RTL8710AF_GCC/component/common/api/at_cmd/atcmd_sys.c

#include <platform_stdlib.h>
#include <platform_opts.h>
#include <hal_adc.h>
#include <gpio_api.h>   // mbed
#include <sys_api.h>
#include <flash_api.h>
#include <rtl_lib.h>
#include <build_info.h>
#include "analogin_api.h"
#include "log_service.h"
#include "atcmd_sys.h"
#include "osdep_api.h"
#include "main.h"
#include "atcmd_wifi.h"

#if defined(configUSE_WAKELOCK_PMU) && (configUSE_WAKELOCK_PMU == 1)
#include "freertos_pmu.h"
#endif

extern u32 ConfigDebugErr;
extern u32 ConfigDebugInfo;
extern u32 ConfigDebugWarn;
extern u32 CmdDumpWord(IN u16 argc, IN u8 *argv[]);
extern u32 CmdWriteWord(IN u16 argc, IN u8 *argv[]);
#if CONFIG_UART_XMODEM
extern void OTU_FW_Update(u8, u8, u32);
#endif


//#if ATCMD_VER == ATVER_1
#if (configGENERATE_RUN_TIME_STATS == 1)
static char cBuffer[512];
#endif
//#endif

//-------- AT SYS commands ---------------------------------------------------------------
#if ATCMD_VER == ATVER_1
void fATSD(void *arg)
{
	int argc = 0;
	char *argv[MAX_ARGC] = {0};
	
	AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSD]: _AT_SYSTEM_DUMP_REGISTER_");
	if(!arg){
		AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSD] Usage: ATSD=REGISTER");
		return;
	}
	argc = parse_param(arg, argv);
	if(argc == 2 || argc == 3)
		CmdDumpWord(argc-1, (unsigned char**)(argv+1));
}

void fATSE(void *arg)
{
	int argc = 0;
	char *argv[MAX_ARGC] = {0};
	
	AT_DBG_MSG(AT_FLAG_EDIT, AT_DBG_ALWAYS, "[ATSE]: _AT_SYSTEM_EDIT_REGISTER_");
	if(!arg){
		AT_DBG_MSG(AT_FLAG_EDIT, AT_DBG_ALWAYS, "[ATSE] Usage: ATSE=REGISTER[VALUE]");
		return;
	}
	argc = parse_param(arg, argv);
	if(argc == 3)
		CmdWriteWord(argc-1, (unsigned char**)(argv+1));
}

void fATSC(void *arg)
{	
	AT_DBG_MSG(AT_FLAG_OTA, AT_DBG_ALWAYS, "[ATSC]: _AT_SYSTEM_CLEAR_OTA_SIGNATURE_");
	sys_clear_ota_signature();
}

void fATSR(void *arg)
{
	AT_DBG_MSG(AT_FLAG_OTA, AT_DBG_ALWAYS, "[ATSR]: _AT_SYSTEM_RECOVER_OTA_SIGNATURE_");
	sys_recover_ota_signature();
}

#if CONFIG_UART_XMODEM
void fATSY(void *arg)
{
	// use xmodem to update, RX: PA_6, TX: PA_7, baudrate: 1M
	OTU_FW_Update(0, 2, 115200);	
}
#endif


#if SUPPORT_MP_MODE
void fATSA(void *arg)
{
	u32 tConfigDebugInfo = ConfigDebugInfo;
	int argc = 0, channel;
	char *argv[MAX_ARGC] = {0}, *ptmp;
	u16 offset, gain;
	
	AT_DBG_MSG(AT_FLAG_ADC, AT_DBG_ALWAYS, "[ATSA]: _AT_SYSTEM_ADC_TEST_");
	if(!arg){
		AT_DBG_MSG(AT_FLAG_ADC, AT_DBG_ALWAYS, "[ATSA] Usage: ATSA=CHANNEL(0~2)");
		AT_DBG_MSG(AT_FLAG_ADC, AT_DBG_ALWAYS, "[ATSA] Usage: ATSA=k_get");
		AT_DBG_MSG(AT_FLAG_ADC, AT_DBG_ALWAYS, "[ATSA] Usage: ATSA=k_set[offet(hex),gain(hex)]");
		return;
	}
	
	argc = parse_param(arg, argv);
	if(strcmp(argv[1], "k_get") == 0){
		sys_adc_calibration(0, &offset, &gain);
//		AT_DBG_MSG(AT_FLAG_ADC, AT_DBG_ALWAYS, "[ATSA] offset = 0x%04X, gain = 0x%04X", offset, gain);
	}else if(strcmp(argv[1], "k_set") == 0){
		if(argc != 4){
			AT_DBG_MSG(AT_FLAG_ADC, AT_DBG_ALWAYS, "[ATSA] Usage: ATSA=k_set[offet(hex),gain(hex)]");
			return;
		}
		offset = strtoul(argv[2], &ptmp, 16);
		gain = strtoul(argv[3], &ptmp, 16);
		sys_adc_calibration(1, &offset, &gain);
//		AT_DBG_MSG(AT_FLAG_ADC, AT_DBG_ALWAYS, "[ATSA] offset = 0x%04X, gain = 0x%04X", offset, gain);
	}else{
		channel = atoi(argv[1]);
		if(channel < 0 || channel > 2){
			AT_DBG_MSG(AT_FLAG_ADC, AT_DBG_ALWAYS, "[ATSA] Usage: ATSA=CHANNEL(0~2)");
			return;
		}
		analogin_t   adc;
		u16 adcdat;
		
		// Remove debug info massage
		ConfigDebugInfo = 0;
		if(channel == 0)
			analogin_init(&adc, AD_1);
		else if(channel == 1)
			analogin_init(&adc, AD_2);
		else
			analogin_init(&adc, AD_3);
		adcdat = analogin_read_u16(&adc)>>4;
		analogin_deinit(&adc);
		// Recover debug info massage
		ConfigDebugInfo = tConfigDebugInfo;
		
		AT_DBG_MSG(AT_FLAG_ADC, AT_DBG_ALWAYS, "[ATSA] A%d = 0x%04X", channel, adcdat);
	}
}

void fATSG(void *arg)
{
    gpio_t gpio_test;
    int argc = 0, val;
	char *argv[MAX_ARGC] = {0}, port, num;
	PinName pin = NC;
	u32 tConfigDebugInfo = ConfigDebugInfo;
    
	AT_DBG_MSG(AT_FLAG_GPIO, AT_DBG_ALWAYS, "[ATSG]: _AT_SYSTEM_GPIO_TEST_");
	if(!arg){
		AT_DBG_MSG(AT_FLAG_GPIO, AT_DBG_ALWAYS, "[ATSG] Usage: ATSG=PINNAME(ex:A0)");
		return;
	}else{
		argc = parse_param(arg, argv);
		if(argc != 2){
			AT_DBG_MSG(AT_FLAG_GPIO, AT_DBG_ALWAYS, "[ATSG] Usage: ATSG=PINNAME(ex:A0)");
			return;
		}
	}
	port = argv[1][0];
	num = argv[1][1];
	if(port >= 'a' && port <= 'z')
		port -= ('a' - 'A');
	if(num >= 'a' && num <= 'z')
		num -= ('a' - 'A');
	switch(port){
		case 'A':
			switch(num){
				case '0': pin = PA_0; break; case '1': pin = PA_1; break; case '2': pin = PA_2; break; case '3': pin = PA_3; break;
				case '4': pin = PA_4; break; case '5': pin = PA_5; break; case '6': pin = PA_6; break; case '7': pin = PA_7; break;
			}
			break;
		case 'B':
			switch(num){
				case '0': pin = PB_0; break; case '1': pin = PB_1; break; case '2': pin = PB_2; break; case '3': pin = PB_3; break;
				case '4': pin = PB_4; break; case '5': pin = PB_5; break; case '6': pin = PB_6; break; case '7': pin = PB_7; break;
			}
			break;
		case 'C':
			switch(num){
				case '0': pin = PC_0; break; case '1': pin = PC_1; break; case '2': pin = PC_2; break; case '3': pin = PC_3; break;
				case '4': pin = PC_4; break; case '5': pin = PC_5; break; case '6': pin = PC_6; break; case '7': pin = PC_7; break;
				case '8': pin = PC_8; break; case '9': pin = PC_9; break;
			}
			break;
		case 'D':
			switch(num){
				case '0': pin = PD_0; break; case '1': pin = PD_1; break; case '2': pin = PD_2; break; case '3': pin = PD_3; break;
				case '4': pin = PD_4; break; case '5': pin = PD_5; break; case '6': pin = PD_6; break; case '7': pin = PD_7; break;
				case '8': pin = PD_8; break; case '9': pin = PD_9; break;
			}
			break;
		case 'E':
			switch(num){
				case '0': pin = PE_0; break; case '1': pin = PE_1; break; case '2': pin = PE_2; break; case '3': pin = PE_3; break;
				case '4': pin = PE_4; break; case '5': pin = PE_5; break; case '6': pin = PE_6; break; case '7': pin = PE_7; break;
				case '8': pin = PE_8; break; case '9': pin = PE_9; break; case 'A': pin = PE_A; break;
			}
			break;
		case 'F':
			switch(num){
				case '0': pin = PF_0; break; case '1': pin = PF_1; break; case '2': pin = PF_2; break; case '3': pin = PF_3; break;
				case '4': pin = PF_4; break; case '5': pin = PF_5; break;
			}
			break;
		case 'G':
			switch(num){
				case '0': pin = PG_0; break; case '1': pin = PG_1; break; case '2': pin = PG_2; break; case '3': pin = PG_3; break;
				case '4': pin = PG_4; break; case '5': pin = PG_5; break; case '6': pin = PG_6; break; case '7': pin = PG_7; break;
			}
			break;
		case 'H':
			switch(num){
				case '0': pin = PH_0; break; case '1': pin = PH_1; break; case '2': pin = PH_2; break; case '3': pin = PH_3; break;
				case '4': pin = PH_4; break; case '5': pin = PH_5; break; case '6': pin = PH_6; break; case '7': pin = PH_7; break;
			}
			break;
		case 'I':
			switch(num){
				case '0': pin = PI_0; break; case '1': pin = PI_1; break; case '2': pin = PI_2; break; case '3': pin = PI_3; break;
				case '4': pin = PI_4; break; case '5': pin = PI_5; break; case '6': pin = PI_6; break; case '7': pin = PI_7; break;
			}
			break;
		case 'J':
			switch(num){
				case '0': pin = PJ_0; break; case '1': pin = PJ_1; break; case '2': pin = PJ_2; break; case '3': pin = PJ_3; break;
				case '4': pin = PJ_4; break; case '5': pin = PJ_5; break; case '6': pin = PJ_6; break;
			}
			break;
		case 'K':
			switch(num){
				case '0': pin = PK_0; break; case '1': pin = PK_1; break; case '2': pin = PK_2; break; case '3': pin = PK_3; break;
				case '4': pin = PK_4; break; case '5': pin = PK_5; break; case '6': pin = PK_6; break;
			}
			break;
	}
	if(pin == NC){
		AT_DBG_MSG(AT_FLAG_GPIO, AT_DBG_ALWAYS, "[ATSG]: Invalid Pin Name");
		return;
	}
	// Remove debug info massage
	ConfigDebugInfo = 0;
	// Initial input control pin
	gpio_init(&gpio_test, pin);
	gpio_dir(&gpio_test, PIN_INPUT);     // Direction: Input
	gpio_mode(&gpio_test, PullUp);       // Pull-High
	val = gpio_read(&gpio_test);
	// Recover debug info massage
	ConfigDebugInfo = tConfigDebugInfo;
	AT_DBG_MSG(AT_FLAG_GPIO, AT_DBG_ALWAYS, "[ATSG] %c%c = %d", port, num, val);
}


void fATSP(void *arg)
{
	int   argc           = 0;
	char *argv[MAX_ARGC] = {0};

	unsigned long timeout; // ms
	unsigned long time_begin, time_current;

	gpio_t gpiob_1;
	int val_old, val_new;

	int expected_zerocount, zerocount;
	int test_result;

	// parameter check
	AT_DBG_MSG(AT_FLAG_GPIO, AT_DBG_ALWAYS, "[ATSP]: _AT_SYSTEM_POWER_PIN_TEST_");
	if(!arg) {
		AT_DBG_MSG(AT_FLAG_GPIO, AT_DBG_ALWAYS, "[ATSP]: Usage: ATSP=gpiob1[timeout,zerocount]");
	} else {
		argc = parse_param(arg, argv);
		if (argc < 2) {
			AT_DBG_MSG(AT_FLAG_GPIO, AT_DBG_ALWAYS, "[ATSP]: Usage: ATSP=gpiob1[timeout,zerocount]");
			return;
		}
	}

	if ( strcmp(argv[1], "gpiob1" ) == 0 ) {
		if (argc < 4) {
			AT_DBG_MSG(AT_FLAG_GPIO, AT_DBG_ALWAYS, "[ATSP]: Usage: ATSP=gpiob1[timeout,zerocount]");
			return;
		}

		// init gpiob1 test
		test_result         = 0;
		timeout             = strtoul(argv[2], NULL, 10);
		expected_zerocount  = atoi(argv[3]);
		zerocount           = 0;
		val_old             = 1;

		sys_log_uart_off();

		gpio_init(&gpiob_1, PB_1);
		gpio_dir(&gpiob_1, PIN_INPUT);
		gpio_mode(&gpiob_1, PullDown);

		// gpiob1 test ++
		time_begin = time_current = xTaskGetTickCount();
		while (time_current < time_begin + timeout) {
			val_new = gpio_read(&gpiob_1);

			if (val_new != val_old && val_new == 0) {

				zerocount ++;
				if (zerocount == expected_zerocount) {
					test_result = 1;
					break;
				}
			}

			val_old = val_new;
			time_current = xTaskGetTickCount();
		}
		// gpio test --

		sys_log_uart_on();

		if (test_result == 1) {
			AT_DBG_MSG(AT_FLAG_GPIO, AT_DBG_ALWAYS, "[ATSP]: success");
		} else {
			AT_DBG_MSG(AT_FLAG_GPIO, AT_DBG_ALWAYS, "[ATSP]: fail, it only got %d zeros", zerocount);
		}
	}
}

int write_otu_to_system_data(flash_t *flash, uint32_t otu_addr)
{
	uint32_t data, i = 0;
	flash_read_word(flash, FLASH_SYSTEM_DATA_ADDR+0xc, &data);
	//printf("\n\r[%s] data 0x%x otu_addr 0x%x", __FUNCTION__, data, otu_addr);
	AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: data 0x%x otu_addr 0x%x", data, otu_addr);	
	if(data == ~0x0){
		flash_write_word(flash, FLASH_SYSTEM_DATA_ADDR+0xc, otu_addr);
	}else{
		//erase backup sector
		flash_erase_sector(flash, FLASH_RESERVED_DATA_BASE);
		//backup system data to backup sector
		for(i = 0; i < 0x1000; i+= 4){
			flash_read_word(flash, FLASH_SYSTEM_DATA_ADDR + i, &data);
			if(i == 0xc)
				data = otu_addr;
			flash_write_word(flash, FLASH_RESERVED_DATA_BASE + i,data);
		}
		//erase system data
		flash_erase_sector(flash, FLASH_SYSTEM_DATA_ADDR);
		//write data back to system data
		for(i = 0; i < 0x1000; i+= 4){
			flash_read_word(flash, FLASH_RESERVED_DATA_BASE + i, &data);
			flash_write_word(flash, FLASH_SYSTEM_DATA_ADDR + i,data);
		}
		//erase backup sector
		flash_erase_sector(flash, FLASH_RESERVED_DATA_BASE);
	}
	return 0;
}

void fATSB(void *arg)
{
	int   argc           = 0;
	char *argv[MAX_ARGC] = {0};
	u32 boot_gpio, rb_boot_gpio;
	u8 gpio_pin;
	u8 uart_port, uart_index;
	u8 gpio_pin_bar;
	u8 uart_port_bar;		
	flash_t flash;

	// parameter check
	AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: _AT_SYSTEM_BOOT_OTU_PIN_SET_");
	if(!arg) {
		AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: Usage: ATSB=[GPIO_PIN, TRIGER_MODE, UART]");
		AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: GPIO_PIN: PB_1, PC_4 ....");
		AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: TRIGER_MODE: low_trigger, high_trigger");
		AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: UART: UART0, UART2");
		AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: example: ATSB=[PC_2, low_trigger, UART2]");

	} else {
		argc = parse_param(arg, argv);
		if (argc != 4 ) {
			AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: Usage: ATSB=[GPIO_PIN, TRIGER_MODE, UART]");
			AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: GPIO_PIN: PB_1, PC_4 ....");
			AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: TRIGER_MODE: low_trigger, high_trigger");
			AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: UART: UART0, UART2");
			AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: example: ATSB=[PC_2, low_trigger, UART2]");
			return;
		}
	}

	if ( strncmp(argv[1], "P", 1) == 0 && strlen(argv[1]) == 4
		&& (strcmp(argv[2], "low_trigger") == 0 || strcmp(argv[2], "high_trigger") == 0)
		&& strncmp(argv[3], "UART", 4) == 0 && strlen(argv[3]) == 5) {
		if((0x41 <= argv[1][1] <= 0x45) && (0x30 <= argv[1][3] <= 0x39) &&(0x30 <= argv[1][4] <= 0x32)){
			if(strcmp(argv[2], "high_trigger") == 0)
				gpio_pin = 1<< 7 | ((argv[1][1]-0x41)<<4) | (argv[1][3] - 0x30);
			else
				gpio_pin = ((argv[1][1]-0x41)<<4) | (argv[1][3] - 0x30);
			gpio_pin_bar = ~gpio_pin;
			uart_index = argv[3][4] - 0x30;
			if(uart_index == 0)
				uart_port = (uart_index<<4)|2;
			else if(uart_index == 2)
				uart_port = (uart_index<<4)|0;
			else{
				AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: Input UART index error. Please choose UART0 or UART2.");
				AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: example: ATSB=[PC_2, low_trigger, UART2]");
				return;
			}
			uart_port_bar = ~uart_port;
			boot_gpio = uart_port_bar<<24 | uart_port<<16 | gpio_pin_bar<<8 | gpio_pin;
			AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]:gpio_pin 0x%x", gpio_pin);
			AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]:gpio_pin_bar 0x%x", gpio_pin_bar);
			AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]:uart_port 0x%x", uart_port);
			AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]:uart_port_bar 0x%x", uart_port_bar);
			AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]:boot_gpio 0x%x", boot_gpio);
			write_otu_to_system_data(&flash, boot_gpio);
			flash_read_word(&flash, FLASH_SYSTEM_DATA_ADDR+0x0c, &rb_boot_gpio);			
			AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]:Read 0x900c 0x%x", rb_boot_gpio);
		}else{
			AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: Usage: ATSB=[GPIO_PIN, TRIGER_MODE, UART]");
			AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: GPIO_PIN: PB_1, PC_4 ....");
			AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: TRIGER_MODE: low_trigger, high_trigger");
			AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: UART: UART0, UART2");
			AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: example: ATSB=[PC_2, low_trigger, UART2]");
		}		
	}else{
		AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: Usage: ATSB=[GPIO_PIN, TRIGER_MODE, UART]");
		AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: GPIO_PIN: PB_1, PC_4 ....");
		AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: TRIGER_MODE: low_trigger, high_trigger");
		AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: UART: UART0, UART2");
		AT_DBG_MSG(AT_FLAG_DUMP, AT_DBG_ALWAYS, "[ATSB]: example: ATSB=[PC_2, low_trigger, UART2]");
		return;
	}
}
#endif

#if (configGENERATE_RUN_TIME_STATS == 1)
void fATSS(void *arg)	// Show CPU stats
{
	AT_PRINTK("[ATSS]: _AT_SYSTEM_CPU_STATS_");
	vTaskGetRunTimeStats((char *)cBuffer);
	AT_PRINTK("%s", cBuffer);
}
#endif

void fATSs(void *arg)
{
	int argc = 0;
	char *argv[MAX_ARGC] = {0};

	AT_PRINTK("[ATS@]: _AT_SYSTEM_DBG_SETTING_");
	if(!arg){
		AT_PRINTK("[ATS@] Usage: ATS@=[LEVLE,FLAG]");
	}else{
		argc = parse_param(arg, argv);
		if(argc == 3){
			char *ptmp;
			gDbgLevel = atoi(argv[1]);
			gDbgFlag = strtoul(argv[2], &ptmp, 16);
		}
	}
	AT_PRINTK("[ATS@] level = %d, flag = 0x%08X", gDbgLevel, gDbgFlag);
}

void fATSc(void *arg)
{
	int argc = 0, config = 0;
	char *argv[MAX_ARGC] = {0};

	AT_PRINTK("[ATS!]: _AT_SYSTEM_CONFIG_SETTING_");
	if(!arg){
		AT_PRINTK("[ATS!] Usage: ATS!=[CONFIG(0,1,2),FLAG]");
	}else{
		argc = parse_param(arg, argv);
		if(argc == 3){
			char *ptmp;
			config = atoi(argv[1]);
			if(config == 0)
				ConfigDebugErr = strtoul(argv[2], &ptmp, 16);
			if(config == 1)
				ConfigDebugInfo = strtoul(argv[2], &ptmp, 16);
			if(config == 2)
				ConfigDebugWarn = strtoul(argv[2], &ptmp, 16);
		}
	}
	AT_PRINTK("[ATS!] ConfigDebugErr  = 0x%08X", ConfigDebugErr);
	AT_PRINTK("[ATS!] ConfigDebugInfo = 0x%08X", ConfigDebugInfo);
	AT_PRINTK("[ATS!] ConfigDebugWarn = 0x%08X", ConfigDebugWarn);
}

#define SUPPORT_CP_TEST 0
#if SUPPORT_CP_TEST
extern void MFi_auth_test(void);
void fATSM(void *arg)
{
	AT_PRINTK("[ATSM]: _AT_SYSTEM_CP_");
	MFi_auth_test();
}
#endif

void fATSt(void *arg)
{
	AT_PRINTK("[ATS#]: _AT_SYSTEM_TEST_");
}

void fATSJ(void *arg)
{
	int argc = 0, config = 0;
	char *argv[MAX_ARGC] = {0};
	AT_PRINTK("[ATSJ]: _AT_SYSTEM_JTAG_");
	if(!arg){
		AT_PRINTK("[ATS!] Usage: ATSJ=off");
	}else{
		argc = parse_param(arg, argv);
		if (strcmp(argv[1], "off" ) == 0)
			sys_jtag_off();
		else
			AT_PRINTK("ATSL=%s is not supported!", argv[1]);
	}
}

void fATSx(void *arg)
{
//	uint32_t ability = 0;
	char buf[64];
	
	AT_PRINTK("[ATS?]: _AT_SYSTEM_HELP_");
	AT_PRINTK("[ATS?]: COMPILE TIME: %s", RTL8195AFW_COMPILE_TIME);
//	wifi_get_drv_ability(&ability);
	strcpy(buf, "v");
//	if(ability & 0x1)
//		strcat(buf, "m");
	strcat(buf, ".3.5." RTL8195AFW_COMPILE_DATE);
	AT_PRINTK("[ATS?]: SW VERSION: %s", buf);
}
#elif ATCMD_VER == ATVER_2

#define ATCMD_VERSION		"v2" //ATCMD MAJOR VERSION, AT FORMAT CHANGED
#define ATCMD_SUBVERSION	"2" //ATCMD MINOR VERSION, NEW COMMAND ADDED
#define ATCMD_REVISION		"1" //ATCMD FIX BUG REVISION
#define SDK_VERSION		"v3.5" //SDK VERSION
extern void sys_reset(void);
void print_system_at(void *arg);
extern void print_wifi_at(void *arg);
extern void print_tcpip_at(void *arg);

// uart version 2 echo info
extern unsigned char gAT_Echo;


void fATS0(void *arg){
	at_printf("\r\n[AT] OK");
}

void fATSh(void *arg){
	// print common AT command
	at_printf("\r\n[ATS?] ");
	at_printf("\r\nCommon AT Command:");
	print_system_at(arg);
#if CONFIG_WLAN
	at_printf("\r\nWi-Fi AT Command:");
	print_wifi_at(arg);
#endif

#if CONFIG_TRANSPORT
	at_printf("\r\nTCP/IP AT Command:");
	print_tcpip_at(arg);
#endif

	at_printf("\r\n[ATS?] OK");
}

void fATSR(void *arg){
	at_printf("\r\n[ATSR] OK");
	sys_reset();
}

void fATSV(void *arg){
	char at_buf[32];
	char fw_buf[32];

	// get at version
	strcpy(at_buf, ATCMD_VERSION"."ATCMD_SUBVERSION"."ATCMD_REVISION);

	// get fw version
	strcpy(fw_buf, SDK_VERSION);

	at_printf("\r\n[ATSV] OK:%s,%s(%s)",at_buf,fw_buf,RTL8195AFW_COMPILE_TIME);
}

#if defined(configUSE_WAKELOCK_PMU) && (configUSE_WAKELOCK_PMU == 1)
void fATSP(void *arg){
	int argc = 0;
	char *argv[MAX_ARGC] = {0};

	uint32_t lock_id;
	uint32_t bitmap;
	
	if (!arg) {
		AT_DBG_MSG(AT_FLAG_COMMON, AT_DBG_ERROR, "\r\n[ATSP] Usage: ATSP=<a/r/?>");
		at_printf("\r\n[ATSP] ERROR:1");
		return;
	} else {
		if((argc = parse_param(arg, argv)) != 2){
			AT_DBG_MSG(AT_FLAG_COMMON, AT_DBG_ERROR, "\r\n[ATSP] Usage: ATSP=<a/r/?>");
			at_printf("\r\n[ATSP] ERROR:1");
			return;
		}
	}

	switch(argv[1][0]) {
		case 'a': // acquire
		{
			acquire_wakelock(WAKELOCK_OS);
			//at_printf("\r\n[ATSP] wakelock:0x%08x", get_wakelock_status());			
			break;
		}

		case 'r': // release
		{
			release_wakelock(WAKELOCK_OS);
			//at_printf("\r\n[ATSP] wakelock:0x%08x", get_wakelock_status());
			break;
		}

		case '?': // get status
			break;
		default:
			AT_DBG_MSG(AT_FLAG_COMMON, AT_DBG_ERROR, "\r\n[ATSP] Usage: ATSP=<a/r/?>");
			at_printf("\r\n[ATSP] ERROR:2");
			return;
	}
	bitmap = get_wakelock_status();
	at_printf("\r\n[ATSP] OK:%s", (bitmap&WAKELOCK_OS)?"1":"0");
}
#endif

void fATSE(void *arg){
	int argc = 0;
	int echo = 0, mask = gDbgFlag, dbg_lv = gDbgLevel;
	char *argv[MAX_ARGC] = {0};
	int err_no = 0;
	
	AT_DBG_MSG(AT_FLAG_COMMON, AT_DBG_ALWAYS, "[ATSE]: _AT_SYSTEM_ECHO_DBG_SETTING");	
	if(!arg){
		AT_DBG_MSG(AT_FLAG_COMMON, AT_DBG_ERROR, "[ATSE] Usage: ATSE=<echo>,<dbg_msk>,<dbg_lv>");
		err_no = 1;
		goto exit;
	}

	argc = parse_param(arg, argv);

	if(argc < 2 || argc > 4){
		err_no = 2;
		goto exit;
	}

#if CONFIG_EXAMPLE_UART_ATCMD
	if(argv[1] != NULL){
		echo = atoi(argv[1]);
		if(echo>1 || echo <0){
			err_no = 3;
			goto exit;
		}
		gAT_Echo = echo?1:0;
	}
#endif

	if((argc > 2) && (argv[2] != NULL)){
		mask = strtoul(argv[2], NULL, 0);
		at_set_debug_mask(mask);
	}
	
	if((argc == 4) && (argv[3] != NULL)){
		dbg_lv = strtoul(argv[3], NULL, 0);
		at_set_debug_level(dbg_lv);
	}

exit:
	if(err_no)
		at_printf("\r\n[ATSE] ERROR:%d", err_no);
	else
		at_printf("\r\n[ATSE] OK");
	return;
}
#if CONFIG_WLAN
#if CONFIG_WEBSERVER
#include "wifi_structures.h"
#include "wifi_constants.h"
extern rtw_wifi_setting_t wifi_setting;
void fATSW(void *arg){
	int argc = 0;
	char *argv[MAX_ARGC] = {0};

	if (!arg) {
		AT_DBG_MSG(AT_FLAG_COMMON, AT_DBG_ERROR, "\r\n[ATSW] Usage: ATSW=<c/s>");
		at_printf("\r\n[ATSW] ERROR:1");
		return;
	} else {
		if((argc = parse_param(arg, argv)) != 2){
			AT_DBG_MSG(AT_FLAG_COMMON, AT_DBG_ERROR, "\r\n[ATSW] Usage: ATSW=<c/s>");
			at_printf("\r\n[ATSW] ERROR:1");
			return;
		}
	}

	if(argv[1][0]!='c'&&argv[1][0]!='s'){
		AT_DBG_MSG(AT_FLAG_COMMON, AT_DBG_ERROR, "\r\n[ATSW] Usage: ATSW=<c/s>");
		at_printf("\r\n[ATSW] ERROR:2");
		return;
	}
	
	// make sure AP mode
	LoadWifiConfig();
	if(wifi_setting.mode != RTW_MODE_AP){
		at_printf("\r\n[ATSW] ERROR:3");
		return;
	}
		
	switch(argv[1][0]) {
		case 'c': // create webserver
		{	
			start_web_server();
			break;
		}
		case 's': // stop webserver
		{
			stop_web_server();
			break;
		}
	}
	at_printf("\r\n[ATSW] OK");
}
#endif

extern int EraseApinfo();
extern int Erase_Fastconnect_data();

void fATSY(void *arg){
#if CONFIG_EXAMPLE_WLAN_FAST_CONNECT
	Erase_Fastconnect_data();
#endif

#if CONFIG_WEBSERVER
	EraseApinfo();
#endif

#if CONFIG_EXAMPLE_UART_ATCMD
	reset_uart_atcmd_setting();
#endif

#if CONFIG_OTA_UPDATE
	// Reset ota image  signature
	cmd_ota_image(0);
#endif	

	at_printf("\r\n[ATSY] OK");
	// reboot
	sys_reset();
}

#if CONFIG_OTA_UPDATE
extern int wifi_is_connected_to_ap( void );
void fATSO(void *arg){
	int argc = 0;
	char *argv[MAX_ARGC] = {0};
	
	if(!arg){
		AT_DBG_MSG(AT_FLAG_OTA, AT_DBG_ERROR, "\r\n[ATSO] Usage: ATSO=<ip>,<port>");
		at_printf("\r\n[ATSO] ERROR:1");
		return;
	}
	argv[0] = "update";
	if((argc = parse_param(arg, argv)) != 3){
		AT_DBG_MSG(AT_FLAG_OTA, AT_DBG_ERROR, "\r\n[ATSO] Usage: ATSO=<ip>,<port>");
		at_printf("\r\n[ATSO] ERROR:1");
		return;
	}

	// check wifi connect first
	if(wifi_is_connected_to_ap()==0){
		cmd_update(argc, argv);
		at_printf("\r\n[ATSO] OK");
		
	}else{
		at_printf("\r\n[ATSO] ERROR:3");
	}
}

void fATSC(void *arg){
	int argc = 0;
	char *argv[MAX_ARGC] = {0};
	int cmd = 0;
	
	if(!arg){
		AT_DBG_MSG(AT_FLAG_OTA, AT_DBG_ERROR, "\r\n[ATSC] Usage: ATSC=<0/1>");
		at_printf("\r\n[ATSC] ERROR:1");
		return;
	}
	if((argc = parse_param(arg, argv)) != 2){
		AT_DBG_MSG(AT_FLAG_OTA, AT_DBG_ERROR, "\r\n[ATSC] Usage: ATSC=<0/1>");
		at_printf("\r\n[ATSC] ERROR:1");
		return;
	}

	cmd = atoi(argv[1]);

	if((cmd!=0)&&(cmd!=1)){
		at_printf("\r\n[ATSC] ERROR:2");
		return;
	}
		
	at_printf("\r\n[ATSC] OK");

 	if(cmd == 1){
 		cmd_ota_image(1);
 	}
	else{
		cmd_ota_image(0);
	}
	// reboot
	sys_reset();
}
#endif

#if CONFIG_EXAMPLE_UART_ATCMD
extern const u32 log_uart_support_rate[];

void fATSU(void *arg){
	int argc = 0;
	char *argv[MAX_ARGC] = {0};
	u32 baud = 0;
	u8 databits = 0;
	u8 stopbits = 0;
	u8 parity = 0;
	u8 flowcontrol = 0;
	u8 configmode = 0;
	int i;
	UART_LOG_CONF uartconf;
	
	if(!arg){
		AT_DBG_MSG(AT_FLAG_COMMON, AT_DBG_ERROR, 
		"[ATSU] Usage: ATSU=<baud>,<databits>,<stopbits>,<parity>,<flowcontrol>,<configmode>");
		at_printf("\r\n[ATSU] ERROR:1");
		return;
	}
	if((argc = parse_param(arg, argv)) != 7){
		AT_DBG_MSG(AT_FLAG_COMMON, AT_DBG_ERROR, 
		"[ATSU] Usage: ATSU=<baud>,<databits>,<stopbits>,<parity>,<flowcontrol>,<configmode>");
	  at_printf("\r\n[ATSU] ERROR:1");
	  return;
	}

	baud = atoi(argv[1]);
	databits = atoi(argv[2]);
	stopbits = atoi(argv[3]);
	parity = atoi(argv[4]);
	flowcontrol = atoi(argv[5]);
	configmode = atoi(argv[6]);
/*
    // Check Baud rate
    for (i=0; log_uart_support_rate[i]!=0xFFFFFF; i++) {
        if (log_uart_support_rate[i] == baud) {
            break;
        }
    }
    
    if (log_uart_support_rate[i]== 0xFFFFFF) {
		at_printf("\r\n[ATSU] ERROR:2");
        return;
    }
*/
	if(((databits < 5) || (databits > 8))||\
		((stopbits < 1) || (stopbits > 2))||\
		((parity < 0) || (parity > 2))||\
		((flowcontrol < 0) || (flowcontrol > 1))||\
		((configmode < 0) || (configmode > 3))\
		){
		at_printf("\r\n[ATSU] ERROR:2");
		return;
	}
	
	memset((void*)&uartconf, 0, sizeof(UART_LOG_CONF));
	uartconf.BaudRate = baud;
	uartconf.DataBits = databits;
	uartconf.StopBits = stopbits;
	uartconf.Parity = parity;
	uartconf.FlowControl = flowcontrol;
	AT_DBG_MSG(AT_FLAG_COMMON, AT_DBG_ALWAYS, 
		"AT_UART_CONF: %d,%d,%d,%d,%d", uartconf.BaudRate, uartconf.DataBits,uartconf.StopBits,uartconf.Parity,uartconf.FlowControl);
	switch(configmode){
		case 0: // set current configuration, won't save
			uart_atcmd_reinit(&uartconf);
			break;
		case 1: // set current configuration, and save
			write_uart_atcmd_setting_to_system_data(&uartconf);
			uart_atcmd_reinit(&uartconf);
			break;
		case 2: // set configuration, reboot to take effect
			write_uart_atcmd_setting_to_system_data(&uartconf);
			break;
	}
	
	at_printf("\r\n[ATSU] OK");
}
#endif //#if CONFIG_EXAMPLE_UART_ATCMD
#endif //#if CONFIG_WLAN

void fATSG(void *arg)
{
	gpio_t gpio_ctrl;
	int argc = 0, val, error_no = 0;
	char *argv[MAX_ARGC] = {0}, port, num;
	PinName pin = NC;

	AT_DBG_MSG(AT_FLAG_GPIO, AT_DBG_ALWAYS, "[ATSG]: _AT_SYSTEM_GPIO_CTRL_");

	if(!arg){
		AT_DBG_MSG(AT_FLAG_GPIO, AT_DBG_ERROR, 
		"[ATSG] Usage: ATSG=<R/W>,<PORT>,<DATA>,<DIR>,<PULL>");
		error_no = 1;
		goto exit;
	}
	if((argc = parse_param(arg, argv)) < 3){
		AT_DBG_MSG(AT_FLAG_GPIO, AT_DBG_ERROR, 
			"[ATSG] Usage: ATSG=<R/W>,<PORT>,<DATA>,<DIR>,<PULL>");
		error_no = 2;
		goto exit;
	}	

	port = argv[2][1];
	num = strtoul(&argv[2][3], NULL, 0);
	port -= 'A';
	pin = (port << 4 | num);
	AT_DBG_MSG(AT_FLAG_GPIO, AT_DBG_ALWAYS, "PORT: %s[%d]", argv[2], pin);
	
	if(gpio_set(pin) == 0xff)
	{
		AT_DBG_MSG(AT_FLAG_GPIO, AT_DBG_ERROR, "[ATSG]: Invalid Pin Name [%d]", pin);
		error_no = 3;
		goto exit;
	}

	gpio_init(&gpio_ctrl, pin);
	if(argv[4]){
		int dir = atoi(argv[4]);
		AT_DBG_MSG(AT_FLAG_GPIO, AT_DBG_ALWAYS, "DIR: %s", argv[4]);
		gpio_dir(&gpio_ctrl, dir);
	}
	if(argv[5]){
		int pull = atoi(argv[5]);
		AT_DBG_MSG(AT_FLAG_GPIO, AT_DBG_ALWAYS, "PULL: %s", argv[5]);
		gpio_mode(&gpio_ctrl, pull);
	}
	if(argv[1][0] == 'R'){
		val = gpio_read(&gpio_ctrl);
	}
	else{
		val = atoi(argv[3]);
		gpio_write(&gpio_ctrl, val);
	}
	
exit:
	if(error_no){
		at_printf("\r\n[ATSG] ERROR:%d", error_no);
	}
	else{
		at_printf("\r\n[ATSG] OK:%d", val);
	}
}

#endif //#elif ATCMD_VER == ATVER_2
#if defined(configUSE_WAKELOCK_PMU) && (configUSE_WAKELOCK_PMU == 1)
void fATSL(void *arg)
{
	int argc = 0;
	char *argv[MAX_ARGC] = {0};
	int err_no = 0;
	uint32_t lock_id;

	AT_DBG_MSG(AT_FLAG_OS, AT_DBG_ALWAYS, "[ATSL]: _AT_SYS_WAKELOCK_TEST_");

	if (!arg) {
		AT_DBG_MSG(AT_FLAG_OS, AT_DBG_ALWAYS, "[ATSL] Usage ATSL=[a/r/?][bitmask]");
		err_no = 1;
		goto exit;
	} else {
		argc = parse_param(arg, argv);
		if (argc < 2) {
			AT_DBG_MSG(AT_FLAG_OS, AT_DBG_ALWAYS, "[ATSL] Usage ATSL=[a/r/?][bitmask]");
			err_no = 2;
			goto exit;
		}
	}

	switch(argv[1][0]) {
		case 'a': // acquire
		{
			if (argc == 3) {
				lock_id = strtoul(argv[2], NULL, 16);
				acquire_wakelock(lock_id);
			}
			AT_DBG_MSG(AT_FLAG_OS, AT_DBG_ALWAYS, "[ATSL] wakelock:0x%08x", get_wakelock_status());			
			break;
		}

		case 'r': // release
		{
			if (argc == 3) {
				lock_id = strtoul(argv[2], NULL, 16);
				release_wakelock(lock_id);
			}
			AT_DBG_MSG(AT_FLAG_OS, AT_DBG_ALWAYS, "[ATSL] wakelock:0x%08x", get_wakelock_status());
			break;
		}

		case '?': // get status
			AT_DBG_MSG(AT_FLAG_OS, AT_DBG_ALWAYS, "[ATSL] wakelock:0x%08x", get_wakelock_status());
#if (configGENERATE_RUN_TIME_STATS == 1)
			get_wakelock_hold_stats((char *)cBuffer);
			AT_DBG_MSG(AT_FLAG_OS, AT_DBG_ALWAYS, "%s", cBuffer);
#endif
			break;

#if (configGENERATE_RUN_TIME_STATS == 1)
		case 'c': // clean wakelock info (for recalculate wakelock hold time)
			AT_DBG_MSG(AT_FLAG_OS, AT_DBG_ALWAYS, "[ATSL] clean wakelock stat");
			clean_wakelock_stat();
			break;
#endif
		default:
			AT_DBG_MSG(AT_FLAG_OS, AT_DBG_ALWAYS, "[ATSL] Usage ATSL=[a/r/?][bitmask]");
			err_no = 3;
			break;
	}
exit:
#if ATCMD_VER == ATVER_2
	if(err_no)
		at_printf("\r\n[ATSL] ERROR:%d", err_no);
	else
		at_printf("\r\n[ATSL] OK:0x%08x",get_wakelock_status());
#endif
	return;
}

#if CONFIG_UART_XMODEM
void fATSX(void *arg)
{
	// use xmodem to update, RX: PA_6, TX: PA_7, baudrate: 1M
	OTU_FW_Update(0, 2, 115200);	
	at_printf("\r\n[ATSX] OK");
}
#endif

#endif

log_item_t at_sys_items[] = {
#if ATCMD_VER == ATVER_1
	{"ATSD", fATSD,},	// Dump register
	{"ATSE", fATSE,},	// Edit register
	{"ATSC", fATSC,},	// Clear OTA signature
	{"ATSR", fATSR,},	// Recover OTA signature
#if CONFIG_UART_XMODEM
	{"ATSY", fATSY,},	// uart ymodem upgrade
#endif
#if SUPPORT_MP_MODE
	{"ATSA", fATSA,},	// MP ADC test
	{"ATSG", fATSG,},	// MP GPIO test
	{"ATSP", fATSP,},	// MP Power related test
	{"ATSB", fATSB,},	// OTU PIN setup			
#endif
#if (configGENERATE_RUN_TIME_STATS == 1)
	{"ATSS", fATSS,},	// Show CPU stats
#endif
#if SUPPORT_CP_TEST
	{"ATSM", fATSM,},	// Apple CP test
#endif
	{"ATSJ", fATSJ,}, //trun off JTAG
	{"ATS@", fATSs,},	// Debug message setting
	{"ATS!", fATSc,},	// Debug config setting
	{"ATS#", fATSt,},	// test command
	{"ATS?", fATSx,},	// Help
#elif ATCMD_VER == ATVER_2 //#if ATCMD_VER == ATVER_1
	{"AT", 	 fATS0,},	// test AT command ready
	{"ATS?", fATSh,},	// list all AT command
	{"ATSR", fATSR,},	// system restart
	{"ATSV", fATSV,},	// show version info
	{"ATSP", fATSP,},	// power saving mode
	{"ATSE", fATSE,},	// enable and disable echo
#if CONFIG_WLAN
#if CONFIG_WEBSERVER
	{"ATSW", fATSW,},	// start webserver
#endif
	{"ATSY", fATSY,},	// factory reset
#if CONFIG_OTA_UPDATE
	{"ATSO", fATSO,},	// ota upgrate
	{"ATSC", fATSC,},	// chose the activited image
#endif
#if CONFIG_EXAMPLE_UART_ATCMD
	{"ATSU", fATSU,},	// AT uart configuration
#endif
#endif
	{"ATSG", fATSG,},	// GPIO control
#if CONFIG_UART_XMODEM
	{"ATSX", fATSX,},	// uart xmodem upgrade
#endif
#endif // end of #if ATCMD_VER == ATVER_1

// Following commands exist in two versions
#if defined(configUSE_WAKELOCK_PMU) && (configUSE_WAKELOCK_PMU == 1)
	{"ATSL", fATSL,},	 // wakelock test
#endif

};

#if ATCMD_VER == ATVER_2
void print_system_at(void *arg){
	int index;
	int cmd_len = 0;

	cmd_len = sizeof(at_sys_items)/sizeof(at_sys_items[0]);
	for(index = 0; index < cmd_len; index++)
		at_printf("\r\n%s", at_sys_items[index].log_cmd);
}
#endif
void at_sys_init(void)
{
	log_service_add_table(at_sys_items, sizeof(at_sys_items)/sizeof(at_sys_items[0]));
}

#if SUPPORT_LOG_SERVICE
log_module_init(at_sys_init);
#endif