/* $OpenBSD: agentx.c,v 1.9 2015/07/19 01:08:07 blambert Exp $ */ /* * Copyright (c) 2013,2014 Bret Stephen Lambert * * 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. */ #include #include #include #include #include #include #include #include #include #include #include #include #include "snmp.h" int snmp_agentx_octetstring(struct agentx_pdu *, char *, int); int snmp_agentx_buffercheck(struct agentx_pdu *, size_t); int snmp_agentx_oid(struct agentx_pdu *, struct snmp_oid *); int snmp_agentx_buffer_consume(struct agentx_pdu *, u_int); int snmp_agentx_int(struct agentx_pdu *, uint32_t *); int snmp_agentx_int64(struct agentx_pdu *, uint64_t *); int snmp_agentx_do_read_raw(struct agentx_pdu *, void *, int, int); void snmp_agentx_update_ids(struct agentx_handle *, struct agentx_pdu *); struct agentx_pdu * agentx_find_inflight(struct agentx_handle *, uint32_t, uint32_t); int snmp_agentx_do_read_oid(struct agentx_pdu *, struct snmp_oid *, int *); #ifdef DEBUG static void snmp_agentx_dump_hdr(struct agentx_hdr *); #endif #define PDU_BUFLEN 256 /* snmpTrapOid.0 */ struct snmp_oid trapoid_0 = { .o_id = { 1, 3, 6, 1, 6, 3, 1, 1, 4, 1, 0 }, .o_n = 11 }; /* * AgentX handle allocation and management routines. */ struct agentx_handle * snmp_agentx_alloc(int s) { struct agentx_handle *h; if ((h = calloc(1, sizeof(*h))) == NULL) return (NULL); h->fd = s; h->timeout = AGENTX_DEFAULT_TIMEOUT; TAILQ_INIT(&h->w); TAILQ_INIT(&h->inflight); return (h); } /* * Synchronous open of unix socket path. */ struct agentx_handle * snmp_agentx_open(const char *path, char *descr, struct snmp_oid *oid) { struct sockaddr_un sun; struct agentx_handle *h; int s; if ((s = socket(AF_UNIX, SOCK_STREAM, 0)) == -1) return (NULL); bzero(&sun, sizeof(sun)); sun.sun_family = AF_UNIX; if (strlcpy(sun.sun_path, path, sizeof(sun.sun_path)) >= sizeof(sun.sun_path)) goto fail; if (connect(s, (struct sockaddr *)&sun, sizeof(sun)) == -1) goto fail; if ((h = snmp_agentx_fdopen(s, descr, oid)) == NULL) goto fail; return (h); fail: close(s); return (NULL); } /* * Synchronous AgentX open operation over previously-opened socket. */ struct agentx_handle * snmp_agentx_fdopen(int s, char *descr, struct snmp_oid *oid) { struct agentx_handle *h; struct agentx_pdu *pdu = NULL; if ((h = snmp_agentx_alloc(s)) == NULL) return (NULL); if ((pdu = snmp_agentx_open_pdu(h, descr, oid)) == NULL || (pdu = snmp_agentx_request(h, pdu)) == NULL || snmp_agentx_open_response(h, pdu) == -1) { if (pdu) snmp_agentx_pdu_free(pdu); snmp_agentx_free(h); return (NULL); } return (h); } /* * Synchronous close of agentx handle. */ int snmp_agentx_close(struct agentx_handle *h, uint8_t reason) { struct agentx_pdu *pdu; int error = 0; if ((pdu = snmp_agentx_close_pdu(h, reason)) == NULL) return (-1); if ((pdu = snmp_agentx_request(h, pdu)) == NULL) return (-1); if (snmp_agentx_response(h, pdu) == -1) error = -1; snmp_agentx_pdu_free(pdu); return (error); } void snmp_agentx_free(struct agentx_handle *h) { struct agentx_pdu *pdu; if (h->fd != -1) close(h->fd); while ((pdu = TAILQ_FIRST(&h->w))) { TAILQ_REMOVE(&h->w, pdu, entry); snmp_agentx_pdu_free(pdu); } while ((pdu = TAILQ_FIRST(&h->inflight))) { TAILQ_REMOVE(&h->w, pdu, entry); snmp_agentx_pdu_free(pdu); } if (h->r) snmp_agentx_pdu_free(h->r); free(h); } /* * AgentX pdu allocation routines. */ /* * Allocate an AgentX PDU. */ struct agentx_pdu * snmp_agentx_pdu_alloc(void) { struct agentx_pdu *pdu; if ((pdu = calloc(1, sizeof(*pdu))) == NULL) return (NULL); if ((pdu->buffer = calloc(PDU_BUFLEN, sizeof(uint8_t))) == NULL) { free(pdu); return (NULL); } pdu->buflen = PDU_BUFLEN; bzero(pdu->buffer, pdu->buflen); pdu->ptr = pdu->buffer + sizeof(struct agentx_hdr); pdu->ioptr = pdu->buffer; pdu->hdr = (struct agentx_hdr *)pdu->buffer; pdu->hdr->version = AGENTX_VERSION; pdu->hdr->flags = AGENTX_LOCAL_BYTE_ORDER_FLAG; pdu->hdr->reserved = 0; pdu->hdr->length = 0; pdu->datalen = sizeof(struct agentx_hdr); return (pdu); } /* * Read the response PDU for a generic operation. */ int snmp_agentx_response(struct agentx_handle *h, struct agentx_pdu *pdu) { struct agentx_response_data resp; if (snmp_agentx_read_response(pdu, &resp) == -1) return (-1); h->error = resp.error; if (resp.error != AGENTX_ERR_NONE) return (-1); return (0); } int snmp_agentx_read_response(struct agentx_pdu *pdu, struct agentx_response_data *resp) { if (snmp_agentx_read_raw(pdu, resp, sizeof(*resp)) == -1) return (-1); if (!snmp_agentx_byteorder_native(pdu->hdr)) { resp->error = snmp_agentx_int16_byteswap(resp->error); resp->index = snmp_agentx_int16_byteswap(resp->index); } return (0); } /* * Read the response PDU for an open operation. */ int snmp_agentx_open_response(struct agentx_handle *h, struct agentx_pdu *pdu) { if (snmp_agentx_response(h, pdu) == -1) return (-1); h->sessionid = pdu->hdr->sessionid; return (0); } void snmp_agentx_pdu_free(struct agentx_pdu *pdu) { free(pdu->buffer); if (pdu->request) free(pdu->request); free(pdu); } int snmp_agentx_buffer_consume(struct agentx_pdu *b, u_int len) { int padding; padding = ((len + 3) & ~0x03) - len; if (b->datalen < (len + padding)) return (-1); b->datalen -= len + padding; b->ptr += len + padding; return (0); } /* * Send an AgentX PDU. Flushes any already-enqueued PDUs. */ int snmp_agentx_send(struct agentx_handle *h, struct agentx_pdu *pdu) { ssize_t n; /* set the appropriate IDs in the protocol header */ if (pdu != NULL && (pdu->datalen == pdu->hdr->length + sizeof(struct agentx_hdr))) { pdu->hdr->sessionid = h->sessionid; if (pdu->hdr->type != AGENTX_RESPONSE) { ++h->transactid; ++h->packetid; } pdu->hdr->transactid = h->transactid; pdu->hdr->packetid = h->packetid; TAILQ_INSERT_TAIL(&h->w, pdu, entry); } again: if ((pdu = TAILQ_FIRST(&h->w)) == NULL) return (0); if ((n = send(h->fd, pdu->ioptr, pdu->datalen, 0)) == -1) return (-1); pdu->ioptr += n; pdu->datalen -= n; if (pdu->datalen > 0) { errno = EAGAIN; return (-1); } #ifdef DEBUG snmp_agentx_dump_hdr(pdu->hdr); #endif TAILQ_REMOVE(&h->w, pdu, entry); TAILQ_INSERT_TAIL(&h->inflight, pdu, entry); goto again; } /* * Attempt to read a single AgentX PDU. */ struct agentx_pdu * snmp_agentx_recv(struct agentx_handle *h) { struct agentx_pdu *pdu, *match; ssize_t n; h->error = AGENTX_ERR_NONE; if (h->r == NULL) { if ((h->r = snmp_agentx_pdu_alloc()) == NULL) return (NULL); h->r->datalen = 0; /* XXX -- force this for receive buffers */ } pdu = h->r; if (snmp_agentx_buffercheck(pdu, sizeof(struct agentx_hdr)) == -1) return (NULL); /* read header */ if (pdu->datalen < sizeof(struct agentx_hdr)) { n = recv(h->fd, pdu->ioptr, sizeof(struct agentx_hdr), 0); if (n == 0 || n == -1) return (NULL); pdu->datalen += n; pdu->ioptr += n; if (pdu->datalen < sizeof(struct agentx_hdr)) { errno = EAGAIN; return (NULL); } if (pdu->hdr->version != AGENTX_VERSION) { h->error = AGENTX_ERR_PARSE_ERROR; return (NULL); } if (snmp_agentx_buffercheck(pdu, pdu->hdr->length) == -1) return (NULL); } /* read body */ if (pdu->hdr->length > 0) { n = recv(h->fd, pdu->ioptr, pdu->hdr->length, 0); if (n == 0 || n == -1) return (NULL); pdu->datalen += n; pdu->ioptr += n; } if (pdu->datalen < pdu->hdr->length + sizeof(struct agentx_hdr)) { errno = EAGAIN; return (NULL); } if (pdu->hdr->version != AGENTX_VERSION) { h->error = AGENTX_ERR_PARSE_ERROR; goto fail; } /* If this is an open on a new connection, fix it up */ if (pdu->hdr->type == AGENTX_OPEN && h->sessionid == 0) { pdu->hdr->sessionid = 0; /* ignored, per RFC */ h->transactid = pdu->hdr->transactid; h->packetid = pdu->hdr->packetid; } if (pdu->hdr->type == AGENTX_RESPONSE) { match = agentx_find_inflight(h, pdu->hdr->transactid, pdu->hdr->packetid); if (match == NULL) { errno = ESRCH; /* XXX */ goto fail; } TAILQ_REMOVE(&h->inflight, match, entry); pdu->request = match; h->r = NULL; } else { if (pdu->hdr->sessionid != h->sessionid) { h->error = AGENTX_ERR_NOT_OPEN; goto fail; } snmp_agentx_update_ids(h, pdu); /* XXX */ if (pdu->datalen != pdu->hdr->length + sizeof(*pdu->hdr)) { h->error = AGENTX_ERR_PARSE_ERROR; goto fail; } if (pdu->hdr->flags & AGENTX_NON_DEFAULT_CONTEXT) { pdu->context = snmp_agentx_read_octetstr(pdu, &pdu->contextlen); if (pdu->context == NULL) { h->error = AGENTX_ERR_PARSE_ERROR; goto fail; } } } #ifdef DEBUG snmp_agentx_dump_hdr(pdu->hdr); #endif h->r = NULL; return (pdu); fail: #ifdef DEBUG snmp_agentx_dump_hdr(pdu->hdr); #endif snmp_agentx_pdu_free(pdu); h->r = NULL; return (NULL); } /* * Synchonous request and receipt of response. */ struct agentx_pdu * snmp_agentx_request(struct agentx_handle *h, struct agentx_pdu *pdu) { if (snmp_agentx_send(h, pdu) == -1) { if (errno != EAGAIN) return (NULL); } while (snmp_agentx_send(h, NULL) == -1) { if (errno != EAGAIN) return (NULL); } while ((pdu = snmp_agentx_recv(h)) == NULL) { if (errno != EAGAIN) return (NULL); } h->error = AGENTX_ERR_NONE; return (pdu); } struct agentx_pdu * agentx_find_inflight(struct agentx_handle *h, uint32_t tid, uint32_t pid) { struct agentx_pdu *pdu; TAILQ_FOREACH(pdu, &h->inflight, entry) if (pdu->hdr->transactid == tid && pdu->hdr->packetid == pid) break; return (pdu); } int snmp_agentx_buffercheck(struct agentx_pdu *pdu, size_t len) { uint8_t *newptr; size_t newlen; if (pdu->buflen - pdu->datalen >= len) return (0); newlen = pdu->buflen + len; if (newlen < pdu->buflen || newlen < len) return (-1); if ((newptr = realloc(pdu->buffer, newlen)) == NULL) return (-1); pdu->buflen = newlen; pdu->ioptr = &newptr[pdu->ioptr - pdu->buffer]; pdu->buffer = newptr; pdu->hdr = (struct agentx_hdr *)pdu->buffer; pdu->ptr = &pdu->buffer[pdu->datalen]; return (0); } /* * Utility routines for initializing common AgentX PDUs. */ struct agentx_pdu * snmp_agentx_open_pdu(struct agentx_handle *h, char *descr, struct snmp_oid *oid) { struct agentx_open_timeout to; struct snmp_oid nulloid; struct agentx_pdu *pdu; if ((pdu = snmp_agentx_pdu_alloc()) == NULL) return (NULL); pdu->hdr->type = AGENTX_OPEN; if (oid == NULL) { bzero(&nulloid, sizeof(nulloid)); oid = &nulloid; } bzero(&to, sizeof(to)); to.timeout = AGENTX_DEFAULT_TIMEOUT; if (snmp_agentx_raw(pdu, &to, sizeof(to)) == -1 || snmp_agentx_oid(pdu, oid) == -1 || snmp_agentx_octetstring(pdu, descr, strlen(descr)) == -1) goto fail; return (pdu); fail: snmp_agentx_pdu_free(pdu); return (NULL); } struct agentx_pdu * snmp_agentx_close_pdu(struct agentx_handle *h, uint8_t reason) { struct agentx_close_request_data req; struct agentx_pdu *pdu; if ((pdu = snmp_agentx_pdu_alloc()) == NULL) return (NULL); pdu->hdr->type = AGENTX_CLOSE; bzero(&req, sizeof(req)); req.reason = reason; if (snmp_agentx_raw(pdu, &req, sizeof(req)) == -1) { snmp_agentx_pdu_free(pdu); return (NULL); } return (pdu); } struct agentx_pdu * snmp_agentx_notify_pdu(struct snmp_oid *oid) { struct agentx_pdu *pdu; if ((pdu = snmp_agentx_pdu_alloc()) == NULL) return (NULL); pdu->hdr->type = AGENTX_NOTIFY; if (snmp_agentx_varbind(pdu, &trapoid_0, AGENTX_OBJECT_IDENTIFIER, oid, sizeof(*oid)) == -1) { snmp_agentx_pdu_free(pdu); return (NULL); } return (pdu); } struct agentx_pdu * snmp_agentx_response_pdu(int uptime, int error, int idx) { struct agentx_response_data resp; struct agentx_pdu *pdu; if ((pdu = snmp_agentx_pdu_alloc()) == NULL) return (NULL); pdu->hdr->type = AGENTX_RESPONSE; resp.sysuptime = uptime; resp.error = error; resp.index = idx; if (snmp_agentx_raw(pdu, &resp, sizeof(resp)) == -1) { snmp_agentx_pdu_free(pdu); return (NULL); } return (pdu); } struct agentx_pdu * snmp_agentx_ping_pdu(void) { struct agentx_pdu *pdu; if ((pdu = snmp_agentx_pdu_alloc()) == NULL) return (NULL); pdu->hdr->version = AGENTX_VERSION; pdu->hdr->type = AGENTX_PING; return (pdu); } struct agentx_pdu * snmp_agentx_register_pdu(struct snmp_oid *oid, int timeout, int range_index, int range_bound) { struct agentx_register_hdr rhdr; struct agentx_pdu *pdu; if ((pdu = snmp_agentx_pdu_alloc()) == NULL) return (NULL); pdu->hdr->version = AGENTX_VERSION; pdu->hdr->type = AGENTX_REGISTER; rhdr.timeout = timeout; rhdr.priority = AGENTX_REGISTER_PRIO_DEFAULT; rhdr.subrange = range_index; rhdr.reserved = 0; if (snmp_agentx_raw(pdu, &rhdr, sizeof(rhdr)) == -1 || snmp_agentx_oid(pdu, oid) == -1 || (range_index && snmp_agentx_int(pdu, &range_bound) == -1)) { snmp_agentx_pdu_free(pdu); return (NULL); } return (pdu); } struct agentx_pdu * snmp_agentx_unregister_pdu(struct snmp_oid *oid, int range_index, int range_bound) { struct agentx_unregister_hdr uhdr; struct agentx_pdu *pdu; if ((pdu = snmp_agentx_pdu_alloc()) == NULL) return (NULL); pdu->hdr->version = AGENTX_VERSION; pdu->hdr->type = AGENTX_UNREGISTER; uhdr.reserved1 = 0; uhdr.priority = AGENTX_REGISTER_PRIO_DEFAULT; uhdr.subrange = range_index; uhdr.reserved2 = 0; if (snmp_agentx_raw(pdu, &uhdr, sizeof(uhdr)) == -1 || snmp_agentx_oid(pdu, oid) == -1 || snmp_agentx_oid(pdu, oid) == -1 || (range_index && snmp_agentx_int(pdu, &range_bound) == -1)) { snmp_agentx_pdu_free(pdu); return (NULL); } return (pdu); } struct agentx_pdu * snmp_agentx_get_pdu(struct snmp_oid oid[], int noid) { struct snmp_oid nulloid; struct agentx_pdu *pdu; int i; if ((pdu = snmp_agentx_pdu_alloc()) == NULL) return (NULL); pdu->hdr->version = AGENTX_VERSION; pdu->hdr->type = AGENTX_GET; bzero(&nulloid, sizeof(nulloid)); for (i = 0; i < noid; i++) { if (snmp_agentx_oid(pdu, &oid[i]) == -1 || snmp_agentx_oid(pdu, &nulloid) == -1) { snmp_agentx_pdu_free(pdu); return (NULL); } } return (pdu); } struct agentx_pdu * snmp_agentx_getnext_pdu(struct snmp_oid oid[], int noid) { struct snmp_oid nulloid; struct agentx_pdu *pdu; int i; if ((pdu = snmp_agentx_pdu_alloc()) == NULL) return (NULL); pdu->hdr->version = AGENTX_VERSION; pdu->hdr->type = AGENTX_GET_NEXT; bzero(&nulloid, sizeof(nulloid)); for (i = 0; i < noid; i++) { if (snmp_agentx_oid(pdu, &oid[i]) == -1 || snmp_agentx_oid(pdu, &nulloid) == -1) { snmp_agentx_pdu_free(pdu); return (NULL); } } return (pdu); } /* * AgentX PDU write routines. */ int snmp_agentx_raw(struct agentx_pdu *pdu, void *data, int len) { if (snmp_agentx_buffercheck(pdu, len) == -1) return (-1); memcpy(pdu->ptr, data, len); pdu->hdr->length += len; pdu->ptr += len; pdu->datalen += len; return (0); } int snmp_agentx_int(struct agentx_pdu *pdu, uint32_t *i) { return (snmp_agentx_raw(pdu, i, sizeof(*i))); } int snmp_agentx_int64(struct agentx_pdu *pdu, uint64_t *i) { return (snmp_agentx_raw(pdu, i, sizeof(*i))); } int snmp_agentx_octetstring(struct agentx_pdu *pdu, char *str, int len) { static uint8_t pad[4] = { 0, 0, 0, 0 }; int padding; uint32_t l; padding = ((len + 3) & ~0x03) - len; l = len; if (snmp_agentx_int(pdu, &l) == -1 || snmp_agentx_raw(pdu, str, len) == -1 || snmp_agentx_raw(pdu, pad, padding) == -1) return (-1); return (0); } int snmp_agentx_oid(struct agentx_pdu *pdu, struct snmp_oid *oid) { struct agentx_oid_hdr ohdr; u_int i, prefix; i = prefix = 0; if (oid->o_id[0] == 1 && oid->o_id[1] == 3 && oid->o_id[2] == 6 && oid->o_id[3] == 1 && oid->o_id[4] < 256) { prefix = oid->o_id[4]; i = 5; } if (prefix) ohdr.n_subid = oid->o_n - 5; else ohdr.n_subid = oid->o_n; ohdr.prefix = prefix; ohdr.include = 0; ohdr.reserved = 0; if (snmp_agentx_raw(pdu, &ohdr, sizeof(ohdr)) == -1) return (-1); for (; i < oid->o_n; i++) if (snmp_agentx_int(pdu, &oid->o_id[i]) == -1) return (-1); return (0); } int snmp_agentx_varbind(struct agentx_pdu *pdu, struct snmp_oid *oid, int type, void *data, int len) { struct agentx_varbind_hdr vbhdr; vbhdr.type = type; vbhdr.reserved = 0; if (snmp_agentx_raw(pdu, &vbhdr, sizeof(vbhdr)) == -1) return (-1); if (snmp_agentx_oid(pdu, oid) == -1) return (-1); switch (type) { case AGENTX_NO_SUCH_OBJECT: case AGENTX_NO_SUCH_INSTANCE: case AGENTX_END_OF_MIB_VIEW: case AGENTX_NULL: /* no data follows the OID */ return (0); case AGENTX_IP_ADDRESS: case AGENTX_OPAQUE: case AGENTX_OCTET_STRING: return (snmp_agentx_octetstring(pdu, data, len)); case AGENTX_OBJECT_IDENTIFIER: return (snmp_agentx_oid(pdu, (struct snmp_oid *)data)); case AGENTX_INTEGER: case AGENTX_COUNTER32: case AGENTX_GAUGE32: case AGENTX_TIME_TICKS: return (snmp_agentx_int(pdu, (uint32_t *)data)); case AGENTX_COUNTER64: return (snmp_agentx_int64(pdu, (uint64_t *)data)); default: return (-1); } /* NOTREACHED */ } /* * AgentX PDU read routines. */ int snmp_agentx_read_vbhdr(struct agentx_pdu *pdu, struct agentx_varbind_hdr *vbhdr) { if (snmp_agentx_read_raw(pdu, vbhdr, sizeof(*vbhdr)) == -1) return (-1); if (!snmp_agentx_byteorder_native(pdu->hdr)) vbhdr->type = snmp_agentx_int16_byteswap(vbhdr->type); return (0); } int snmp_agentx_copy_raw(struct agentx_pdu *pdu, void *v, int len) { return (snmp_agentx_do_read_raw(pdu, v, len, 0)); } int snmp_agentx_read_raw(struct agentx_pdu *pdu, void *v, int len) { return (snmp_agentx_do_read_raw(pdu, v, len, 1)); } int snmp_agentx_do_read_raw(struct agentx_pdu *pdu, void *v, int len, int consume) { void *ptr = pdu->ptr; if (consume) if (snmp_agentx_buffer_consume(pdu, len) == -1) return (-1); memcpy(v, ptr, len); return (0); } int snmp_agentx_read_int(struct agentx_pdu *pdu, uint32_t *i) { if (snmp_agentx_read_raw(pdu, i, sizeof(*i)) == -1) return (-1); if (!snmp_agentx_byteorder_native(pdu->hdr)) *i = snmp_agentx_int_byteswap(*i); return (0); } int snmp_agentx_read_int64(struct agentx_pdu *pdu, uint64_t *i) { if (snmp_agentx_read_raw(pdu, i, sizeof(*i)) == -1) return (-1); if (!snmp_agentx_byteorder_native(pdu->hdr)) *i = snmp_agentx_int64_byteswap(*i); return (0); } int snmp_agentx_read_oid(struct agentx_pdu *pdu, struct snmp_oid *oid) { int dummy; return (snmp_agentx_do_read_oid(pdu, oid, &dummy)); } int snmp_agentx_do_read_oid(struct agentx_pdu *pdu, struct snmp_oid *oid, int *include) { struct agentx_oid_hdr ohdr; int i = 0; if (snmp_agentx_read_raw(pdu, &ohdr, sizeof(ohdr)) == -1) return (-1); bzero(oid, sizeof(*oid)); if (ohdr.prefix != 0) { oid->o_id[0] = 1; oid->o_id[1] = 3; oid->o_id[2] = 6; oid->o_id[3] = 1; oid->o_id[4] = ohdr.prefix; i = 5; } while (ohdr.n_subid--) if (snmp_agentx_read_int(pdu, &oid->o_id[i++]) == -1) return (-1); oid->o_n = i; *include = ohdr.include; return (0); } int snmp_agentx_read_searchrange(struct agentx_pdu *pdu, struct agentx_search_range *sr) { if (snmp_agentx_do_read_oid(pdu, &sr->start, &sr->include) == -1 || snmp_agentx_read_oid(pdu, &sr->end) == -1) return (-1); return (0); } char * snmp_agentx_read_octetstr(struct agentx_pdu *pdu, int *len) { char *str; uint32_t l; if (snmp_agentx_read_int(pdu, &l) == -1) return (NULL); if ((str = malloc(l)) == NULL) return (NULL); if (snmp_agentx_read_raw(pdu, str, l) == -1) { free(str); return (NULL); } *len = l; return (str); } /* * Synchronous AgentX calls. */ int snmp_agentx_ping(struct agentx_handle *h) { struct agentx_pdu *pdu; int error = 0; if ((pdu = snmp_agentx_ping_pdu()) == NULL) return (-1); /* Attaches the pdu to the handle; will be released later */ if ((pdu = snmp_agentx_request(h, pdu)) == NULL) return (-1); if (snmp_agentx_response(h, pdu) == -1) error = -1; snmp_agentx_pdu_free(pdu); return (error); } /* * Internal utility functions. */ void snmp_agentx_update_ids(struct agentx_handle *h, struct agentx_pdu *pdu) { /* XXX -- update to reflect the new queueing semantics */ h->transactid = pdu->hdr->transactid; h->packetid = pdu->hdr->packetid; } char * snmp_oid2string(struct snmp_oid *o, char *buf, size_t len) { char str[256]; size_t i; bzero(buf, len); for (i = 0; i < o->o_n; i++) { snprintf(str, sizeof(str), "%d", o->o_id[i]); strlcat(buf, str, len); if (i < (o->o_n - 1)) strlcat(buf, ".", len); } return (buf); } int snmp_oid_cmp(struct snmp_oid *a, struct snmp_oid *b) { size_t i; for (i = 0; i < SNMP_MAX_OID_LEN; i++) { if (a->o_id[i] != 0) { if (a->o_id[i] == b->o_id[i]) continue; else if (a->o_id[i] < b->o_id[i]) { /* b is a successor of a */ return (1); } else { /* b is a predecessor of a */ return (-1); } } else if (b->o_id[i] != 0) { /* b is larger, but a child of a */ return (2); } else break; } /* b and a are identical */ return (0); } void snmp_oid_increment(struct snmp_oid *o) { u_int i; for (i = o->o_n; i > 0; i--) { o->o_id[i - 1]++; if (o->o_id[i - 1] != 0) break; } } char * snmp_agentx_type2name(int type) { static char *names[] = { "AGENTX_OPEN", "AGENTX_CLOSE", "AGENTX_REGISTER", "AGENTX_UNREGISTER", "AGENTX_GET", "AGENTX_GET_NEXT", "AGENTX_GET_BULK", "AGENTX_TEST_SET", "AGENTX_COMMIT_SET", "AGENTX_UNDO_SET", "AGENTX_CLEANUP_SET", "AGENTX_NOTIFY", "AGENTX_PING", "AGENTX_INDEX_ALLOCATE", "AGENTX_INDEX_DEALLOCATE", "AGENTX_ADD_AGENT_CAPS", "AGENTX_REMOVE_AGENT_CAPS", "AGENTX_RESPONSE" }; if (type > 18) return ("unknown"); return (names[type - 1]); } #ifdef DEBUG static void snmp_agentx_dump_hdr(struct agentx_hdr *hdr) { if (hdr == NULL) { printf("NULL\n"); return; } fprintf(stderr, "agentx: version %d type %s flags %d reserved %d" " sessionid %d transactid %d packetid %d length %d", hdr->version, snmp_agentx_type2name(hdr->type), hdr->flags, hdr->reserved, hdr->sessionid, hdr->transactid, hdr->packetid, hdr->length); if (hdr->type == AGENTX_RESPONSE) { struct agentx_response *r = (struct agentx_response *)hdr; fprintf(stderr, " sysuptime %d error %d index %d", r->data.sysuptime, r->data.error, r->data.index); } fprintf(stderr, "\n"); } #endif