/** * @file * @author Steve Karg * @date 2015 * * Implementation of the BACnet Virtual Link Layer using IPv6, * as described in Annex J. */ #ifndef BVLC6_H #define BVLC6_H #include #include #include #include #include "bacdef.h" #include "npdu.h" /** * BVLL for BACnet/IPv6 * @{ */ #define BVLL_TYPE_BACNET_IP6 (0x82) /** @} */ /** * B/IPv6 BVLL Messages * @{ */ #define BVLC6_RESULT 0x00 #define BVLC6_ORIGINAL_UNICAST_NPDU 0x01 #define BVLC6_ORIGINAL_BROADCAST_NPDU 0x02 #define BVLC6_ADDRESS_RESOLUTION 0x03 #define BVLC6_FORWARDED_ADDRESS_RESOLUTION 0x04 #define BVLC6_ADDRESS_RESOLUTION_ACK 0x05 #define BVLC6_VIRTUAL_ADDRESS_RESOLUTION 0x06 #define BVLC6_VIRTUAL_ADDRESS_RESOLUTION_ACK 0x07 #define BVLC6_FORWARDED_NPDU 0x08 #define BVLC6_REGISTER_FOREIGN_DEVICE 0x09 #define BVLC6_DELETE_FOREIGN_DEVICE 0x0A #define BVLC6_SECURE_BVLL 0x0B #define BVLC6_DISTRIBUTE_BROADCAST_TO_NETWORK 0x0C /** @} */ /** * BVLC Result Code * @{ */ #define BVLC6_RESULT_SUCCESSFUL_COMPLETION 0x0000 #define BVLC6_RESULT_ADDRESS_RESOLUTION_NAK 0x0030 #define BVLC6_RESULT_VIRTUAL_ADDRESS_RESOLUTION_NAK 0x0060 #define BVLC6_RESULT_REGISTER_FOREIGN_DEVICE_NAK 0x0090 #define BVLC6_RESULT_DELETE_FOREIGN_DEVICE_NAK 0x00A0 #define BVLC6_RESULT_DISTRIBUTE_BROADCAST_TO_NETWORK_NAK 0x00C0 /** @} */ /** * BACnet IPv6 Multicast Group ID * BACnet broadcast messages shall be delivered by IPv6 multicasts * as opposed to using IP broadcasting. Broadcasting in * IPv6 is subsumed by multicasting to the all-nodes link * group FF02::1; however, the use of the all-nodes group is not * recommended, and BACnet/IPv6 uses an IANA permanently assigned * multicast group identifier to avoid disturbing * every interface in the network. * * The IANA assigned BACnet/IPv6 variable scope multicast address * is FF0X:0:0:0:0:0:0:BAC0 (FF0X::BAC0) which indicates the multicast * group identifier X'BAC0'. The following multicast scopes are * defined for B/IPv6. * @{ */ #define BIP6_MULTICAST_GROUP_ID 0xBAC0 /** @} */ /** * IANA prefixes * @{ */ #define BIP6_MULTICAST_reserved_0 0xFF00 #define BIP6_MULTICAST_NODE_LOCAL 0xFF01 #define BIP6_MULTICAST_LINK_LOCAL 0xFF02 #define BIP6_MULTICAST_reserved_3 0xFF03 #define BIP6_MULTICAST_ADMIN_LOCAL 0xFF04 #define BIP6_MULTICAST_SITE_LOCAL 0xFF05 #define BIP6_MULTICAST_ORG_LOCAL 0xFF08 #define BIP6_MULTICAST_GLOBAL 0xFF0E /** @} */ /* number of bytes in the IPv6 address */ #define IP6_ADDRESS_MAX 16 /* number of bytes in the B/IPv6 address */ #define BIP6_ADDRESS_MAX 18 /** * BACnet IPv6 Address * * Data link layer addressing between B/IPv6 nodes consists of a 128-bit * IPv6 address followed by a two-octet UDP port number (both of which * shall be transmitted with the most significant octet first). * This address shall be referred to as a B/IPv6 address. * @{ */ typedef struct BACnet_IP6_Address { uint8_t address[IP6_ADDRESS_MAX]; uint16_t port; } BACNET_IP6_ADDRESS; /** @} */ /** * BACnet /IPv6 Broadcast Distribution Table Format * * The BDT shall consist of either the eighteen-octet B/IPv6 address * of the peer BBMD or the combination of the fully qualified * domain name service (DNS) entry and UDP port that resolves to * the B/IPv6 address of the peer BBMD. The Broadcast * Distribution Table shall not contain an entry for the BBMD in * which the BDT resides. * @{ */ struct BACnet_IP6_Broadcast_Distribution_Table_Entry; typedef struct BACnet_IP6_Broadcast_Distribution_Table_Entry { /* true if valid entry - false if not */ bool valid; /* BACnet/IPv6 address */ BACNET_IP6_ADDRESS bip6_address; struct BACnet_IP6_Broadcast_Distribution_Table_Entry *next; } BACNET_IP6_BROADCAST_DISTRIBUTION_TABLE_ENTRY; /** @} */ /** * Foreign Device Table (FDT) * * Each entry shall contain the B/IPv6 address and the TTL of the * registered foreign device. * * Each entry shall consist of the eighteen-octet B/IPv6 address of the * registrant; the 2-octet Time-to-Live value supplied at the time of * registration; and a 2-octet value representing the number of seconds * remaining before the BBMD will purge the registrant's FDT entry if no * re-registration occurs. The number of seconds remaining shall be * initialized to the 2-octet Time-to-Live value supplied at the time * of registration plus 30 seconds (see U.4.5.2), with a maximum of 65535. * @{ */ struct BACnet_IP6_Foreign_Device_Table_Entry; typedef struct BACnet_IP6_Foreign_Device_Table_Entry { /* true if valid entry - false if not */ bool valid; /* BACnet/IPv6 address */ BACNET_IP6_ADDRESS bip6_address; /* requested time-to-live value */ uint16_t ttl_seconds; /* number of seconds remaining */ uint16_t ttl_seconds_remaining; struct BACnet_IP6_Foreign_Device_Table_Entry *next; } BACNET_IP6_FOREIGN_DEVICE_TABLE_ENTRY; /** @} */ #ifdef __cplusplus extern "C" { #endif /* __cplusplus */ int bvlc6_encode_address( uint8_t * pdu, uint16_t pdu_size, BACNET_IP6_ADDRESS * ip6_address); int bvlc6_decode_address( uint8_t * pdu, uint16_t pdu_len, BACNET_IP6_ADDRESS * ip6_address); bool bvlc6_address_copy( BACNET_IP6_ADDRESS * dst, BACNET_IP6_ADDRESS * src); bool bvlc6_address_different( BACNET_IP6_ADDRESS * dst, BACNET_IP6_ADDRESS * src); bool bvlc6_address_set( BACNET_IP6_ADDRESS * addr, uint16_t addr0, uint16_t addr1, uint16_t addr2, uint16_t addr3, uint16_t addr4, uint16_t addr5, uint16_t addr6, uint16_t addr7); bool bvlc6_address_get( BACNET_IP6_ADDRESS * addr, uint16_t *addr0, uint16_t *addr1, uint16_t *addr2, uint16_t *addr3, uint16_t *addr4, uint16_t *addr5, uint16_t *addr6, uint16_t *addr7); bool bvlc6_vmac_address_set( BACNET_ADDRESS * addr, uint32_t device_id); bool bvlc6_vmac_address_get( BACNET_ADDRESS * addr, uint32_t *device_id); int bvlc6_encode_header( uint8_t * pdu, uint16_t pdu_size, uint8_t message_type, uint16_t length); int bvlc6_decode_header( uint8_t * pdu, uint16_t pdu_len, uint8_t * message_type, uint16_t * length); int bvlc6_encode_result( uint8_t * pdu, uint16_t pdu_size, uint32_t vmac, uint16_t result_code); int bvlc6_decode_result( uint8_t * pdu, uint16_t pdu_len, uint32_t * vmac, uint16_t * result_code); int bvlc6_encode_original_unicast( uint8_t * pdu, uint16_t pdu_size, uint32_t vmac_src, uint32_t vmac_dst, uint8_t * npdu, uint16_t npdu_len); int bvlc6_decode_original_unicast( uint8_t * pdu, uint16_t pdu_len, uint32_t * vmac_src, uint32_t * vmac_dst, uint8_t * npdu, uint16_t npdu_size, uint16_t * npdu_len); int bvlc6_encode_original_broadcast( uint8_t * pdu, uint16_t pdu_size, uint32_t vmac, uint8_t * npdu, uint16_t npdu_len); int bvlc6_decode_original_broadcast( uint8_t * pdu, uint16_t pdu_len, uint32_t * vmac, uint8_t * npdu, uint16_t npdu_size, uint16_t * npdu_len); int bvlc6_encode_address_resolution( uint8_t * pdu, uint16_t pdu_size, uint32_t vmac_src, uint32_t vmac_target); int bvlc6_decode_address_resolution( uint8_t * pdu, uint16_t pdu_len, uint32_t * vmac_src, uint32_t * vmac_target); int bvlc6_encode_forwarded_address_resolution( uint8_t * pdu, uint16_t pdu_size, uint32_t vmac_src, uint32_t vmac_target, BACNET_IP6_ADDRESS * bip6_address); int bvlc6_decode_forwarded_address_resolution( uint8_t * pdu, uint16_t pdu_len, uint32_t * vmac_src, uint32_t * vmac_target, BACNET_IP6_ADDRESS * bip6_address); int bvlc6_encode_address_resolution_ack( uint8_t * pdu, uint16_t pdu_size, uint32_t vmac_src, uint32_t vmac_dst); int bvlc6_decode_address_resolution_ack( uint8_t * pdu, uint16_t pdu_len, uint32_t * vmac_src, uint32_t * vmac_dst); int bvlc6_encode_virtual_address_resolution( uint8_t * pdu, uint16_t pdu_size, uint32_t vmac_src); int bvlc6_decode_virtual_address_resolution( uint8_t * pdu, uint16_t pdu_len, uint32_t * vmac_src); int bvlc6_encode_virtual_address_resolution_ack( uint8_t * pdu, uint16_t pdu_size, uint32_t vmac_src, uint32_t vmac_dst); int bvlc6_decode_virtual_address_resolution_ack( uint8_t * pdu, uint16_t pdu_len, uint32_t * vmac_src, uint32_t * vmac_dst); int bvlc6_encode_forwarded_npdu( uint8_t * pdu, uint16_t pdu_size, uint32_t vmac_src, BACNET_IP6_ADDRESS * address, uint8_t * npdu, uint16_t npdu_len); int bvlc6_decode_forwarded_npdu( uint8_t * pdu, uint16_t pdu_len, uint32_t * vmac_src, BACNET_IP6_ADDRESS * address, uint8_t * npdu, uint16_t npdu_size, uint16_t * npdu_len); int bvlc6_encode_register_foreign_device( uint8_t * pdu, uint16_t pdu_size, uint32_t vmac_src, uint16_t ttl_seconds); int bvlc6_decode_register_foreign_device( uint8_t * pdu, uint16_t pdu_len, uint32_t * vmac_src, uint16_t * ttl_seconds); int bvlc6_encode_delete_foreign_device( uint8_t * pdu, uint16_t pdu_size, uint32_t vmac_src, BACNET_IP6_FOREIGN_DEVICE_TABLE_ENTRY * fdt_entry); int bvlc6_decode_delete_foreign_device( uint8_t * pdu, uint16_t pdu_len, uint32_t * vmac_src, BACNET_IP6_FOREIGN_DEVICE_TABLE_ENTRY * fdt_entry); int bvlc6_encode_secure_bvll( uint8_t * pdu, uint16_t pdu_size, uint8_t * sbuf, uint16_t sbuf_len); int bvlc6_decode_secure_bvll( uint8_t * pdu, uint16_t pdu_len, uint8_t * sbuf, uint16_t sbuf_size, uint16_t * sbuf_len); int bvlc6_encode_distribute_broadcast_to_network( uint8_t * pdu, uint16_t pdu_size, uint32_t vmac, uint8_t * npdu, uint16_t npdu_len); int bvlc6_decode_distribute_broadcast_to_network( uint8_t * pdu, uint16_t pdu_len, uint32_t * vmac, uint8_t * npdu, uint16_t npdu_size, uint16_t * npdu_len); /* user application function prototypes */ int bvlc6_handler( BACNET_IP6_ADDRESS *addr, BACNET_ADDRESS * src, uint8_t * npdu, uint16_t npdu_len); int bvlc6_register_with_bbmd( BACNET_IP6_ADDRESS *bbmd_addr, uint32_t vmac_src, uint16_t time_to_live_seconds); uint16_t bvlc6_get_last_result( void); uint8_t bvlc6_get_function_code( void); void bvlc6_init(void); #ifdef TEST #include "ctest.h" void test_BVLC6( Test * pTest); #endif #ifdef __cplusplus } #endif /* __cplusplus */ #endif /* */