/************************************************************************** * * Copyright (C) 2005 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 #include #include "config.h" #include "txbuf.h" #include "bacdef.h" #include "bacdcode.h" #include "apdu.h" #include "npdu.h" #include "abort.h" #include "rp.h" /* demo objects */ #include "device.h" #include "ai.h" #include "ao.h" #if BACFILE #include "bacfile.h" #endif static uint8_t Temp_Buf[MAX_APDU] = {0}; void handler_read_property( uint8_t *service_request, uint16_t service_len, BACNET_ADDRESS *src, BACNET_CONFIRMED_SERVICE_DATA *service_data) { BACNET_READ_PROPERTY_DATA data; int len = 0; int pdu_len = 0; BACNET_ADDRESS my_address; bool send = false; bool error = false; int bytes_sent = 0; BACNET_ERROR_CLASS error_class = ERROR_CLASS_OBJECT; BACNET_ERROR_CODE error_code = ERROR_CODE_UNKNOWN_OBJECT; len = rp_decode_service_request( service_request, service_len, &data); if (len <= 0) fprintf(stderr,"Unable to decode Read-Property Request!\n"); // prepare a reply datalink_get_my_address(&my_address); // encode the NPDU portion of the packet pdu_len = npdu_encode_apdu( &Handler_Transmit_Buffer[0], src, &my_address, false, // true for confirmed messages MESSAGE_PRIORITY_NORMAL); // bad decoding - send an abort if (len == -1) { pdu_len += abort_encode_apdu( &Handler_Transmit_Buffer[pdu_len], service_data->invoke_id, ABORT_REASON_OTHER); fprintf(stderr,"Sending Abort!\n"); send = true; } else if (service_data->segmented_message) { pdu_len += abort_encode_apdu( &Handler_Transmit_Buffer[pdu_len], service_data->invoke_id, ABORT_REASON_SEGMENTATION_NOT_SUPPORTED); fprintf(stderr,"Sending Abort!\n"); send = true; } else { switch (data.object_type) { case OBJECT_DEVICE: // FIXME: probably need a length limitation sent with encode if (data.object_instance == Device_Object_Instance_Number()) { len = Device_Encode_Property_APDU( &Temp_Buf[0], data.object_property, data.array_index, &error_class, &error_code); if (len > 0) { // encode the APDU portion of the packet data.application_data = &Temp_Buf[0]; data.application_data_len = len; // FIXME: probably need a length limitation sent with encode pdu_len += rp_ack_encode_apdu( &Handler_Transmit_Buffer[pdu_len], service_data->invoke_id, &data); fprintf(stderr,"Sending Read Property Ack!\n"); send = true; } else error = true; } else error = true; break; case OBJECT_ANALOG_INPUT: if (Analog_Input_Valid_Instance(data.object_instance)) { len = Analog_Input_Encode_Property_APDU( &Temp_Buf[0], data.object_instance, data.object_property, data.array_index, &error_class, &error_code); if (len > 0) { // encode the APDU portion of the packet data.application_data = &Temp_Buf[0]; data.application_data_len = len; // FIXME: probably need a length limitation sent with encode pdu_len += rp_ack_encode_apdu( &Handler_Transmit_Buffer[pdu_len], service_data->invoke_id, &data); fprintf(stderr,"Sending Read Property Ack!\n"); send = true; } else error = true; } else error = true; break; case OBJECT_ANALOG_OUTPUT: if (Analog_Output_Valid_Instance(data.object_instance)) { len = Analog_Output_Encode_Property_APDU( &Temp_Buf[0], data.object_instance, data.object_property, data.array_index, &error_class, &error_code); if (len > 0) { // encode the APDU portion of the packet data.application_data = &Temp_Buf[0]; data.application_data_len = len; // FIXME: probably need a length limitation sent with encode pdu_len += rp_ack_encode_apdu( &Handler_Transmit_Buffer[pdu_len], service_data->invoke_id, &data); fprintf(stderr,"Sending Read Property Ack!\n"); send = true; } else error = true; } else error = true; break; #if BACFILE case OBJECT_FILE: if (bacfile_valid_instance(data.object_instance)) { len = bacfile_encode_property_apdu( &Temp_Buf[0], data.object_instance, data.object_property, data.array_index, &error_class, &error_code); if (len > 0) { // encode the APDU portion of the packet data.application_data = &Temp_Buf[0]; data.application_data_len = len; // FIXME: probably need a length limitation sent with encode pdu_len += rp_ack_encode_apdu( &Handler_Transmit_Buffer[pdu_len], service_data->invoke_id, &data); fprintf(stderr,"Sending Read Property Ack!\n"); send = true; } else error = true; } else error = true; break; #endif default: error = true; break; } } if (error) { pdu_len += bacerror_encode_apdu( &Handler_Transmit_Buffer[pdu_len], service_data->invoke_id, SERVICE_CONFIRMED_READ_PROPERTY, error_class, error_code); fprintf(stderr,"Sending Read Property Error!\n"); send = true; } if (send) { bytes_sent = datalink_send_pdu( src, // destination address &Handler_Transmit_Buffer[0], pdu_len); // number of bytes of data if (bytes_sent <= 0) fprintf(stderr,"Failed to send PDU (%s)!\n", strerror(errno)); } return; }