/************************************************************************** * * Copyright (C) 2010 Steve Karg * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY * CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * *********************************************************************/ #include #include #include #include "hardware.h" #include "timer.h" #include "serial.h" #include "input.h" #include "bo.h" #include "rs485.h" #include "dlmstp.h" #include "seeprom.h" #include "nvdata.h" /* me */ #include "test.h" /* timer for test task */ static struct itimer Test_Timer; /* MAC Address of MS/TP */ static uint8_t MSTP_MAC_Address; void test_init( void) { #ifdef MSTP_MONITOR serial_baud_rate_set(115200); #else serial_baud_rate_set(9600); #endif timer_interval_start_seconds(&Test_Timer, 1); /* configure a port pin as output */ BIT_SET(DDRB, DDB0); } /************************************************************************* * Description: Turn on a pin * Returns: none * Notes: none *************************************************************************/ static inline void test_pin_on( void) { BIT_SET(PORTB, PB0); } /************************************************************************* * Description: Turn off a pin * Returns: none * Notes: none *************************************************************************/ static inline void test_pin_off( void) { BIT_CLEAR(PORTB, PB0); } /************************************************************************* * Description: Get the state of the test pin * Returns: true if on, false if off. * Notes: none *************************************************************************/ static inline bool test_pin_state( void) { return (BIT_CHECK(PINB, PB0)); } /************************************************************************* * Description: Toggle the test pin * Returns: none * Notes: none *************************************************************************/ static inline void test_pin_toggle( void) { if (test_pin_state()) { test_pin_off(); } else { test_pin_on(); } } #ifdef MSTP_MONITOR void test_task( void) { if (timer_interval_expired(&Test_Timer)) { timer_interval_reset(&Test_Timer); MSTP_MAC_Address = MSTP_MAC_Address; } } #else char Send_Buffer[32]; void test_task( void) { uint8_t data_register = 0; uint16_t id = 0; if (timer_interval_expired(&Test_Timer)) { timer_interval_reset(&Test_Timer); sprintf(Send_Buffer, "BACnet: 0000000\r\n"); MSTP_MAC_Address = input_address(); Send_Buffer[8] = (MSTP_MAC_Address & BIT0) ? '1' : '0'; Send_Buffer[9] = (MSTP_MAC_Address & BIT1) ? '1' : '0'; Send_Buffer[10] = (MSTP_MAC_Address & BIT2) ? '1' : '0'; Send_Buffer[11] = (MSTP_MAC_Address & BIT3) ? '1' : '0'; Send_Buffer[12] = (MSTP_MAC_Address & BIT4) ? '1' : '0'; Send_Buffer[13] = (MSTP_MAC_Address & BIT5) ? '1' : '0'; Send_Buffer[14] = (MSTP_MAC_Address & BIT6) ? '1' : '0'; serial_bytes_send((uint8_t *) Send_Buffer, 17); } if (serial_byte_get(&data_register)) { /* echo the character */ serial_byte_send(data_register); switch (data_register) { case '0': Binary_Output_Present_Value_Set(0, BINARY_INACTIVE, 0); Binary_Output_Present_Value_Set(1, BINARY_INACTIVE, 0); break; case '1': Binary_Output_Present_Value_Set(0, BINARY_ACTIVE, 0); Binary_Output_Present_Value_Set(1, BINARY_ACTIVE, 0); break; case '2': Binary_Output_Present_Value_Set(0, BINARY_NULL, 0); Binary_Output_Present_Value_Set(1, BINARY_NULL, 0); break; case '3': rs485_baud_rate_set(38400); break; case '5': rs485_baud_rate_set(57600); break; case '7': rs485_baud_rate_set(76800); break; case '9': rs485_baud_rate_set(9600); break; case 'e': seeprom_bytes_read(NV_SEEPROM_TYPE_0, (uint8_t *) & id, 2); sprintf(Send_Buffer, "\r\n%04X", id); serial_bytes_send((uint8_t *) Send_Buffer, strlen(Send_Buffer)); break; case 'b': sprintf(Send_Buffer, "\r\n%lubps", (unsigned long) rs485_baud_rate()); serial_bytes_send((uint8_t *) Send_Buffer, strlen(Send_Buffer)); break; case 'm': sprintf(Send_Buffer, "\r\nMax:%u", (unsigned) dlmstp_max_master()); serial_bytes_send((uint8_t *) Send_Buffer, strlen(Send_Buffer)); break; default: break; } serial_byte_send('\r'); serial_byte_send('\n'); serial_byte_transmit_complete(); } test_pin_toggle(); } #endif