418 lines
13 KiB
C
418 lines
13 KiB
C
/***************************************************************************
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*
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* Copyright 2015-2019 BES.
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* All rights reserved. All unpublished rights reserved.
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*
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* No part of this work may be used or reproduced in any form or by any
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* means, or stored in a database or retrieval system, without prior written
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* permission of BES.
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*
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* Use of this work is governed by a license granted by BES.
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* This work contains confidential and proprietary information of
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* BES. which is protected by copyright, trade secret,
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* trademark and other intellectual property rights.
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*
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****************************************************************************/
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#ifdef CHIP_HAS_CP
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#include "cp_accel.h"
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#include "cmsis.h"
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#include "cmsis_os.h"
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#include "hal_cmu.h"
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#include "hal_location.h"
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#include "hal_mcu2cp.h"
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#include "hal_timer.h"
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#include "hal_trace.h"
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#include "mpu.h"
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#include "stdarg.h"
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#include "system_cp.h"
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#include "hal_memsc.h"
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#include "string.h"
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#include "app_utils.h"
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#ifdef CP_ACCEL_DEBUG
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#define CP_ACCEL_TRACE(s, ...) TRACE(s, ##__VA_ARGS__)
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#else
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#define CP_ACCEL_TRACE(s, ...)
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#endif
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#define CP_NO_FLASH_ACCESS
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#define CP_CRASH_START_TIMEOUT MS_TO_TICKS(100)
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#define CP_TRACE_FLUSH_TIMEOUT MS_TO_TICKS(200)
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#define CP_CRASH_DUMP_TIMEOUT MS_TO_TICKS(500)
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#define CP_TRACE_BUF_FULL_INTVL MS_TO_TICKS(50)
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enum CP_SYS_EVENT_T {
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CP_SYS_EVENT_NONE = 0,
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CP_SYS_EVENT_CRASH_START,
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CP_SYS_EVENT_CRASH_END,
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CP_SYS_EVENT_TRACE_FLUSH,
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CP_SYS_EVENT_TRACE_BUF_FULL,
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};
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static bool ram_inited;
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static bool cp_accel_inited = false;
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static struct cp_task_env_tag cp_task_env;
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static CP_BSS_LOC volatile struct cp_env_tag cp_env;
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static CP_BSS_LOC volatile enum CP_SYS_EVENT_T cp_sys_evt;
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static CP_BSS_LOC bool cp_in_crash;
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static CP_BSS_LOC volatile uint8_t cp_in_sleep;
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static CP_BSS_LOC uint32_t cp_buf_full_time;
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static CP_BSS_LOC uint8_t req_event = 0, pending_event = 0;
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static CP_TEXT_SRAM_LOC int send_sys_ctrl_cp2mcu(uint32_t event)
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{
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return hal_mcu2cp_send_cp(HAL_MCU2CP_ID_1, HAL_MCU2CP_MSG_TYPE_0, (unsigned char *)event, 0);
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}
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static CP_TEXT_SRAM_LOC void cp_trace_crash_notify(enum HAL_TRACE_STATE_T state)
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{
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uint32_t time;
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if (state == HAL_TRACE_STATE_CRASH_ASSERT_START || state == HAL_TRACE_STATE_CRASH_FAULT_START) {
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cp_in_crash = true;
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cp_sys_evt = CP_SYS_EVENT_CRASH_START;
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mpu_close();
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send_sys_ctrl_cp2mcu(0);
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time = hal_sys_timer_get();
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while (cp_sys_evt == CP_SYS_EVENT_CRASH_START &&
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hal_sys_timer_get() - time < CP_CRASH_START_TIMEOUT);
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} else {
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cp_sys_evt = CP_SYS_EVENT_CRASH_END;
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}
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}
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static CP_TEXT_SRAM_LOC void cp_trace_buffer_ctrl(enum HAL_TRACE_BUF_STATE_T buf_state)
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{
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uint32_t time;
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if (cp_sys_evt != CP_SYS_EVENT_NONE) {
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return;
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}
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time = hal_sys_timer_get();
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if (buf_state == HAL_TRACE_BUF_STATE_FLUSH) {
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cp_sys_evt = CP_SYS_EVENT_TRACE_FLUSH;
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if (!cp_in_crash) {
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send_sys_ctrl_cp2mcu(0);
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}
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while (cp_sys_evt == CP_SYS_EVENT_TRACE_FLUSH &&
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hal_sys_timer_get() - time < CP_TRACE_FLUSH_TIMEOUT);
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} else if (buf_state == HAL_TRACE_BUF_STATE_FULL || buf_state == HAL_TRACE_BUF_STATE_NEAR_FULL) {
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if (time - cp_buf_full_time >= CP_TRACE_BUF_FULL_INTVL) {
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cp_buf_full_time = time;
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if (!cp_in_crash) {
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cp_sys_evt = CP_SYS_EVENT_TRACE_BUF_FULL;
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send_sys_ctrl_cp2mcu(0);
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}
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}
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}
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}
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static SRAM_TEXT_LOC unsigned int cp2mcu_sys_arrived(const unsigned char *data, unsigned int len)
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{
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uint32_t time;
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uint8_t task_id = 0;
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if (cp_sys_evt == CP_SYS_EVENT_TRACE_FLUSH) {
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TRACE_FLUSH();
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cp_sys_evt = CP_SYS_EVENT_NONE;
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} else if (cp_sys_evt == CP_SYS_EVENT_TRACE_BUF_FULL) {
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TRACE(0," ");
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cp_sys_evt = CP_SYS_EVENT_NONE;
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} else if (cp_sys_evt == CP_SYS_EVENT_CRASH_START) {
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cp_sys_evt = CP_SYS_EVENT_NONE;
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TRACE(0," ");
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TRACE(0,"CP Crash starts ...");
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UNLOCK_CP_PROCESS(); //Forced release lock
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// Wait CP crash dump finishes in interrupt context
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time = hal_sys_timer_get();
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while (cp_sys_evt != CP_SYS_EVENT_CRASH_END &&
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hal_sys_timer_get() - time < CP_CRASH_DUMP_TIMEOUT) {
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if (cp_sys_evt == CP_SYS_EVENT_TRACE_FLUSH) {
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TRACE_FLUSH();
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cp_sys_evt = CP_SYS_EVENT_NONE;
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}
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}
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for (task_id=0; task_id<CP_TASK_MAX; task_id++) {
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if (cp_task_env.p_desc[task_id].mcu_sys_ctrl_hdlr) {
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cp_task_env.p_desc[task_id].mcu_sys_ctrl_hdlr(CP_SYS_EVENT_CRASH_END);
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}
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}
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TRACE(0,"CP Crash ends ...");
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TRACE(0," ");
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}
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return len;
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}
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static CP_TEXT_SRAM_LOC unsigned int mcu2cp_msg_arrived(const unsigned char *data, unsigned int len)
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{
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uint8_t task_id = CP_TASK_ID_GET(*data);
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uint8_t event_type = CP_EVENT_GET(*data);
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cp_env.cp_msg[task_id][event_type] = 1;
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cp_env.cp_msg_recv = true;
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if (cp_task_env.p_desc[task_id].cp_evt_hdlr) {
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cp_task_env.p_desc[task_id].cp_evt_hdlr((uint32_t)data);
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}
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return len;
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}
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static CP_TEXT_SRAM_LOC void mcu2cp_msg_sent(const unsigned char *data, unsigned int len)
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{
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// TRACE(1, "mcu2cp_msg_sent,pending count = %d", cp_env.mcu2cp_tx_count);
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if (cp_env.mcu2cp_tx_count > 1) {
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cp_env.mcu2cp_tx_count--;
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pending_event = cp_env.mcu2cp_tx_pending[0];
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hal_mcu2cp_send_mcu(HAL_MCU2CP_ID_0, HAL_MCU2CP_MSG_TYPE_0, &pending_event, 1);
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for (uint8_t index = 0;index < cp_env.mcu2cp_tx_count-1;index++) {
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cp_env.mcu2cp_tx_pending[index] = cp_env.mcu2cp_tx_pending[index+1];
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}
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} else {
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cp_env.mcu2cp_tx_count = 0;
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}
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}
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#if defined(__ARM_ARCH_8M_MAIN__)
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#define CP_CODE_MAP_BASE (ROM_BASE + 0x800)
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#define CP_CODE_MAP_SIZE (RAMX_BASE + RAM_TOTAL_SIZE - CP_CODE_MAP_BASE)
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static CP_DATA_LOC const mpu_regions_t mpu_table_cp[] = {
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{CP_CODE_MAP_BASE, CP_CODE_MAP_SIZE, MPU_ATTR_EXEC, MAIR_ATTR_INT_SRAM},
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{RAM_BASE, RAM_TOTAL_SIZE, MPU_ATTR_READ_WRITE, MAIR_ATTR_INT_SRAM},
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{CMU_BASE, 0x01000000, MPU_ATTR_READ_WRITE, MAIR_ATTR_DEVICE},
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};
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#else
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static CP_DATA_LOC const mpu_regions_t mpu_table_cp[] = {
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{0, 0x800, MPU_ATTR_NO_ACCESS},
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{FLASHX_BASE, 0x4000000, MPU_ATTR_NO_ACCESS},
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{FLASH_BASE, 0x4000000, MPU_ATTR_NO_ACCESS},
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{FLASH_NC_BASE, 0x4000000, MPU_ATTR_NO_ACCESS},
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};
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#endif
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static CP_TEXT_SRAM_LOC NOINLINE void accel_loop(void)
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{
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uint32_t lock;
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uint8_t task_index = 0, event_index = 0;
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bool msg_flag = false;
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uint8_t msg[CP_TASK_MAX][CP_EVENT_MAX];
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mpu_setup_cp(mpu_table_cp, ARRAY_SIZE(mpu_table_cp));
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while (1) {
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lock = int_lock_global();
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msg_flag = cp_env.cp_msg_recv;
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cp_env.cp_msg_recv = false;
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memcpy(msg, (uint8_t *)cp_env.cp_msg, sizeof(cp_env.cp_msg));
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memset((uint8_t *)cp_env.cp_msg, 0, sizeof(cp_env.cp_msg));
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if (false == msg_flag) {
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cp_in_sleep = true;
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__WFI();
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cp_in_sleep = false;
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}
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int_unlock_global(lock);
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if (msg_flag) {
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for (task_index = 0;task_index < CP_TASK_MAX;task_index++) {
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for (event_index = 0;event_index < CP_EVENT_MAX;event_index++) {
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LOCK_CP_PROCESS();
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if ((msg[task_index][event_index]) && (cp_task_env.p_desc[task_index].cp_work_main)) {
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cp_task_env.p_desc[task_index].cp_work_main(event_index);
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}
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UNLOCK_CP_PROCESS();
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}
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}
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}
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}
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}
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static void accel_main(void)
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{
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system_cp_init(!ram_inited);
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TRACE(1, "%s", __func__);
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ram_inited = true;
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memset((uint8_t *)&cp_env, 0, sizeof(cp_env));
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hal_trace_open_cp();
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hal_mcu2cp_open_cp(HAL_MCU2CP_ID_0, HAL_MCU2CP_MSG_TYPE_0, mcu2cp_msg_arrived, NULL, false);
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hal_mcu2cp_open_cp(HAL_MCU2CP_ID_1, HAL_MCU2CP_MSG_TYPE_0, NULL, NULL, false);
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hal_mcu2cp_start_recv_cp(HAL_MCU2CP_ID_0);
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//hal_mcu2cp_start_recv_cp(HAL_MCU2CP_ID_1);
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cp_accel_inited = true;
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accel_loop();
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}
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static SRAM_TEXT_LOC unsigned int cp2mcu_msg_arrived(const unsigned char *data, unsigned int len)
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{
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uint8_t task_id = CP_TASK_ID_GET((uint32_t)data);
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// TRACE(2, "%s, task_id = %d", __func__, task_id);
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if (task_id >= CP_TASK_MAX) {
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return -1;
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}
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if (cp_task_env.p_desc[task_id].mcu_evt_hdlr) {
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cp_task_env.p_desc[task_id].mcu_evt_hdlr((uint32_t)data);
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}
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return len;
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}
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int cp_accel_open(enum CP_TASK_TYPE task_id, struct cp_task_desc const * p_task_desc)
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{
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TRACE(4, "%s, task id = %d, cp_state = %d init %d", __func__, task_id, cp_task_env.p_desc[task_id].cp_accel_state, cp_accel_inited);
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if ((task_id >= CP_TASK_MAX) || (p_task_desc == NULL)) {
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TRACE(1, "%s task id error", __func__);
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return -1;
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}
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if (cp_task_env.p_desc[task_id].cp_accel_state != CP_ACCEL_STATE_CLOSED) {
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TRACE(1, "%s cp_accel_state error", __func__);
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return -1;
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}
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cp_task_env.p_desc[task_id].cp_accel_state = CP_ACCEL_STATE_OPENING;
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cp_task_env.p_desc[task_id].cp_work_main = p_task_desc->cp_work_main;
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cp_task_env.p_desc[task_id].cp_evt_hdlr = p_task_desc->cp_evt_hdlr;
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cp_task_env.p_desc[task_id].mcu_evt_hdlr = p_task_desc->mcu_evt_hdlr;
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cp_task_env.p_desc[task_id].mcu_sys_ctrl_hdlr = p_task_desc->mcu_sys_ctrl_hdlr;
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if (false == cp_accel_inited) {
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hal_trace_cp_register(cp_trace_crash_notify, cp_trace_buffer_ctrl);
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hal_cmu_cp_enable(RAMCP_BASE + RAMCP_SIZE, (uint32_t)accel_main);
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hal_mcu2cp_open_mcu(HAL_MCU2CP_ID_0, HAL_MCU2CP_MSG_TYPE_0, cp2mcu_msg_arrived, mcu2cp_msg_sent, false);
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hal_mcu2cp_open_mcu(HAL_MCU2CP_ID_1, HAL_MCU2CP_MSG_TYPE_0, cp2mcu_sys_arrived, NULL, false);
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hal_mcu2cp_start_recv_mcu(HAL_MCU2CP_ID_0);
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hal_mcu2cp_start_recv_mcu(HAL_MCU2CP_ID_1);
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}
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cp_task_env.p_desc[task_id].cp_accel_state = CP_ACCEL_STATE_OPENED;
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return 0;
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}
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int cp_accel_close(enum CP_TASK_TYPE task_id)
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{
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uint8_t i = 0;
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TRACE(4, "%s, task id = %d, cp_state = %d init %d", __func__,
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task_id, cp_task_env.p_desc[task_id].cp_accel_state, cp_accel_inited);
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LOCK_CP_PROCESS(); // avoid hangup
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if (cp_task_env.p_desc[task_id].cp_accel_state == CP_ACCEL_STATE_CLOSED) {
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goto accel_close_end;
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}
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cp_task_env.p_desc[task_id].cp_accel_state = CP_ACCEL_STATE_CLOSING;
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cp_task_env.p_desc[task_id].cp_work_main = NULL;
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cp_task_env.p_desc[task_id].cp_evt_hdlr = NULL;
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cp_task_env.p_desc[task_id].mcu_evt_hdlr = NULL;
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for (i=0; i<CP_TASK_MAX; i++) {
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if (cp_task_env.p_desc[i].cp_accel_state == CP_ACCEL_STATE_OPENED || \
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cp_task_env.p_desc[i].cp_accel_state == CP_ACCEL_STATE_OPENING) {
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goto accel_close_end;
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}
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}
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if (cp_accel_inited) {
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cp_accel_inited = false;
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hal_mcu2cp_close_mcu(HAL_MCU2CP_ID_0, HAL_MCU2CP_MSG_TYPE_0);
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hal_mcu2cp_close_mcu(HAL_MCU2CP_ID_1, HAL_MCU2CP_MSG_TYPE_0);
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hal_cmu_cp_disable();
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system_cp_term();
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hal_mcu2cp_close_cp(HAL_MCU2CP_ID_0, HAL_MCU2CP_MSG_TYPE_0);
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hal_mcu2cp_close_cp(HAL_MCU2CP_ID_1, HAL_MCU2CP_MSG_TYPE_0);
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hal_trace_cp_register(NULL, NULL);
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}
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accel_close_end:
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cp_task_env.p_desc[task_id].cp_accel_state = CP_ACCEL_STATE_CLOSED;
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UNLOCK_CP_PROCESS();
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return 0;
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}
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int SRAM_TEXT_LOC cp_accel_init_done(void)
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{
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// TRACE(2, "%s, cp_inited = %d", __func__, cp_accel_inited);
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return cp_accel_inited;
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}
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int cp_accel_send_event_mcu2cp(uint8_t event)
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{
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if ((false == cp_accel_inited) || (cp_env.mcu2cp_tx_count > MAX_CP_MSG_NUM)) {
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TRACE(2,
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"send_evt error, cp_accel_inited = %d, event pending count = %d",
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cp_accel_inited,
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cp_env.mcu2cp_tx_count);
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TRACE(2,
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"send evt task_id = %d, event = %d",
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CP_TASK_ID_GET(event),
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CP_EVENT_GET(event));
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return -1;
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}
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// TRACE(1, "current CP tx count:%d", cp_env.mcu2cp_tx_count);
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if (cp_env.mcu2cp_tx_count > 0) {
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cp_env.mcu2cp_tx_pending[cp_env.mcu2cp_tx_count - 1] = event;
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cp_env.mcu2cp_tx_count++;
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} else {
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req_event = event;
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cp_env.mcu2cp_tx_count = 1;
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hal_mcu2cp_send_mcu(HAL_MCU2CP_ID_0, HAL_MCU2CP_MSG_TYPE_0, &req_event, 1);
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}
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return 0;
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}
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int CP_TEXT_SRAM_LOC cp_accel_send_event_cp2mcu(uint8_t event)
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{
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return hal_mcu2cp_send_cp(HAL_MCU2CP_ID_0, HAL_MCU2CP_MSG_TYPE_0, (unsigned char *)(uint32_t)event, 0);
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}
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int SRAM_TEXT_LOC cp_accel_busy(enum CP_TASK_TYPE task_id)
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{
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if (cp_task_env.p_desc[task_id].cp_accel_state != CP_ACCEL_STATE_CLOSED) {
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if (cp_task_env.p_desc[task_id].cp_accel_state == CP_ACCEL_STATE_OPENED && cp_in_sleep &&
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!hal_mcu2cp_local_irq_pending_cp(HAL_MCU2CP_ID_0)) {
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return false;
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}
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return true;
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}
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return false;
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}
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#endif
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