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Location: therm/libraries/oleddrv/main.c - annotation
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* File Name : main.c
* Author : lxyppc
* Version : V1.0
* Date : 10-01-21
* Description : Main program body
*******************************************************************************/
/* Includes ------------------------------------------------------------------*/
#include "stm32f10x_lib.h"
#include "bsp.h"
#include "SSD1303.h"
#include "Graphics\Graphics.h" // Graphic primitives layer
#include "ClockUI.h"
#include "ClockSet.h"
#include "Encoder.h"
#include "..\..\oledLoader\Inc\Export.h"
#include "time.h"
#include "icon.h"
#include "menu.h"
/* Private typedef -----------------------------------------------------------*/
/* Private define ------------------------------------------------------------*/
//#define RTCClockSource_LSI
#define RTCClockSource_LSE
/* Private macro -------------------------------------------------------------*/
#define WAIT_UNTIL_FINISH(x) (x)
/* Private variables ---------------------------------------------------------*/
static u32 minute = 0;
static s16 encCount = 0;
static vu32 TimeDisplay = 0;
static const char HexTable[] = "0123456789ABCDEF";
ADResult_t ADCResult;
/* Private function prototypes -----------------------------------------------*/
void RCC_Configuration(void);
void NVIC_Configuration(void);
void SSD1303_IO_Configuration(void);
void SSD1303_Controller_Init(void);
void CCW_Rotate(unsigned char *des, const unsigned char *src);
void RTC_Configuration(void);
void Initial_Tim2(void);
void InitialIO(void);
void InitialADC(void);
void InitialSystem();
#ifdef DEBUG_UI
u32 InitialUIDebugger(u16 width, u16 height, u16 depth, u8* buffer);
#endif
/* Private functions ---------------------------------------------------------*/
void GraphTest(void)
{
SHORT counter;
Device dev;
InitialDevice(&dev,&SSD1303_Prop,SongSmall5_DrawChar);
while(1){
SetColor(WHITE);
for(counter=0; counter<GetMaxX(); counter+=20){
DelayMs(500);
WAIT_UNTIL_FINISH(Line(counter,0,GetMaxX()-1-counter,GetMaxY()-1));
}
DelayMs(2000);
for(counter=10; counter<GetMaxY()>>1; counter+=10){
DelayMs(500);
WAIT_UNTIL_FINISH(Circle(GetMaxX()>>1,GetMaxY()>>1,counter));
}
DelayMs(2000);
WAIT_UNTIL_FINISH(FillCircle(GetMaxX()>>1,GetMaxY()>>1,10));
DelayMs(2000);
WAIT_UNTIL_FINISH(FillCircle(GetMaxX()>>1,GetMaxY()>>1,20));
DelayMs(2000);
WAIT_UNTIL_FINISH(FillCircle(GetMaxX()>>1,GetMaxY()>>1,30));
DelayMs(2000);
SetColor(BLACK);
ClearDevice();
SetColor(WHITE);
WAIT_UNTIL_FINISH(Bevel((GetMaxX()>>1)-30,(GetMaxY()>>1)-30,(GetMaxX()>>1)+30,(GetMaxY()>>1)+30,15));
WAIT_UNTIL_FINISH(Bevel((GetMaxX()>>1)-20,(GetMaxY()>>1)-20,(GetMaxX()>>1)+20,(GetMaxY()>>1)+20,15));
WAIT_UNTIL_FINISH(Bevel((GetMaxX()>>1)-10,(GetMaxY()>>1)-10,(GetMaxX()>>1)+10,(GetMaxY()>>1)+10,15));
DelayMs(2000);
SetColor(BLACK);
ClearDevice();
SetColor(WHITE);
WAIT_UNTIL_FINISH(Arc((GetMaxX()>>1)-30,(GetMaxY()>>1)-30,(GetMaxX()>>1)+30,(GetMaxY()>>1)+30,10,15,0xFF));
WAIT_UNTIL_FINISH(Arc((GetMaxX()>>1)-20,(GetMaxY()>>1)-20,(GetMaxX()>>1)+20,(GetMaxY()>>1)+20,10,15,0xFF));
WAIT_UNTIL_FINISH(Arc((GetMaxX()>>1)-10,(GetMaxY()>>1)-10,(GetMaxX()>>1)+10,(GetMaxY()>>1)+10,10,15,0xFF));
DelayMs(2000);
SetColor(BLACK);
ClearDevice();
SetColor(WHITE);
for(counter=0; counter<GetMaxY()>>1; counter+=4){
DelayMs(500);
WAIT_UNTIL_FINISH(Rectangle(GetMaxX()/2-counter,
GetMaxY()/2-counter,
GetMaxX()/2+counter,
GetMaxY()/2+counter));
}
DelayMs(2000);
SetColor(BLACK);
ClearDevice();
/* Draw a box */
for(u32 x=0;x<128;x++){
SetPoint(&dev,x,0);
SetPoint(&dev,x,63);
}
for(u32 y=0;y<63;y++){
SetPoint(&dev,0,y);
SetPoint(&dev,127,y);
}
static u32 yPos = 1;
yPos = 0;
while(1){
unsigned long xPos = 10;
yPos++;
if(yPos == 47){
break;
}
/* Cleare previous display data */
TextOut(&dev,xPos,yPos>1?yPos-1:46," ",0xff);
/* Output the English characters "Hello" */
xPos = TextOut(&dev,xPos,yPos,"Hello ",0xFF);
/* Output the Chinese characters "ÊÀ½ç" */
xPos = TextOut(&dev,xPos,yPos,"World",2);
/* Output the '!' sign */
//xPos = TextOut(&dev,xPos,yPos,"!",0xFF);
TextOut(&dev,xPos + 8,8, (yPos & 2) ? (yPos&1 ? "\\" : "-" ) : (yPos&1 ? "/" : "|" ),0xFF);
for(u32 i=2000000;--i;);
}
SetColor(BLACK);
ClearDevice();
break;
}
}
/*******************************************************************************
* Function Name : main
* Description : Main program
* Input : None
* Output : None
* Return : None
*******************************************************************************/
int main(void)
{
#ifdef DEBUG
debug();
#endif
{
/*
Todo: the app will crash if remove the follow codes
*/
time_t now = 0;
struct tm* curTm = localtime(&now);
}
InitialSystem();
//GraphTest();
Device dev;
InitialDevice(&dev,&SSD1303_Prop,SongSmall5_DrawChar);
//SpecTextOut(&dev,1,10,song_6_fontBuffer,7);
//while(1);
InitialMenu();
while(1){
static Msg msg;
if(GetMessage(&msg)){
MenuProcess(&msg);
}
}
Clock_DrawFace(GetMaxY()>>1,GetMaxY()>>1,GetMaxY()>>1);
//Line(counter,0,GetMaxX()-1-counter,GetMaxY()-1);
while(1){
static Msg msg;
if(!GetMessage(&msg))continue;
// if(minute != lastM){
// lastM = minute;
// char buf[] = {minute/10+'0',minute%10+'0',0};
// TextOut(&dev,80,20,buf,0xff);
// if(encCount<0){
// encCount = -encCount;
// char buf[] = {'-',encCount/10+'0',encCount%10+'0',0};
// TextOut(&dev,100,20,buf,0xff);
// }else{
// char buf[] = {'+',encCount/10+'0',encCount%10+'0',0};
// TextOut(&dev,100,20,buf,0xff);
// }
// }
if(msg.message == MSG_KEY_UP){
if(SSD1303_IsOn()){
SSD1303_TurnOff();
}else{
SSD1303_TurnOn();
}
char buf[] = {minute/10+'0',minute%10+'0',0};
TextOut(&dev,80,40,buf,0xff);
}
char buf[64];
if(ReadUsbData(buf,64) == LDR_SUCCESS){
if(buf[1] == 0xAA){
RTC_SetCounter(*(u32*)(buf+4));
RTC_WaitForLastTask();
}
}
if(msg.message == MSG_SECOND){
//if(TimeDisplay){
CheckConnection();
vu16 ccr1 = TIM3->CCR1;
Pos_t x = 64;
Pos_t y = 16;
TimeDisplay = 0;
u32 TimeVar = RTC_GetCounter();
u32 THH = 0, TMM = 0, TSS = 0;
/* Compute hours */
THH = TimeVar / 3600;
/* Compute minutes */
TMM = (TimeVar % 3600) / 60;
/* Compute seconds */
TSS = (TimeVar % 3600) % 60;
char tBuf[64] = {1};
//x = TextOut(&dev,x,y,tBuf+1,0xff);
Clock_UpdateTime(THH,TMM,TSS);
time_t now = (time_t)TimeVar;
char* p = ctime(&now);
for(u32 i=0;i<26;){
i++;
tBuf[i] = *p++;
}
TextOut_HighLight(&dev,x,y,tBuf+12,8);
TextOut(&dev,x,y+16,tBuf+5,6);
TextOut(&dev,x,y+32,tBuf+21,4);
TextOut(&dev,x+32,y+32,tBuf+20,1);
TextOut_HighLight(&dev,x+40,y+32,tBuf+1,3);
if(0){
u32 res = ADCResult.ADBat;
res = res * 328 * 136 / (4096*100);
// char ADBuf[] = {'0', 'x', HexTable[(res>>12)&0xF],
// HexTable[(res>>8)&0xF],HexTable[(res>>4)&0xF],HexTable[res&0xF],0};
char ADBuf[] = {'B', 'a', 't', HexTable[(res/100)%10], '.',
HexTable[(res/10)%10], HexTable[res%10],'V', 0};
y+=16;
TextOut(&dev,x,y,ADBuf,8);
}
if(0){
u16 res = ADCResult.ADX;
char ADBuf[] = {'0', 'x', HexTable[(res>>12)&0xF],
HexTable[(res>>8)&0xF],HexTable[(res>>4)&0xF],HexTable[res&0xF],
' ', IsPGOOD() ? 'P' : 'X', 0};
y+=16;
TextOut(&dev,x,y,ADBuf,8);
}
if(0){
u16 res = ADCResult.ADY;
char ADBuf[] = {'0', 'x', HexTable[(res>>12)&0xF],
HexTable[(res>>8)&0xF],HexTable[(res>>4)&0xF],HexTable[res&0xF],
' ', IsCHG() ? 'C' : 'X', 0};
y+=16;
TextOut(&dev,x,y,ADBuf,8);
}
static unsigned char icoY = 0;
//icoY++;
//if(icoY==64)icoY=0;
if(IsCHG()){
DrawIcon(104,icoY,ICON_ID_CHARGE);
}else if(IsPGOOD()){
DrawIcon(104,icoY,ICON_ID_POWER);
}else{
DrawIcon(104,0,ICON_ID_BATTARY);
// Battary check
// Full charge is 4.2V, lower power is 3.3V
// Vref = 3.28V
// 10K/13.6K
// 4.2*10/13.6/3.28*4096 = 3875
// 3.3*10/13.6/3.28*4096 = 3030
u32 res = ADCResult.ADBat;
if(res > 3835){
res = 800;
}else if(res < 3030){
res = 0;
}else{
res -= 3030;
}
res = 16*res/800;
res += 106;
SetColor(BLACK);
SetLineThickness(NORMAL_LINE);
Bar(res,2,121,7);
}
WaitAndSendUsbData(tBuf,64,1);
//ToggleLED();
}
}
}
/*******************************************************************************
* Function Name : InitialSystem
* Description : Initialize the system
* Input : None
* Output : None
* Return : None
*******************************************************************************/
void InitialSystem()
{
GPIO_AFIODeInit();
GPIO_DeInit(GPIOB);
/* The bootloader has already initialize the GPIOA*/
//GPIO_DeInit(GPIOA);
GPIO_DeInit(GPIOD);
/* NVIC configuration */
NVIC_Configuration();
/* Initialize GPIO */
InitialIO();
/* Initialize ADC */
InitialADC();
/* Initializer system colck */
#ifdef DEBUG_UI
InitialUIDebugger(128, 64, 1, SSD1303_GetBuffer());
#else
RCC_DeInit();
CheckConnection();
/* Initialize the SSD1303 related IO */
SSD1303_IO_Configuration();
/* Initialize the SSD1303 */
SSD1303_Init();
#endif
/* Initialize the SSD1303 controller,
which is simulated by STM32 DMA and systick*/
SSD1303_Controller_Init();
/* Initialize the RTC peripheral */
RTC_Configuration();
/* Initial graph lib*/
InitGraph();
/* Initial encoder interface*/
Enc_Init();
}
/*******************************************************************************
* Function Name : InitialADC
* Description : Initial the ADC for voltage measure
* Input : None
* Output : None
* Return : None
*******************************************************************************/
void InitialADC(void)
{
ADC_InitTypeDef ADC_InitStructure;
GPIO_InitTypeDef GPIO_InitStructure;
DMA_InitTypeDef DMA_InitStructure;
RCC_APB2PeriphClockCmd(RCC_APB2Periph_GPIOA
| RCC_APB2Periph_GPIOB
| RCC_APB2Periph_ADC1
| RCC_APB2Periph_ADC2, ENABLE);
RCC_AHBPeriphClockCmd(RCC_AHBPeriph_DMA1, ENABLE);
/* Configure PC.0(ADC Channel1, Channel2, )
as analog input -----------------------------------------------------------*/
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_1 | GPIO_Pin_2 | GPIO_Pin_3 | GPIO_Pin_4;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_AIN;
GPIO_Init(GPIOA, &GPIO_InitStructure);
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_1;
GPIO_Init(GPIOB, &GPIO_InitStructure);
RCC_ADCCLKConfig(RCC_PCLK2_Div6); /// 12MHz for ADC clock
/* Here we config the ADC1 and ADC2 in regular simultaneous mode
They are trigerred by TIM3 TRGO signal
The result will stored in ADC1's DR,
*/
ADC_DeInit(ADC1);
ADC_DeInit(ADC2);
ADC_InitStructure.ADC_Mode = ADC_Mode_RegSimult;
ADC_InitStructure.ADC_ScanConvMode = ENABLE;
ADC_InitStructure.ADC_ContinuousConvMode = DISABLE;
ADC_InitStructure.ADC_ExternalTrigConv =
ADC_ExternalTrigConv_None;
//ADC_ExternalTrigConv_T3_TRGO;
//ADC_ExternalTrigConv_T2_CC2;
ADC_InitStructure.ADC_DataAlign = ADC_DataAlign_Right;
ADC_InitStructure.ADC_NbrOfChannel = 3;
ADC_Init(ADC1, &ADC_InitStructure);
ADC_Init(ADC2, &ADC_InitStructure);
ADC_RegularChannelConfig(ADC1, AD_CH_REF, 1, ADC_SampleTime_13Cycles5);
ADC_RegularChannelConfig(ADC2, AD_CH_BAT, 1, ADC_SampleTime_13Cycles5);
ADC_RegularChannelConfig(ADC1, AD_CH_X, 2, ADC_SampleTime_13Cycles5);
ADC_RegularChannelConfig(ADC2, AD_CH_Y, 2, ADC_SampleTime_13Cycles5);
ADC_RegularChannelConfig(ADC1, AD_CH_Z, 3, ADC_SampleTime_13Cycles5);
ADC_RegularChannelConfig(ADC2, AD_CH_CHG, 3, ADC_SampleTime_13Cycles5);
/* Initialize the ADC DMA channel */
ADC_DMACmd(ADC1,ENABLE);
DMA_DeInit(DMA_ADC);
DMA_InitStructure.DMA_PeripheralBaseAddr = (u32)(&ADC1->DR);
DMA_InitStructure.DMA_MemoryBaseAddr = (u32)&ADCResult;
DMA_InitStructure.DMA_DIR = DMA_DIR_PeripheralSRC;
DMA_InitStructure.DMA_BufferSize = 3;
DMA_InitStructure.DMA_PeripheralInc = DMA_PeripheralInc_Disable;
DMA_InitStructure.DMA_MemoryInc = DMA_MemoryInc_Enable;
DMA_InitStructure.DMA_PeripheralDataSize = DMA_PeripheralDataSize_Word;
DMA_InitStructure.DMA_MemoryDataSize = DMA_MemoryDataSize_Word;
DMA_InitStructure.DMA_Mode = DMA_Mode_Circular;
DMA_InitStructure.DMA_Priority = DMA_Priority_VeryHigh;//DMA_Priority_Low DMA_Priority_VeryHigh;
DMA_InitStructure.DMA_M2M = DMA_M2M_Disable;
DMA_Init(DMA_ADC, &DMA_InitStructure);
NVIC_InitTypeDef NVIC_InitStructure;
NVIC_InitStructure.NVIC_IRQChannel = DMA1_Channel1_IRQChannel;
NVIC_InitStructure.NVIC_IRQChannelPreemptionPriority = 2;
NVIC_InitStructure.NVIC_IRQChannelSubPriority = 0;
NVIC_InitStructure.NVIC_IRQChannelCmd = ENABLE;
NVIC_Init(&NVIC_InitStructure);
DMA_ITConfig(DMA_ADC, DMA_IT_TC, ENABLE);
DMA_Cmd(DMA_ADC, ENABLE);
ADC_TempSensorVrefintCmd(ENABLE);
//ADC_ExternalTrigConvCmd(ADC1, ENABLE);
ADC_ExternalTrigConvCmd(ADC2, ENABLE);
ADC_Cmd(ADC1, ENABLE);
ADC_Cmd(ADC2, ENABLE);
ADC_ResetCalibration(ADC1);
/* Check the end of ADC1 reset calibration register */
while(ADC_GetResetCalibrationStatus(ADC1));
/* Start ADC1 calibaration */
ADC_StartCalibration(ADC1);
/* Check the end of ADC1 calibration */
while(ADC_GetCalibrationStatus(ADC1));
ADC_ResetCalibration(ADC2);
/* Check the end of ADC1 reset calibration register */
while(ADC_GetResetCalibrationStatus(ADC2));
/* Start ADC1 calibaration */
ADC_StartCalibration(ADC2);
/* Check the end of ADC1 calibration */
while(ADC_GetCalibrationStatus(ADC2));
}
/*******************************************************************************
* Function Name : DMA1_Channel1_IRQHandler
* Description : This function handles DMA1 Channel 1 interrupt request.
* Input : None
* Output : None
* Return : None
*******************************************************************************/
void DMA1_Channel1_IRQHandler(void)
{
if(DMA_GetITStatus(DMA1_IT_TC1)){
DMA_ClearITPendingBit(DMA1_IT_GL1);
Msg msg;
if(Is_MMA_WAKEUP()){
MakeMsgGrav_XY(&msg,ADCResult.ADX,ADCResult.ADY);
PostMessage(&msg);
MakeMsgGrav_Z(&msg,ADCResult.ADZ);
PostMessage(&msg);
}
}
}
/*******************************************************************************
* Function Name : InitialIO
* Description : Initial the GPIOs
* Input : None
* Output : None
* Return : None
*******************************************************************************/
void InitialIO(void)
{
#ifdef DEBUG_BOARD
GPIO_InitTypeDef GPIO_InitStructure;
RCC_APB2PeriphClockCmd( RCC_APB2Periph_GPIOD, ENABLE);
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_3;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IN_FLOATING;
GPIO_Init(GPIOD, &GPIO_InitStructure);
RCC_APB2PeriphClockCmd( RCC_APB2Periph_GPIOA, ENABLE);
RCC_APB2PeriphClockCmd( RCC_APB2Periph_GPIOB, ENABLE);
RCC_APB2PeriphClockCmd(RCC_APB2Periph_AFIO,ENABLE);
GPIO_PinRemapConfig(GPIO_Remap_SWJ_JTAGDisable, ENABLE);
// PA8 is the led
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_8;
GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_Out_PP;
GPIO_Init(GPIOA, &GPIO_InitStructure);
// PB4 for PGOOD signal, PB5 for CHG signal
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_4 | GPIO_Pin_5;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IN_FLOATING;
GPIO_Init(GPIOB, &GPIO_InitStructure);
// PB8 for GSel 2, PB9 for GSel2, PB11 for MMA Sleep
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_8 | GPIO_Pin_9 | GPIO_Pin_11;
GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_Out_PP;
GPIO_Init(GPIOB, &GPIO_InitStructure);
GSel1_Low();
GSel2_Low();
LED_OFF();
MMA_WAKEUP();
#else
GPIO_InitTypeDef GPIO_InitStructure;
RCC_APB2PeriphClockCmd( RCC_APB2Periph_GPIOA, ENABLE);
RCC_APB2PeriphClockCmd( RCC_APB2Periph_GPIOB, ENABLE);
RCC_APB2PeriphClockCmd(RCC_APB2Periph_AFIO,ENABLE);
GPIO_PinRemapConfig(GPIO_Remap_SWJ_JTAGDisable, ENABLE);
// PA8 is the led
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_8;
GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_Out_PP;
GPIO_Init(GPIOA, &GPIO_InitStructure);
// PB4 for PGOOD signal, PB5 for CHG signal
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_4 | GPIO_Pin_5;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IN_FLOATING;
GPIO_Init(GPIOB, &GPIO_InitStructure);
// PB8 for GSel 2, PB9 for GSel2, PB11 for MMA Sleep
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_8 | GPIO_Pin_9 | GPIO_Pin_11;
GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_Out_PP;
GPIO_Init(GPIOB, &GPIO_InitStructure);
GSel1_Low();
GSel2_Low();
LED_OFF();
MMA_SLEEP();
#endif
}
/*******************************************************************************
* Function Name : SysTickHandler
* Description : This function handles SysTick Handler.
* Input : None
* Output : None
* Return : None
*******************************************************************************/
#define SCROLL_THRESHOLD 4
void SysTickHandler(void)
{
Msg msg;
static s16 lastEncCnt = 0;
encCount = Enc_GetCount();
if((lastEncCnt ^ encCount) & 0x8000 ){
lastEncCnt = encCount;
}
lastEncCnt += encCount;
if(lastEncCnt>SCROLL_THRESHOLD){
msg.param = (void*)((s32)encCount);
msg.message = MSG_SCROLL;
PostMessage(&msg);
lastEncCnt -= SCROLL_THRESHOLD;
}else if(lastEncCnt<-SCROLL_THRESHOLD){
msg.param = (void*)((s32)encCount);
msg.message = MSG_SCROLL;
PostMessage(&msg);
lastEncCnt += SCROLL_THRESHOLD;
}
static u32 keyDown = 0;
if(Is_Enc_Key_Down()){
if(keyDown == 1){
msg.param = 0;
msg.message = MSG_KEY_DOWN;
PostMessage(&msg);
}
keyDown++;
}else{
if(keyDown > 2){
msg.param = (void*)keyDown;
msg.message = MSG_KEY_UP;
PostMessage(&msg);
}
keyDown = 0;
}
// if(encCount>0){
// minute++;
// if(minute>=60)minute = 0;
// }else if(encCount<0){
// if(minute){
// minute--;
// }else{
// minute = 59;
// }
// }
#ifndef DEBUG_UI
StartPageTransfer();
#endif
if(Is_MMA_WAKEUP()){
ADC_SoftwareStartConvCmd(ADC1, ENABLE);
}
}
/*******************************************************************************
* Function Name : NVIC_Configuration
* Description : Configure the nested vectored interrupt controller.
* Input : None
* Output : None
* Return : None
*******************************************************************************/
void RTC_IRQHandler(void);
void DMA1_Channel5_IRQHandler(void);
void NVIC_Configuration(void)
{
#if WITH_BOOTLOADER
RegisterIrq(-1,SysTickHandler);
RegisterIrq(RTC_IRQChannel,RTC_IRQHandler);
RegisterIrq(DMA1_Channel5_IRQChannel,DMA1_Channel5_IRQHandler);
RegisterIrq(DMA1_Channel1_IRQChannel,DMA1_Channel1_IRQHandler);
#else
#ifdef VECT_TAB_RAM
/* Set the Vector Table base location at 0x20000000 */
NVIC_SetVectorTable(NVIC_VectTab_RAM, 0x0);
#else /* VECT_TAB_FLASH */
/* Set the Vector Table base location at 0x08000000 */
NVIC_SetVectorTable(NVIC_VectTab_FLASH, 0x0);
#endif
/* 2 bits for pre-emption priority */
NVIC_PriorityGroupConfig(NVIC_PriorityGroup_2);
#endif
}
/*******************************************************************************
* Function Name : SSD1303_IO_Configuration
* Description : Configure the IO used for SSD1303.
* Input : None
* Output : None
* Return : None
*******************************************************************************/
void SSD1303_IO_Configuration(void)
{
SPI_InitTypeDef SPI_InitStructure;
GPIO_InitTypeDef GPIO_InitStructure;
/* Enable SPI1 and GPIO clocks */
RCC_APB1PeriphClockCmd(RCC_APB1Periph_SPI2,ENABLE);
RCC_APB2PeriphClockCmd(RCC_APB2Periph_GPIOB,ENABLE);
SPI_I2S_DeInit(SPI2);
/* Configure SPI2 pins: SCK, MOSI */
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_13 | GPIO_Pin_15;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_AF_PP;
GPIO_InitStructure.GPIO_Speed = GPIO_Speed_10MHz;
GPIO_Init(GPIOB, &GPIO_InitStructure);
/* Configure SSD1303 pins: RES,A0*/
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_12 | GPIO_Pin_14;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_Out_PP;
GPIO_InitStructure.GPIO_Speed = GPIO_Speed_10MHz;
GPIO_Init(GPIOB, &GPIO_InitStructure);
/* SPI1 configuration */
SPI_InitStructure.SPI_Direction = SPI_Direction_1Line_Tx;
SPI_InitStructure.SPI_Mode = SPI_Mode_Master;
SPI_InitStructure.SPI_DataSize = SPI_DataSize_8b;
SPI_InitStructure.SPI_CPOL = SPI_CPOL_Low;
SPI_InitStructure.SPI_CPHA = SPI_CPHA_1Edge;
SPI_InitStructure.SPI_NSS = SPI_NSS_Soft;
SPI_InitStructure.SPI_BaudRatePrescaler = SPI_BaudRatePrescaler_2;
SPI_InitStructure.SPI_FirstBit = SPI_FirstBit_MSB;
SPI_InitStructure.SPI_CRCPolynomial = 7;
//SPI_Init(SPI1, &SPI_InitStructure);
SPI_Init(SPI2, &SPI_InitStructure);
SPI_I2S_DMACmd(SPI2, SPI_I2S_DMAReq_Tx, ENABLE);
/* Enable SPI1 */
SPI_Cmd(SPI2, ENABLE);
}
/*******************************************************************************
* Function Name : SSD1303_Controller_Init
* Description : Initialize the oled controller, which is simulated by STM32.
* Input : None
* Output : None
* Return : None
*******************************************************************************/
void SSD1303_Controller_Init(void)
{
NVIC_InitTypeDef NVIC_InitStructure;
DMA_InitTypeDef DMA_InitStructure;
RCC_AHBPeriphClockCmd(RCC_AHBPeriph_DMA1, ENABLE);
DMA_DeInit(DMA1_Channel5);
DMA_InitStructure.DMA_PeripheralBaseAddr = (u32)(&SPI2->DR);
DMA_InitStructure.DMA_MemoryBaseAddr = 0;
DMA_InitStructure.DMA_DIR = DMA_DIR_PeripheralDST;
DMA_InitStructure.DMA_BufferSize = 1;
DMA_InitStructure.DMA_PeripheralInc = DMA_PeripheralInc_Disable;
DMA_InitStructure.DMA_MemoryInc = DMA_MemoryInc_Enable;
DMA_InitStructure.DMA_PeripheralDataSize = DMA_PeripheralDataSize_Byte;
DMA_InitStructure.DMA_MemoryDataSize = DMA_MemoryDataSize_Byte;
DMA_InitStructure.DMA_Mode = DMA_Mode_Normal;
DMA_InitStructure.DMA_Priority = DMA_Priority_VeryHigh;
DMA_InitStructure.DMA_M2M = DMA_M2M_Disable;
DMA_Init(DMA1_Channel5, &DMA_InitStructure);
NVIC_InitStructure.NVIC_IRQChannel = DMA1_Channel5_IRQChannel;
NVIC_InitStructure.NVIC_IRQChannelPreemptionPriority = 2;
NVIC_InitStructure.NVIC_IRQChannelSubPriority = 0;
NVIC_InitStructure.NVIC_IRQChannelCmd = ENABLE;
NVIC_Init(&NVIC_InitStructure);
DMA_ITConfig(DMA1_Channel5, DMA_IT_TC, ENABLE);
NVIC_SystemHandlerPriorityConfig(SystemHandler_SysTick,2,0);
SysTick_CLKSourceConfig(SysTick_CLKSource_HCLK);
SysTick_SetReload(72000000/SSD1303_FPS);
SysTick_ITConfig(ENABLE);
SysTick_CounterCmd(SysTick_Counter_Enable);
}
/*******************************************************************************
* Function Name : RTC_Configuration
* Description : Initialize the RTC peripheral.
* Input : None
* Output : None
* Return : None
*******************************************************************************/
void RTC_Configuration(void)
{
NVIC_InitTypeDef NVIC_InitStructure;
/* Enable PWR and BKP clocks */
RCC_APB1PeriphClockCmd(RCC_APB1Periph_PWR | RCC_APB1Periph_BKP, ENABLE);
/* Allow access to BKP Domain */
PWR_BackupAccessCmd(ENABLE);
NVIC_InitStructure.NVIC_IRQChannel = RTC_IRQChannel;
NVIC_InitStructure.NVIC_IRQChannelPreemptionPriority = 2;
NVIC_InitStructure.NVIC_IRQChannelSubPriority = 0;
NVIC_InitStructure.NVIC_IRQChannelCmd = ENABLE;
NVIC_Init(&NVIC_InitStructure);
/* Enable the RTC Second */
RTC_ITConfig(RTC_IT_SEC, ENABLE);
/* Wait until last write operation on RTC registers has finished */
RTC_WaitForLastTask();
if(BKP_ReadBackupRegister(BKP_DR1) == 0xA5A5){
/* Wait for RTC registers synchronization */
RTC_WaitForSynchro();
/* Wait until last write operation on RTC registers has finished */
RTC_WaitForLastTask();
return;
}
/* Reset Backup Domain */
BKP_DeInit();
#ifdef RTCClockSource_LSI
/* Enable LSI */
RCC_LSICmd(ENABLE);
/* Wait till LSI is ready */
while(RCC_GetFlagStatus(RCC_FLAG_LSIRDY) == RESET)
{
}
/* Select LSI as RTC Clock Source */
RCC_RTCCLKConfig(RCC_RTCCLKSource_LSI);
#elif defined RTCClockSource_LSE
/* Enable LSE */
RCC_LSEConfig(RCC_LSE_ON);
/* Wait till LSE is ready */
while(RCC_GetFlagStatus(RCC_FLAG_LSERDY) == RESET)
{
}
/* Select LSE as RTC Clock Source */
RCC_RTCCLKConfig(RCC_RTCCLKSource_LSE);
#endif
/* Enable RTC Clock */
RCC_RTCCLKCmd(ENABLE);
/* Wait for RTC registers synchronization */
RTC_WaitForSynchro();
/* Set RTC prescaler: set RTC period to 1sec */
#ifdef RTCClockSource_LSI
RTC_SetPrescaler(31999); /* RTC period = RTCCLK/RTC_PR = (32.000 KHz)/(31999+1) */
#elif defined RTCClockSource_LSE
RTC_SetPrescaler(32767); /* RTC period = RTCCLK/RTC_PR = (32.768 KHz)/(32767+1) */
#endif
/* Wait until last write operation on RTC registers has finished */
RTC_WaitForLastTask();
RTC_SetCounter(0x4B880000);
RTC_WaitForLastTask();
BKP_WriteBackupRegister(BKP_DR1, 0xA5A5);
}
/*******************************************************************************
* Function Name : RTC_IRQHandler
* Description : This function handles RTC global interrupt request.
* Input : None
* Output : None
* Return : None
*******************************************************************************/
void RTC_IRQHandler(void)
{
if (RTC_GetITStatus(RTC_IT_SEC) != RESET)
{
/* Clear the RTC Second interrupt */
RTC_ClearITPendingBit(RTC_IT_SEC);
/* Toggle GPIO_LED pin 6 each 1s */
Msg msg;
msg.param = (void*)RTC_GetCounter();
msg.message = MSG_SECOND;
PostMessage(&msg);
/* Wait until last write operation on RTC registers has finished */
RTC_WaitForLastTask();
if(!Is_MMA_WAKEUP()){
// When MMA is power off, use the seoond interrupt
ADC_SoftwareStartConvCmd(ADC1, ENABLE);
}
}
}
#ifdef DEBUG
/*******************************************************************************
* Function Name : assert_failed
* Description : Reports the name of the source file and the source line number
* where the assert_param error has occurred.
* Input : - file: pointer to the source file name
* - line: assert_param error line source number
* Output : None
* Return : None
*******************************************************************************/
void assert_failed(u8* file, u32 line)
{
/* User can add his own implementation to report the file name and line number,
ex: printf("Wrong parameters value: file %s on line %d\r\n", file, line) */
/* Infinite loop */
while (1)
{
}
}
#endif
/******************* (C) COPYRIGHT 2008 STMicroelectronics *****END OF FILE****/
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