Yu Jiaqi
TEST_CODE_ApplyTo2V1_API
Dependencies: SDFileSystem max32630fthr USBDevice
CmdHandler.cpp
- Committer:
- china_sn0w
- Date:
- 2020-07-28
- Revision:
- 4:217334c3a5b2
- Parent:
- 3:35b05d91568d
File content as of revision 4:217334c3a5b2:
#include "mbed.h"
#include "cmsis_os.h"
#include "max32630fthr.h"
#include "USBSerial.h"
#include "CmdHandler.h"
#include "DUT_RegConfig.h"
//#include "Config.h"
#include "ServoRun.h"
#include "Van_API.h"
GLOBAL_CMD_VAR g_cmd;
//extern CONFIG g_config;
extern DUTREG dut_reg[DUT_REG_NUM];
extern uint8_t histogram[10][1024];
extern uint8_t histogram_mode;
extern uint8_t histogram_tdc;
extern uint8_t Firmware[8192];
extern uint8_t dcr_matrix[17][9*2];
uint8_t _uart_send_pbuff[CMD_BUF_LEN] = {0x00};
uint8_t UserTxBufferFS[2048];
uint8_t sys_cfg_save = 0;
//extern Queue<uint8_t, 2048> cmd_queue;
extern USBSerial microUSB;
extern DigitalOut rLED;
extern DigitalOut xSHUT;
extern InterruptIn chip_int;
extern DigitalOut TRIM_EN;
extern uint16_t histogram_pos_num;
extern uint16_t histogram_per_pos;
extern uint16_t range_step_num;
extern uint16_t range_per_step;
extern uint8_t work_mode;
void CmdHandleTask(void)
{
uint8_t ret;
uint16_t i=0;
uint8_t uart_val = 0;
uint16_t _pbuff_len = 0;
while(1) {
ret = microUSB.buf.dequeue(&uart_val);
if(ret == 1) {
if(g_cmd.valid_flag == 0) { //None Header
if(uart_val == 0x5A) { //Already find header
g_cmd.valid_flag = 1;
i=0;
g_cmd.buf[i++] = uart_val;
} else {
i=0;
}
} else if(g_cmd.valid_flag == 1) { //已经找到了帧头
if(i < CMD_BUF_LEN) {
g_cmd.buf[i++] = uart_val;
if(i>=4) { //根据协议长度区判断接收的协议帧大小
_pbuff_len = ((g_cmd.buf[3]&0x00ff)<<8) + g_cmd.buf[2];
if(i == (_pbuff_len+5)) { //一包结束
g_cmd.package_len = i;
DealUart1OnePackage(g_cmd.buf, g_cmd.package_len);
i = 0;
g_cmd.valid_flag = 0;
continue;
} else if((_pbuff_len+5)>=CMD_BUF_LEN) {
i = 0;
g_cmd.valid_flag = 0;
continue;
}
}
} else {
i = 0;
g_cmd.valid_flag = 0;;
}
}
} else {
i = 0;
g_cmd.valid_flag = 0;
wait_ms(50);
//osDelay(50);
}
}
}
uint8_t Check_Sum(uint8_t *_pbuff, uint16_t _cmdLen)
{
uint8_t cmd_sum=0;
uint16_t i;
for(i=0; i<_cmdLen; i++) {
cmd_sum += _pbuff[i];
}
cmd_sum = (~cmd_sum);
return cmd_sum;
}
//协议相关命令的发送
void UART_CmdAckSend(uint8_t ack_cmd, uint8_t register_addr, uint8_t *pbuff, uint16_t pbuff_len)
{
while(g_cmd.send_flag == 1) {
wait_ms(50);
}
g_cmd.send_flag = 1;
UserTxBufferFS[0] = 0x5a;
UserTxBufferFS[1] = 0x00;
uint16_t i=1, j=0;
uint16_t _uart_pbuff_len = 0;
_uart_pbuff_len = pbuff_len+1;
UserTxBufferFS[i++]= ack_cmd;
UserTxBufferFS[i++]= (_uart_pbuff_len&0x00ff);
UserTxBufferFS[i++]= (_uart_pbuff_len>>8);
UserTxBufferFS[i++]= register_addr;
for(j=0; j<pbuff_len; j++) {
UserTxBufferFS[i++] = pbuff[j];
}
UserTxBufferFS[i++] = Check_Sum(&UserTxBufferFS[1], _uart_pbuff_len+3);
uint16_t k = 0;
while(i > 64) {
microUSB.writeBlock(&UserTxBufferFS[k], 64);
i -= 64;
k += 64;
}
microUSB.writeBlock(&UserTxBufferFS[k], i);
g_cmd.send_flag = 0;
}
void DealUart1OnePackage(uint8_t *pd, uint16_t cmdLen)
{
uint16_t _pd_len = 0;
_pd_len = ((pd[3]&0x00ff)<<8) + pd[2];
if(pd[_pd_len+4] != Check_Sum(&pd[1],_pd_len+3)) { //校验不正确,直接返回
return;
}
switch(pd[4]) {
case REGISTER_CMD: //寄存器操作
if(pd[1] == 0x00) { //读
//rLED = LED_ON;
if(HandleReadReg() == 0)
UART_CmdAckSend(READ_CMD | 0x80, REGISTER_CMD, _uart_send_pbuff, DUT_REG_NUM*2);
else
UART_CmdAckSend(READ_CMD | 0x10, REGISTER_CMD, _uart_send_pbuff, 2);
} else if(pd[1] == 0x01) { //写
//rLED = LED_OFF;
if(HandleWriteReg(pd, cmdLen) == 0)
UART_CmdAckSend(WRITE_CMD | 0x80, REGISTER_CMD, _uart_send_pbuff, 2);
else
UART_CmdAckSend(WRITE_CMD | 0x10, REGISTER_CMD, _uart_send_pbuff, 2);
}
break;
case VAN_SINGLE_MEAS:// 单次测量
if(HandleOneTimeMeasure() == 0)
UART_CmdAckSend(READ_CMD | 0x80, VAN_SINGLE_MEAS, _uart_send_pbuff, 14);
else
UART_CmdAckSend(READ_CMD | 0x10, VAN_SINGLE_MEAS, _uart_send_pbuff, 2);
break;
case VAN_CONTIU_MEAS:// 连续测量
if(HandleContinuousMeasure(pd) == 0)
UART_CmdAckSend(READ_CMD | 0x80, VAN_CONTIU_MEAS, _uart_send_pbuff, 2);
else
UART_CmdAckSend(READ_CMD | 0x10, VAN_CONTIU_MEAS, _uart_send_pbuff, 2);
break;
case VAN_READ_HIST_CMD://读取Histogram
if(pd[5] == 0xF0)
{
WriteOneReg(REG_SYS_CFG, sys_cfg_save);
histogram_mode = 0;
}
else if(pd[5] == 0xF1)
{
ReadOneReg(REG_SYS_CFG, &sys_cfg_save);
WriteOneReg(REG_SYS_CFG, 0x01);
histogram_mode = 2;
}
else if(pd[5] == 0xF2)
{
ReadOneReg(REG_SYS_CFG, &sys_cfg_save);
WriteOneReg(REG_SYS_CFG, 0x01);
histogram_mode = 4;
}
else
{
ReadOneReg(REG_SYS_CFG, &sys_cfg_save);
WriteOneReg(REG_SYS_CFG, 0x01);
histogram_mode = 1;
histogram_tdc = pd[5];
}
break;
case VAN_STEP_HISTOGRAM_CMD:
if(pd[5] == 0xF0) {
WriteOneReg(REG_SYS_CFG, sys_cfg_save);
histogram_mode = 0;
} else if(pd[5] == 0xF1) {
ReadOneReg(REG_SYS_CFG, &sys_cfg_save);
WriteOneReg(REG_SYS_CFG, 0x01);
histogram_mode = 3;
histogram_pos_num = pd[6] + pd[7]*256;
histogram_per_pos = pd[8] + pd[9]*256;
}
else if(pd[5] == 0xF2)
{
histogram_mode = 5;
range_step_num = pd[6] + pd[7]*256;
range_per_step = 0;
//histogram_per_pos = pd[8] + pd[9]*256;
}
break;
case VAN_MOVING_CTL_CMD:
ServoRun(pd[5], pd[6] + pd[7]*256);
break;
case VAN_DOWN_FW_CMD:
if(HandleDownloadFW(pd, cmdLen) == 0)
UART_CmdAckSend(WRITE_CMD | 0x80, VAN_DOWN_FW_CMD, _uart_send_pbuff, 2);
else
UART_CmdAckSend(WRITE_CMD | 0x10, VAN_DOWN_FW_CMD, _uart_send_pbuff, 2);
break;
case CHIP_RST_CMD:
HandleChipReset();
break;
case CHIP_EN_CMD:
//HandleChipEnable(pd[5]);
break;
case INT_ENABLE_CMD:
if(pd[5] == 1)
{
work_mode = 1;
chip_int.disable_irq();
WriteOneReg(0x3D, 0xC8);
//WriteOneReg(0x3E, 0x04);
TRIM_EN = 1;
}
break;
case VAN_DCR_TEST_CMD:
if(DCRTest(pd[5], pd[6]) == 0)
UART_CmdAckSend(READ_CMD | 0x80, VAN_DCR_TEST_CMD, (uint8_t*)dcr_matrix, 17*9*2);
else
UART_CmdAckSend(READ_CMD | 0x10, VAN_DCR_TEST_CMD, _uart_send_pbuff, 2);
break;
case VAN_DELAYLINE_TEST_CMD:
if(DelayLineTest(pd[5], _uart_send_pbuff) == 0)
UART_CmdAckSend(READ_CMD | 0x80, VAN_DELAYLINE_TEST_CMD, _uart_send_pbuff, 144);
else
UART_CmdAckSend(READ_CMD | 0x10, VAN_DELAYLINE_TEST_CMD, _uart_send_pbuff, 2);
break;
case VAN_GET_TDC_PHASE_CMD:
if(GetTdcPhase(_uart_send_pbuff) == 0)
UART_CmdAckSend(READ_CMD | 0x80, VAN_GET_TDC_PHASE_CMD, _uart_send_pbuff, 2);
else
UART_CmdAckSend(READ_CMD | 0x10, VAN_GET_TDC_PHASE_CMD, _uart_send_pbuff, 2);
break;
case VAN_SET_WINDOW_CMD:
if(SetWindow(pd) == 0)
UART_CmdAckSend(WRITE_CMD | 0x80, VAN_SET_WINDOW_CMD, _uart_send_pbuff, 2);
else
UART_CmdAckSend(WRITE_CMD | 0x10, VAN_SET_WINDOW_CMD, _uart_send_pbuff, 2);
break;
case VAN_RCO_TRIM_CMD:
if(RCO_Trim(_uart_send_pbuff) == 0)
{
WriteOneReg(0x37, _uart_send_pbuff[0]);
WriteOneReg(0x3E, 0x40);
WriteOneReg(0x3F, 0x8C);
_uart_send_pbuff[1] = _uart_send_pbuff[0];
_uart_send_pbuff[0] = 0;
UART_CmdAckSend(READ_CMD | 0x80, VAN_RCO_TRIM_CMD, _uart_send_pbuff, 2);
}
else
{
_uart_send_pbuff[1] = _uart_send_pbuff[0];
_uart_send_pbuff[0] = 1;
UART_CmdAckSend(READ_CMD | 0x10, VAN_RCO_TRIM_CMD, _uart_send_pbuff, 2);
}
break;
case VAN_BVD_TRIM_CMD:
if(BVD_Trim(_uart_send_pbuff) == 0)
{
_uart_send_pbuff[1] = _uart_send_pbuff[0];
_uart_send_pbuff[0] = 0;
UART_CmdAckSend(READ_CMD | 0x80, VAN_BVD_TRIM_CMD, _uart_send_pbuff, 2);
}
else
{
_uart_send_pbuff[1] = _uart_send_pbuff[0];
_uart_send_pbuff[0] = 0;
UART_CmdAckSend(READ_CMD | 0x10, VAN_BVD_TRIM_CMD, _uart_send_pbuff, 2);
}
break;
case VAN_PIXEL_EN_CMD:
if(Pixel_Enable(_uart_send_pbuff) == 0)
UART_CmdAckSend(READ_CMD | 0x80, VAN_PIXEL_EN_CMD, _uart_send_pbuff, 2);
else
UART_CmdAckSend(READ_CMD | 0x10, VAN_PIXEL_EN_CMD, _uart_send_pbuff, 2);
break;
case VAN_MP_SLECTE_CMD:
if(MP_Slect(_uart_send_pbuff) == 0)
UART_CmdAckSend(READ_CMD | 0x80, VAN_MP_SLECTE_CMD, _uart_send_pbuff, 129);
else
UART_CmdAckSend(READ_CMD | 0x10, VAN_MP_SLECTE_CMD, _uart_send_pbuff, 2);
break;
case VAN_OTP_WRITE_CMD:
if(OTP_Write(&pd[5]) == 0)
UART_CmdAckSend(READ_CMD | 0x80, VAN_OTP_WRITE_CMD, _uart_send_pbuff, 2);
else
UART_CmdAckSend(READ_CMD | 0x10, VAN_OTP_WRITE_CMD, _uart_send_pbuff, 2);
break;
case VAN_OTP_READ_CMD:
if(OTP_Read(&pd[5], _uart_send_pbuff) == 0)
UART_CmdAckSend(READ_CMD | 0x80, VAN_OTP_READ_CMD, _uart_send_pbuff, pd[6]+2);
else
UART_CmdAckSend(READ_CMD | 0x10, VAN_OTP_READ_CMD, _uart_send_pbuff, 2);
break;
default:
break;
}
}
uint8_t HandleWriteReg(uint8_t *pd, uint16_t cmdLen)
{
uint16_t _pd_len = 0;
uint16_t reg_num = 0;
_pd_len = ((pd[3]&0x00ff)<<8) + pd[2];
reg_num = (_pd_len - 1)/2;
for(uint16_t i = 0; i < reg_num; i++) {
//dut_reg[pd[5+2*i]].value = pd[5+2*i+1];
WriteOneReg(pd[5+2*i], pd[5+2*i+1]);
}
return 0;
}
uint8_t HandleReadReg(void)
{
uint8_t ret = 0;
ret = ReadAllRegToTable();
if(ret == 0) {
memcpy(_uart_send_pbuff, &dut_reg, DUT_REG_NUM*2);
}
return ret;
}
uint8_t HandleOneTimeMeasure(void)
{
return OneTimeMeasure((uint16_t*)_uart_send_pbuff, (uint16_t*)(_uart_send_pbuff + 2), (uint32_t*)(_uart_send_pbuff + 4), (uint16_t*)(_uart_send_pbuff + 8), (uint16_t*)(_uart_send_pbuff + 10), (uint16_t*)(_uart_send_pbuff + 12));
}
uint8_t HandleContinuousMeasure(uint8_t *pd)
{
if(pd[5] == 0x00)
{
return StopContinuousMeasure();
}
else
{
return ContinuousMeasure();
}
}
uint8_t HandleReadHistogram(uint8_t tdc_idx)
{
_uart_send_pbuff[0] = tdc_idx;
if(tdc_idx == 0xF1)
memcpy(&_uart_send_pbuff[1], histogram[0], 1024);
else
memcpy(&_uart_send_pbuff[1], histogram[tdc_idx], 1024);
UART_CmdAckSend(READ_CMD | 0x80, VAN_READ_HIST_CMD, _uart_send_pbuff, 1025);
return 0;
}
uint8_t HandleDownloadFW(uint8_t *pd, uint16_t cmdLen)
{
static uint8_t pkg_num = 0;
uint8_t ret = 0;
uint8_t pkg_idx = pd[5];
uint16_t pkg_len = ((pd[3]&0x00ff)<<8) + pd[2] - 2;
static uint16_t pkg_saved = 0;
if(pkg_idx == 0) { //第一包固件
printf("Fist Pkg of FW arrived.\n");
memset(Firmware, 0x00, 8192);
pkg_num = 0;
pkg_saved = 0;
memcpy(Firmware + pkg_saved, &pd[6], pkg_len);
pkg_num++;
pkg_saved += pkg_len;
} else if(pkg_idx == 0xF0) {
printf("Last Pkg of FW arrived. Begin to Download to Chip.\n");
//DebugArray(Firmware, pkg_saved);//For Debug
ret = WriteFW(pkg_saved);
} else if(pkg_idx == 0xF1) {
printf("Firmware transmission has been halt.\n");
memset(Firmware, 0x00, 8192);
pkg_num = 0;
pkg_saved = 0;
} else {
memcpy(Firmware + pkg_saved, &pd[6], pkg_len);
pkg_num++;
pkg_saved += pkg_len;
}
if(ret == 0) {
printf("Firmware download successfully.\n");
}
_uart_send_pbuff[0] = pkg_idx;
return ret;
}
uint8_t HandleContinuousMeasureReport(uint16_t lsb, uint16_t milimeter, uint32_t peak, uint16_t noise_level, uint16_t ref_lsb, uint16_t ref_milimeter)
{
memcpy(_uart_send_pbuff, &lsb, 2);
memcpy(_uart_send_pbuff + 2, &milimeter, 2);
memcpy(_uart_send_pbuff + 4, &peak, 4);
memcpy(_uart_send_pbuff + 8, &noise_level, 2);
memcpy(_uart_send_pbuff + 10, &ref_lsb, 2);
memcpy(_uart_send_pbuff + 12, &ref_milimeter, 2);
UART_CmdAckSend(READ_CMD | 0x80, VAN_CONTIU_MEAS, _uart_send_pbuff, 14);
return 0;
}
void HandleChipReset(void)
{
ChipInitReset();
}
void HandleFreqReport(float* V_I_Value)
{
uint32_t temp_byte = 0;
_uart_send_pbuff[0] = 0;
_uart_send_pbuff[1] = 0;
memset(&_uart_send_pbuff[2], 0x00, 11);
for(uint8_t i = 0; i < 10; i++) {
temp_byte = V_I_Value[i];
memcpy(_uart_send_pbuff + 13 + 4*i, &temp_byte, 4);
}
UART_CmdAckSend(READ_CMD | 0x80, FREQ_REPORT, _uart_send_pbuff, 53);
}