862 lines
27 KiB
Groff
862 lines
27 KiB
Groff
.\"
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.\" Copyright (c) 2001-2003
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.\" Fraunhofer Institute for Open Communication Systems (FhG Fokus).
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.\" All rights reserved.
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.\"
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.\" Author: Harti Brandt <harti@freebsd.org>
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.\"
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.\" Redistribution of this software and documentation and use in source and
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.\" binary forms, with or without modification, are permitted provided that
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.\" the following conditions are met:
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.\"
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.\" 1. Redistributions of source code or documentation must retain the above
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.\" copyright notice, this list of conditions and the following disclaimer.
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.\" 2. Redistributions in binary form must reproduce the above copyright
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.\" notice, this list of conditions and the following disclaimer in the
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.\" documentation and/or other materials provided with the distribution.
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.\" 3. Neither the name of the Institute nor the names of its contributors
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.\" may be used to endorse or promote products derived from this software
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.\" without specific prior written permission.
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.\"
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.\" THIS SOFTWARE AND DOCUMENTATION IS PROVIDED BY FRAUNHOFER FOKUS
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.\" AND ITS CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES,
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.\" INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
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.\" FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL
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.\" FRAUNHOFER FOKUS OR ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
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.\" INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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.\" LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,
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.\" OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
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.\" LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
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.\" NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
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.\" EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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.\"
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.\" $Begemot: bsnmp/snmpd/snmpmod.3,v 1.3 2003/01/28 13:44:35 hbb Exp $
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.\"
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.Dd August 16, 2002
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.Dt snmpmod 3
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.Os
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.Sh NAME
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.Nm INSERT_OBJECT_OID_LINK_INDEX ,
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.Nm INSERT_OBJECT_INT_LINK_INDEX ,
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.Nm FIND_OBJECT_OID_LINK_INDEX ,
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.Nm NEXT_OBJECT_OID_LINK_INDEX ,
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.Nm FIND_OBJECT_INT_LINK_INDEX ,
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.Nm NEXT_OBJECT_INT_LINK_INDEX ,
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.Nm INSERT_OBJECT_OID_LINK ,
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.Nm INSERT_OBJECT_INT_LINK ,
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.Nm FIND_OBJECT_OID_LINK ,
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.Nm NEXT_OBJECT_OID_LINK ,
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.Nm FIND_OBJECT_INT_LINK ,
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.Nm NEXT_OBJECT_INT_LINK ,
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.Nm INSERT_OBJECT_OID ,
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.Nm INSERT_OBJECT_INT ,
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.Nm FIND_OBJECT_OID ,
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.Nm FIND_OBJECT_INT ,
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.Nm NEXT_OBJECT_OID ,
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.Nm NEXT_OBJECT_INT ,
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.Nm this_tick ,
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.Nm start_tick ,
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.Nm get_ticks ,
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.Nm systemg ,
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.Nm comm_define ,
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.Nm community ,
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.Nm oid_zeroDotZero ,
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.Nm reqid_allocate ,
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.Nm reqid_next ,
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.Nm reqid_base ,
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.Nm reqid_istype ,
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.Nm reqid_type ,
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.Nm timer_start ,
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.Nm timer_stop ,
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.Nm fd_select ,
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.Nm fd_deselect ,
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.Nm fd_suspend ,
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.Nm fd_resume ,
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.Nm or_register ,
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.Nm or_unregister ,
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.Nm buf_alloc ,
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.Nm buf_size ,
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.Nm snmp_input_start ,
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.Nm snmp_input_finish ,
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.Nm snmp_output ,
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.Nm snmp_send_port ,
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.Nm snmp_send_trap ,
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.Nm string_save ,
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.Nm string_commit ,
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.Nm string_rollback ,
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.Nm string_get ,
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.Nm string_free ,
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.Nm ip_save ,
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.Nm ip_rollback ,
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.Nm ip_commit ,
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.Nm ip_get ,
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.Nm oid_save ,
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.Nm oid_rollback ,
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.Nm oid_commit ,
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.Nm oid_get ,
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.Nm index_decode ,
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.Nm index_compare ,
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.Nm index_compare_off ,
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.Nm index_append ,
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.Nm index_append_off
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.Nd "SNMP daemon loadable module interface"
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.Sh LIBRARY
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Begemot SNMP library
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.Pq libbsnmp, -lbsnmp
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.Sh SYNOPSIS
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.In bsnmp/snmpmod.h
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.Fn INSERT_OBJECT_OID_LINK_INDEX "PTR" "LIST" "LINK" "INDEX"
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.Fn INSERT_OBJECT_INT_LINK_INDEX "PTR" "LIST" "LINK" "INDEX"
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.Fn FIND_OBJECT_OID_LINK_INDEX "LIST" "OID" "SUB" "LINK" "INDEX"
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.Fn FIND_OBJECT_INT_LINK_INDEX "LIST" "OID" "SUB" "LINK" "INDEX"
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.Fn NEXT_OBJECT_OID_LINK_INDEX "LIST" "OID" "SUB" "LINK" "INDEX"
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.Fn NEXT_OBJECT_INT_LINK_INDEX "LIST" "OID" "SUB" "LINK" "INDEX"
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.Fn INSERT_OBJECT_OID_LINK "PTR" "LIST" "LINK"
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.Fn INSERT_OBJECT_INT_LINK "PTR" "LIST" "LINK"
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.Fn FIND_OBJECT_OID_LINK "LIST" "OID" "SUB" "LINK"
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.Fn FIND_OBJECT_INT_LINK "LIST" "OID" "SUB" "LINK"
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.Fn NEXT_OBJECT_OID_LINK "LIST" "OID" "SUB" "LINK"
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.Fn NEXT_OBJECT_INT_LINK "LIST" "OID" "SUB" "LINK"
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.Fn INSERT_OBJECT_OID "PTR" "LIST"
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.Fn INSERT_OBJECT_INT "PTR" "LIST"
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.Fn FIND_OBJECT_OID "LIST" "OID" "SUB"
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.Fn FIND_OBJECT_INT "LIST" "OID" "SUB"
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.Fn NEXT_OBJECT_OID "LIST" "OID" "SUB"
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.Fn NEXT_OBJECT_INT "LIST" "OID" "SUB"
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.Vt extern u_int32_t this_tick ;
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.Vt extern u_int32_t start_tick ;
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.Ft u_int32_t
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.Fn get_ticks "void"
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.Vt extern struct systemg systemg ;
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.Ft u_int
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.Fn comm_define "u_int priv" "const char *descr" "struct lmodule *mod" "const char *str"
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.Ft const char *
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.Fn comm_string "u_int comm"
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.Vt extern u_int community ;
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.Vt extern const struct asn_oid oid_zeroDotZero ;
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.Ft u_int
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.Fn reqid_allocate "int size" "struct lmodule *mod"
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.Ft int32_t
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.Fn reqid_next "u_int type"
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.Ft int32_t
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.Fn reqid_base "u_int type"
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.Ft int
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.Fn reqid_istype "int32_t reqid" "u_int type"
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.Ft u_int
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.Fn reqid_type "int32_t reqid"
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.Ft void *
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.Fn timer_start "u_int ticks" "void (*func)(void *)" "void *uarg" "struct lmodule *mod"
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.Ft void
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.Fn timer_stop "void *timer_id"
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.Ft void *
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.Fn fd_select "int fd" "void (*func)(int, void *)" "void *uarg" "struct lmodule *mod"
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.Ft void
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.Fn fd_deselect "void *fd_id"
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.Ft void
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.Fn fd_suspend "void *fd_id"
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.Ft int
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.Fn fd_resume "void *fd_id"
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.Ft u_int
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.Fn or_register "const struct asn_oid *oid" "const char *descr" "struct lmodule *mod"
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.Ft void
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.Fn or_unregister "u_int or_id"
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.Ft void *
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.Fn buf_alloc "int tx"
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.Ft size_t
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.Fn buf_size "int tx"
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.Ft enum snmpd_input_err
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.Fn snmp_input_start "const u_char *buf" "size_t len" "const char *source" \
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"struct snmp_pdu *pdu" "int32_t *ip"
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.Ft enum snmpd_input_err
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.Fn snmp_input_finish "struct snmp_pdu *pdu" "const u_char *rcvbuf" \
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"size_t rcvlen" "u_char *sndbuf" "size_t *sndlen" "const char *source" \
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"enum snmpd_input_err ierr" "int32_t ip" "void *data"
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.Ft void
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.Fn snmp_output "struct snmp_pdu *pdu" "u_char *sndbuf" "size_t *sndlen" \
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"const char *dest"
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.Ft void
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.Fn snmp_send_port "const struct asn_oid *port" "struct snmp_pdu *pdu" \
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"const struct sockaddr *addr" "socklen_t addrlen"
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.Ft void
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.Fn snmp_send_trap "const struct asn_oid *oid" "..."
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.Ft int
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.Fn string_save "struct snmp_value *val" "struct snmp_context *ctx" "ssize_t req_size" "u_char **strp"
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.Ft void
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.Fn string_commit "struct snmp_context *ctx"
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.Ft void
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.Fn string_rollback "struct snmp_context *ctx" "u_char **strp"
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.Ft int
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.Fn string_get "struct snmp_value *val" "const u_char *str" "ssize_t len"
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.Ft void
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.Fn string_free "struct snmp_context *ctx"
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.Ft int
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.Fn ip_save "struct snmp_value *val" "struct snmp_context *ctx" "u_char *ipa"
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.Ft void
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.Fn ip_rollback "struct snmp_context *ctx" "u_char *ipa"
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.Ft void
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.Fn ip_commit "struct snmp_context *ctx"
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.Ft int
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.Fn ip_get "struct snmp_value *val" "u_char *ipa"
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.Ft int
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.Fn oid_save "struct snmp_value *val" "struct snmp_context *ctx" "struct asn_oid *oid"
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.Ft void
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.Fn oid_rollback "struct snmp_context *ctx" "struct asn_oid *oid"
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.Ft void
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.Fn oid_commit "struct snmp_context *ctx"
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.Ft int
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.Fn oid_get "struct snmp_value *val" "const struct asn_oid *oid"
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.Ft int
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.Fn index_decode "const struct asn_oid *oid" "u_int sub" "u_int code" "..."
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.Ft int
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.Fn index_compare "const struct asn_oid *oid1" "u_int sub" "const struct asn_oid *oid2"
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.Ft int
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.Fn index_compare_off "const struct asn_oid *oid1" "u_int sub" "const struct asn_oid *oid2" "u_int off"
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.Ft void
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.Fn index_append "struct asn_oid *dst" "u_int sub" "const struct asn_oid *src"
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.Ft void
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.Fn index_append_off "struct asn_oid *dst" "u_int sub" "const struct asn_oid *src" "u_int off"
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.Sh DESCRIPTION
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The
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.Xr snmpd 1
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SNMP daemon implements a minimal MIB which consists of the system group, part
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of the SNMP MIB, a private configuration MIB, a trap destination table, a
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UDP port table, a community table, a module table, a statistics group and
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a debugging group. All other MIBs are support through loadable modules.
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This allows
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.Xr snmpd 1
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to use for task, that are not the classical SNMP task.
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.Ss MODULE LOADING AND UNLOADING
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Modules are loaded by writing to the module table. This table is indexed by
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a string, that identfies the module to the daemon. This identifier is used
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to select the correct configuration section from the configuration files and
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to identify resources allocated to this module. A row in the module table is
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created by writing a string of non-zero length to the
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.Va begemotSnmpdModulePath
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column. This string must be the complete path to the file containing the module.
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A module can be unloaded by writing a zero length string to the path column
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of an existing row.
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.Pp
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Modules may depend on each other an hence must be loaded in the correct order.
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The dependencies are listed in the corresponding manual pages.
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.Pp
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Upon loading a module the SNMP daemon expects the module file to a export
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a global symbol
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.Va config .
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This symbol should be a variable of type
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.Vt struct snmp_module :
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.Bd -literal -offset indent
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typedef enum snmpd_proxy_err (*proxy_err_f)(struct snmp_pdu *,
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const struct asn_oid *, const struct sockaddr *, socklen_t,
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enum snmpd_input_err, int32_t);
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struct snmp_module {
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const char *comment;
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int (*init)(struct lmodule *, int argc, char *argv[]);
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int (*fini)(void);
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void (*idle)(void);
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void (*dump)(void);
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void (*config)(void);
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void (*start)(void);
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proxy_err_f proxy;
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const struct snmp_node *tree;
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u_int tree_size;
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void (*loading)(const struct lmodule *, int);
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};
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.Ed
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.Pp
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This structure must be statically initialized and its fields have the
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following functions:
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.Bl -tag -width ".It Va tree_size"
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.It Va comment
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This is a string that will be visible in the module table. It should give
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some hint about the function of this module.
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.It Va init
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This function is called upon loading the module. The module pointer should
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be stored by the module because it is needed in other calls and the
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argument vector will contain the arguments to this module from the daemons
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command line. This function should return 0 if everything is ok or an
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UNIX error code (see
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.Xr errno 3 ).
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Once the function returns 0, the
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.Va fini
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function is called when the module is unloaded.
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.It Va fini
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The module is unloaded. This gives the module a chance to free resources that
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are not automatically freed. Be sure to free all memory, because daemons tend
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to run very long. This function pointer may be
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.Li NULL
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if it is not needed.
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.It Va idle
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If this function pointer is not
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.Li NULL ,
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the function pointed to by it is called whenever the daemon is going
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to wait for an event. Try to avoid using this feature.
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.It Va dump
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Whenever the daemon receives a
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.Li SIGUSR1
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it dumps it internal state via
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.Xr syslog 3 .
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If the
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.Va dump
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field is not
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.Li NULL
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it is called by the daemon to dump the state of the module.
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.It Va config
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Whenever the daemon receives a
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.Li SIGHUP
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signal it re-reads its configuration file.
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If the
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.Va config
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field is not
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.Li NULL
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it is called after reading the configuration file to give the module a chance
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to adapt to the new configuration.
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.It Va start
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If not
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.Li NULL
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this function is called after successful loading and initializing the module
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to start its actual operation.
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.It Va proxy
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If the daemon receives a PDU and that PDU has a community string who's
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community was registered by this module and
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.Va proxy
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is not
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.Li NULL
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than this function is called to handle the PDU.
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.It Va tree
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This is a pointer to the node array for the MIB tree implemented by this module.
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.It Va tree_size
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This is the number of nodes in
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.Va tree .
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.It Va loading
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If this pointer is not
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.Li NULL
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it is called whenever another module was loaded or unloaded. It gets a
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pointer to that module and a flag that is 0 for unloading and 1 for loading.
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.El
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.Pp
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When everything is ok, the daemon merges the module's MIB tree into its current
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global tree, calls the modules
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.Fn init
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function. If this function returns an error, the modules MIB tree is removed from
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the global one and the module is unloaded. If initialisation is successful,
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the modules
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.Fn start
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function is called.
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After it returns the
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.Fn loaded
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functions of all modules (including the loaded one) are called.
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.Pp
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When the module is unloaded, its MIB tree is removed from the global one,
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the communities, request id ranges, running timers and selected file
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descriptors are released, the
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.Fn fini
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function is called, the module file is unloaded and the
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.Fn loaded
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functions of all other modules are called.
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.Ss IMPLEMENTING TABLES
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There are a number of macros designed to help implementing SNMP tables.
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A problem while implementing a table is the support for the GETNEXT operator.
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The GETNEXT operation has to find out whether, given an arbitrary OID, the
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lessest table row, that has an OID higher than the given OID. The easiest way
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to do this is to keep the table as an ordered list of structures each one
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of which contains an OID that is the index of the table row. This allows easy
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removal, insertion and search.
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.Pp
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The helper macros assume, that the table is organized as a TAILQ (see
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.Xr queue 3
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and each structure contains a
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.Vt struct asn_oid
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that is used as index.
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For simple tables with only a integer or unsigned index, an alternate form
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of the macros is available, that presume the existence of an integer or
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unsigned field as index field.
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.Pp
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The macros have name of the form
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.Bd -literal -offset indent
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{INSERT,FIND,NEXT}_OBJECT_{OID,INT}[_LINK[_INDEX]]
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.Ed
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.Pp
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The
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.Fn INSERT_*
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macros are used in the SET operation to insert a new table row into the table.
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The
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.Fn FIND_*
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macros are used in the GET operation to find a specific row in the table.
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The
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.Fn NEXT_*
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macros are used in the GETNEXT operation to find the next row in the table.
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The last two macros return a pointer to the row structure if a row is found,
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.Li NULL
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otherwise.
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The macros
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.Fn *_OBJECT_OID_*
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assume the existence of a
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.Vt struct asn_oid
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that is used as index, the macros
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.Fn *_OBJECT_INT_*
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assume the existance of an unsigned integer field that is used as index.
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.Pp
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The macros
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.Fn *_INDEX
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allow the explicit naming of the index field in the parameter
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.Fa INDEX ,
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whereas the other macros assume that this field is named
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.Va index .
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|
The macros
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.Fn *_LINK_*
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allow the explicit naming of the link field of the tail queues, the others
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assume that the link field is named
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.Va link .
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Explicitely naming the link field may be necessary if the same structures
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are held in two or more different tables.
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.Pp
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The arguments to the macros are as follows:
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.Bl -tag -width "INDEX"
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.It Fa PTR
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A pointer to the new structure to be inserted into the table.
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.It Fa LIST
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A pointer to the tail queue head.
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.It Fa LINK
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The name of the link field in the row structure.
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.It Fa INDEX
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The name of the index field in the row structure.
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.It Fa OID
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Must point to the
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.Va var
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field of the
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.Fa value
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argument to the node operation callback. This is the OID to search for.
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.It Fa SUB
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This is the index of the start of the table index in the OID pointed to
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by
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.Fa OID .
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This is usually the same as the
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.Fa sub
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argument to the node operation callback.
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.El
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.Ss DAEMON TIMESTAMPS
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|
The variable
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.Va this_tick
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|
contains the tick (there are 100 SNMP ticks in a second) when
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the current PDU processing was started.
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The variable
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.Va start_tick
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|
contains the tick when the daemon was started.
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The function
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.Fn get_ticks
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|
returns the current tick. The number of ticks since the daemon was started
|
|
is
|
|
.Bd -literal -offset indent
|
|
get_ticks() - start_tick
|
|
.Ed
|
|
.Ss THE SYSTEM GROUP
|
|
The scalar fields of the system group are held in the global variable
|
|
.Va systemg :
|
|
.Bd -literal -offset indent
|
|
struct systemg {
|
|
u_char *descr;
|
|
struct asn_oid object_id;
|
|
u_char *contact;
|
|
u_char *name;
|
|
u_char *location;
|
|
u_int32_t services;
|
|
u_int32_t or_last_change;
|
|
};
|
|
.Ed
|
|
.Ss COMMUNITIES
|
|
The SNMP daemon implements a community table. On recipte of a request message
|
|
the community string in that message is compared to each of the community
|
|
strings in that table, if a match is found, the global variable
|
|
.Va community
|
|
is set to the community identifier for that community. Community identifiers
|
|
are unsigned integers. For the three standard communities there are three
|
|
constants defined:
|
|
.Bd -literal -offset indent
|
|
#define COMM_INITIALIZE 0
|
|
#define COMM_READ 1
|
|
#define COMM_WRITE 2
|
|
.Ed
|
|
.Pp
|
|
.Va community
|
|
is set to
|
|
.Li COMM_INITIALIZE
|
|
while the assignments in the configuration file are processed. To
|
|
.Li COMM_READ
|
|
or
|
|
.Li COMM_WRITE
|
|
when the community strings for the read-write or read-only community are found
|
|
in the incoming PDU.
|
|
.Pp
|
|
Modules can define additional communities. This may be necessary to provide
|
|
transport proxying (a PDU received on one communication link is proxied to
|
|
another link) or to implement non-UDP access points to SNMP. A new
|
|
community is defined with the function
|
|
.Fn comm_define .
|
|
It takes the following parameters:
|
|
.Bl -tag -width ".It Fa descr"
|
|
.It Fa priv
|
|
This is an integer identifying the community to the module. Each module has
|
|
its own namespace with regard to this parameter. The community table is
|
|
indexed with the module name and this identifier.
|
|
.It Fa descr
|
|
This is a string providing a human readable description of the community.
|
|
It is visible in the community table.
|
|
.It Fa mod
|
|
This is the module defining the community.
|
|
.It Fa str
|
|
This is the initial community string.
|
|
.El
|
|
.Pp
|
|
The function returns a globally unique community identifier. If a PDU is
|
|
received who's community string matches, this identifier is set into the global
|
|
.Va community .
|
|
.Pp
|
|
The function
|
|
.Fn comm_string
|
|
returns the current community string for the given community.
|
|
.Pp
|
|
All communities defined by a module are automatically released when the module
|
|
is unloaded.
|
|
.Ss WELL KNOWN OIDS
|
|
The global variable
|
|
.Va oid_zeroDotZero
|
|
contains the OID 0.0.
|
|
.Ss REQUEST ID RANGES
|
|
For modules that implement SNMP client functions besides SNMP agent functions
|
|
it may be necessary to identify SNMP requests by their identifier to allow
|
|
easier routing of responses to the correct sub-system. Request id ranges
|
|
provide a way to aquire globally non-overlapping sub-ranges of the entire
|
|
31-bit id range.
|
|
.Pp
|
|
A request id range is allocated with
|
|
.Fn reqid_allocate .
|
|
The arguments are: the size of the range and the module allocating the range.
|
|
For example, the call
|
|
.Bd -literal -offset indent
|
|
id = reqid_allocate(1000, module);
|
|
.Ed
|
|
.Pp
|
|
allocates a range of 1000 request ids. The function returns the request
|
|
id range identifier or 0 if there is not enough identifier space.
|
|
The function
|
|
.Fn reqid_base
|
|
returns the lowest request id in the given range.
|
|
.Pp
|
|
Request id are allocated starting at the lowest one linear throughout the range.
|
|
If the client application may have a lot of outstanding request the range
|
|
must be large enough so that an id is not reused until it is really expired.
|
|
.Fn reqid_next
|
|
returns the sequentially next id in the range.
|
|
.Pp
|
|
The function
|
|
.Fn reqid_istype
|
|
checks whether the request id
|
|
.Fa reqid
|
|
is withing the range identified by
|
|
.Fa type .
|
|
The function
|
|
.Fn reqid_type
|
|
returns the range identifier for the given
|
|
.Fa reqid
|
|
or 0 if the request id is in none of the ranges.
|
|
.Ss TIMERS
|
|
The SNMP daemon supports an arbitrary number of timers with SNMP tick granularity.
|
|
The function
|
|
.Fn timer_start
|
|
arranges for the callback
|
|
.Fa func
|
|
to be called with the argument
|
|
.Fa uarg
|
|
after
|
|
.Fa ticks
|
|
SNMP ticks have expired.
|
|
.Fa mod
|
|
is the module that starts the timer. Timers are one-shot, they are not
|
|
restarted. The function returns a timer identifier that can be used to
|
|
stop the timer via
|
|
.Fn timer_stop .
|
|
If a module is unloaded all timers started by the module that have not expired
|
|
yet are stopped.
|
|
.Ss FILE DESCRIPTOR SUPPORT
|
|
A module may need to get input from socket file descriptors without blocking
|
|
the daemon (for example to implement alternative SNMP transports).
|
|
.Pp
|
|
The function
|
|
.Fn fd_select
|
|
causes the callback function
|
|
.Fa func
|
|
to be called with the file descriptor
|
|
.Fa fd
|
|
and the user argument
|
|
.Fa uarg
|
|
whenever the file descriptor
|
|
.Fa fd
|
|
can be red or has a close condition. If the file descriptor is not in
|
|
non-blocking mode, it is set to non-blocking mode. If the callback is not
|
|
needed anymore,
|
|
.Fn fd_deselect
|
|
may be called with the value returned from
|
|
.Fn fd_select .
|
|
All file descriptors selected by a module are automatically deselected when
|
|
the module is unloaded.
|
|
.Pp
|
|
To temporarily suspend the file descriptor registration
|
|
.Fn fd_suspend
|
|
can be called. This also causes the file descriptor to be switched back to
|
|
blocking mode if it was blocking prior the call to
|
|
.Fn fd_select .
|
|
This is necessary to do synchronuous input on a selected socket.
|
|
The effect of
|
|
.Fn fd_suspend
|
|
can be undone with
|
|
.Fn fd_resume .
|
|
.Ss OBJECT RESOURCES
|
|
The system group contains an object resource table. A module may create
|
|
an entry in this table by calling
|
|
.Fn or_register
|
|
with the
|
|
.Fa oid
|
|
to be registered, a textual description in
|
|
.Fa str
|
|
and a pointer to the module
|
|
.Fa mod .
|
|
The registration can be removed with
|
|
.Fn or_unregister .
|
|
All registrations of a module are automatically removed if the module is
|
|
unloaded.
|
|
.Ss TRANSMIT AND RECEIVE BUFFERS
|
|
A buffer is allocated via
|
|
.Fn buf_alloc .
|
|
The argument must be 1 for transmit and 0 for receive buffers. The function
|
|
may return
|
|
.Li NULL
|
|
if there is no memory available. The current buffersize can be obtained with
|
|
.Fn buf_size .
|
|
.Sh PROCESSING PDUS
|
|
For modules that need to do their own PDU processing (for example for proxying)
|
|
the following functions are available:
|
|
.Pp
|
|
Function
|
|
.Fn snmp_input_start
|
|
decodes the PDU, searches the community, and sets the global
|
|
.Va this_tick .
|
|
It returns one of the following error codes:
|
|
.Bl -tag -width ".It Er SNMPD_INPUT_VALBADLEN"
|
|
.It Er SNMPD_INPUT_OK
|
|
Everything ok, continue with processing.
|
|
.It Er SNMPD_INPUT_FAILED
|
|
The PDU could not be decoded, has a wrong version or an unknown
|
|
community string.
|
|
.It Er SNMPD_INPUT_VALBADLEN
|
|
A SET PDU had a value field in a binding with a wrong length field in an
|
|
ASN.1 header.
|
|
.It Er SNMPD_INPUT_VALRANGE
|
|
A SET PDU had a value field in a binding with a value that is out of range
|
|
for the given ASN.1 type.
|
|
.It Er SNMPD_INPUT_VALBADENC
|
|
A SET PDU had a value field in a binding with wrong ASN.1 encoding.
|
|
.El
|
|
.Pp
|
|
The function
|
|
.Fn snmp_input_finish
|
|
does the other half of processing: if
|
|
.Fn snmp_input_start
|
|
did not return OK, tries to construct an error response. If the start was OK,
|
|
it calls the correct function from
|
|
.Xr bsnmpagent
|
|
to execute the request and depending on the outcome constructs a response or
|
|
error response PDU or ignores the request PDU. It returns either
|
|
.Er SNMPD_INPUT_OK
|
|
or
|
|
.Er SNMPD_INPUT_FAILED .
|
|
In the first case a response PDU was constructed and should be sent.
|
|
.Pp
|
|
The function
|
|
.Fn snmp_output
|
|
takes a PDU and encodes it.
|
|
.Pp
|
|
The function
|
|
.Fn snmp_send_port
|
|
takes a PDU, encodes it and sends it through the given port (identified by
|
|
the index in the port table) to the given address.
|
|
.Pp
|
|
The function
|
|
.Fn snmp_send_trap
|
|
sends a trap to all trap destinations. The arguments are the
|
|
.Fa oid
|
|
identifying the trap and a NULL-terminated list of
|
|
.Vt struct snmp_value
|
|
pointers that are to be inserted into the trap binding list.
|
|
.Ss SIMPLE ACTION SUPPORT
|
|
For simple scalar variables that need no dependencies a number of support
|
|
functions is available to handle the set, commit, rollback and get.
|
|
.Pp
|
|
The following functions are used for OCTET STRING scalars, either NUL terminated
|
|
or not:
|
|
.Bl -tag -width "XXXXXXXXX"
|
|
.It Fn string_save
|
|
should be called for SNMP_OP_SET.
|
|
.Fa value
|
|
and
|
|
.Fa ctx
|
|
are the resp\&. arguments to the node callback.
|
|
.Fa valp
|
|
is a pointer to the pointer that holds the current value and
|
|
.Fa req_size
|
|
should be -1 if any size of the string is acceptable or a number larger or
|
|
equal zero if the string must have a specific size. The function saves
|
|
the old value in the scratch area (note, that any initial value must have
|
|
been allocated by
|
|
.Xr malloc 3 ),
|
|
allocates a new string, copies over the new value, NUL-terminates it and
|
|
sets the new current value.
|
|
.It Fn string_commit
|
|
simply frees the saved old value in the scratch area.
|
|
.It Fn string_rollback
|
|
frees the new value, and puts back the old one.
|
|
.It Fn string_get
|
|
is used for GET or GETNEXT. If
|
|
.Fa len
|
|
is -1, the length is computed via
|
|
.Xr strlen 3
|
|
from the current string value. If the current value is NULL,
|
|
a OCTET STRING of zero length is returned.
|
|
.It Fn string_free
|
|
must be called if either rollback or commit fails to free the saved old value.
|
|
.El
|
|
.Pp
|
|
The following functions are used to process scalars of type IP-address:
|
|
.Bl -tag -width "XXXXXXXXX"
|
|
.It Fn ip_save
|
|
Saves the current value in the scratch area and sets the new value from
|
|
.Fa valp .
|
|
.It Fn ip_commit
|
|
Does nothing.
|
|
.It Fn ip_rollback
|
|
Restores the old IP address from the scratch area.
|
|
.It Fn ip_get
|
|
Retrieves the IP current address.
|
|
.El
|
|
.Pp
|
|
The following functions handle OID-typed variables:
|
|
.Bl -tag -width "XXXXXXXXX"
|
|
.It Fn oid_save
|
|
Saves the current value in the scratch area by allocating a
|
|
.Vt struct asn_oid
|
|
with
|
|
.Xr malloc 3
|
|
and sets the new value from
|
|
.Fa oid .
|
|
.It Fn oid_commit
|
|
Frees the old value in the scratch area.
|
|
.It Fn oid_rollback
|
|
Restores the old OID from the scratch area and frees the old OID.
|
|
.It Fn oid_get
|
|
Retrieves the OID
|
|
.El
|
|
.Ss TABLE INDEX HANDLING
|
|
The following functions help in handling table indexes:
|
|
.Bl -tag -width "XXXXXXXXX"
|
|
.It Fn index_decode
|
|
Decodes the index part of the OID. The parameter
|
|
.Fa oid
|
|
must be a pointer to the
|
|
.Va var
|
|
field of the
|
|
.Fa value
|
|
argument of the node callback. The
|
|
.Fa sub
|
|
argument must be the index of the start of the index in the OID (this is
|
|
the
|
|
.Fa sub
|
|
argument to the node callback).
|
|
.Fa code
|
|
is the index expression (parameter
|
|
.Fa idx
|
|
to the node callback).
|
|
These parameters are followed by parameters depending on the syntax of the index
|
|
elements as follows:
|
|
.Bl -tag -width ".It Li OCTET STRING"
|
|
.It Li INTEGER
|
|
.Vt int32_t *
|
|
expected as argument.
|
|
.It Li COUNTER64
|
|
.Vt u_int64_t *
|
|
expected as argument. Note, that this syntax is illegal for indexes.
|
|
.It Li OCTET STRING
|
|
A
|
|
.Vt u_char **
|
|
and a
|
|
.Vt size_t *
|
|
expected as arguments. A buffer is allocated to hold the decoded string.
|
|
.It Li OID
|
|
A
|
|
.Vt struct asn_oid *
|
|
is expected as argument.
|
|
.It Li IP ADDRESS
|
|
A
|
|
.Vt u_int8_t *
|
|
expected as argument that points to a buffer of at least four byte.
|
|
.It Li COUNTER, GAUGE, TIMETICKS
|
|
A
|
|
.Vt u_int32_t
|
|
expected.
|
|
.It Li NULL
|
|
No argument expected.
|
|
.El
|
|
.It Fn index_compare
|
|
compares the current variable with an OID.
|
|
.Fa oid1
|
|
and
|
|
.Fa sub
|
|
come from the node callback arguments
|
|
.Fa value->var
|
|
and
|
|
.Fa sub
|
|
resp.
|
|
.Fa oid2
|
|
is the OID to compare to. The function returns -1, 0, +1 when the
|
|
variable is lesser, equal, higher to the given OID.
|
|
.Fa oid2
|
|
must contain only the index part of the table column.
|
|
.It Fn index_compare_off
|
|
is equivalent to
|
|
.Fn index_compare
|
|
except that it takes an additional parameter
|
|
.Fa off
|
|
that causes it to ignore the first
|
|
.Fa off
|
|
components of both indexes.
|
|
.It Fn index_append
|
|
appends OID
|
|
.Fa src
|
|
beginning at position
|
|
.Fa sub
|
|
to
|
|
.Fa dst .
|
|
.It Fn index_append_off
|
|
appends OID
|
|
.Fa src
|
|
beginning at position
|
|
.Fa off
|
|
to
|
|
.Fa dst
|
|
beginning at position
|
|
.Fa sub
|
|
+
|
|
.Fa off .
|
|
.El
|
|
.Sh SEE ALSO
|
|
.Xr snmpd 1 ,
|
|
.Xr gensnmptree 1 ,
|
|
.Xr bsnmplib 3
|
|
.Xr bsnmpclient 3 ,
|
|
.Xr bsnmpagent 3
|
|
.Sh STANDARDS
|
|
This implementation conforms to the applicable IETF RFCs and ITU-T
|
|
recommendations.
|
|
.Sh AUTHORS
|
|
.An Hartmut Brandt Aq brandt@fokus.gmd.de
|