEGIN + 1);
moduleid += (module_id - MOD_DRV_DUMMY_BEGIN + 1);
}
} while (0);
return moduleid;
}
/*************************************************************************
* FUNCTION:
* remap_task_index_by_module_id
*
* DESCRIPTION:
* Get remap task id from module id
*
* PARAMETERS:
* module_type
* RETURNS
* task indx: the order in task_info_g[]
*
* GLOBALS AFFECTED
*
*************************************************************************/
kal_uint32 remap_task_index_by_module_id(kal_uint32 module_id)
{
#if KTEST_RTOS_TEST
return mod_task_g[module_id];
#else
kal_uint32 task_index = 0;
if (module_id < MODULE_TAG_DRV_DUMMY_TAIL)
task_index = remap_task_index_by_moduleID[module_id];
return task_index;
#endif
}
/*************************************************************************
* FUNCTION:
* stack_init_task_mod_remap_tbl
*
* DESCRIPTION:
* This function will initialize module and task ID remap table at initialization stage.
*
* PARAMETERS:
* void
* RETURNS
* void
*
* GLOBALS AFFECTED
*
*************************************************************************/
void stack_init_task_mod_remap_tbl(void)
{
kal_uint32 index;
for (index = TASK_ID_SRV_CODE_BEGIN + 1; index < TASK_ID_DRV_CODE_TAIL;
index++) {
remap_task_index_by_taskID[index] = remap_task_index_internal(index);
}
for (index = MOD_ID_SRV_CODE_BEGIN + 1; index < MODULE_TAG_DRV_DUMMY_TAIL;
index++) {
remap_mod_index_by_moduleID[index] = remap_module_id_internal(index);
remap_task_index_by_moduleID[index] = remap_task_index_internal(
mod_task_g[remap_mod_index_by_moduleID[index]]);
}
}
/*************************************************************************
* FUNCTION:
* kal_get_task_index_by_mod_task_g
*
* DESCRIPTION:
* will get taskindexfrom mod_task_g as mod_task_g is privated
*
* PARAMETERS:
* module_type: module Id
beNeedRemap: need remap if the module id is from module Id defined;
don't remap if loop all module id one by one;
* RETURNS
* task indx in task_info_g[]
*
* GLOBALS AFFECTED
*
*************************************************************************/
kal_uint32 kal_get_task_index_From_mod_task_g(module_type module_id,
kal_bool beNeedRemap)
{
kal_uint32 moduleid = module_id;
/* should rewrite this function once task/module id is rearranged */
if (KAL_TRUE == beNeedRemap) {
moduleid = remap_module_id(module_id);
}
return mod_task_g[moduleid];
}
static void set_task_active_module_id(kal_uint32 module_id_start,
kal_uint32 module_id_end)
{
kal_uint32 task_indx, module_id;
for (module_id = module_id_start + 1; module_id < module_id_end; module_id++) {
task_indx = remap_task_index_by_module_id(module_id);
if (INDX_NIL == task_indx) {
continue;
}
stack_set_active_module_id(task_indx, module_id);
}
}
/*************************************************************************
* FUNCTION
* stack_init_comp_info
*
* DESCRIPTION
* This function configures the information related with
* inidividual tasks in an array.
* The configuration is based on following:
* 1. The task configuration information passed.
* 2. compile time flags.
*
* The configiration information for tasks not present are set
* to default values.
*
*
* PARAMETERS
* Input only: TAsk configuration information.
*
* RETURNS
* KAL_TRUE on success, else KAL_FALSE.
*
* GLOBALS AFFECTED
*
*************************************************************************/
kal_bool stack_init_comp_info(void)
{
kal_uint32 task_indx;
kal_int32 comp_task_indx;
kal_bool result = KAL_TRUE;
comptask_handler_struct *comp_handler = NULL;
/*fix compile warning*/
#ifdef SPLIT_SYS
kal_uint8 mask_offset;
kal_uint8 mask_pos;
#endif /* SPLIT_SYS */
/*
* initialize task id and mod id remap table
*/
stack_init_task_mod_remap_tbl();
KALTotalTasks = RPS_TOTAL_STACK_TASKS;
KALTotalModules = RPS_TOTAL_STACK_MODULES;
task_info_g = (task_info_struct *)kal_sys_mem_alloc(sizeof(task_info_struct) *
KALTotalTasks);
EXT_ASSERT(task_info_g != NULL, 0, 0, 0);
if (NULL == task_info_g) {
return KAL_FALSE;
}
/* Initialize global task info structure array */
for (task_indx = 0; task_indx < KALTotalTasks; task_indx++) {
task_info_g[task_indx].task_name_ptr = RPS_NO_TASK_NAME;
task_info_g[task_indx].task_qname_ptr = RPS_QNAME_NIL;
task_info_g[task_indx].task_priority = RPS_TASK_PRIORITY_NIL;
task_info_g[task_indx].task_stack_size = RPS_STACK_SIZE_NIL;
task_info_g[task_indx].task_id = KAL_NILTASK_ID;
task_info_g[task_indx].task_ext_qid = KAL_NILQ_ID;
task_info_g[task_indx].task_int_qid_ptr = NULL;
task_info_g[task_indx].task_entry_func = NULL;
task_info_g[task_indx].task_init_func = NULL;
task_info_g[task_indx].task_ext_qsize = RPS_QSIZE_NIL;
task_info_g[task_indx].task_affinity_attribute = None_Group;
task_info_g[task_indx].task_affinity_group_id = AFFI_GROUP_ID_NONE;
}
/* assume that the normal mode is the default setting */
#ifdef SPLIT_SYS
/* Transfer tst routing table module id to task id */
for (i = MOD_NIL + 1; i < LAST_MOD_ID; i++) {
mask_offset = i / 8;
mask_pos = i % 8;
if (tst_routing_table[mask_offset] & (0x1 << mask_pos)) {
/* On MNT PC side */
mask_offset = mod_task_g[i] / 32;
mask_pos = mod_task_g[i] % 32;
utonmnt_task_mask_g[mask_offset] |= (0x1 << mask_pos);
} else {
/* On Target side */
mask_offset = mod_task_g[i] / 32;
mask_pos = mod_task_g[i] % 32;
utontarget_task_mask_g[mask_offset] |= (0x1 << mask_pos);
}
}
/* Both MNT, Target side need TST/TST Reader Tasks */
i = INDX_TST;
mask_offset = mod_task_g[i] / 32;
mask_pos = mod_task_g[i] % 32;
utonmnt_task_mask_g[mask_offset] &= ~(0x1 << mask_pos);
utontarget_task_mask_g[mask_offset] &= ~(0x1 << mask_pos);
i = INDX_TST_READER;
mask_offset = mod_task_g[i] / 32;
mask_pos = mod_task_g[i] % 32;
utonmnt_task_mask_g[mask_offset] &= ~(0x1 << mask_pos);
utontarget_task_mask_g[mask_offset] &= ~(0x1 << mask_pos);
#ifdef __MTK_TARGET__
redirect_task_mask_g = (kal_uint32 *)&utonmnt_task_mask_g;
#else
redirect_task_mask_g = (kal_uint32 *)&utontarget_task_mask_g;
#endif /* __MTK_TARGET__ */
#endif /* SPLIT_SYS */
comp_task_indx = 0;
/* Initialize global task info structure array according to component info */
for (task_indx = 0; task_indx < KALTotalTasks; task_indx++) {
task_info_g[task_indx].task_name_ptr =
sys_comp_config_tbl[comp_task_indx].comp_name_ptr;
task_info_g[task_indx].task_priority =
sys_comp_config_tbl[comp_task_indx].comp_priority;
task_info_g[task_indx].task_affinity_attribute =
sys_comp_config_tbl[comp_task_indx].comp_affinity_attribute;
task_info_g[task_indx].task_affinity_dynamic =
sys_comp_config_tbl[comp_task_indx].comp_affinity_dynamic;
task_info_g[task_indx].task_affinity_group_id =
sys_comp_config_tbl[comp_task_indx].comp_affinity_group_id;
task_info_g[task_indx].task_qname_ptr =
sys_comp_config_tbl[comp_task_indx].comp_qname_ptr;
task_info_g[task_indx].task_stack_size =
sys_comp_config_tbl[comp_task_indx].comp_stack_size;
#ifdef __SYS_INTERN_RAM__
task_info_g[task_indx].task_internal_ram_stack =
sys_comp_config_tbl[comp_task_indx].comp_internal_ram_stack;
#endif /* __SYS_INTERN_RAM__ */
task_info_g[task_indx].task_ext_qsize =
sys_comp_config_tbl[comp_task_indx].comp_ext_qsize;
task_info_g[task_indx].task_int_qsize =
sys_comp_config_tbl[comp_task_indx].comp_int_qsize;
/*Check whether the task should be created or mis-configured*/
if ((sys_comp_config_tbl[comp_task_indx].comp_create_func ==
(kal_create_func_ptr)TASK_NO_CREATE_PATTERN)
#ifdef SPLIT_SYS
||
(*(redirect_task_mask_g + (task_indx >> 5)) & (0x1 << (task_indx & 31)))
#endif /* SPLIT_SYS */
) {
comp_task_indx++;
continue;
} else if ((sys_comp_config_tbl[comp_task_indx].comp_create_func ==
(kal_create_func_ptr)KAL_FALSE) ||
(sys_comp_config_tbl[comp_task_indx].comp_create_func ==
(kal_create_func_ptr)KAL_TRUE)) {
/*
This is task mis-configured case. This occurs code like
#ifdef xxx
task_create_function(yyy)
#endif
missing the null_task_create_entry as the else branch.
The assumption is that task_stack_internalRAM(KAL_FALSE or KAL_TRUE)
following task create function
*/
kal_RecordSSTOwner(sys_comp_config_tbl[comp_task_indx].comp_name_ptr);
kal_fatal_error_handler(KAL_ERROR_KALINIT_INIT_FAILED, comp_task_indx);
} else if ((sys_comp_config_tbl[comp_task_indx].comp_create_func(
&comp_handler) != KAL_TRUE) ||
(NULL == comp_handler)) {
comp_task_indx++;
continue;
}
#if defined(__ESL_COSIM_LTE__)
M_HSL_PRINTF(" task[%02d] = %10.*s, priority = 0x%04x_%04x\n", task_indx,
10, task_info_g[task_indx].task_name_ptr,
(task_info_g[task_indx].task_priority >> 16) & 0xFFFF,
(task_info_g[task_indx].task_priority) & 0xFFFF);
#endif /* __ESL_COSIM_LTE__ */
/* component task entry function */
/*Null task_entry_func indicates the task will not create*/
task_info_g[task_indx].task_entry_func = comp_handler->comp_entry_func;
/* component task initialization handler */
task_info_g[task_indx].task_init_func = comp_handler->comp_init_func;
/* component task reset handler */
task_info_g[task_indx].task_reset_func = comp_handler->comp_reset_func;
comp_handler = NULL;
/* mask_offset = task_indx / 32; fix compile warning*/
/* mask_pos = task_indx % 32; fix compile warning*/
comp_task_indx++;
}
set_task_active_module_id(MOD_DUMMY_NIL, MODULE_TAG_SRV_TAIL);
set_task_active_module_id(MOD_MODEM_DUMMY_BEGIN, MODULE_TAG_MODEM_DUMMY_TAIL);
set_task_active_module_id(MOD_MODEM_4G_DUMMY_BEGIN,
MODULE_TAG_MODEM_4G_DUMMY_TAIL);
set_task_active_module_id(MOD_MODEM_5G_DUMMY_BEGIN,
MODULE_TAG_MODEM_5G_DUMMY_TAIL);
set_task_active_module_id(MOD_MW_DUMMY_BEGIN, MODULE_TAG_MW_DUMMY_TAIL);
set_task_active_module_id(MOD_DRV_DUMMY_BEGIN, MODULE_TAG_DRV_DUMMY_TAIL);
return result;
}
/*******************************************************************************
* FUNCTION
* kal_get_task_total_number
* DESCRIPTION
* query total task index number.
* PARAMETERS
* NA.
* RETURNS
* Return total task index number.
* GLOBALS AFFECTED
*
******************************************************************************/
kal_uint32 kal_get_task_total_number(void) { return KALTotalTasks; }
/*******************************************************************************
* FUNCTION
* kal_get_send_msg_module_id_total_number
* DESCRIPTION
* query total module id number that can send message.
* PARAMETERS
* NA.
* RETURNS
* Return total module id number that can send message.
* GLOBALS AFFECTED
*
******************************************************************************/
kal_uint32 kal_get_send_msg_module_id_total_number(void)
{
return (kal_uint32)RPS_TOTAL_STACK_MODULES;
}
/*************************************************************************
* FUNCTION
* kal_task_mod_remap (Only for NL1 Build Load)
*
* DESCRIPTION
* This function will remap module to new task.
*
* PARAMETERS
* module_type: destination module Id
* module_type: source module Id
*
* RETURNS
* None
*
* GLOBALS AFFECTED
* mod_task_g
*
*************************************************************************/
void kal_task_mod_remap(module_type dst_mod_id, module_type src_mod_id)
{
/* This Function is Only for NL1 Build Load */
mod_task_g[remap_module_id(dst_mod_id)] =
mod_task_g[remap_module_id(src_mod_id)];
remap_task_index_by_moduleID[dst_mod_id] =
remap_task_index_by_moduleID[src_mod_id];
return;
}