/*####COPYRIGHTBEGIN#### ------------------------------------------- Copyright (C) 2005 Steve Karg This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to: The Free Software Foundation, Inc. 59 Temple Place - Suite 330 Boston, MA 02111-1307, USA. As a special exception, if other files instantiate templates or use macros or inline functions from this file, or you compile this file and link it with other works to produce a work based on this file, this file does not by itself cause the resulting work to be covered by the GNU General Public License. However the source code for this file must still be made available in accordance with section (3) of the GNU General Public License. This exception does not invalidate any other reasons why a work based on this file might be covered by the GNU General Public License. ------------------------------------------- ####COPYRIGHTEND####*/ #include #include "bacenum.h" #include "bacdef.h" #include "npdu.h" #include "datalink.h" #include "device.h" #include "bacdcode.h" #include "address.h" // encode I-Am service int iam_encode_apdu( uint8_t *apdu, uint32_t device_id, unsigned max_apdu, int segmentation, uint16_t vendor_id) { int len = 0; // length of each encoding int apdu_len = 0; // total length of the apdu, return value if (apdu) { apdu[0] = PDU_TYPE_UNCONFIRMED_SERVICE_REQUEST; apdu[1] = SERVICE_UNCONFIRMED_I_AM; // service choice apdu_len = 2; len = encode_tagged_object_id( &apdu[apdu_len], OBJECT_DEVICE, device_id); apdu_len += len; len = encode_tagged_unsigned( &apdu[apdu_len], max_apdu); apdu_len += len; len = encode_tagged_enumerated( &apdu[apdu_len], segmentation); apdu_len += len; len = encode_tagged_unsigned( &apdu[apdu_len], vendor_id); apdu_len += len; } return apdu_len; } int iam_decode_service_request( uint8_t *apdu, uint32_t *pDevice_id, unsigned *pMax_apdu, int *pSegmentation, uint16_t *pVendor_id) { int len = 0; int apdu_len = 0; // total length of the apdu, return value int object_type = 0; // should be a Device Object uint32_t object_instance = 0; uint8_t tag_number = 0; uint32_t len_value = 0; uint32_t decoded_value = 0; int decoded_integer = 0; // OBJECT ID - object id len = decode_tag_number_and_value(&apdu[apdu_len], &tag_number, &len_value); apdu_len += len; if (tag_number != BACNET_APPLICATION_TAG_OBJECT_ID) return -1; len = decode_object_id(&apdu[apdu_len], &object_type, &object_instance); apdu_len += len; if (object_type != OBJECT_DEVICE) return -1; if (pDevice_id) *pDevice_id = object_instance; // MAX APDU - unsigned len = decode_tag_number_and_value(&apdu[apdu_len], &tag_number, &len_value); apdu_len += len; if (tag_number != BACNET_APPLICATION_TAG_UNSIGNED_INT) return -1; len = decode_unsigned(&apdu[apdu_len], len_value, &decoded_value); apdu_len += len; if (pMax_apdu) *pMax_apdu = decoded_value; // Segmentation - enumerated len = decode_tag_number_and_value(&apdu[apdu_len], &tag_number, &len_value); apdu_len += len; if (tag_number != BACNET_APPLICATION_TAG_ENUMERATED) return -1; len = decode_enumerated(&apdu[apdu_len],len_value, &decoded_integer); apdu_len += len; if (decoded_integer >= MAX_BACNET_SEGMENTATION) return -1; if (pSegmentation) *pSegmentation = decoded_integer; // Vendor ID - unsigned16 len = decode_tag_number_and_value(&apdu[apdu_len], &tag_number, &len_value); apdu_len += len; if (tag_number != BACNET_APPLICATION_TAG_UNSIGNED_INT) return -1; len = decode_unsigned(&apdu[apdu_len], len_value, &decoded_value); apdu_len += len; if (decoded_value > 0xFFFF) return -1; if (pVendor_id) *pVendor_id = (uint16_t)decoded_value; return apdu_len; } int iam_decode_apdu( uint8_t *apdu, uint32_t *pDevice_id, unsigned *pMax_apdu, int *pSegmentation, uint16_t *pVendor_id) { int apdu_len = 0; // total length of the apdu, return value // valid data? if (!apdu) return -1; // optional checking - most likely was already done prior to this call if (apdu[0] != PDU_TYPE_UNCONFIRMED_SERVICE_REQUEST) return -1; if (apdu[1] != SERVICE_UNCONFIRMED_I_AM) return -1; apdu_len = iam_decode_service_request( &apdu[2], pDevice_id, pMax_apdu, pSegmentation, pVendor_id); return apdu_len; } int iam_send(uint8_t *buffer) { int pdu_len = 0; BACNET_ADDRESS dest; int bytes_sent = 0; // I-Am is a global broadcast datalink_get_broadcast_address(&dest); // encode the NPDU portion of the packet pdu_len = npdu_encode_apdu( &buffer[0], &dest, NULL, false, // true for confirmed messages MESSAGE_PRIORITY_NORMAL); // encode the APDU portion of the packet pdu_len += iam_encode_apdu( &buffer[pdu_len], Device_Object_Instance_Number(), MAX_APDU, SEGMENTATION_NONE, Device_Vendor_Identifier()); bytes_sent = datalink_send_pdu( &dest, // destination address &buffer[0], pdu_len); // number of bytes of data return bytes_sent; } void iam_handler( uint8_t *service_request, uint16_t service_len, BACNET_ADDRESS *src) { int len = 0; uint32_t device_id = 0; unsigned max_apdu = 0; int segmentation = 0; uint16_t vendor_id = 0; (void)service_len; len = iam_decode_service_request( service_request, &device_id, &max_apdu, &segmentation, &vendor_id); // only add address if requested to bind address_add_binding(device_id, max_apdu, src); return; } #ifdef TEST #include #include #include "ctest.h" void testIAm(Test * pTest) { uint8_t apdu[480] = {0}; int len = 0; uint32_t device_id = 42; unsigned max_apdu = 480; int segmentation = SEGMENTATION_NONE; uint16_t vendor_id = 42; uint32_t test_device_id = 0; unsigned test_max_apdu = 0; int test_segmentation = 0; uint16_t test_vendor_id = 0; len = iam_encode_apdu( &apdu[0], device_id, max_apdu, segmentation, vendor_id); ct_test(pTest, len != 0); len = iam_decode_apdu( &apdu[0], &test_device_id, &test_max_apdu, &test_segmentation, &test_vendor_id); ct_test(pTest, len != -1); ct_test(pTest, test_device_id == device_id); ct_test(pTest, test_vendor_id == vendor_id); ct_test(pTest, test_max_apdu == max_apdu); ct_test(pTest, test_segmentation == segmentation); } #ifdef TEST_IAM // Dummy stubs to eliminate depencies void datalink_get_broadcast_address( BACNET_ADDRESS *dest) // destination address { (void)dest; } int datalink_send_pdu( BACNET_ADDRESS *dest, // destination address uint8_t *pdu, // any data to be sent - may be null unsigned pdu_len) // number of bytes of data { (void)dest; (void)pdu; return pdu_len; } uint16_t Device_Vendor_Identifier(void) { return 0; } uint32_t Device_Object_Instance_Number(void) { return 0; } void address_add_binding( uint32_t device_id, unsigned max_apdu, BACNET_ADDRESS *src) { (void)device_id; (void)max_apdu; (void)src; } // dummy for apdu dependency void tsm_free_invoke_id(uint8_t invokeID) { // dummy stub for testing (void)invokeID; } int main(void) { Test *pTest; bool rc; pTest = ct_create("BACnet I-Am", NULL); /* individual tests */ rc = ct_addTestFunction(pTest, testIAm); assert(rc); ct_setStream(pTest, stdout); ct_run(pTest); (void) ct_report(pTest); ct_destroy(pTest); return 0; } #endif /* TEST_IAM */ #endif /* TEST */