490 lines
17 KiB
C
490 lines
17 KiB
C
#include "base/define.h"
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#include "stdlib.h"
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#include "hardware/gpio_cfg.h"
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#include "base/delay.h"
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#include "hardware/adc_cfg.h"
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#include "hardware/power.h"
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#include "base/utility.h"
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//#include "usartapp.h"
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//#include "database.h"
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#include "interface/BaseChecker.h"
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#include "hardware/jw3425iic.h"
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#include "driver/EWDriver.h"
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#include "elec_io.h"
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static void MCCheckerTest(int argc, char**argv)
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{
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uint16_t us_array[20];
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uint8_t* puc_buf;
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uint16_t us_temp;
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rt_memset(&checker_runcfg.params,0,sizeof(checker_runcfg.params));
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rt_memset(&checker_runcfg.Task_Result,0,sizeof(checker_runcfg.Task_Result));
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checker_runcfg.excue_rtv = 0;
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checker_runcfg.param_count = 0;
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checker_runcfg.rtv_count = 0;
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checker_runcfg.rtv_index = 0;
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checker_runcfg.task_info.runindex = 0;
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if(argc > 2)
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{
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checker_runcfg.param_count = argc-2;
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us_temp = 0;
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while(us_temp < checker_runcfg.param_count)
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{
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checker_runcfg.params[us_temp] = atoi(argv[us_temp+2]);
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us_temp++;
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}
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}
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if (argc < 2)
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{
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goto MC_help_label_;
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}else if(!rt_strcmp(argv[1], "SDAOut")){
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SDA_OUT();
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if(checker_runcfg.params[0] == 0)
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{
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IIC_SDA(0);
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}else{
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IIC_SDA(1);
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}
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}else if(!rt_strcmp(argv[1], "SDAIn")){
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SDA_IN();
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rt_kprintf("SDAIn %1\n",READ_SDA);
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}else if(!rt_strcmp(argv[1], "SCLOut")){
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if(checker_runcfg.params[0] == 0)
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{
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IIC_SCL(0);
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}else{
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IIC_SCL(1);
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}
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}else if(!rt_strcmp(argv[1], "CodeCrc")){
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printf("CodeCrc %X\n",boardinfo_un.boardinfo.mc_ICodeCrc32);
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}
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else if(!rt_strcmp(argv[1], "VrefTrim")){
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MC_VrefTrim();
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printf("VrefTrim Excute %d\n",checker_runcfg.Task_Result[0]);
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}else if(!rt_strcmp(argv[1], "IrefTrim")){
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MC_IrefTrim();
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printf("IrefTrim Excute %d\n",checker_runcfg.Task_Result[0]);
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}else if(!rt_strcmp(argv[1], "RC4MTrim")){
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MC_RC4MTrim();
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printf("RC4MTrim Excute %d\n",checker_runcfg.Task_Result[0]);
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}else if(!rt_strcmp(argv[1], "RC128KTrim")){
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MC_RC128KTrim();
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printf("RC128KTrim Excute %d\n",checker_runcfg.Task_Result[0]);
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}else if(!rt_strcmp(argv[1], "SetMTPVol")){
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MC_SetMTPVol();
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printf("SetMTPVol Excute %d\n",checker_runcfg.Task_Result[0]);
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}else if(!rt_strcmp(argv[1], "EraseMTP")){
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MC_EraseMTP();
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printf("EraseMTP Excute %d\n",checker_runcfg.Task_Result[0]);
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}else if(!rt_strcmp(argv[1], "IICWriteMTP")){
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MC_IICWriteMTP();
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printf("IICWriteMTP Excute %d\n",checker_runcfg.Task_Result[0]);
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}else if(!rt_strcmp(argv[1], "IICEnMTP")){
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MC_IICEnMTP();
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printf("IICEnMTP Excute %d\n",checker_runcfg.Task_Result[0]);
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}else if(!rt_strcmp(argv[1], "IICReadMTP")){
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checker_runcfg.rtv_count = (checker_runcfg.params[1]+1)/2;
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MC_IICReadMTP();
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printf("IICMTPState Excute %d\n",checker_runcfg.Task_Result[0]);
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us_temp = 0;
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while(us_temp < checker_runcfg.rtv_count)
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{
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if((us_temp+1) % 4 == 0)
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{
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printf("\n");
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}
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printf("%02X %02X ",(checker_runcfg.Test_Rtv[us_temp] & 0xFF) ,((checker_runcfg.Test_Rtv[us_temp] >> 8) & 0xFF));
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us_temp++;
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}
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printf("\n");
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}else if(!rt_strcmp(argv[1], "IICMTPState")){
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checker_runcfg.rtv_count = 1;
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MC_IICCheckMTPState();
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printf("IICMTPState Excute %d state %x \n",checker_runcfg.Task_Result[0],checker_runcfg.Test_Rtv[0] & 0x0FF);
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}else if(!rt_strcmp(argv[1], "IICUpdateMTP")){
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checker_runcfg.rtv_count = 1;
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POWER_ON
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delay_ms(50);
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MC_IICUpdateMTP();
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POWER_OFF;
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printf("IICMTPState Excute %d Error Code %d \n",checker_runcfg.Task_Result[0],checker_runcfg.Test_Rtv[0] & 0x0FF);
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}
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else{
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MC_help_label_:
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rt_kprintf("SDAOut [0/1] gpio out\n");
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rt_kprintf("SDAIn read gpio pin\n");
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rt_kprintf("SCLOut [0/1] gpio out\n");
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rt_kprintf("VrefTrim [En_update] [trim_value]\n");
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rt_kprintf("IrefTrim [Iref1En_update] [Iref2En_update] [Iref1_value] [Iref2_value]\n");
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rt_kprintf("RC4MTrim [En_update] [trim_value] \n");
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rt_kprintf("RC128KTrim [En_update] [trim_value] \n");
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rt_kprintf("SetMTPVol [L_V_Class] [H_V_Class] \n");
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rt_kprintf("EraseMTP [Addr] [Erase_Type] \n");
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rt_kprintf("IICWriteMTP [N datas len < 11] \n");
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rt_kprintf("IICReadMTP [read len] \n");
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rt_kprintf("IICMTPState read MTP status \n");
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}
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}
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MSH_CMD_EXPORT_ALIAS(MCCheckerTest ,MCI, EW IIC CMD );
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static void EWDriverTest(int argc, char**argv)
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{
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uint16_t us_array[20];
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uint8_t* puc_buf;
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uint16_t us_temp;
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uint32_t ul_temp,ul_temp2;
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RunCfg_un runcfg;
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rt_memset(&checker_runcfg.params,0,sizeof(checker_runcfg.params));
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rt_memset(&checker_runcfg.Task_Result,0,sizeof(checker_runcfg.Task_Result));
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checker_runcfg.excue_rtv = 0;
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checker_runcfg.param_count = 0;
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checker_runcfg.rtv_count = 0;
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checker_runcfg.rtv_index = 0;
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checker_runcfg.task_info.runindex = 0;
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if(argc > 2)
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{
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checker_runcfg.param_count = argc-2;
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us_temp = 0;
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while(us_temp < checker_runcfg.param_count)
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{
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checker_runcfg.params[us_temp] = atoi(argv[us_temp+2]);
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us_temp++;
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}
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}
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if (argc < 2)
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{
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goto EW_help_label_;
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}else if(!rt_strcmp(argv[1], "BUS_H")){
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EW_DIFF_MOD_H
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}else if(!rt_strcmp(argv[1], "BUS_L")){
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EW_DIFF_MOD_L
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}else if(!rt_strcmp(argv[1], "BUS_M")){
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EW_DIFF_MOD_M
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}else if(!rt_strcmp(argv[1], "BUS_OFF")){
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HMOS_SWITCH_OFF
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}else if(!rt_strcmp(argv[1], "BUS_ON")){
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HMOS_SWITCH_ON
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}
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else if(!rt_strcmp(argv[1], "BUS_CUR")){
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printf("BUS_CUR %d \r\n",Power_GetCurrent());
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}
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else if(!rt_strcmp(argv[1], "SetV")){
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us_temp = PowerCalibration_set(checker_runcfg.params[0],checker_runcfg.params[1]);
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printf("SetV Excute %d\n",us_temp);
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}else if(!rt_strcmp(argv[1], "DModSend")){
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HexStrings2Byte(argv+4,argc-4,(uint8_t*)us_array,20);
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DMod_SendBytes((uint8_t*)us_array,checker_runcfg.params[0],checker_runcfg.params[1],1);
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}
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else if(!rt_strcmp(argv[1], "CommTest")){
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memcpy(us_array,"1234567890ABC",4);
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if(checker_runcfg.params[0] < 200)
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{
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checker_runcfg.params[0] = 200;
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}
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puc_buf = (uint8_t*)us_array;
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us_temp = EW_CommTest(puc_buf,4,checker_runcfg.params[0]);
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puc_buf[5+1] = '\0';
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printf("CommTest Excute %d %s\n",us_temp,puc_buf+2);
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}else if(!rt_strcmp(argv[1], "EnWriteMTP")){
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us_temp = EW_EnWriteMTP(checker_runcfg.params[0],checker_runcfg.params[1]);
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printf("EnWriteMTP Excute %d\n",us_temp);
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}else if(!rt_strcmp(argv[1], "WriteMTP")){
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HexStrings2Byte(argv+5,argc-5,(uint8_t*)us_array,sizeof(us_array));
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us_temp = EW_WriteMTP(checker_runcfg.params[0],checker_runcfg.params[1],(uint8_t*)us_array,checker_runcfg.params[3]);
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printf("WriteMTP Excute %d\n",us_temp);
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}else if(!rt_strcmp(argv[1], "ReadMTP")){
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puc_buf = (uint8_t*)us_array;
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us_temp = EW_ReadMTP(checker_runcfg.params[0],checker_runcfg.params[1],puc_buf,checker_runcfg.params[2]);
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printf("ReadMTP Excute %d \n",us_temp);
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for(us_temp = 0; us_temp < checker_runcfg.params[2]; us_temp++)
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{
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printf("%02X ",puc_buf[us_temp]);
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if((us_temp + 1) %8 == 0)
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{
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printf("\n");
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}
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}
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if((us_temp + 1) %8 != 0)
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{
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printf("\n");
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}
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}else if(!rt_strcmp(argv[1], "Boot")){
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us_temp = EW_RunBootLoader(checker_runcfg.params[0],checker_runcfg.params[1]);
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printf("Boot Excute %d\n",us_temp);
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}else if(!rt_strcmp(argv[1], "WriteRunCfg")){
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runcfg.runcfg_st.fire_mos_sw = checker_runcfg.params[1];
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runcfg.runcfg_st.vbus_rx_sg = 3;
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runcfg.runcfg_st.vbus_mode = 1;
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runcfg.runcfg_st.reset_run_step = checker_runcfg.params[2];
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runcfg.runcfg_st.uid_len = checker_runcfg.params[3];
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runcfg.runcfg_st.pwd_len = checker_runcfg.params[4];
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runcfg.runcfg_st.version = checker_runcfg.params[5];
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us_temp = EW_WriteRunCfg(checker_runcfg.params[0],&runcfg);
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printf("WriteRunCfg Excute %d\n",us_temp);
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}else if(!rt_strcmp(argv[1], "SetAddr")){
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puc_buf = (uint8_t*)us_array;
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memcpy(argv[3],puc_buf,strlen(argv[3]));
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us_temp = EW_SetAddrByUID(checker_runcfg.params[0],puc_buf,strlen(argv[3])-1);
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printf("SetAddr Excute %d delay %d state %04X\n",us_temp,checker_runcfg.Test_Rtv[0],checker_runcfg.Test_Rtv[1]);
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}else if(!rt_strcmp(argv[1], "FastSet")){
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puc_buf = (uint8_t*)us_array;
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memcpy(argv[5],puc_buf,strlen(argv[5]));
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us_temp = EW_FastSetByUID(checker_runcfg.params[0],checker_runcfg.params[1],puc_buf,strlen(argv[5])-1,(uint8_t*)checker_runcfg.Test_Rtv);
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printf("FastSet Excute %d delay %d\n",us_temp,checker_runcfg.Test_Rtv[0]);
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}else if(!rt_strcmp(argv[1], "SetDelay")){
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us_temp = EW_SetDelay(checker_runcfg.params[0],checker_runcfg.params[1]);
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printf("SetDelay Excute %d \n",us_temp);
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}else if(!rt_strcmp(argv[1], "VerfyPWD")){
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puc_buf = (uint8_t*)us_array;
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memcpy(argv[3],puc_buf,strlen(argv[3]));
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us_temp = EW_VerfyPWD(checker_runcfg.params[0],puc_buf,strlen(argv[3])-1);
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printf("VerfyPWD Excute %d \n",us_temp);
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}else if(!rt_strcmp(argv[1], "Boom")){
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us_temp = EW_Boom(checker_runcfg.params[0],checker_runcfg.params[1]);
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printf("Boom Excute %d \n",us_temp);
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}else if(!rt_strcmp(argv[1], "Charge")){
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us_temp = EW_Charge(checker_runcfg.params[0],checker_runcfg.params[1],checker_runcfg.params[2]);
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printf("Charge Excute %d \n",us_temp);
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}else if(!rt_strcmp(argv[1], "DisCharge")){
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us_temp = EW_DisCharge(checker_runcfg.params[0]);
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printf("DisCharge Excute %d \n",us_temp);
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}else if(!rt_strcmp(argv[1], "ReadState")){
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ul_temp = 0;
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us_temp = EW_ReadState(checker_runcfg.params[0],(uint8_t*)&ul_temp);
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printf("ReadState Excute %d state %08X\n",us_temp,ul_temp);
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}else if(!rt_strcmp(argv[1], "ClkAmend")){
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us_temp = EW_ClkAmend(checker_runcfg.params[0],checker_runcfg.params[1],checker_runcfg.params[2]);
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printf("ClkAmend Excute %d\n",us_temp);
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}else if(!rt_strcmp(argv[1], "Inspect")){
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puc_buf = (uint8_t*)us_array;
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us_temp = EW_Inspect(checker_runcfg.params[0],checker_runcfg.params[1],checker_runcfg.params[2],puc_buf);
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printf("Inspect Excute %d\n",us_temp);
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us_temp = (checker_runcfg.params[1] - checker_runcfg.params[0] + 7)/8;
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for(ul_temp = 0; ul_temp< us_temp;ul_temp++)
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{
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printf("%02X ",puc_buf[us_temp]);
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if((us_temp + 1) %8 == 0)
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{
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printf("\n");
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}
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}
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if((us_temp + 1) %8 != 0)
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{
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printf("\n");
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}
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}
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else if(!rt_strcmp(argv[1], "ClkAmend")){
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us_temp = EW_ClkAmend(checker_runcfg.params[0],checker_runcfg.params[1],checker_runcfg.params[2]);
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printf("ClkAmend Excute %d\n",us_temp);
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} else if(!rt_strcmp(argv[1], "CheckRunCfg")){
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ul_temp = HexStrings2UInt(argv[3]);
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ul_temp2 = HexStrings2UInt(argv[4]);
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us_temp = EW_CheckRunCfg(checker_runcfg.params[0],ul_temp,ul_temp2,(uint8_t*)us_array);
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printf("CheckRunCfg Excute %d Checke_Flag %d\n",us_temp,us_array[0]);
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}else if(!rt_strcmp(argv[1], "ChecSelf")){
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us_array[0] = 0;
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us_temp = EW_ChecSelf(checker_runcfg.params[0],checker_runcfg.params[1],(uint8_t*)us_array);
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printf("ChecSelf Excute %d SelfCheck Result %d \n",us_temp,us_array[0]);
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} else if(!rt_strcmp(argv[1], "SaveFireInfo")){
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us_temp = EW_SaveFireInfo(checker_runcfg.params[0]);
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printf("SaveFireInfo Excute %d \n",us_temp);
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} else if(!rt_strcmp(argv[1], "ReadDelayState")){
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us_array[0] = 0;
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us_temp = EW_ReadDelay(checker_runcfg.params[0],us_array);
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printf("SaveFireInfo Excute %d delay %d \n",us_temp,us_array[0]);
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}else if(!rt_strcmp(argv[1], "SetReportCfg")){
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us_temp = EW_SetReportCfg(checker_runcfg.params[0],checker_runcfg.params[1]);
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printf("SetReportCfg Excute %d \n",us_temp);
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} else if(!rt_strcmp(argv[1], "UpdateCommAddr")){
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us_temp = EW_UpdateCommAddr(checker_runcfg.params[0],checker_runcfg.params[1]);
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printf("UpdateCommAddr Excute %d \n",us_temp);
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}else if(!rt_strcmp(argv[1], "ReadClkAmend")){
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us_temp = EW_ReadClkAmend(checker_runcfg.params[0],&ul_temp);
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printf("ReadClkAmend Excute %d amendValue %d\n",us_temp,ul_temp);
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}else if(!rt_strcmp(argv[1], "ReadCfgVer")){
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ul_temp2 = 0;
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ul_temp = 0;
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us_temp = EW_ReadRunCfgVersion(checker_runcfg.params[0],(uint8_t*)&ul_temp,(uint16_t*)&ul_temp2);
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printf("ReadCfgVer Excute %d RunCfg %08X Version %04X\n",us_temp,ul_temp,ul_temp2);
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}else if(!rt_strcmp(argv[1], "AutoSetAddr")){
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us_temp = EW_AutoSetAddr(checker_runcfg.params[0],checker_runcfg.params[1]);
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printf("AutoSetAddr Excute %d \n",us_temp);
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}else if(!rt_strcmp(argv[1], "EW_ReadUID")){
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puc_buf = (uint8_t*)us_array;
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us_temp = EW_ReadUID(checker_runcfg.params[0],puc_buf,checker_runcfg.params[1]);
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printf("EW_ReadUID Excute %d ",us_temp);
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us_temp = checker_runcfg.params[1];
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for(ul_temp = 0; ul_temp< us_temp;ul_temp++)
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{
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printf("%02X ",puc_buf[ul_temp]);
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if((ul_temp + 1) %8 == 0)
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{
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printf("\n");
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}
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}
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if((ul_temp + 1) %8 != 0)
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{
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printf("\n");
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}
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}
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else{
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EW_help_label_:
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rt_kprintf("BUS_H Out High Voltage");
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rt_kprintf("BUS_M Out Midle Voltage\n");
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rt_kprintf("BUS_L Out High Voltage other side\n");
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rt_kprintf("BUS_OFF Close Bus\n");
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rt_kprintf("BUS_ON Open Bus\n");
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rt_kprintf("BUS_CUR Get Bus Current\n");
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rt_kprintf("SetV [Hight_V] [Midle_V]\n");
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rt_kprintf("CommTest [Cycle]VBusD Transport Test \n");
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rt_kprintf("EnWriteMTP [addr][en_flag] Enable or Disable MTP Written \n");
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rt_kprintf("WriteMTP [addr][mtp_addr][dataSize][HexData] Write data to MTP \n");
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rt_kprintf("ReadMTP [addr][mtp_addr][read_len] Read data from MTP \n");
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rt_kprintf("Boot Jump to BootLoader \n");
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rt_kprintf("WriteRunCfg [addr][mos_sw][reset_run_flg][uid_len][pwd_len][version] \n");
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rt_kprintf("SetDelay [addr][delay]\n");
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rt_kprintf("SetAddr [commaddr][UID] Update CommAddr by UID\n");
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rt_kprintf("FastSet [commaddr][delay][pwd_flag][UID] Fast Set Delay and CommAddr By UID\n");
|
|
rt_kprintf("VerfyPWD [addr][pwd] Verfy PWD\n");
|
|
rt_kprintf("Boom [addr][delay] \n");
|
|
rt_kprintf("Charge [addr][voltage_class][group] voltage_class 0 bypass 1 16V 2 20V 3 3.5V addr > group*4 \n");
|
|
rt_kprintf("DisCharge [addr]\n");
|
|
rt_kprintf("ReadState [addr] read delay and state\n");
|
|
rt_kprintf("Inspect [bgaddr] [endaddr] [state_mask]\n");
|
|
rt_kprintf("ClkAmend [addr] [Cycle] [PlusCount]\n");
|
|
rt_kprintf("CheckRunCfg [addr] [Cfg_mask_hex] [Cfg_state_hex]\n");
|
|
rt_kprintf("ChecSelf [addr] [Checke_Mode] [Result]\n");
|
|
rt_kprintf("SaveFireInfo [addr]\n");
|
|
rt_kprintf("ReadDelayState [addr]\n");
|
|
rt_kprintf("SetReportCfg [speed][cur]\n");
|
|
rt_kprintf("UpdateCommAddr [addr][new_addr]\n");
|
|
rt_kprintf("ReadClkAmend [addr]\n");
|
|
rt_kprintf("ReadCfgVer [addr]\n");
|
|
rt_kprintf("AutoSetAddr [addr][addr_fac]\n");
|
|
rt_kprintf("EW_ReadUID [addr][uid_len]\n");
|
|
|
|
}
|
|
}
|
|
MSH_CMD_EXPORT_ALIAS(EWDriverTest ,EW, EWPro Driver );
|
|
|
|
|
|
static void EWBDriverTest(int argc, char**argv)
|
|
{
|
|
uint16_t us_array[20];
|
|
uint8_t* puc_buf;
|
|
uint16_t us_temp;
|
|
uint32_t ul_temp;
|
|
rt_memset(&checker_runcfg.params,0,sizeof(checker_runcfg.params));
|
|
rt_memset(&checker_runcfg.Task_Result,0,sizeof(checker_runcfg.Task_Result));
|
|
checker_runcfg.excue_rtv = 0;
|
|
checker_runcfg.param_count = 0;
|
|
checker_runcfg.rtv_count = 0;
|
|
checker_runcfg.rtv_index = 0;
|
|
checker_runcfg.task_info.runindex = 0;
|
|
if(argc > 2)
|
|
{
|
|
checker_runcfg.param_count = argc-2;
|
|
us_temp = 0;
|
|
while(us_temp < checker_runcfg.param_count)
|
|
{
|
|
checker_runcfg.params[us_temp] = atoi(argv[us_temp+2]);
|
|
us_temp++;
|
|
}
|
|
}
|
|
if (argc < 2)
|
|
{
|
|
goto EW_help_label_;
|
|
}else if(!rt_strcmp(argv[1], "BUS_H")){
|
|
EW_DIFF_MOD_H
|
|
}else if(!rt_strcmp(argv[1], "BUS_L")){
|
|
|
|
EW_DIFF_MOD_L
|
|
|
|
}else if(!rt_strcmp(argv[1], "BUS_M")){
|
|
EW_DIFF_MOD_M
|
|
|
|
}else if(!rt_strcmp(argv[1], "BUS_OFF")){
|
|
HMOS_SWITCH_OFF
|
|
|
|
}else if(!rt_strcmp(argv[1], "BUS_ON")){
|
|
HMOS_SWITCH_ON
|
|
|
|
}
|
|
else if(!rt_strcmp(argv[1], "BUS_CUR")){
|
|
printf("BUS_CUR %d \r\n",Power_GetCurrent());
|
|
}
|
|
else if(!rt_strcmp(argv[1], "SetV")){
|
|
us_temp = PowerCalibration_set(checker_runcfg.params[0],checker_runcfg.params[1]);
|
|
printf("SetV Excute %d\n",us_temp);
|
|
}
|
|
else if(!rt_strcmp(argv[1], "ChgCtrl")){
|
|
us_temp = EWB_ChgCtrl(checker_runcfg.params[0]);
|
|
printf("ChgCtrl Excute %d \n",us_temp);
|
|
}else if(!rt_strcmp(argv[1], "EraseMTP")){
|
|
us_temp = EWB_EraseMTP(checker_runcfg.params[0],checker_runcfg.params[1]);
|
|
printf("EraseMTP Excute %d\n",us_temp);
|
|
}else if(!rt_strcmp(argv[1], "EraseCode")){
|
|
us_temp = EWB_EraseCode();
|
|
printf("EraseCode Excute %d\n",us_temp);
|
|
}else if(!rt_strcmp(argv[1], "ReadMTP")){
|
|
puc_buf = (uint8_t*)us_array;
|
|
memset(us_array,0,checker_runcfg.params[1]+1);
|
|
us_temp = EWB_ReadMTP(checker_runcfg.params[0],checker_runcfg.params[1],puc_buf);
|
|
printf("ReadMTP Excute %d \n",us_temp);
|
|
for(us_temp = 0; us_temp < checker_runcfg.params[1]; us_temp++)
|
|
{
|
|
printf("%02X ",puc_buf[us_temp]);
|
|
if((us_temp + 1) %8 == 0)
|
|
{
|
|
printf("\n");
|
|
}
|
|
}
|
|
if((us_temp + 1) %8 != 0)
|
|
{
|
|
printf("\n");
|
|
}
|
|
}else if(!rt_strcmp(argv[1], "CacluCrc32")){
|
|
us_temp = EWB_CacluCrc32(checker_runcfg.params[0],checker_runcfg.params[1],&ul_temp);
|
|
printf("CacluCrc32 Excute %d %08X\n",us_temp,ul_temp);
|
|
}else if(!rt_strcmp(argv[1], "RunApp")){
|
|
us_temp = EWB_RunApp();
|
|
printf("RunApp Excute %d\n",us_temp);
|
|
}else if(!rt_strcmp(argv[1], "WriteMTP")){
|
|
HexStrings2Byte(argv+4,argc-4,(uint8_t*)us_array,sizeof(us_array));
|
|
us_temp = EWB_WriteMTP(checker_runcfg.params[0],(const uint8_t*)us_array,checker_runcfg.params[1]);
|
|
printf("WriteMTP Excute %d\n",us_temp);
|
|
}
|
|
else{
|
|
EW_help_label_:
|
|
rt_kprintf("BUS_H Out High Voltage");
|
|
rt_kprintf("BUS_M Out Midle Voltage\n");
|
|
rt_kprintf("BUS_L Out High Voltage other side\n");
|
|
rt_kprintf("BUS_OFF Close Bus\n");
|
|
rt_kprintf("BUS_ON Open Bus\n");
|
|
rt_kprintf("BUS_CUR Get Bus Current\n");
|
|
rt_kprintf("SetV [Hight_V] [Midle_V]\n");
|
|
rt_kprintf("ChgCtrl [Chg_SW] \n");
|
|
rt_kprintf("EraseMTP [bgaddr][endaddr]\n");
|
|
rt_kprintf("EraseCode \n");
|
|
rt_kprintf("ReadMTP [bgaddr][read_len] \n");
|
|
rt_kprintf("CacluCrc32 [bgaddr][endaddr] \n");
|
|
rt_kprintf("RunApp \n");
|
|
rt_kprintf("WriteMTP [MTP Addr][w_len] [hex data]\n");
|
|
|
|
}
|
|
}
|
|
MSH_CMD_EXPORT_ALIAS(EWBDriverTest ,EWB, EW BootLoader Driver );
|
|
|