unsigned char parameter_save()
{
WORD i, result = 1;
Delay(10);
IapEraseSector(IAP_ADDRESS); //拆除EEPROM
for (i=0; i<512; i++) //检测是否擦除成功
{
if (IapReadByte(IAP_ADDRESS+i) != 0xff)
result = 0;
}
Delay(10); //Delay
for(i=0; i<8; i++) //写入EEPROM
{
IapProgramByte(IAP_ADDRESS+(i*2), (BYTE)(cistern[i].perSettingTime>>8));
IapProgramByte(IAP_ADDRESS+(i*2+1), (BYTE)cistern[i].perSettingTime);
}
IapProgramByte(IAP_ADDRESS+256, 0xEE); //写入标志位
Delay(10);
for(i=0; i<8; i++) //校验保存值
{
if(IapReadByte(IAP_ADDRESS+(i*2)) != (BYTE)(cistern[i].perSettingTime>>8))
{
result = 0;
}
if(IapReadByte(IAP_ADDRESS+(i*2+1)) != (BYTE)cistern[i].perSettingTime)
{
result = 0;
}
}
for(i=0; i<8; i++) //设置值为界面值
{
cistern[i].settingTime = cistern[i].perSettingTime;
}
return result;
}
void test()
{
WORD i;
P1 = 0xfe; //1111,1110 System Reset OK
Delay(10); //Delay
IapEraseSector(IAP_ADDRESS); //Erase current sector
for (i=0; i<512; i++) //Check whether all sector data is FF
{
if (IapReadByte(IAP_ADDRESS+i) != 0xff)
goto Error; //If error, break
}
P1 = 0xfc; //1111,1100 Erase successful
Delay(10); //Delay
for (i=0; i<512; i++) //Program 512 bytes data into data flash
{
IapProgramByte(IAP_ADDRESS+i, (BYTE)i);
}
P1 = 0xf8; //1111,1000 Program successful
Delay(10); //Delay
for (i=0; i<512; i++) //Verify 512 bytes data
{
if (IapReadByte(IAP_ADDRESS+i) != (BYTE)i)
goto Error; //If error, break
}
P1 = 0xf0; //1111,0000 Verify successful
while (1);
Error:
P1 &= 0x7f; //0xxx,xxxx IAP operation fail
while (1);
}
unsigned char EEPROM_Save_Water_Bound(unsigned char bound)
{
unsigned int i;
//P1 = 0xfe; //1111,1110 系统OK
EEPDelay(10); //延时
IapEraseSector(IAP_ADDRESS); //扇区擦除
for (i=0; i<512; i++) //检测是否擦除成功(全FF检测)
{
if (IapReadByte(IAP_ADDRESS+i) != 0xff)
goto Error; //如果出错,则退出
}
//P1 = 0xfc; //1111,1100 擦除成功
EEPDelay(10); //延时
//for (i=0; i<512; i++) //编程512字节
//{
IapProgramByte(IAP_ADDRESS, (unsigned char)bound);
//}
//P1 = 0xf8; //1111,1000 编程完成
EEPDelay(10); //延时
//for (i=0; i<512; i++) //校验512字节
//{
if (IapReadByte(IAP_ADDRESS) != (unsigned char)bound)
goto Error; //如果校验错误,则退出
//}
//P1 = 0xf0; //1111,0000 测试完成
//while (1);
return 0;
Error:
//P1 &= 0x7f; //0xxx,xxxx IAP操作失败
//while (1);
return 1;
}
/* begin_addr,被写数据Flash开始地址;counter,连续写多少个字节; array[],数据来源 */
BYTE write_flash_with_protect_in_one_sector(WORD begin_addr, WORD counter, BYTE array[])
{
WORD i = 0;
WORD in_sector_begin_addr = 0;
WORD sector_addr = 0;
WORD byte_addr = 0;
/* 判是否是有效范围,此函数不允许跨扇区操作 */
if(counter > USED_BYTE_QTY_IN_ONE_SECTOR)
return ERROR;
in_sector_begin_addr = begin_addr & 0x01ff;
/* 假定从扇区的第0个字节开始,到USED_BYTE_QTY_IN_ONE_SECTOR-1个字节结束,后面部分不用,程序易编写 */
if((in_sector_begin_addr + counter) > USED_BYTE_QTY_IN_ONE_SECTOR)
return ERROR;
/* 将该扇区数据 0 - (USED_BYTE_QTY_IN_ONE_SECTOR-1) 字节数据读入缓冲区保护 */
sector_addr = (begin_addr & 0xfe00);
byte_addr = sector_addr;
for(i = 0; i < USED_BYTE_QTY_IN_ONE_SECTOR; i++)
{
protect_buffer[i] = IapReadByte(byte_addr++);
}
/* 将要写入的数据写入保护缓冲区的相应区域,其余部分保留 */
for(i = 0; i < counter; i++)
{
protect_buffer[in_sector_begin_addr++] = array[i];
}
/* 擦除 要修改/写入 的扇区 */
IapEraseSector(sector_addr);
/* 将保护缓冲区的数据写入 Data Flash, EEPROM */
byte_addr = sector_addr;
for(i = 0; i< USED_BYTE_QTY_IN_ONE_SECTOR; i++)
{
/* 写一个字节 */
IapProgramByte(byte_addr, protect_buffer[i]);
/* 比较对错 */
if (IapReadByte(begin_addr) != protect_buffer[i])
{
IapIdle();
return ERROR;
}
byte_addr++;
}
IapIdle();
return OK;
}
/* begin_addr,被写数据Flash开始地址;counter,连续写多少个字节; array[],数据来源 */
BYTE sequential_write_flash_in_one_sector(WORD begin_addr, WORD counter, BYTE array[])
{
WORD i = 0;
WORD in_sector_begin_addr = 0;
WORD sector_addr = 0;
/* 判是否是有效范围,此函数不允许跨扇区操作 */
if(counter > USED_BYTE_QTY_IN_ONE_SECTOR)
return ERROR;
in_sector_begin_addr = begin_addr & 0x01ff;
if((in_sector_begin_addr + counter) > USED_BYTE_QTY_IN_ONE_SECTOR)
return ERROR;
/* 擦除 要修改/写入 的扇区 */
IapEraseSector(begin_addr);
for(i=0; i<counter; i++)
{
/* 写一个字节 */
IapProgramByte(begin_addr, array[i]);
/* 比较对错 */
if (IapReadByte(begin_addr) != array[i])
{
IapIdle();
return ERROR;
}
begin_addr++;
}
IapIdle();
return OK;
}
void test_eeprom(void)
{
unsigned int i;
unsigned char dat;
//清除数据
IapEraseSector(IAP_ADDRESS);
for(i = 0; i < 512; i++)
{
if(IapReadByte(IAP_ADDRESS + i) != 0xff)
{
goto err;
}
}
_nop_();
_nop_();
_nop_();
_nop_();
//写入数据
for(i = 0; i < 512; i++)
{
IapProgramByte(IAP_ADDRESS + i, (unsigned char)i);
}
_nop_();
_nop_();
_nop_();
_nop_();
//verify
for(i = 0; i < 512; i++)
{
if((dat = IapReadByte(IAP_ADDRESS+i)) != (unsigned char)i)
{
goto err;
}
UART_Send_Char(dat);
}
err:
while(1)
{
}
}
void IAPRead()
{
unsigned char i;
i=IapReadByte(0xE206);
if(i==1) //判断数据是否已经更新过,更新过才读取数据
{
g_y=IapReadByte(0xE200)<<8|IapReadByte(0xE201);
g_x=IapReadByte(0xE202)<<8|IapReadByte(0xE203);
g_z=IapReadByte(0xE204)<<8|IapReadByte(0xE205);
}
i=IapReadByte(0xE400);
if(i==1) //判断数据是否已经更新过,更新过才读取数据
{
g_fOffsetx=IapReadByte(0xE401);
g_fOffsety=IapReadByte(0xE402);
}
}
unsigned char parameter_read()
{
WORD i, result = 1;
Delay(10);
if(IapReadByte(IAP_ADDRESS+256) == 0xEE)
{
for(i=0; i<8; i++)
{
cistern[i].settingTime = ((IapReadByte(IAP_ADDRESS+(i*2)) << 8) | IapReadByte(IAP_ADDRESS+(i*2+1)));
}
result = 1;
}
else
{
result = 0;
}
return result;
}
/*********************************************************************************************
函数名:readEpdat
参 数:无
返回值:无
备 注:EEPROM 读数据
**********************************************************************************************/
unsigned char readEpdat(unsigned int addr, unsigned char* dat, unsigned char len)
{
unsigned char i;
for(i = 0; i < len; i++)
{
dat[i] = IapReadByte(addr + i);
}
return 1;
}
/*********************************************************************************************
函数名:writeEpdat
参 数:无
返回值:无
备 注:EEPROM 读数据
**********************************************************************************************/
void writeEpdat(unsigned int addr, unsigned char* dat, unsigned char len)
{
unsigned char i;
//清除数据
IapEraseSector(addr);
for(i = 0; i < len; i++)
{
if(IapReadByte(addr + i) != 0xff)
{
UART_Send_String("ERASE ERR!");
}
}
//写入数据
for(i = 0; i < len; i++)
{
IapProgramByte(addr + i, (unsigned char)dat[i]);
}
}
{
TI = 0;
}
*/
RI = 0;
//令接收中断标志位为0(软件清零)
//pov_dat[num] = SBUF; //将接收到的数据送入变量 UART_data
//P0=SBUF;
UART_data= SBUF;
//IapEraseSector(0x0001);
//IapProgramByte(0x0001, UART_data);
//SBUF=IapReadByte(0x0001);
UART_Send_Byte(IapReadByte(0x0001));
//SBUF = UART_data; //将接收的数据发送回去(删除//即生效)
// while(TI == 1); //检查发送中断标志位
//while(!TI);
//TI = 0; //令发送中断标志位为0(软件清零)
}
/**************************************************************************
- 功能描述:51单片机的串口发送0d 0a ,即回车换行
- 隶属模块:STC51串口操作
- 函数属性:外部,使用户使用
- 参数说明:无
unsigned char AFWS_Read_EEP()
{
return IapReadByte(IAP_ADDRESS);
}
void main()
{
INT8U i=0;
INT8U search_temp = 0x06; // search_temp 可以增加到6 在search_temp小于3的时候 开始发送广播唤醒
CpuInit();
POWER_UP_RESET_CC1100();
halRfWriteRfSettings();
halSpiWriteBurstReg(CCxxx0_PATABLE, PaTabel, 8);
CC1101_Setwor();
G_IT_ON; // 开启单片机全局中断
Usart_printf(&g_module_id.Sn[0],1);
Usart_printf(&g_module_id.Sn[1],1);
Usart_printf(&g_gateway.Sn[0],1);
Usart_printf(&g_gateway.Sn[1],1);
Log_printf(" ");
// 上电设置网关
// 只有外部中断没有打开,现在进行设置网关字节 地址和网管不能为全0xFFFF
while( ( 0xFFFF == g_gateway.Sn_temp ) || ( 0xFFFF == g_module_id.Sn_temp ) )
{
LED_D4 = ~LED_D4;
delay(50000);
if( 0x55 == g_rx_flag )
{
g_rx_flag = 0x00;
// 将网关数据写入
IapProgramByte(GATEWAY_ADDRESS,TxBuf[1]);
IapProgramByte(GATEWAY_ADDRESS+1,TxBuf[2]);
//g_gateway.Sn_temp = IapReadByte(GATEWAY_ADDRESS);
// 将地址数据写入
IapProgramByte(MODEL_SN_ADDRESS,TxBuf[3]);
IapProgramByte(MODEL_SN_ADDRESS+1,TxBuf[4]);
//g_module_id.Sn_temp = IapReadByte(MODEL_SN_ADDRESS);
Log_printf("GATEWAY OK\n");
Log_printf("MODEL_SN OK\n");
LED_D4 = 0;
// 读取设置数据
IapReadModelSn(MODEL_SN_ADDRESS,&g_module_id);
IapReadModelSn(GATEWAY_ADDRESS,&g_gateway);
}
}
// g_module_rpl = IapReadByte(MODEL_RPL);
// 默认模块id的路由等级1 模块ID 最高位为0 表示路由模块
g_module_id.Sn[0] |= ( (g_module_rpl<<4) & 0x7F );
g_pre_src = g_module_id.Sn_temp;
Usart_printf(&g_module_id.Sn[0],1);
Usart_printf(&g_module_id.Sn[1],1);
Usart_printf(&g_gateway.Sn[0],1);
Usart_printf(&g_gateway.Sn[1],1);
Log_printf(" initialization ok ");
// 地址网关设置完成
LED_D2 = ~LED_D2;
// 读出搜索模式 首次上电为0xFF 则进行搜索
g_search = IapReadByte(SEARCH_MODE);
if( 0xFF == g_search )
{
SearchMode:
while( search_temp-- != 0 )
{
SearchData[2] = g_rid;
// 网关地址
SearchData[4] = g_gateway.Sn[0];
SearchData[5] = g_gateway.Sn[1];
// 源地址(模块ID)
SearchData[9] = g_module_id.Sn[0];
SearchData[10] = g_module_id.Sn[1];
// 目的地址(网关地址)
SearchData[11] = g_gateway.Sn[0];
SearchData[12] = g_gateway.Sn[1];
for( i=0;i<13;i++)
{
SearchData[13] += SearchData[i];
}
// 进行唤醒时,只需要把路由标识滤除即可 将路由标识高字节分出一位代表是模块还是基站
// 首先发送唤醒波,而后发送数据 进行路由搜索时,使用广播唤醒
if( search_temp < 3 )
CC1101_Wakeupcarry(WorCarry, 2,4);
halRfSendPacket(SearchData, 14);
g_rid++; // 发送完成后g_rid自增
//g_wor_flag = 0x55;
timer = 0;
Timer0_Init(10);
TIMER0_ON;
//g_search = 0x55;
g_enter_rx = 0x55;
// 存放校验和
SearchData[13] = 0x00;
goto EnterRx;
}
g_search = 0x00;
}
// else
// {
// g_search = 0x00;
// }
while (1)
{
//Log_printf("Enter wor\n");
if( 0x55 == g_wor_flag )
{
CC1101_Worwakeup();
// 将接收的数据存储到RxBuf数组中
EnterRx:
while(g_enter_rx)
halRfRxPacket(RfRecBuf);
// 此处进行rf数据处理
if( 0x55 == g_rf_rx_flag )
{
g_rf_rx_flag = 0x00;
RfRouteManage(&rf_route_data);
}
if( 0xFF == g_search ) // 若没有搜索到路径,则跳转回搜索路径
goto SearchMode;
}
halSpiStrobe(CCxxx0_SWORRST); // 复位到 事件1
halSpiStrobe(CCxxx0_SWOR); // 启动WOR
INT1_ON; // 开外部中断
PCON |= PD_ON; // 从掉电模式唤醒后,程序从这行开市
//Log_printf("Exit pd\n");
}
}
