/* $OpenBSD: snmp.h,v 1.13 2014/11/19 10:19:00 blambert Exp $ */ /* * Copyright (c) 2007, 2008, 2012 Reyk Floeter * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #ifndef SNMP_HEADER #define SNMP_HEADER #include #include /* * SNMP IMSG interface */ #define SNMP_MAX_OID_STRLEN 128 /* max size of the OID _string_ */ #define SNMP_SOCKET "/var/run/snmpd.sock" #define AGENTX_SOCKET "/var/run/agentx.sock" #define SNMP_RESTRICTED_SOCKET "/var/run/snmpd.rsock" enum snmp_type { SNMP_IPADDR = 0, SNMP_COUNTER32 = 1, SNMP_GAUGE32 = 2, SNMP_UNSIGNED32 = 2, SNMP_TIMETICKS = 3, SNMP_OPAQUE = 4, SNMP_NSAPADDR = 5, SNMP_COUNTER64 = 6, SNMP_UINTEGER32 = 7, SNMP_INTEGER32 = 100, SNMP_BITSTRING = 101, SNMP_OCTETSTRING = 102, SNMP_NULL = 103, SNMP_OBJECT = 104 }; enum snmp_imsg_ctl { IMSG_SNMP_DUMMY = 1000, /* something that works everywhere */ IMSG_SNMP_ELEMENT, IMSG_SNMP_END, IMSG_SNMP_LOCK, /* enable restricted mode */ IMSG_SNMP_AGENTX }; struct snmp_imsg_hdr { u_int32_t imsg_type; u_int16_t imsg_len; u_int16_t imsg_flags; u_int32_t imsg_peerid; u_int32_t imsg_pid; }; struct snmp_imsg { char snmp_oid[SNMP_MAX_OID_STRLEN]; u_int8_t snmp_type; u_int16_t snmp_len; }; /* * SNMP BER types */ enum snmp_version { SNMP_V1 = 0, SNMP_V2 = 1, /* SNMPv2c */ SNMP_V3 = 3 }; enum snmp_context { SNMP_C_GETREQ = 0, SNMP_C_GETNEXTREQ = 1, SNMP_C_GETRESP = 2, SNMP_C_SETREQ = 3, SNMP_C_TRAP = 4, /* SNMPv2 */ SNMP_C_GETBULKREQ = 5, SNMP_C_INFORMREQ = 6, SNMP_C_TRAPV2 = 7, SNMP_C_REPORT = 8 }; enum snmp_application { SNMP_T_IPADDR = 0, SNMP_T_COUNTER32 = 1, SNMP_T_GAUGE32 = 2, SNMP_T_UNSIGNED32 = 2, SNMP_T_TIMETICKS = 3, SNMP_T_OPAQUE = 4, SNMP_T_NSAPADDR = 5, SNMP_T_COUNTER64 = 6, SNMP_T_UINTEGER32 = 7 }; enum snmp_generic_trap { SNMP_TRAP_COLDSTART = 0, SNMP_TRAP_WARMSTART = 1, SNMP_TRAP_LINKDOWN = 2, SNMP_TRAP_LINKUP = 3, SNMP_TRAP_AUTHFAILURE = 4, SNMP_TRAP_EGPNEIGHLOSS = 5, SNMP_TRAP_ENTERPRISE = 6 }; enum snmp_error { SNMP_ERROR_NONE = 0, SNMP_ERROR_TOOBIG = 1, SNMP_ERROR_NOSUCHNAME = 2, SNMP_ERROR_BADVALUE = 3, SNMP_ERROR_READONLY = 4, SNMP_ERROR_GENERR = 5, /* SNMPv2 */ SNMP_ERROR_NOACCESS = 6, SNMP_ERROR_WRONGTYPE = 7, SNMP_ERROR_WRONGLENGTH = 8, SNMP_ERROR_WRONGENC = 9, SNMP_ERROR_WRONGVALUE = 10, SNMP_ERROR_NOCREATION = 11, SNMP_ERROR_INCONVALUE = 12, SNMP_ERROR_RESUNAVAIL = 13, /* EGAIN */ SNMP_ERROR_COMMITFAILED = 14, SNMP_ERROR_UNDOFAILED = 15, SNMP_ERROR_AUTHERROR = 16, SNMP_ERROR_NOTWRITABLE = 17, SNMP_ERROR_INCONNAME = 18 }; enum snmp_security_model { SNMP_SEC_ANY = 0, SNMP_SEC_SNMPv1 = 1, SNMP_SEC_SNMPv2c = 2, SNMP_SEC_USM = 3, SNMP_SEC_TSM = 4 }; #define SNMP_MSGFLAG_AUTH 0x01 #define SNMP_MSGFLAG_PRIV 0x02 #define SNMP_MSGFLAG_SECMASK (SNMP_MSGFLAG_AUTH | SNMP_MSGFLAG_PRIV) #define SNMP_MSGFLAG_REPORT 0x04 #define SNMP_MAX_TIMEWINDOW 150 /* RFC3414 */ #define SNMP_MIN_OID_LEN 2 /* OBJECT */ #define SNMP_MAX_OID_LEN 32 /* OBJECT */ struct snmp_oid { u_int32_t o_id[SNMP_MAX_OID_LEN + 1]; size_t o_n; }; /* AgentX protocol, as outlined in RFC 2741 */ /* version */ #define AGENTX_VERSION 1 /* type */ #define AGENTX_OPEN 1 #define AGENTX_CLOSE 2 #define AGENTX_REGISTER 3 #define AGENTX_UNREGISTER 4 #define AGENTX_GET 5 #define AGENTX_GET_NEXT 6 #define AGENTX_GET_BULK 7 #define AGENTX_TEST_SET 8 #define AGENTX_COMMIT_SET 9 #define AGENTX_UNDO_SET 10 #define AGENTX_CLEANUP_SET 11 #define AGENTX_NOTIFY 12 #define AGENTX_PING 13 #define AGENTX_INDEX_ALLOCATE 14 #define AGENTX_INDEX_DEALLOCATE 15 #define AGENTX_ADD_AGENT_CAPS 16 #define AGENTX_REMOVE_AGENT_CAPS 17 #define AGENTX_RESPONSE 18 /* error return codes */ #define AGENTX_ERR_NONE 0 #define AGENTX_ERR_OPEN_FAILED 256 #define AGENTX_ERR_NOT_OPEN 257 #define AGENTX_ERR_INDEX_WRONG_TYPE 258 #define AGENTX_ERR_INDEX_ALREADY_ALLOCATED 259 #define AGENTX_ERR_INDEX_NONE_AVAILABLE 260 #define AGENTX_ERR_INDEX_NOT_ALLOCATED 261 #define AGENTX_ERR_UNSUPPORTED_CONTEXT 262 #define AGENTX_ERR_DUPLICATE_REGISTRATION 263 #define AGENTX_ERR_UNKNOWN_REGISTRATION 264 #define AGENTX_ERR_UNKNOWN_AGENT_CAPS 265 #define AGENTX_ERR_PARSE_ERROR 266 #define AGENTX_ERR_REQUEST_DENIED 267 #define AGENTX_ERR_PROCESSING_ERROR 268 /* flags */ #define AGENTX_INSTANCE_REGISTRATION 0x01 #define AGENTX_NEW_INDEX 0x02 #define AGENTX_ANY_INDEX 0x04 #define AGENTX_NON_DEFAULT_CONTEXT 0x08 #define AGENTX_NETWORK_BYTE_ORDER 0x10 #define AGENTX_FLAGS_MASK 0x1f /* encoded data types */ #define AGENTX_INTEGER 2 #define AGENTX_OCTET_STRING 4 #define AGENTX_NULL 5 #define AGENTX_OBJECT_IDENTIFIER 6 #define AGENTX_IP_ADDRESS 64 #define AGENTX_COUNTER32 65 #define AGENTX_GAUGE32 66 #define AGENTX_TIME_TICKS 67 #define AGENTX_OPAQUE 68 #define AGENTX_COUNTER64 70 #define AGENTX_NO_SUCH_OBJECT 128 #define AGENTX_NO_SUCH_INSTANCE 129 #define AGENTX_END_OF_MIB_VIEW 130 /* for registered MIB overlap */ #define AGENTX_REGISTER_PRIO_DEFAULT 127 /* reasons for request of close */ #define AGENTX_CLOSE_OTHER 1 #define AGENTX_CLOSE_PARSE_ERROR 2 #define AGENTX_CLOSE_PROTOCOL_ERROR 3 #define AGENTX_CLOSE_TIMEOUTS 4 #define AGENTX_CLOSE_SHUTDOWN 5 #define AGENTX_CLOSE_BY_MANAGER 6 #define AGENTX_DEFAULT_TIMEOUT 3 #define MIN_OID_LEN 2 /* OBJECT */ #define MAX_OID_LEN 32 /* OBJECT */ /* * Protocol header prefixed to all messages */ struct agentx_hdr { uint8_t version; uint8_t type; uint8_t flags; uint8_t reserved; uint32_t sessionid; /* chosen by agent */ uint32_t transactid; /* chosen by subagent */ uint32_t packetid; /* per-request id */ uint32_t length; } __packed; /* * Prefixed to a series of 4-byte values indicating the OID */ struct agentx_oid_hdr { uint8_t n_subid; /* # of oid elements (named in RFC) */ uint8_t prefix; /* if not 0, OID is 1.3.6.1. */ uint8_t include; /* is OID included in search range */ uint8_t reserved; /* always 0 */ } __packed; struct agentx_response_data { uint32_t sysuptime; /* uptime of SNMP context */ uint16_t error; /* status of request */ uint16_t index; /* index of failed variable binding */ } __packed; struct agentx_open_timeout { uint8_t timeout; uint8_t reserved[3]; } __packed; struct agentx_register_hdr { uint8_t timeout; uint8_t priority; uint8_t subrange; uint8_t reserved; } __packed; struct agentx_unregister_hdr { uint8_t reserved1; uint8_t priority; uint8_t subrange; uint8_t reserved2; } __packed; struct agentx_null_oid { uint8_t padding[4]; } __packed; #define AGENTX_NULL_OID { 0, 0, 0, 0 } struct agentx_varbind_hdr { uint16_t type; uint16_t reserved; } __packed; struct agentx_response { struct agentx_hdr hdr; struct agentx_response_data data; } __packed; struct agentx_close_request_data { uint8_t reason; uint8_t padding[3]; } __packed; struct agentx_close_request { struct agentx_hdr hdr; struct agentx_close_request_data data; } __packed; struct agentx_getbulk_repeaters { uint16_t nonrepeaters; uint16_t maxrepetitions; } __packed; struct agentx_pdu { uint8_t *buffer; uint8_t *ptr; uint8_t *ioptr; size_t buflen; size_t datalen; struct agentx_hdr *hdr; char *context; uint32_t contextlen; void *cookie; struct agentx_pdu *request; /* request this is a response to */ TAILQ_ENTRY(agentx_pdu) entry; }; TAILQ_HEAD(agentx_pdulist, agentx_pdu); struct agentx_handle { int fd; uint32_t sessionid; uint32_t transactid; uint32_t packetid; int timeout; /* in seconds */ int error; int erridx; struct agentx_pdulist w; struct agentx_pdulist inflight; struct agentx_pdu *r; }; struct agentx_search_range { struct snmp_oid start; struct snmp_oid end; int include; /* is start oid included in search range */ }; struct agentx_handle * snmp_agentx_alloc(int); struct agentx_handle * snmp_agentx_open(const char *, char *, struct snmp_oid *); struct agentx_handle * snmp_agentx_fdopen(int, char *, struct snmp_oid *); int snmp_agentx_response(struct agentx_handle *, struct agentx_pdu *); int snmp_agentx_read_response(struct agentx_pdu *, struct agentx_response_data *); int snmp_agentx_open_response(struct agentx_handle *, struct agentx_pdu *); struct agentx_pdu * snmp_agentx_open_pdu(struct agentx_handle *, char *descr, struct snmp_oid *); struct agentx_pdu * snmp_agentx_close_pdu(struct agentx_handle *, uint8_t); int snmp_agentx_close(struct agentx_handle *, uint8_t); void snmp_agentx_free(struct agentx_handle *); int snmp_agentx_ping(struct agentx_handle *); struct agentx_pdu * snmp_agentx_ping_pdu(void); struct agentx_pdu * snmp_agentx_notify_pdu(struct snmp_oid *); struct agentx_pdu * snmp_agentx_request(struct agentx_handle *, struct agentx_pdu *); int snmp_agentx_varbind(struct agentx_pdu *, struct snmp_oid *, int, void *, int); int snmp_agentx_send(struct agentx_handle *, struct agentx_pdu *); int snmp_agentx_enqueue(struct agentx_handle *, struct agentx_pdu *); int snmp_agentx_flush(struct agentx_handle *); struct agentx_pdu * snmp_agentx_recv(struct agentx_handle *); struct agentx_pdu * snmp_agentx_response_pdu(int, int, int); struct agentx_pdu * snmp_agentx_register_pdu(struct snmp_oid *, int, int, int); struct agentx_pdu * snmp_agentx_unregister_pdu(struct snmp_oid *, int, int); struct agentx_pdu * snmp_agentx_get_pdu(struct snmp_oid *, int); struct agentx_pdu * snmp_agentx_getnext_pdu(struct snmp_oid *, int); char *snmp_agentx_read_octetstr(struct agentx_pdu *, int *); int snmp_agentx_read_oid(struct agentx_pdu *, struct snmp_oid *); int snmp_agentx_read_searchrange(struct agentx_pdu *, struct agentx_search_range *); int snmp_agentx_read_raw(struct agentx_pdu *, void *, int); int snmp_agentx_copy_raw(struct agentx_pdu *, void *, int); char *snmp_agentx_type2name(int); int snmp_agentx_read_int(struct agentx_pdu *, uint32_t *); int snmp_agentx_read_int64(struct agentx_pdu *, uint64_t *); int snmp_agentx_raw(struct agentx_pdu *, void *, int); int snmp_agentx_read_vbhdr(struct agentx_pdu *, struct agentx_varbind_hdr *); struct agentx_pdu *snmp_agentx_pdu_alloc(void); void snmp_agentx_pdu_free(struct agentx_pdu *); char *snmp_oid2string(struct snmp_oid *, char *, size_t); int snmp_oid_cmp(struct snmp_oid *, struct snmp_oid *); void snmp_oid_increment(struct snmp_oid *); #if BYTE_ORDER == BIG_ENDIAN static __inline int snmp_agentx_byteorder_native(struct agentx_hdr *h) { return ((h->flags & AGENTX_NETWORK_BYTE_ORDER) != 0); } #define AGENTX_LOCAL_BYTE_ORDER_FLAG AGENTX_NETWORK_BYTE_ORDER #define snmp_agentx_int_byteswap(_i) htole32(_i) #define snmp_agentx_int16_byteswap(_i) htole16(_i) #define snmp_agentx_int64_byteswap(_i) htole64(_i) #elif BYTE_ORDER == LITTLE_ENDIAN static __inline int snmp_agentx_byteorder_native(struct agentx_hdr *h) { return ((h->flags & AGENTX_NETWORK_BYTE_ORDER) == 0); } #define AGENTX_LOCAL_BYTE_ORDER_FLAG 0 #define snmp_agentx_int_byteswap(_i) htobe32(_i) #define snmp_agentx_int16_byteswap(_i) htobe16(_i) #define snmp_agentx_int64_byteswap(_i) htobe64(_i) #else #error "Unknown host byte order" #endif #endif /* SNMP_HEADER */