static portTASK_FUNCTION(ShellTask, pvParameters) { unsigned char cmd_buf[32]; (void)pvParameters; FSSH1_Init(); cmd_buf[0] = '\0'; (void)FSSH1_ParseCommand((const unsigned char*)FSSH1_CMD_HELP, FSSH1_GetStdio(), ParseCommand); for(;;) { (void)FSSH1_ReadAndParseLine(cmd_buf, sizeof(cmd_buf), FSSH1_GetStdio(), ParseCommand /* local cmd parser */); FRTOS1_vTaskDelay(50/portTICK_RATE_MS); LED2_Neg(); } }
static portTASK_FUNCTION(ShellTask, pvParameters) { static unsigned char cmd_buf[48]; (void)pvParameters; (void)FSSH1_ParseCommand((unsigned char*)FSSH1_CMD_HELP, FSSH1_GetStdio(), ParseCommand); /* print help and prints as well the prompt */ cmd_buf[0] = '\0'; for(;;) { #if PL_USE_USB_SCI static char_t usb_tx_buf[USB1_DATA_BUFF_SIZE]; (void)CDC1_App_Task(usb_tx_buf, sizeof(usb_tx_buf)); /* Call the USB application task */ #endif (void)FSSH1_ReadAndParseLine(cmd_buf, sizeof(cmd_buf), FSSH1_GetStdio(), ParseCommand); #if PL_HAS_QUEUE #if QUEUE_SINGLE_CHAR { unsigned char ch; FSSH1_StdIO_OutErr_FctType io = FSSH1_GetStdio()->stdOut; while((ch=QUEUE_ReceiveChar()) && ch!='\0') { io(ch); } } #else { const unsigned char *msg; msg = QUEUE_ReceiveMessage(); if (msg!=NULL) { FSSH1_SendStr(msg, FSSH1_GetStdio()->stdOut); FRTOS1_vPortFree((void*)msg); } } #endif #endif #if PL_HAS_I2C if (SHELL_i2Commands && I2C_ReceiveCommand(cmd_buf, sizeof(cmd_buf))==ERR_OK) { bool handled = FALSE; (void)ParseCommand(cmd_buf, &handled, FSSH1_GetStdio()); } #endif FRTOS1_vTaskDelay(50/portTICK_RATE_MS); } }
void SHELL_ParseLine(const unsigned char *cmd) { (void)FSSH1_ParseCommand(cmd, FSSH1_GetStdio(), ParseCommand); /* print help and prints as well the prompt */ }