pinebuds/rtos/rtx5/rtx_kernel.c

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/*
* Copyright (c) 2013-2019 Arm Limited. All rights reserved.
*
* SPDX-License-Identifier: Apache-2.0
*
* Licensed under the Apache License, Version 2.0 (the License); you may
* not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an AS IS BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* -----------------------------------------------------------------------------
*
* Project: CMSIS-RTOS RTX
* Title: Kernel functions
*
* -----------------------------------------------------------------------------
*/
#include "hal_timer.h"
#include "hal_trace.h"
#include "os_tick.h"
#include "rtx_lib.h"
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// OS Runtime Information
osRtxInfo_t osRtxInfo __attribute__((section(".data.os"))) =
// lint -e{785} "Initialize only OS ID, OS Version and Kernel State"
{.os_id = osRtxKernelId,
.version = osRtxVersionKernel,
.kernel.state = osRtxKernelInactive};
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#define OS_BSS_LOC __attribute__((section(".bss.os")))
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OS_BSS_LOC static uint32_t systick_lock_val;
OS_BSS_LOC static uint32_t systick_lock_ts;
// ==== Helper functions ====
/// Block Kernel (disable: thread switching, time tick, post ISR processing).
static void KernelBlock(void) {
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OS_Tick_Disable();
osRtxInfo.kernel.blocked = 1U;
__DSB();
if (GetPendSV() != 0U) {
ClrPendSV();
osRtxInfo.kernel.pendSV = 1U;
}
}
/// Unblock Kernel
static void KernelUnblock(void) {
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osRtxInfo.kernel.blocked = 0U;
__DSB();
if (osRtxInfo.kernel.pendSV != 0U) {
osRtxInfo.kernel.pendSV = 0U;
SetPendSV();
}
OS_Tick_Enable();
}
// ==== Service Calls ====
/// Initialize the RTOS Kernel.
/// \note API identical to osKernelInitialize
static osStatus_t svcRtxKernelInitialize(void) {
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if (osRtxInfo.kernel.state == osRtxKernelReady) {
EvrRtxKernelInitialized();
// lint -e{904} "Return statement before end of function" [MISRA Note 1]
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return osOK;
}
if (osRtxInfo.kernel.state != osRtxKernelInactive) {
EvrRtxKernelError((int32_t)osError);
// lint -e{904} "Return statement before end of function" [MISRA Note 1]
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return osError;
}
#if (DOMAIN_NS == 1)
// Initialize Secure Process Stack
if (TZ_InitContextSystem_S() == 0U) {
EvrRtxKernelError(osRtxErrorTZ_InitContext_S);
// lint -e{904} "Return statement before end of function" [MISRA Note 1]
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return osError;
}
#endif
// Initialize osRtxInfo
memset((uint8_t *)&osRtxInfo + offsetof(osRtxInfo_t, kernel), 0,
sizeof(osRtxInfo) - offsetof(osRtxInfo_t, kernel));
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osRtxInfo.isr_queue.data = osRtxConfig.isr_queue.data;
osRtxInfo.isr_queue.max = osRtxConfig.isr_queue.max;
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osRtxInfo.thread.robin.timeout = osRtxConfig.robin_timeout;
// Initialize Memory Pools (Variable Block Size)
if (osRtxMemoryInit(osRtxConfig.mem.common_addr,
osRtxConfig.mem.common_size) != 0U) {
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osRtxInfo.mem.common = osRtxConfig.mem.common_addr;
}
if (osRtxMemoryInit(osRtxConfig.mem.stack_addr, osRtxConfig.mem.stack_size) !=
0U) {
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osRtxInfo.mem.stack = osRtxConfig.mem.stack_addr;
} else {
osRtxInfo.mem.stack = osRtxInfo.mem.common;
}
if (osRtxMemoryInit(osRtxConfig.mem.mp_data_addr,
osRtxConfig.mem.mp_data_size) != 0U) {
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osRtxInfo.mem.mp_data = osRtxConfig.mem.mp_data_addr;
} else {
osRtxInfo.mem.mp_data = osRtxInfo.mem.common;
}
if (osRtxMemoryInit(osRtxConfig.mem.mq_data_addr,
osRtxConfig.mem.mq_data_size) != 0U) {
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osRtxInfo.mem.mq_data = osRtxConfig.mem.mq_data_addr;
} else {
osRtxInfo.mem.mq_data = osRtxInfo.mem.common;
}
// Initialize Memory Pools (Fixed Block Size)
if (osRtxConfig.mpi.stack != NULL) {
(void)osRtxMemoryPoolInit(
osRtxConfig.mpi.stack, osRtxConfig.mpi.stack->max_blocks,
osRtxConfig.mpi.stack->block_size, osRtxConfig.mpi.stack->block_base);
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osRtxInfo.mpi.stack = osRtxConfig.mpi.stack;
}
if (osRtxConfig.mpi.thread != NULL) {
(void)osRtxMemoryPoolInit(
osRtxConfig.mpi.thread, osRtxConfig.mpi.thread->max_blocks,
osRtxConfig.mpi.thread->block_size, osRtxConfig.mpi.thread->block_base);
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osRtxInfo.mpi.thread = osRtxConfig.mpi.thread;
}
if (osRtxConfig.mpi.timer != NULL) {
(void)osRtxMemoryPoolInit(
osRtxConfig.mpi.timer, osRtxConfig.mpi.timer->max_blocks,
osRtxConfig.mpi.timer->block_size, osRtxConfig.mpi.timer->block_base);
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osRtxInfo.mpi.timer = osRtxConfig.mpi.timer;
}
if (osRtxConfig.mpi.event_flags != NULL) {
(void)osRtxMemoryPoolInit(osRtxConfig.mpi.event_flags,
osRtxConfig.mpi.event_flags->max_blocks,
osRtxConfig.mpi.event_flags->block_size,
osRtxConfig.mpi.event_flags->block_base);
osRtxInfo.mpi.event_flags = osRtxConfig.mpi.event_flags;
}
if (osRtxConfig.mpi.mutex != NULL) {
(void)osRtxMemoryPoolInit(
osRtxConfig.mpi.mutex, osRtxConfig.mpi.mutex->max_blocks,
osRtxConfig.mpi.mutex->block_size, osRtxConfig.mpi.mutex->block_base);
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osRtxInfo.mpi.mutex = osRtxConfig.mpi.mutex;
}
if (osRtxConfig.mpi.semaphore != NULL) {
(void)osRtxMemoryPoolInit(osRtxConfig.mpi.semaphore,
osRtxConfig.mpi.semaphore->max_blocks,
osRtxConfig.mpi.semaphore->block_size,
osRtxConfig.mpi.semaphore->block_base);
osRtxInfo.mpi.semaphore = osRtxConfig.mpi.semaphore;
}
if (osRtxConfig.mpi.memory_pool != NULL) {
(void)osRtxMemoryPoolInit(osRtxConfig.mpi.memory_pool,
osRtxConfig.mpi.memory_pool->max_blocks,
osRtxConfig.mpi.memory_pool->block_size,
osRtxConfig.mpi.memory_pool->block_base);
osRtxInfo.mpi.memory_pool = osRtxConfig.mpi.memory_pool;
}
if (osRtxConfig.mpi.message_queue != NULL) {
(void)osRtxMemoryPoolInit(osRtxConfig.mpi.message_queue,
osRtxConfig.mpi.message_queue->max_blocks,
osRtxConfig.mpi.message_queue->block_size,
osRtxConfig.mpi.message_queue->block_base);
osRtxInfo.mpi.message_queue = osRtxConfig.mpi.message_queue;
}
osRtxInfo.kernel.state = osRtxKernelReady;
EvrRtxKernelInitialized();
return osOK;
}
/// Get RTOS Kernel Information.
/// \note API identical to osKernelGetInfo
static osStatus_t svcRtxKernelGetInfo(osVersion_t *version, char *id_buf,
uint32_t id_size) {
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uint32_t size;
if (version != NULL) {
version->api = osRtxVersionAPI;
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version->kernel = osRtxVersionKernel;
}
if ((id_buf != NULL) && (id_size != 0U)) {
if (id_size > sizeof(osRtxKernelId)) {
size = sizeof(osRtxKernelId);
} else {
size = id_size;
}
memcpy(id_buf, osRtxKernelId, size);
}
EvrRtxKernelInfoRetrieved(version, id_buf, id_size);
return osOK;
}
/// Get the current RTOS Kernel state.
/// \note API identical to osKernelGetState
static osKernelState_t svcRtxKernelGetState(void) {
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osKernelState_t state = osRtxKernelState();
EvrRtxKernelGetState(state);
return state;
}
/// Start the RTOS Kernel scheduler.
/// \note API identical to osKernelStart
static osStatus_t svcRtxKernelStart(void) {
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os_thread_t *thread;
if (osRtxInfo.kernel.state != osRtxKernelReady) {
EvrRtxKernelError(osRtxErrorKernelNotReady);
// lint -e{904} "Return statement before end of function" [MISRA Note 1]
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return osError;
}
// Thread startup (Idle and Timer Thread)
if (!osRtxThreadStartup()) {
EvrRtxKernelError((int32_t)osError);
// lint -e{904} "Return statement before end of function" [MISRA Note 1]
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return osError;
}
// Setup SVC and PendSV System Service Calls
SVC_Setup();
// Setup RTOS Tick
if (OS_Tick_Setup(osRtxConfig.tick_freq, OS_TICK_HANDLER) != 0) {
EvrRtxKernelError((int32_t)osError);
// lint -e{904} "Return statement before end of function" [MISRA Note 1]
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return osError;
}
osRtxInfo.tick_irqn = OS_Tick_GetIRQn();
// Enable RTOS Tick
OS_Tick_Enable();
// Switch to Ready Thread with highest Priority
thread = osRtxThreadListGet(&osRtxInfo.thread.ready);
osRtxThreadSwitch(thread);
if ((osRtxConfig.flags & osRtxConfigPrivilegedMode) != 0U) {
// Privileged Thread mode & PSP
__set_CONTROL(0x02U);
} else {
// Unprivileged Thread mode & PSP
__set_CONTROL(0x03U);
}
osRtxInfo.kernel.state = osRtxKernelRunning;
EvrRtxKernelStarted();
return osOK;
}
/// Lock the RTOS Kernel scheduler.
/// \note API identical to osKernelLock
static int32_t svcRtxKernelLock(void) {
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int32_t lock;
switch (osRtxInfo.kernel.state) {
case osRtxKernelRunning:
osRtxInfo.kernel.state = osRtxKernelLocked;
EvrRtxKernelLocked(0);
lock = 0;
break;
case osRtxKernelLocked:
EvrRtxKernelLocked(1);
lock = 1;
break;
default:
EvrRtxKernelError((int32_t)osError);
lock = (int32_t)osError;
break;
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}
return lock;
}
/// Unlock the RTOS Kernel scheduler.
/// \note API identical to osKernelUnlock
static int32_t svcRtxKernelUnlock(void) {
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int32_t lock;
switch (osRtxInfo.kernel.state) {
case osRtxKernelRunning:
EvrRtxKernelUnlocked(0);
lock = 0;
break;
case osRtxKernelLocked:
osRtxInfo.kernel.state = osRtxKernelRunning;
EvrRtxKernelUnlocked(1);
lock = 1;
break;
default:
EvrRtxKernelError((int32_t)osError);
lock = (int32_t)osError;
break;
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}
return lock;
}
/// Restore the RTOS Kernel scheduler lock state.
/// \note API identical to osKernelRestoreLock
static int32_t svcRtxKernelRestoreLock(int32_t lock) {
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int32_t lock_new;
switch (osRtxInfo.kernel.state) {
case osRtxKernelRunning:
case osRtxKernelLocked:
switch (lock) {
case 0:
osRtxInfo.kernel.state = osRtxKernelRunning;
EvrRtxKernelLockRestored(0);
lock_new = 0;
break;
case 1:
osRtxInfo.kernel.state = osRtxKernelLocked;
EvrRtxKernelLockRestored(1);
lock_new = 1;
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break;
default:
EvrRtxKernelError((int32_t)osError);
lock_new = (int32_t)osError;
break;
}
break;
default:
EvrRtxKernelError((int32_t)osError);
lock_new = (int32_t)osError;
break;
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}
return lock_new;
}
/// Suspend the RTOS Kernel scheduler.
/// \note API identical to osKernelSuspend
static uint32_t svcRtxKernelSuspend(void) {
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const os_thread_t *thread;
const os_timer_t *timer;
uint32_t delay;
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if (osRtxInfo.kernel.state != osRtxKernelRunning) {
EvrRtxKernelError(osRtxErrorKernelNotRunning);
// lint -e{904} "Return statement before end of function" [MISRA Note 1]
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return 0U;
}
KernelBlock();
systick_lock_val = OS_Tick_GetInterval() - 1 - OS_Tick_GetCount();
systick_lock_ts = hal_sys_timer_get();
delay = osWaitForever;
// Check Thread Delay list
thread = osRtxInfo.thread.delay_list;
if (thread != NULL) {
delay = thread->delay;
}
// Check Active Timer list
timer = osRtxInfo.timer.list;
if (timer != NULL) {
if (timer->tick < delay) {
delay = timer->tick;
}
}
osRtxInfo.kernel.state = osRtxKernelSuspended;
EvrRtxKernelSuspended(delay);
return delay;
}
/// Resume the RTOS Kernel scheduler.
/// \note API identical to osKernelResume
static void svcRtxKernelResume(uint32_t sleep_ticks) {
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os_thread_t *thread;
os_timer_t *timer;
uint32_t delay;
uint32_t ticks;
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uint32_t resume_ts;
uint32_t tick_interval;
uint32_t sysclk_remain;
uint32_t delta_clk;
uint32_t sleep_clk;
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if (osRtxInfo.kernel.state != osRtxKernelSuspended) {
EvrRtxKernelResumed();
// lint -e{904} "Return statement before end of function" [MISRA Note 1]
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return;
}
tick_interval = OS_Tick_GetInterval();
resume_ts = hal_sys_timer_get();
sleep_clk = (resume_ts - systick_lock_ts) *
(OS_CLOCK_NOMINAL / CONFIG_SYSTICK_HZ_NOMINAL);
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if (systick_lock_val == 0) {
sleep_ticks = sleep_clk / tick_interval;
sysclk_remain = sleep_clk % tick_interval;
} else if (sleep_clk >= systick_lock_val) {
delta_clk = sleep_clk - systick_lock_val;
sleep_ticks = delta_clk / tick_interval + 1;
sysclk_remain = tick_interval - delta_clk % tick_interval;
} else {
sleep_ticks = 0;
sysclk_remain = systick_lock_val - sleep_clk;
}
#if __RTX_CPU_STATISTICS__
osRtxInfo.thread.run.curr->rtime += sleep_ticks;
#endif
osRtxInfo.kernel.tick += sleep_ticks;
// Process Thread Delay list
thread = osRtxInfo.thread.delay_list;
if (thread != NULL) {
delay = sleep_ticks;
do {
if (delay >= thread->delay) {
delay -= thread->delay;
thread->delay = 1U;
osRtxThreadDelayTick();
thread = osRtxInfo.thread.delay_list;
} else {
thread->delay -= delay;
delay = 0U;
}
} while ((thread != NULL) && (delay != 0U));
}
// Process Active Timer list
timer = osRtxInfo.timer.list;
if (timer != NULL) {
ticks = sleep_ticks;
do {
if (ticks >= timer->tick) {
ticks -= timer->tick;
timer->tick = 1U;
osRtxInfo.timer.tick();
timer = osRtxInfo.timer.list;
} else {
timer->tick -= ticks;
ticks = 0U;
}
} while ((timer != NULL) && (ticks != 0U));
}
osRtxInfo.kernel.state = osRtxKernelRunning;
osRtxThreadDispatch(NULL);
if (sysclk_remain == tick_interval) {
sysclk_remain = 0;
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}
if (sysclk_remain) {
SysTick->LOAD = sysclk_remain;
SysTick->VAL = 0;
SysTick->CTRL |= SysTick_CTRL_ENABLE_Msk;
while (SysTick->VAL == 0)
;
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SysTick->CTRL &= ~SysTick_CTRL_ENABLE_Msk;
SysTick->LOAD = tick_interval - 1;
} else
SysTick->VAL = 0;
#if defined(DEBUG_SLEEP) && (DEBUG_SLEEP >= 1)
if (sleep_clk > 0) {
TRACE(7, "[%u/0x%X][%2u/%u] resume: suspend tick:%u, sleep_clk=%u ticks=%u",
TICKS_TO_MS(hal_sys_timer_get()), hal_sys_timer_get(), sysclk_remain,
SysTick->VAL, systick_lock_val, sleep_clk, sleep_ticks);
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}
#endif
KernelUnblock();
EvrRtxKernelResumed();
}
/// Get the RTOS kernel tick count.
/// \note API identical to osKernelGetTickCount
static uint32_t svcRtxKernelGetTickCount(void) {
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EvrRtxKernelGetTickCount(osRtxInfo.kernel.tick);
return osRtxInfo.kernel.tick;
}
/// Get the RTOS kernel tick frequency.
/// \note API identical to osKernelGetTickFreq
static uint32_t svcRtxKernelGetTickFreq(void) {
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EvrRtxKernelGetTickFreq(osRtxConfig.tick_freq);
return osRtxConfig.tick_freq;
}
/// Get the RTOS kernel system timer count.
/// \note API identical to osKernelGetSysTimerCount
static uint32_t svcRtxKernelGetSysTimerCount(void) {
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uint32_t tick;
uint32_t count;
tick = (uint32_t)osRtxInfo.kernel.tick;
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count = OS_Tick_GetCount();
if (OS_Tick_GetOverflow() != 0U) {
count = OS_Tick_GetCount();
tick++;
}
count += tick * OS_Tick_GetInterval();
EvrRtxKernelGetSysTimerCount(count);
return count;
}
/// Get the RTOS kernel system timer frequency.
/// \note API identical to osKernelGetSysTimerFreq
static uint32_t svcRtxKernelGetSysTimerFreq(void) {
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uint32_t freq = OS_Tick_GetClock();
EvrRtxKernelGetSysTimerFreq(freq);
return freq;
}
// Service Calls definitions
// lint ++flb "Library Begin" [MISRA Note 11]
SVC0_0(KernelInitialize, osStatus_t)
SVC0_3(KernelGetInfo, osStatus_t, osVersion_t *, char *, uint32_t)
SVC0_0(KernelStart, osStatus_t)
SVC0_0(KernelLock, int32_t)
SVC0_0(KernelUnlock, int32_t)
SVC0_1(KernelRestoreLock, int32_t, int32_t)
SVC0_0(KernelSuspend, uint32_t)
SVC0_1N(KernelResume, void, uint32_t)
SVC0_0(KernelGetState, osKernelState_t)
SVC0_0(KernelGetTickCount, uint32_t)
SVC0_0(KernelGetTickFreq, uint32_t)
SVC0_0(KernelGetSysTimerCount, uint32_t)
SVC0_0(KernelGetSysTimerFreq, uint32_t)
// lint --flb "Library End"
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// ==== Library functions ====
/// RTOS Kernel Pre-Initialization Hook
// lint -esym(759,osRtxKernelPreInit) "Prototype in header"
// lint -esym(765,osRtxKernelPreInit) "Global scope (can be overridden)"
// lint -esym(522,osRtxKernelPreInit) "Can be overridden (do not lack
// side-effects)"
__WEAK void osRtxKernelPreInit(void) {}
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// ==== Public API ====
/// Initialize the RTOS Kernel.
osStatus_t osKernelInitialize(void) {
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osStatus_t status;
osRtxKernelPreInit();
EvrRtxKernelInitialize();
if (IsIrqMode() || IsIrqMasked()) {
EvrRtxKernelError((int32_t)osErrorISR);
status = osErrorISR;
} else {
status = __svcKernelInitialize();
}
return status;
}
/// Get RTOS Kernel Information.
osStatus_t osKernelGetInfo(osVersion_t *version, char *id_buf,
uint32_t id_size) {
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osStatus_t status;
EvrRtxKernelGetInfo(version, id_buf, id_size);
if (IsIrqMode() || IsIrqMasked() || IsPrivileged()) {
status = svcRtxKernelGetInfo(version, id_buf, id_size);
} else {
status = __svcKernelGetInfo(version, id_buf, id_size);
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}
return status;
}
/// Get the current RTOS Kernel state.
osKernelState_t osKernelGetState(void) {
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osKernelState_t state;
if (IsIrqMode() || IsIrqMasked() || IsPrivileged()) {
state = svcRtxKernelGetState();
} else {
state = __svcKernelGetState();
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}
return state;
}
/// Start the RTOS Kernel scheduler.
osStatus_t osKernelStart(void) {
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osStatus_t status;
EvrRtxKernelStart();
if (IsIrqMode() || IsIrqMasked()) {
EvrRtxKernelError((int32_t)osErrorISR);
status = osErrorISR;
} else {
status = __svcKernelStart();
}
return status;
}
/// Lock the RTOS Kernel scheduler.
int32_t osKernelLock(void) {
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int32_t lock;
EvrRtxKernelLock();
if (IsIrqMode() || IsIrqMasked()) {
EvrRtxKernelError((int32_t)osErrorISR);
lock = (int32_t)osErrorISR;
} else {
lock = __svcKernelLock();
}
return lock;
}
/// Unlock the RTOS Kernel scheduler.
int32_t osKernelUnlock(void) {
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int32_t lock;
EvrRtxKernelUnlock();
if (IsIrqMode() || IsIrqMasked()) {
EvrRtxKernelError((int32_t)osErrorISR);
lock = (int32_t)osErrorISR;
} else {
lock = __svcKernelUnlock();
}
return lock;
}
/// Restore the RTOS Kernel scheduler lock state.
int32_t osKernelRestoreLock(int32_t lock) {
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int32_t lock_new;
EvrRtxKernelRestoreLock(lock);
if (IsIrqMode() || IsIrqMasked()) {
EvrRtxKernelError((int32_t)osErrorISR);
lock_new = (int32_t)osErrorISR;
} else {
lock_new = __svcKernelRestoreLock(lock);
}
return lock_new;
}
/// Suspend the RTOS Kernel scheduler.
uint32_t osKernelSuspend(void) {
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uint32_t ticks;
EvrRtxKernelSuspend();
if (IsIrqMode() || IsIrqMasked()) {
EvrRtxKernelError((int32_t)osErrorISR);
ticks = 0U;
} else {
ticks = __svcKernelSuspend();
}
return ticks;
}
/// Resume the RTOS Kernel scheduler.
void osKernelResume(uint32_t sleep_ticks) {
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EvrRtxKernelResume(sleep_ticks);
if (IsIrqMode() || IsIrqMasked()) {
EvrRtxKernelError((int32_t)osErrorISR);
} else {
__svcKernelResume(sleep_ticks);
}
}
/// Get the RTOS kernel tick count.
uint32_t osKernelGetTickCount(void) {
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uint32_t count;
if (IsIrqMode() || IsIrqMasked()) {
count = svcRtxKernelGetTickCount();
} else {
count = __svcKernelGetTickCount();
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}
return count;
}
/// Get the RTOS kernel tick frequency.
uint32_t osKernelGetTickFreq(void) {
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uint32_t freq;
if (IsIrqMode() || IsIrqMasked()) {
freq = svcRtxKernelGetTickFreq();
} else {
freq = __svcKernelGetTickFreq();
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}
return freq;
}
/// Get the RTOS kernel system timer count.
uint32_t osKernelGetSysTimerCount(void) {
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uint32_t count;
if (IsIrqMode() || IsIrqMasked()) {
count = svcRtxKernelGetSysTimerCount();
} else {
count = __svcKernelGetSysTimerCount();
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}
return count;
}
/// Get the RTOS kernel system timer frequency.
uint32_t osKernelGetSysTimerFreq(void) {
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uint32_t freq;
if (IsIrqMode() || IsIrqMasked()) {
freq = svcRtxKernelGetSysTimerFreq();
} else {
freq = __svcKernelGetSysTimerFreq();
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}
return freq;
}