/** * @file * @brief command line tool that sends a BACnet service to the network: * DeviceCommunicationControl message * @author Steve Karg * @date 2006 * @copyright SPDX-License-Identifier: MIT */ #include #include #include #include #include /* for time */ /* BACnet Stack defines - first */ #include "bacnet/bacdef.h" /* BACnet Stack API */ #include "bacnet/bactext.h" #include "bacnet/iam.h" #include "bacnet/arf.h" #include "bacnet/npdu.h" #include "bacnet/apdu.h" #include "bacport.h" #include "bacnet/whois.h" #include "bacnet/dcc.h" #include "bacnet/version.h" /* some demo stuff needed */ #include "bacnet/basic/object/device.h" #include "bacnet/basic/binding/address.h" #include "bacnet/basic/sys/filename.h" #include "bacnet/basic/services.h" #include "bacnet/basic/tsm/tsm.h" #include "bacnet/datalink/dlenv.h" #include "bacnet/datalink/datalink.h" /* buffer used for receive */ static uint8_t Rx_Buf[MAX_MPDU] = { 0 }; /* global variables used in this file */ static uint32_t Target_Device_Object_Instance = BACNET_MAX_INSTANCE; static BACNET_ADDRESS Target_Address; static uint16_t Communication_Timeout_Minutes = 0; static BACNET_COMMUNICATION_ENABLE_DISABLE Communication_State = COMMUNICATION_ENABLE; static char *Communication_Password = NULL; static bool Error_Detected = false; static void MyErrorHandler( BACNET_ADDRESS *src, uint8_t invoke_id, BACNET_ERROR_CLASS error_class, BACNET_ERROR_CODE error_code) { /* FIXME: verify src and invoke id */ (void)src; (void)invoke_id; printf( "BACnet Error: %s: %s\n", bactext_error_class_name(error_class), bactext_error_code_name(error_code)); Error_Detected = true; } static void MyAbortHandler( BACNET_ADDRESS *src, uint8_t invoke_id, uint8_t abort_reason, bool server) { /* FIXME: verify src and invoke id */ (void)src; (void)invoke_id; (void)server; printf("BACnet Abort: %s\n", bactext_abort_reason_name(abort_reason)); Error_Detected = true; } static void MyRejectHandler(BACNET_ADDRESS *src, uint8_t invoke_id, uint8_t reject_reason) { /* FIXME: verify src and invoke id */ (void)src; (void)invoke_id; printf("BACnet Reject: %s\n", bactext_reject_reason_name(reject_reason)); Error_Detected = true; } static void MyDeviceCommunicationControlSimpleAckHandler( BACNET_ADDRESS *src, uint8_t invoke_id) { (void)src; (void)invoke_id; printf("DeviceCommunicationControl Acknowledged!\n"); } static void Init_Service_Handlers(void) { Device_Init(NULL); /* we need to handle who-is to support dynamic device binding to us */ apdu_set_unconfirmed_handler(SERVICE_UNCONFIRMED_WHO_IS, handler_who_is); /* handle i-am to support binding to other devices */ apdu_set_unconfirmed_handler(SERVICE_UNCONFIRMED_I_AM, handler_i_am_bind); /* set the handler for all the services we don't implement It is required to send the proper reject message... */ apdu_set_unrecognized_service_handler_handler(handler_unrecognized_service); /* we must implement read property - it's required! */ apdu_set_confirmed_handler( SERVICE_CONFIRMED_READ_PROPERTY, handler_read_property); /* handle communication so we can shutup when asked */ apdu_set_confirmed_handler( SERVICE_CONFIRMED_DEVICE_COMMUNICATION_CONTROL, handler_device_communication_control); /* handle the ack coming back */ apdu_set_confirmed_simple_ack_handler( SERVICE_CONFIRMED_DEVICE_COMMUNICATION_CONTROL, MyDeviceCommunicationControlSimpleAckHandler); /* handle any errors coming back */ apdu_set_error_handler( SERVICE_CONFIRMED_DEVICE_COMMUNICATION_CONTROL, MyErrorHandler); apdu_set_abort_handler(MyAbortHandler); apdu_set_reject_handler(MyRejectHandler); } static void print_usage(const char *filename) { printf("Usage: %s device-instance state [timeout [password]]\n", filename); printf(" [--version][--help]\n"); } static void print_help(const char *filename) { printf( "Send BACnet DeviceCommunicationControl service to device.\n" "\n" "The device-instance can be 0 to %lu.\n" "Possible state values:\n" " 0=enable\n" " 1=disable\n" " 2=disable-initiation\n" "The timeout can be 0 for infinite, or a value in minutes for " "disable.\n" "The optional password is a character string of 1 to 20 characters.\n" "\nExample:\n" "If you want disable Device Communications in Device 123\n" "for 60 minutes with password 'filister', use the following command:\n" "%s 123 1 60 filister\n", (unsigned long)BACNET_MAX_INSTANCE, filename); } int main(int argc, char *argv[]) { BACNET_ADDRESS src = { 0 }; /* address where message came from */ uint16_t pdu_len = 0; unsigned timeout = 100; /* milliseconds */ unsigned max_apdu = 0; time_t elapsed_seconds = 0; time_t last_seconds = 0; time_t current_seconds = 0; time_t timeout_seconds = 0; uint8_t invoke_id = 0; bool found = false; int argi = 0; const char *filename = NULL; filename = filename_remove_path(argv[0]); for (argi = 1; argi < argc; argi++) { if (strcmp(argv[argi], "--help") == 0) { print_usage(filename); print_help(filename); return 0; } if (strcmp(argv[argi], "--version") == 0) { printf("%s %s\n", filename, BACNET_VERSION_TEXT); printf("Copyright (C) 2014 by Steve Karg and others.\n" "This is free software; see the source for copying " "conditions.\n" "There is NO warranty; not even for MERCHANTABILITY or\n" "FITNESS FOR A PARTICULAR PURPOSE.\n"); return 0; } } if (argc < 3) { print_usage(filename); return 0; } /* decode the command line parameters */ Target_Device_Object_Instance = strtol(argv[1], NULL, 0); Communication_State = (uint16_t)strtol(argv[2], NULL, 0); /* optional timeout, required if password is included */ if (argc > 3) { Communication_Timeout_Minutes = (uint16_t)strtol(argv[3], NULL, 0); } /* optional password */ if (argc > 4) { Communication_Password = argv[4]; } if (Target_Device_Object_Instance > BACNET_MAX_INSTANCE) { fprintf( stderr, "device-instance=%u - not greater than %u\n", Target_Device_Object_Instance, BACNET_MAX_INSTANCE); return 1; } /* setup my info */ Device_Set_Object_Instance_Number(BACNET_MAX_INSTANCE); address_init(); Init_Service_Handlers(); dlenv_init(); atexit(datalink_cleanup); /* configure the timeout values */ last_seconds = time(NULL); timeout_seconds = (apdu_timeout() / 1000) * apdu_retries(); /* try to bind with the device */ found = address_bind_request( Target_Device_Object_Instance, &max_apdu, &Target_Address); if (!found) { Send_WhoIs( Target_Device_Object_Instance, Target_Device_Object_Instance); } /* loop forever */ for (;;) { /* increment timer - exit if timed out */ current_seconds = time(NULL); /* returns 0 bytes on timeout */ pdu_len = datalink_receive(&src, &Rx_Buf[0], MAX_MPDU, timeout); /* process */ if (pdu_len) { npdu_handler(&src, &Rx_Buf[0], pdu_len); } /* at least one second has passed */ if (current_seconds != last_seconds) { tsm_timer_milliseconds( (uint16_t)((current_seconds - last_seconds) * 1000)); datalink_maintenance_timer(current_seconds - last_seconds); } if (Error_Detected) { break; } /* wait until the device is bound, or timeout and quit */ if (!found) { found = address_bind_request( Target_Device_Object_Instance, &max_apdu, &Target_Address); } if (found) { if (invoke_id == 0) { invoke_id = Send_Device_Communication_Control_Request( Target_Device_Object_Instance, Communication_Timeout_Minutes, Communication_State, Communication_Password); } else if (tsm_invoke_id_free(invoke_id)) { break; } else if (tsm_invoke_id_failed(invoke_id)) { fprintf(stderr, "\rError: TSM Timeout!\n"); tsm_free_invoke_id(invoke_id); /* try again or abort? */ break; } } else { /* increment timer - exit if timed out */ elapsed_seconds += (current_seconds - last_seconds); if (elapsed_seconds > timeout_seconds) { printf("\rError: APDU Timeout!\n"); break; } } /* keep track of time for next check */ last_seconds = current_seconds; } return 0; }