/* -------------------------------------------------------------------------- * Copyright (c) 2013-2016 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. * * Name: BLinky.c * Purpose: RTX example program * *---------------------------------------------------------------------------*/ #include #include "ARMCM3.h" // Device header #include "cmsis_os.h" // ARM::CMSIS:RTOS:Keil RTX5 #include "cmsis_os2.h" // ARM::CMSIS:RTOS2:Keil RTX5 osThreadId_t tid_phaseA; /* Thread id of thread: phase_a */ osThreadId_t tid_phaseB; /* Thread id of thread: phase_b */ osThreadId_t tid_phaseC; /* Thread id of thread: phase_c */ osThreadId_t tid_phaseD; /* Thread id of thread: phase_d */ osThreadId_t tid_clock; /* Thread id of thread: clock */ struct phases_t { int_fast8_t phaseA; int_fast8_t phaseB; int_fast8_t phaseC; int_fast8_t phaseD; } g_phases; /*---------------------------------------------------------------------------- * Switch LED on *---------------------------------------------------------------------------*/ void Switch_On (unsigned char led) { printf("LED On: #%d\n\r", led); } /*---------------------------------------------------------------------------- * Switch LED off *---------------------------------------------------------------------------*/ void Switch_Off (unsigned char led) { printf("LED Off: #%d\n\r", led); } /*---------------------------------------------------------------------------- * Function 'signal_func' called from multiple threads *---------------------------------------------------------------------------*/ void signal_func (osThreadId_t tid) { osThreadFlagsSet(tid_clock, 0x0100); /* set signal to clock thread */ osDelay(500); /* delay 500ms */ osThreadFlagsSet(tid_clock, 0x0100); /* set signal to clock thread */ osDelay(500); /* delay 500ms */ osThreadFlagsSet(tid, 0x0001); /* set signal to thread 'thread' */ osDelay(500); /* delay 500ms */ } /*---------------------------------------------------------------------------- * Thread 1 'phaseA': Phase A output *---------------------------------------------------------------------------*/ void phaseA (void *argument) { for (;;) { osThreadFlagsWait(0x0001, osFlagsWaitAny ,osWaitForever); /* wait for an event flag 0x0001 */ g_phases.phaseA = 1; signal_func(tid_phaseB); /* call common signal function */ g_phases.phaseA = 0; } } /*---------------------------------------------------------------------------- * Thread 2 'phaseB': Phase B output *---------------------------------------------------------------------------*/ void phaseB (void *argument) { for (;;) { osThreadFlagsWait(0x0001, osFlagsWaitAny, osWaitForever); /* wait for an event flag 0x0001 */ g_phases.phaseB = 1; signal_func(tid_phaseC); /* call common signal function */ g_phases.phaseB = 0; } } /*---------------------------------------------------------------------------- * Thread 3 'phaseC': Phase C output *---------------------------------------------------------------------------*/ void phaseC (void *argument) { for (;;) { osThreadFlagsWait(0x0001, osFlagsWaitAny, osWaitForever); /* wait for an event flag 0x0001 */ g_phases.phaseC = 1; signal_func(tid_phaseD); /* call common signal function */ g_phases.phaseC = 0; } } /*---------------------------------------------------------------------------- * Thread 4 'phaseD': Phase D output *---------------------------------------------------------------------------*/ void phaseD (void *argument) { for (;;) { osThreadFlagsWait(0x0001, osFlagsWaitAny, osWaitForever); /* wait for an event flag 0x0001 */ g_phases.phaseD = 1; signal_func(tid_phaseA); /* call common signal function */ g_phases.phaseD = 0; } } /*---------------------------------------------------------------------------- * Thread 5 'clock': Signal Clock *---------------------------------------------------------------------------*/ void clock (void const *argument) { for (;;) { osSignalWait(0x0100, osWaitForever); /* wait for an event flag 0x0100 */ osDelay(80); /* delay 80ms */ } } /* Define the API v1 thread */ osThreadDef(clock, osPriorityNormal, 1, 0); /*---------------------------------------------------------------------------- * Main: Initialize and start RTX Kernel *---------------------------------------------------------------------------*/ void app_main (void *argument) { tid_phaseA = osThreadNew(phaseA, NULL, NULL); tid_phaseB = osThreadNew(phaseB, NULL, NULL); tid_phaseC = osThreadNew(phaseC, NULL, NULL); tid_phaseD = osThreadNew(phaseD, NULL, NULL); tid_clock = osThreadCreate(osThread(clock), NULL); osThreadFlagsSet(tid_phaseA, 0x0001); /* set signal to phaseA thread */ osDelay(osWaitForever); while(1); } int main (void) { // System Initialization SystemCoreClockUpdate(); // ... osKernelInitialize(); // Initialize CMSIS-RTOS osThreadNew(app_main, NULL, NULL); // Create application main thread if (osKernelGetState() == osKernelReady) { osKernelStart(); // Start thread execution } while(1); }