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GCC Code Coverage Report

Directory:	./		Exec	Total	Coverage
File:	usr.sbin/relayd/../snmpd/snmp.h	Lines:	0	1	0.0 %
Date:	2017-11-07	Branches:	0	0	0.0 %


/*	$OpenBSD: snmp.h,v 1.14 2015/06/11 18:49:09 reyk Exp $	*/

/*
 * Copyright (c) 2007, 2008, 2012 Reyk Floeter <reyk@openbsd.org>
 *
 * 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 SNMPD_SNMP_H
#define SNMPD_SNMP_H

#include <sys/types.h>
#include <endian.h>

/*
 * 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.<prefix> */
	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 /* SNMPD_SNMP_H */


Generated by: GCOVR (Version 3.3)

Line	Branch	Exec	Source
1			/* $OpenBSD: snmp.h,v 1.14 2015/06/11 18:49:09 reyk Exp $ */
2
3			/*
4			* Copyright (c) 2007, 2008, 2012 Reyk Floeter <reyk@openbsd.org>
5			*
6			* Permission to use, copy, modify, and distribute this software for any
7			* purpose with or without fee is hereby granted, provided that the above
8			* copyright notice and this permission notice appear in all copies.
9			*
10			* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
11			* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
12			* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
13			* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
14			* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
15			* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
16			* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
17			*/
18
19			#ifndef SNMPD_SNMP_H
20			#define SNMPD_SNMP_H
21
22			#include <sys/types.h>
23			#include <endian.h>
24
25			/*
26			* SNMP IMSG interface
27			*/
28
29			#define SNMP_MAX_OID_STRLEN 128 /* max size of the OID _string_ */
30			#define SNMP_SOCKET "/var/run/snmpd.sock"
31			#define AGENTX_SOCKET "/var/run/agentx.sock"
32			#define SNMP_RESTRICTED_SOCKET "/var/run/snmpd.rsock"
33
34			enum snmp_type {
35			SNMP_IPADDR = 0,
36			SNMP_COUNTER32 = 1,
37			SNMP_GAUGE32 = 2,
38			SNMP_UNSIGNED32 = 2,
39			SNMP_TIMETICKS = 3,
40			SNMP_OPAQUE = 4,
41			SNMP_NSAPADDR = 5,
42			SNMP_COUNTER64 = 6,
43			SNMP_UINTEGER32 = 7,
44
45			SNMP_INTEGER32 = 100,
46			SNMP_BITSTRING = 101,
47			SNMP_OCTETSTRING = 102,
48			SNMP_NULL = 103,
49			SNMP_OBJECT = 104
50			};
51
52			enum snmp_imsg_ctl {
53			IMSG_SNMP_DUMMY = 1000, /* something that works everywhere */
54			IMSG_SNMP_ELEMENT,
55			IMSG_SNMP_END,
56			IMSG_SNMP_LOCK, /* enable restricted mode */
57			IMSG_SNMP_AGENTX
58			};
59
60			struct snmp_imsg_hdr {
61			u_int32_t imsg_type;
62			u_int16_t imsg_len;
63			u_int16_t imsg_flags;
64			u_int32_t imsg_peerid;
65			u_int32_t imsg_pid;
66			};
67
68			struct snmp_imsg {
69			char snmp_oid[SNMP_MAX_OID_STRLEN];
70			u_int8_t snmp_type;
71			u_int16_t snmp_len;
72			};
73
74			/*
75			* SNMP BER types
76			*/
77
78			enum snmp_version {
79			SNMP_V1 = 0,
80			SNMP_V2 = 1, /* SNMPv2c */
81			SNMP_V3 = 3
82			};
83
84			enum snmp_context {
85			SNMP_C_GETREQ = 0,
86			SNMP_C_GETNEXTREQ = 1,
87			SNMP_C_GETRESP = 2,
88			SNMP_C_SETREQ = 3,
89			SNMP_C_TRAP = 4,
90
91			/* SNMPv2 */
92			SNMP_C_GETBULKREQ = 5,
93			SNMP_C_INFORMREQ = 6,
94			SNMP_C_TRAPV2 = 7,
95			SNMP_C_REPORT = 8
96			};
97
98			enum snmp_application {
99			SNMP_T_IPADDR = 0,
100			SNMP_T_COUNTER32 = 1,
101			SNMP_T_GAUGE32 = 2,
102			SNMP_T_UNSIGNED32 = 2,
103			SNMP_T_TIMETICKS = 3,
104			SNMP_T_OPAQUE = 4,
105			SNMP_T_NSAPADDR = 5,
106			SNMP_T_COUNTER64 = 6,
107			SNMP_T_UINTEGER32 = 7
108			};
109
110			enum snmp_generic_trap {
111			SNMP_TRAP_COLDSTART = 0,
112			SNMP_TRAP_WARMSTART = 1,
113			SNMP_TRAP_LINKDOWN = 2,
114			SNMP_TRAP_LINKUP = 3,
115			SNMP_TRAP_AUTHFAILURE = 4,
116			SNMP_TRAP_EGPNEIGHLOSS = 5,
117			SNMP_TRAP_ENTERPRISE = 6
118			};
119
120			enum snmp_error {
121			SNMP_ERROR_NONE = 0,
122			SNMP_ERROR_TOOBIG = 1,
123			SNMP_ERROR_NOSUCHNAME = 2,
124			SNMP_ERROR_BADVALUE = 3,
125			SNMP_ERROR_READONLY = 4,
126			SNMP_ERROR_GENERR = 5,
127
128			/* SNMPv2 */
129			SNMP_ERROR_NOACCESS = 6,
130			SNMP_ERROR_WRONGTYPE = 7,
131			SNMP_ERROR_WRONGLENGTH = 8,
132			SNMP_ERROR_WRONGENC = 9,
133			SNMP_ERROR_WRONGVALUE = 10,
134			SNMP_ERROR_NOCREATION = 11,
135			SNMP_ERROR_INCONVALUE = 12,
136			SNMP_ERROR_RESUNAVAIL = 13, /* EGAIN */
137			SNMP_ERROR_COMMITFAILED = 14,
138			SNMP_ERROR_UNDOFAILED = 15,
139			SNMP_ERROR_AUTHERROR = 16,
140			SNMP_ERROR_NOTWRITABLE = 17,
141			SNMP_ERROR_INCONNAME = 18
142			};
143
144			enum snmp_security_model {
145			SNMP_SEC_ANY = 0,
146			SNMP_SEC_SNMPv1 = 1,
147			SNMP_SEC_SNMPv2c = 2,
148			SNMP_SEC_USM = 3,
149			SNMP_SEC_TSM = 4
150			};
151
152			#define SNMP_MSGFLAG_AUTH 0x01
153			#define SNMP_MSGFLAG_PRIV 0x02
154			#define SNMP_MSGFLAG_SECMASK (SNMP_MSGFLAG_AUTH \| SNMP_MSGFLAG_PRIV)
155			#define SNMP_MSGFLAG_REPORT 0x04
156
157			#define SNMP_MAX_TIMEWINDOW 150 /* RFC3414 */
158
159			#define SNMP_MIN_OID_LEN 2 /* OBJECT */
160			#define SNMP_MAX_OID_LEN 32 /* OBJECT */
161
162			struct snmp_oid {
163			u_int32_t o_id[SNMP_MAX_OID_LEN + 1];
164			size_t o_n;
165			};
166
167			/* AgentX protocol, as outlined in RFC 2741 */
168
169			/* version */
170			#define AGENTX_VERSION 1
171
172			/* type */
173			#define AGENTX_OPEN 1
174			#define AGENTX_CLOSE 2
175			#define AGENTX_REGISTER 3
176			#define AGENTX_UNREGISTER 4
177			#define AGENTX_GET 5
178			#define AGENTX_GET_NEXT 6
179			#define AGENTX_GET_BULK 7
180			#define AGENTX_TEST_SET 8
181			#define AGENTX_COMMIT_SET 9
182			#define AGENTX_UNDO_SET 10
183			#define AGENTX_CLEANUP_SET 11
184			#define AGENTX_NOTIFY 12
185			#define AGENTX_PING 13
186			#define AGENTX_INDEX_ALLOCATE 14
187			#define AGENTX_INDEX_DEALLOCATE 15
188			#define AGENTX_ADD_AGENT_CAPS 16
189			#define AGENTX_REMOVE_AGENT_CAPS 17
190			#define AGENTX_RESPONSE 18
191
192			/* error return codes */
193			#define AGENTX_ERR_NONE 0
194			#define AGENTX_ERR_OPEN_FAILED 256
195			#define AGENTX_ERR_NOT_OPEN 257
196			#define AGENTX_ERR_INDEX_WRONG_TYPE 258
197			#define AGENTX_ERR_INDEX_ALREADY_ALLOCATED 259
198			#define AGENTX_ERR_INDEX_NONE_AVAILABLE 260
199			#define AGENTX_ERR_INDEX_NOT_ALLOCATED 261
200			#define AGENTX_ERR_UNSUPPORTED_CONTEXT 262
201			#define AGENTX_ERR_DUPLICATE_REGISTRATION 263
202			#define AGENTX_ERR_UNKNOWN_REGISTRATION 264
203			#define AGENTX_ERR_UNKNOWN_AGENT_CAPS 265
204			#define AGENTX_ERR_PARSE_ERROR 266
205			#define AGENTX_ERR_REQUEST_DENIED 267
206			#define AGENTX_ERR_PROCESSING_ERROR 268
207
208			/* flags */
209			#define AGENTX_INSTANCE_REGISTRATION 0x01
210			#define AGENTX_NEW_INDEX 0x02
211			#define AGENTX_ANY_INDEX 0x04
212			#define AGENTX_NON_DEFAULT_CONTEXT 0x08
213			#define AGENTX_NETWORK_BYTE_ORDER 0x10
214			#define AGENTX_FLAGS_MASK 0x1f
215
216			/* encoded data types */
217			#define AGENTX_INTEGER 2
218			#define AGENTX_OCTET_STRING 4
219			#define AGENTX_NULL 5
220			#define AGENTX_OBJECT_IDENTIFIER 6
221			#define AGENTX_IP_ADDRESS 64
222			#define AGENTX_COUNTER32 65
223			#define AGENTX_GAUGE32 66
224			#define AGENTX_TIME_TICKS 67
225			#define AGENTX_OPAQUE 68
226			#define AGENTX_COUNTER64 70
227			#define AGENTX_NO_SUCH_OBJECT 128
228			#define AGENTX_NO_SUCH_INSTANCE 129
229			#define AGENTX_END_OF_MIB_VIEW 130
230
231			/* for registered MIB overlap */
232			#define AGENTX_REGISTER_PRIO_DEFAULT 127
233
234			/* reasons for request of close */
235			#define AGENTX_CLOSE_OTHER 1
236			#define AGENTX_CLOSE_PARSE_ERROR 2
237			#define AGENTX_CLOSE_PROTOCOL_ERROR 3
238			#define AGENTX_CLOSE_TIMEOUTS 4
239			#define AGENTX_CLOSE_SHUTDOWN 5
240			#define AGENTX_CLOSE_BY_MANAGER 6
241
242			#define AGENTX_DEFAULT_TIMEOUT 3
243
244			#define MIN_OID_LEN 2 /* OBJECT */
245			#define MAX_OID_LEN 32 /* OBJECT */
246
247			/*
248			* Protocol header prefixed to all messages
249			*/
250			struct agentx_hdr {
251			uint8_t version;
252			uint8_t type;
253			uint8_t flags;
254			uint8_t reserved;
255			uint32_t sessionid; /* chosen by agent */
256			uint32_t transactid; /* chosen by subagent */
257			uint32_t packetid; /* per-request id */
258			uint32_t length;
259			} __packed;
260
261			/*
262			* Prefixed to a series of 4-byte values indicating the OID
263			*/
264			struct agentx_oid_hdr {
265			uint8_t n_subid; /* # of oid elements (named in RFC) */
266			uint8_t prefix; /* if not 0, OID is 1.3.6.1.<prefix> */
267			uint8_t include; /* is OID included in search range */
268			uint8_t reserved; /* always 0 */
269			} __packed;
270
271			struct agentx_response_data {
272			uint32_t sysuptime; /* uptime of SNMP context */
273			uint16_t error; /* status of request */
274			uint16_t index; /* index of failed variable binding */
275			} __packed;
276
277			struct agentx_open_timeout {
278			uint8_t timeout;
279			uint8_t reserved[3];
280			} __packed;
281
282			struct agentx_register_hdr {
283			uint8_t timeout;
284			uint8_t priority;
285			uint8_t subrange;
286			uint8_t reserved;
287			} __packed;
288
289			struct agentx_unregister_hdr {
290			uint8_t reserved1;
291			uint8_t priority;
292			uint8_t subrange;
293			uint8_t reserved2;
294			} __packed;
295
296			struct agentx_null_oid {
297			uint8_t padding[4];
298			} __packed;
299
300			#define AGENTX_NULL_OID { 0, 0, 0, 0 }
301
302			struct agentx_varbind_hdr {
303			uint16_t type;
304			uint16_t reserved;
305			} __packed;
306
307			struct agentx_response {
308			struct agentx_hdr hdr;
309			struct agentx_response_data data;
310			} __packed;
311
312			struct agentx_close_request_data {
313			uint8_t reason;
314			uint8_t padding[3];
315			} __packed;
316
317			struct agentx_close_request {
318			struct agentx_hdr hdr;
319			struct agentx_close_request_data data;
320			} __packed;
321
322			struct agentx_getbulk_repeaters {
323			uint16_t nonrepeaters;
324			uint16_t maxrepetitions;
325			} __packed;
326
327			struct agentx_pdu {
328			uint8_t *buffer;
329			uint8_t *ptr;
330			uint8_t *ioptr;
331			size_t buflen;
332			size_t datalen;
333			struct agentx_hdr *hdr;
334
335			char *context;
336			uint32_t contextlen;
337
338			void *cookie;
339			struct agentx_pdu request; / request this is a response to */
340			TAILQ_ENTRY(agentx_pdu) entry;
341			};
342			TAILQ_HEAD(agentx_pdulist, agentx_pdu);
343
344			struct agentx_handle {
345			int fd;
346			uint32_t sessionid;
347			uint32_t transactid;
348			uint32_t packetid;
349			int timeout; /* in seconds */
350			int error;
351			int erridx;
352
353			struct agentx_pdulist w;
354			struct agentx_pdulist inflight;
355
356			struct agentx_pdu *r;
357			};
358
359			struct agentx_search_range {
360			struct snmp_oid start;
361			struct snmp_oid end;
362			int include; /* is start oid included in search range */
363			};
364
365			struct agentx_handle *
366			snmp_agentx_alloc(int);
367			struct agentx_handle *
368			snmp_agentx_open(const char , char , struct snmp_oid *);
369			struct agentx_handle *
370			snmp_agentx_fdopen(int, char , struct snmp_oid );
371			int snmp_agentx_response(struct agentx_handle , struct agentx_pdu );
372			int snmp_agentx_read_response(struct agentx_pdu , struct agentx_response_data );
373			int snmp_agentx_open_response(struct agentx_handle , struct agentx_pdu );
374			struct agentx_pdu *
375			snmp_agentx_open_pdu(struct agentx_handle , char descr,
376			struct snmp_oid *);
377			struct agentx_pdu *
378			snmp_agentx_close_pdu(struct agentx_handle *, uint8_t);
379			int snmp_agentx_close(struct agentx_handle *, uint8_t);
380			void snmp_agentx_free(struct agentx_handle *);
381			int snmp_agentx_ping(struct agentx_handle *);
382			struct agentx_pdu *
383			snmp_agentx_ping_pdu(void);
384			struct agentx_pdu *
385			snmp_agentx_notify_pdu(struct snmp_oid *);
386			struct agentx_pdu *
387			snmp_agentx_request(struct agentx_handle , struct agentx_pdu );
388			int snmp_agentx_varbind(struct agentx_pdu , struct snmp_oid , int,
389			void *, int);
390			int snmp_agentx_send(struct agentx_handle , struct agentx_pdu );
391			int snmp_agentx_enqueue(struct agentx_handle , struct agentx_pdu );
392			int snmp_agentx_flush(struct agentx_handle *);
393			struct agentx_pdu *
394			snmp_agentx_recv(struct agentx_handle *);
395			struct agentx_pdu *
396			snmp_agentx_response_pdu(int, int, int);
397			struct agentx_pdu *
398			snmp_agentx_register_pdu(struct snmp_oid *, int, int, int);
399			struct agentx_pdu *
400			snmp_agentx_unregister_pdu(struct snmp_oid *, int, int);
401			struct agentx_pdu *
402			snmp_agentx_get_pdu(struct snmp_oid *, int);
403			struct agentx_pdu *
404			snmp_agentx_getnext_pdu(struct snmp_oid *, int);
405			char snmp_agentx_read_octetstr(struct agentx_pdu , int *);
406			int snmp_agentx_read_oid(struct agentx_pdu , struct snmp_oid );
407			int snmp_agentx_read_searchrange(struct agentx_pdu *,
408			struct agentx_search_range *);
409			int snmp_agentx_read_raw(struct agentx_pdu , void , int);
410			int snmp_agentx_copy_raw(struct agentx_pdu , void , int);
411			char *snmp_agentx_type2name(int);
412			int snmp_agentx_read_int(struct agentx_pdu , uint32_t );
413			int snmp_agentx_read_int64(struct agentx_pdu , uint64_t );
414			int snmp_agentx_raw(struct agentx_pdu , void , int);
415			int snmp_agentx_read_vbhdr(struct agentx_pdu *, struct
416			agentx_varbind_hdr *);
417			struct agentx_pdu *snmp_agentx_pdu_alloc(void);
418			void snmp_agentx_pdu_free(struct agentx_pdu *);
419			char snmp_oid2string(struct snmp_oid , char *, size_t);
420			int snmp_oid_cmp(struct snmp_oid , struct snmp_oid );
421			void snmp_oid_increment(struct snmp_oid *);
422
423			#if BYTE_ORDER == BIG_ENDIAN
424
425			static __inline int
426			snmp_agentx_byteorder_native(struct agentx_hdr *h)
427			{
428			return ((h->flags & AGENTX_NETWORK_BYTE_ORDER) != 0);
429			}
430
431			#define AGENTX_LOCAL_BYTE_ORDER_FLAG AGENTX_NETWORK_BYTE_ORDER
432			#define snmp_agentx_int_byteswap(_i) htole32(_i)
433			#define snmp_agentx_int16_byteswap(_i) htole16(_i)
434			#define snmp_agentx_int64_byteswap(_i) htole64(_i)
435
436			#elif BYTE_ORDER == LITTLE_ENDIAN
437
438			static __inline int
439			snmp_agentx_byteorder_native(struct agentx_hdr *h)
440			{
441			return ((h->flags & AGENTX_NETWORK_BYTE_ORDER) == 0);
442			}
443
444			#define AGENTX_LOCAL_BYTE_ORDER_FLAG 0
445			#define snmp_agentx_int_byteswap(_i) htobe32(_i)
446			#define snmp_agentx_int16_byteswap(_i) htobe16(_i)
447			#define snmp_agentx_int64_byteswap(_i) htobe64(_i)
448
449			#else
450			#error "Unknown host byte order"
451			#endif
452
453			#endif /* SNMPD_SNMP_H */