freebsd-nq/contrib/ntp/include/ntp_request.h
2018-02-28 07:59:55 +00:00

956 lines
31 KiB
C

/*
* ntp_request.h - definitions for the ntpd remote query facility
*/
#ifndef NTP_REQUEST_H
#define NTP_REQUEST_H
#include "stddef.h"
#include "ntp_types.h"
#include "recvbuff.h"
/*
* A mode 7 packet is used exchanging data between an NTP server
* and a client for purposes other than time synchronization, e.g.
* monitoring, statistics gathering and configuration. A mode 7
* packet has the following format:
*
* 0 1 2 3
* 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
* +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
* |R|M| VN | Mode|A| Sequence | Implementation| Req Code |
* +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
* | Err | Number of data items | MBZ | Size of data item |
* +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
* | |
* | Data (Minimum 0 octets, maximum 500 octets) |
* | |
* [...]
* | |
* +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
* | Encryption Keyid (when A bit set) |
* +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
* | |
* | Message Authentication Code (when A bit set) |
* | |
* +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
*
* where the fields are (note that the client sends requests, the server
* responses):
*
* Response Bit: This packet is a response (if clear, packet is a request).
*
* More Bit: Set for all packets but the last in a response which
* requires more than one packet.
*
* Version Number: 2 for current version
*
* Mode: Always 7
*
* Authenticated bit: If set, this packet is authenticated.
*
* Sequence number: For a multipacket response, contains the sequence
* number of this packet. 0 is the first in the sequence,
* 127 (or less) is the last. The More Bit must be set in
* all packets but the last.
*
* Implementation number: The number of the implementation this request code
* is defined by. An implementation number of zero is used
* for requst codes/data formats which all implementations
* agree on. Implementation number 255 is reserved (for
* extensions, in case we run out).
*
* Request code: An implementation-specific code which specifies the
* operation to be (which has been) performed and/or the
* format and semantics of the data included in the packet.
*
* Err: Must be 0 for a request. For a response, holds an error
* code relating to the request. If nonzero, the operation
* requested wasn't performed.
*
* 0 - no error
* 1 - incompatible implementation number
* 2 - unimplemented request code
* 3 - format error (wrong data items, data size, packet size etc.)
* 4 - no data available (e.g. request for details on unknown peer)
* 5-6 I don't know
* 7 - authentication failure (i.e. permission denied)
*
* Number of data items: number of data items in packet. 0 to 500
*
* MBZ: A reserved data field, must be zero in requests and responses.
*
* Size of data item: size of each data item in packet. 0 to 500
*
* Data: Variable sized area containing request/response data. For
* requests and responses the size in octets must be greater
* than or equal to the product of the number of data items
* and the size of a data item. For requests the data area
* must be exactly 40 octets in length. For responses the
* data area may be any length between 0 and 500 octets
* inclusive.
*
* Message Authentication Code: Same as NTP spec, in definition and function.
* May optionally be included in requests which require
* authentication, is never included in responses.
*
* The version number, mode and keyid have the same function and are
* in the same location as a standard NTP packet. The request packet
* is the same size as a standard NTP packet to ease receive buffer
* management, and to allow the same encryption procedure to be used
* both on mode 7 and standard NTP packets. The mac is included when
* it is required that a request be authenticated, the keyid should be
* zero in requests in which the mac is not included.
*
* The data format depends on the implementation number/request code pair
* and whether the packet is a request or a response. The only requirement
* is that data items start in the octet immediately following the size
* word and that data items be concatenated without padding between (i.e.
* if the data area is larger than data_items*size, all padding is at
* the end). Padding is ignored, other than for encryption purposes.
* Implementations using encryption might want to include a time stamp
* or other data in the request packet padding. The key used for requests
* is implementation defined, but key 15 is suggested as a default.
*/
/*
* union of raw addresses to save space
*/
union addrun {
struct in6_addr addr6;
struct in_addr addr;
};
#define MODE7_PAYLOAD_LIM 176
typedef union req_data_u_tag {
u_int32 u32[MODE7_PAYLOAD_LIM / sizeof(u_int32)];
char data[MODE7_PAYLOAD_LIM]; /* data area (176 byte max) */
} req_data_u; /* struct conf_peer must fit */
/*
* A request packet. These are almost a fixed length.
*/
struct req_pkt {
u_char rm_vn_mode; /* response, more, version, mode */
u_char auth_seq; /* key, sequence number */
u_char implementation; /* implementation number */
u_char request; /* request number */
u_short err_nitems; /* error code/number of data items */
u_short mbz_itemsize; /* item size */
req_data_u u; /* data area */
l_fp tstamp; /* time stamp, for authentication */
keyid_t keyid; /* (optional) encryption key */
char mac[MAX_MDG_LEN]; /* (optional) auth code */
};
/*
* The req_pkt_tail structure is used by ntpd to adjust for different
* packet sizes that may arrive.
*/
struct req_pkt_tail {
l_fp tstamp; /* time stamp, for authentication */
keyid_t keyid; /* (optional) encryption key */
char mac[MAX_MDG_LEN]; /* (optional) auth code */
};
/* MODE_PRIVATE request packet header length before optional items. */
#define REQ_LEN_HDR (offsetof(struct req_pkt, u))
/* MODE_PRIVATE request packet fixed length without MAC. */
#define REQ_LEN_NOMAC (offsetof(struct req_pkt, keyid))
/* MODE_PRIVATE req_pkt_tail minimum size (16 octet digest) */
#define REQ_TAIL_MIN \
(sizeof(struct req_pkt_tail) - (MAX_MAC_LEN - MAX_MD5_LEN))
/*
* A MODE_PRIVATE response packet. The length here is variable, this
* is a maximally sized one. Note that this implementation doesn't
* authenticate responses.
*/
#define RESP_HEADER_SIZE (offsetof(struct resp_pkt, u))
#define RESP_DATA_SIZE 500
typedef union resp_pkt_u_tag {
char data[RESP_DATA_SIZE];
u_int32 u32[RESP_DATA_SIZE / sizeof(u_int32)];
} resp_pkt_u;
struct resp_pkt {
u_char rm_vn_mode; /* response, more, version, mode */
u_char auth_seq; /* key, sequence number */
u_char implementation; /* implementation number */
u_char request; /* request number */
u_short err_nitems; /* error code/number of data items */
u_short mbz_itemsize; /* item size */
resp_pkt_u u; /* data area */
};
/*
* Information error codes
*/
#define INFO_OKAY 0
#define INFO_ERR_IMPL 1 /* incompatible implementation */
#define INFO_ERR_REQ 2 /* unknown request code */
#define INFO_ERR_FMT 3 /* format error */
#define INFO_ERR_NODATA 4 /* no data for this request */
#define INFO_ERR_AUTH 7 /* authentication failure */
#define MAX_INFO_ERR INFO_ERR_AUTH
/*
* Maximum sequence number.
*/
#define MAXSEQ 127
/*
* Bit setting macros for multifield items.
*/
#define RESP_BIT 0x80
#define MORE_BIT 0x40
#define ISRESPONSE(rm_vn_mode) (((rm_vn_mode)&RESP_BIT)!=0)
#define ISMORE(rm_vn_mode) (((rm_vn_mode)&MORE_BIT)!=0)
#define INFO_VERSION(rm_vn_mode) ((u_char)(((rm_vn_mode)>>3)&0x7))
#define INFO_MODE(rm_vn_mode) ((rm_vn_mode)&0x7)
#define RM_VN_MODE(resp, more, version) \
((u_char)(((resp)?RESP_BIT:0)\
|((more)?MORE_BIT:0)\
|((version?version:(NTP_OLDVERSION+1))<<3)\
|(MODE_PRIVATE)))
#define INFO_IS_AUTH(auth_seq) (((auth_seq) & 0x80) != 0)
#define INFO_SEQ(auth_seq) ((auth_seq)&0x7f)
#define AUTH_SEQ(auth, seq) ((u_char)((((auth)!=0)?0x80:0)|((seq)&0x7f)))
#define INFO_ERR(err_nitems) ((u_short)((ntohs(err_nitems)>>12)&0xf))
#define INFO_NITEMS(err_nitems) ((u_short)(ntohs(err_nitems)&0xfff))
#define ERR_NITEMS(err, nitems) (htons((u_short)((((u_short)(err)<<12)&0xf000)\
|((u_short)(nitems)&0xfff))))
#define INFO_MBZ(mbz_itemsize) ((ntohs(mbz_itemsize)>>12)&0xf)
#define INFO_ITEMSIZE(mbz_itemsize) ((u_short)(ntohs(mbz_itemsize)&0xfff))
#define MBZ_ITEMSIZE(itemsize) (htons((u_short)(itemsize)))
/*
* Implementation numbers. One for universal use and one for ntpd.
*/
#define IMPL_UNIV 0
#define IMPL_XNTPD_OLD 2 /* Used by pre ipv6 ntpdc */
#define IMPL_XNTPD 3 /* Used by post ipv6 ntpdc */
/*
* Some limits related to authentication. Frames which are
* authenticated must include a time stamp which differs from
* the receive time stamp by no more than 10 seconds.
*/
#define INFO_TS_MAXSKEW 10.
/*
* Universal request codes go here. There aren't any.
*/
/*
* ntpdc -> ntpd request codes go here.
*/
#define REQ_PEER_LIST 0 /* return list of peers */
#define REQ_PEER_LIST_SUM 1 /* return summary info for all peers */
#define REQ_PEER_INFO 2 /* get standard information on peer */
#define REQ_PEER_STATS 3 /* get statistics for peer */
#define REQ_SYS_INFO 4 /* get system information */
#define REQ_SYS_STATS 5 /* get system stats */
#define REQ_IO_STATS 6 /* get I/O stats */
#define REQ_MEM_STATS 7 /* stats related to peer list maint */
#define REQ_LOOP_INFO 8 /* info from the loop filter */
#define REQ_TIMER_STATS 9 /* get timer stats */
#define REQ_CONFIG 10 /* configure a new peer */
#define REQ_UNCONFIG 11 /* unconfigure an existing peer */
#define REQ_SET_SYS_FLAG 12 /* set system flags */
#define REQ_CLR_SYS_FLAG 13 /* clear system flags */
#define REQ_MONITOR 14 /* (not used) */
#define REQ_NOMONITOR 15 /* (not used) */
#define REQ_GET_RESTRICT 16 /* return restrict list */
#define REQ_RESADDFLAGS 17 /* add flags to restrict list */
#define REQ_RESSUBFLAGS 18 /* remove flags from restrict list */
#define REQ_UNRESTRICT 19 /* remove entry from restrict list */
#define REQ_MON_GETLIST 20 /* return data collected by monitor */
#define REQ_RESET_STATS 21 /* reset stat counters */
#define REQ_RESET_PEER 22 /* reset peer stat counters */
#define REQ_REREAD_KEYS 23 /* reread the encryption key file */
#define REQ_DO_DIRTY_HACK 24 /* (not used) */
#define REQ_DONT_DIRTY_HACK 25 /* (not used) */
#define REQ_TRUSTKEY 26 /* add a trusted key */
#define REQ_UNTRUSTKEY 27 /* remove a trusted key */
#define REQ_AUTHINFO 28 /* return authentication info */
#define REQ_TRAPS 29 /* return currently set traps */
#define REQ_ADD_TRAP 30 /* add a trap */
#define REQ_CLR_TRAP 31 /* clear a trap */
#define REQ_REQUEST_KEY 32 /* define a new request keyid */
#define REQ_CONTROL_KEY 33 /* define a new control keyid */
#define REQ_GET_CTLSTATS 34 /* get stats from the control module */
#define REQ_GET_LEAPINFO 35 /* (not used) */
#define REQ_GET_CLOCKINFO 36 /* get clock information */
#define REQ_SET_CLKFUDGE 37 /* set clock fudge factors */
#define REQ_GET_KERNEL 38 /* get kernel pll/pps information */
#define REQ_GET_CLKBUGINFO 39 /* get clock debugging info */
#define REQ_SET_PRECISION 41 /* (not used) */
#define REQ_MON_GETLIST_1 42 /* return collected v1 monitor data */
#define REQ_HOSTNAME_ASSOCID 43 /* Here is a hostname + assoc_id */
#define REQ_IF_STATS 44 /* get interface statistics */
#define REQ_IF_RELOAD 45 /* reload interface list */
/* Determine size of pre-v6 version of structures */
#define v4sizeof(type) offsetof(type, v6_flag)
/*
* Flags in the peer information returns
*/
#define INFO_FLAG_CONFIG 0x1
#define INFO_FLAG_SYSPEER 0x2
#define INFO_FLAG_BURST 0x4
#define INFO_FLAG_REFCLOCK 0x8
#define INFO_FLAG_PREFER 0x10
#define INFO_FLAG_AUTHENABLE 0x20
#define INFO_FLAG_SEL_CANDIDATE 0x40
#define INFO_FLAG_SHORTLIST 0x80
#define INFO_FLAG_IBURST 0x100
/*
* Flags in the system information returns
*/
#define INFO_FLAG_BCLIENT 0x1
#define INFO_FLAG_AUTHENTICATE 0x2
#define INFO_FLAG_NTP 0x4
#define INFO_FLAG_KERNEL 0x8
#define INFO_FLAG_MONITOR 0x40
#define INFO_FLAG_FILEGEN 0x80
#define INFO_FLAG_CAL 0x10
#define INFO_FLAG_PPS_SYNC 0x20
/*
* Peer list structure. Used to return raw lists of peers. It goes
* without saying that everything returned is in network byte order.
* Well, it *would* have gone without saying, but somebody said it.
*/
struct info_peer_list {
u_int32 addr; /* address of peer */
u_short port; /* port number of peer */
u_char hmode; /* mode for this peer */
u_char flags; /* flags (from above) */
u_int v6_flag; /* is this v6 or not */
u_int unused1; /* (unused) padding for addr6 */
struct in6_addr addr6; /* v6 address of peer */
};
/*
* Peer summary structure. Sort of the info that ntpdc returns by default.
*/
struct info_peer_summary {
u_int32 dstadr; /* local address (zero for undetermined) */
u_int32 srcadr; /* source address */
u_short srcport; /* source port */
u_char stratum; /* stratum of peer */
s_char hpoll; /* host polling interval */
s_char ppoll; /* peer polling interval */
u_char reach; /* reachability register */
u_char flags; /* flags, from above */
u_char hmode; /* peer mode */
s_fp delay; /* peer.estdelay */
l_fp offset; /* peer.estoffset */
u_fp dispersion; /* peer.estdisp */
u_int v6_flag; /* is this v6 or not */
u_int unused1; /* (unused) padding for dstadr6 */
struct in6_addr dstadr6; /* local address (v6) */
struct in6_addr srcadr6; /* source address (v6) */
};
/*
* Peer information structure.
*/
struct info_peer {
u_int32 dstadr; /* local address */
u_int32 srcadr; /* source address */
u_short srcport; /* remote port */
u_char flags; /* peer flags */
u_char leap; /* peer.leap */
u_char hmode; /* peer.hmode */
u_char pmode; /* peer.pmode */
u_char stratum; /* peer.stratum */
u_char ppoll; /* peer.ppoll */
u_char hpoll; /* peer.hpoll */
s_char precision; /* peer.precision */
u_char version; /* peer.version */
u_char unused8;
u_char reach; /* peer.reach */
u_char unreach; /* peer.unreach */
u_char flash; /* old peer.flash */
u_char ttl; /* peer.ttl */
u_short flash2; /* new peer.flash */
associd_t associd; /* association ID */
keyid_t keyid; /* peer.keyid */
u_int32 pkeyid; /* unused */
u_int32 refid; /* peer.refid */
u_int32 timer; /* peer.timer */
s_fp rootdelay; /* peer.delay */
u_fp rootdispersion; /* peer.dispersion */
l_fp reftime; /* peer.reftime */
l_fp org; /* peer.org */
l_fp rec; /* peer.rec */
l_fp xmt; /* peer.xmt */
s_fp filtdelay[NTP_SHIFT]; /* delay shift register */
l_fp filtoffset[NTP_SHIFT]; /* offset shift register */
u_char order[NTP_SHIFT]; /* order of peers from last filter */
s_fp delay; /* peer.estdelay */
u_fp dispersion; /* peer.estdisp */
l_fp offset; /* peer.estoffset */
u_fp selectdisp; /* peer select dispersion */
int32 unused1; /* (obsolete) */
int32 unused2;
int32 unused3;
int32 unused4;
int32 unused5;
int32 unused6;
int32 unused7;
s_fp estbdelay; /* broadcast offset */
u_int v6_flag; /* is this v6 or not */
u_int unused9; /* (unused) padding for dstadr6 */
struct in6_addr dstadr6; /* local address (v6-like) */
struct in6_addr srcadr6; /* sources address (v6-like) */
};
/*
* Peer statistics structure
*/
struct info_peer_stats {
u_int32 dstadr; /* local address */
u_int32 srcadr; /* remote address */
u_short srcport; /* remote port */
u_short flags; /* peer flags */
u_int32 timereset; /* time counters were reset */
u_int32 timereceived; /* time since a packet received */
u_int32 timetosend; /* time until a packet sent */
u_int32 timereachable; /* time peer has been reachable */
u_int32 sent; /* number sent */
u_int32 unused1; /* (unused) */
u_int32 processed; /* number processed */
u_int32 unused2; /* (unused) */
u_int32 badauth; /* bad authentication */
u_int32 bogusorg; /* bogus origin */
u_int32 oldpkt; /* duplicate */
u_int32 unused3; /* (unused) */
u_int32 unused4; /* (unused) */
u_int32 seldisp; /* bad dispersion */
u_int32 selbroken; /* bad reference time */
u_int32 unused5; /* (unused) */
u_char candidate; /* select order */
u_char unused6; /* (unused) */
u_char unused7; /* (unused) */
u_char unused8; /* (unused) */
u_int v6_flag; /* is this v6 or not */
u_int unused9; /* (unused) padding for dstadr6 */
struct in6_addr dstadr6; /* local address */
struct in6_addr srcadr6; /* remote address */
};
/*
* Loop filter variables
*/
struct info_loop {
l_fp last_offset;
l_fp drift_comp;
u_int32 compliance;
u_int32 watchdog_timer;
};
/*
* System info. Mostly the sys.* variables, plus a few unique to
* the implementation.
*/
struct info_sys {
u_int32 peer; /* system peer address (v4) */
u_char peer_mode; /* mode we are syncing to peer in */
u_char leap; /* system leap bits */
u_char stratum; /* our stratum */
s_char precision; /* local clock precision */
s_fp rootdelay; /* delay from sync source */
u_fp rootdispersion; /* dispersion from sync source */
u_int32 refid; /* reference ID of sync source */
l_fp reftime; /* system reference time */
u_int32 poll; /* system poll interval */
u_char flags; /* system flags */
u_char unused1; /* unused */
u_char unused2; /* unused */
u_char unused3; /* unused */
s_fp bdelay; /* default broadcast offset */
s_fp frequency; /* frequency residual (scaled ppm) */
l_fp authdelay; /* default authentication delay */
u_fp stability; /* clock stability (scaled ppm) */
u_int v6_flag; /* is this v6 or not */
u_int unused4; /* unused, padding for peer6 */
struct in6_addr peer6; /* system peer address (v6) */
};
/*
* System stats. These are collected in the protocol module
*/
struct info_sys_stats {
u_int32 timeup; /* time since restart */
u_int32 timereset; /* time since reset */
u_int32 denied; /* access denied */
u_int32 oldversionpkt; /* recent version */
u_int32 newversionpkt; /* current version */
u_int32 unknownversion; /* bad version */
u_int32 badlength; /* bad length or format */
u_int32 processed; /* packets processed */
u_int32 badauth; /* bad authentication */
u_int32 received; /* packets received */
u_int32 limitrejected; /* rate exceeded */
u_int32 lamport; /* Lamport violations */
u_int32 tsrounding; /* Timestamp rounding errors */
};
/*
* System stats - old version
*/
struct old_info_sys_stats {
u_int32 timeup; /* time since restart */
u_int32 timereset; /* time since reset */
u_int32 denied; /* access denied */
u_int32 oldversionpkt; /* recent version */
u_int32 newversionpkt; /* current version */
u_int32 unknownversion; /* bad version */
u_int32 badlength; /* bad length or format */
u_int32 processed; /* packets processed */
u_int32 badauth; /* bad authentication */
u_int32 wanderhold; /* (not used) */
};
/*
* Peer memory statistics. Collected in the peer module.
*/
struct info_mem_stats {
u_int32 timereset; /* time since reset */
u_short totalpeermem;
u_short freepeermem;
u_int32 findpeer_calls;
u_int32 allocations;
u_int32 demobilizations;
u_char hashcount[NTP_HASH_SIZE];
};
/*
* I/O statistics. Collected in the I/O module
*/
struct info_io_stats {
u_int32 timereset; /* time since reset */
u_short totalrecvbufs; /* total receive bufs */
u_short freerecvbufs; /* free buffers */
u_short fullrecvbufs; /* full buffers */
u_short lowwater; /* number of times we've added buffers */
u_int32 dropped; /* dropped packets */
u_int32 ignored; /* ignored packets */
u_int32 received; /* received packets */
u_int32 sent; /* packets sent */
u_int32 notsent; /* packets not sent */
u_int32 interrupts; /* interrupts we've handled */
u_int32 int_received; /* received by interrupt handler */
};
/*
* Timer stats. Guess where from.
*/
struct info_timer_stats {
u_int32 timereset; /* time since reset */
u_int32 alarms; /* alarms we've handled */
u_int32 overflows; /* timer overflows */
u_int32 xmtcalls; /* calls to xmit */
};
/*
* Structure for passing peer configuration information
*/
struct old_conf_peer {
u_int32 peeraddr; /* address to poll */
u_char hmode; /* mode, either broadcast, active or client */
u_char version; /* version number to poll with */
u_char minpoll; /* min host poll interval */
u_char maxpoll; /* max host poll interval */
u_char flags; /* flags for this request */
u_char ttl; /* time to live (multicast) or refclock mode */
u_short unused; /* unused */
keyid_t keyid; /* key to use for this association */
};
struct conf_peer {
u_int32 peeraddr; /* address to poll */
u_char hmode; /* mode, either broadcast, active or client */
u_char version; /* version number to poll with */
u_char minpoll; /* min host poll interval */
u_char maxpoll; /* max host poll interval */
u_char flags; /* flags for this request */
u_char ttl; /* time to live (multicast) or refclock mode */
u_short unused1; /* unused */
keyid_t keyid; /* key to use for this association */
char keystr[128]; /* public key file name */
u_int v6_flag; /* is this v6 or not */
u_int unused2; /* unused, padding for peeraddr6 */
struct in6_addr peeraddr6; /* ipv6 address to poll */
};
#define CONF_FLAG_AUTHENABLE 0x01
#define CONF_FLAG_PREFER 0x02
#define CONF_FLAG_BURST 0x04
#define CONF_FLAG_IBURST 0x08
#define CONF_FLAG_NOSELECT 0x10
#define CONF_FLAG_SKEY 0x20
/*
* Structure for passing peer deletion information. Currently
* we only pass the address and delete all configured peers with
* this addess.
*/
struct conf_unpeer {
u_int32 peeraddr; /* address of peer */
u_int v6_flag; /* is this v6 or not */
struct in6_addr peeraddr6; /* address of peer (v6) */
};
/*
* Structure for carrying system flags.
*/
struct conf_sys_flags {
u_int32 flags;
};
/*
* System flags we can set/clear
*/
#define SYS_FLAG_BCLIENT 0x01
#define SYS_FLAG_PPS 0x02
#define SYS_FLAG_NTP 0x04
#define SYS_FLAG_KERNEL 0x08
#define SYS_FLAG_MONITOR 0x10
#define SYS_FLAG_FILEGEN 0x20
#define SYS_FLAG_AUTH 0x40
#define SYS_FLAG_CAL 0x80
/*
* Structure used for returning restrict entries
*/
struct info_restrict {
u_int32 addr; /* match address */
u_int32 mask; /* match mask */
u_int32 count; /* number of packets matched */
u_short rflags; /* restrict flags */
u_short mflags; /* match flags */
u_int v6_flag; /* is this v6 or not */
u_int unused1; /* unused, padding for addr6 */
struct in6_addr addr6; /* match address (v6) */
struct in6_addr mask6; /* match mask (v6) */
};
/*
* Structure used for specifying restrict entries
*/
struct conf_restrict {
u_int32 addr; /* match address */
u_int32 mask; /* match mask */
short ippeerlimit; /* ip peer limit */
u_short flags; /* restrict flags */
u_short mflags; /* match flags */
u_int v6_flag; /* is this v6 or not */
struct in6_addr addr6; /* match address (v6) */
struct in6_addr mask6; /* match mask (v6) */
};
/*
* Structure used for returning monitor data
*/
struct info_monitor_1 {
u_int32 avg_int; /* avg s between packets from this host */
u_int32 last_int; /* s since we last received a packet */
u_int32 restr; /* restrict bits (was named lastdrop) */
u_int32 count; /* count of packets received */
u_int32 addr; /* host address V4 style */
u_int32 daddr; /* destination host address */
u_int32 flags; /* flags about destination */
u_short port; /* port number of last reception */
u_char mode; /* mode of last packet */
u_char version; /* version number of last packet */
u_int v6_flag; /* is this v6 or not */
u_int unused1; /* unused, padding for addr6 */
struct in6_addr addr6; /* host address V6 style */
struct in6_addr daddr6; /* host address V6 style */
};
/*
* Structure used for returning monitor data
*/
struct info_monitor {
u_int32 avg_int; /* avg s between packets from this host */
u_int32 last_int; /* s since we last received a packet */
u_int32 restr; /* restrict bits (was named lastdrop) */
u_int32 count; /* count of packets received */
u_int32 addr; /* host address */
u_short port; /* port number of last reception */
u_char mode; /* mode of last packet */
u_char version; /* version number of last packet */
u_int v6_flag; /* is this v6 or not */
u_int unused1; /* unused, padding for addr6 */
struct in6_addr addr6; /* host v6 address */
};
/*
* Structure used for returning monitor data (old format)
*/
struct old_info_monitor {
u_int32 lasttime; /* last packet from this host */
u_int32 firsttime; /* first time we received a packet */
u_int32 count; /* count of packets received */
u_int32 addr; /* host address */
u_short port; /* port number of last reception */
u_char mode; /* mode of last packet */
u_char version; /* version number of last packet */
u_int v6_flag; /* is this v6 or not */
struct in6_addr addr6; /* host address (v6)*/
};
/*
* Structure used for passing indication of flags to clear
*/
struct reset_flags {
u_int32 flags;
};
#define RESET_FLAG_ALLPEERS 0x01
#define RESET_FLAG_IO 0x02
#define RESET_FLAG_SYS 0x04
#define RESET_FLAG_MEM 0x08
#define RESET_FLAG_TIMER 0x10
#define RESET_FLAG_AUTH 0x20
#define RESET_FLAG_CTL 0x40
#define RESET_ALLFLAGS ( \
RESET_FLAG_ALLPEERS | \
RESET_FLAG_IO | \
RESET_FLAG_SYS | \
RESET_FLAG_MEM | \
RESET_FLAG_TIMER | \
RESET_FLAG_AUTH | \
RESET_FLAG_CTL \
)
/*
* Structure used to return information concerning the authentication
* module.
*/
struct info_auth {
u_int32 timereset; /* time counters were reset */
u_int32 numkeys; /* number of keys we know */
u_int32 numfreekeys; /* number of free keys */
u_int32 keylookups; /* calls to authhavekey() */
u_int32 keynotfound; /* requested key unknown */
u_int32 encryptions; /* number of encryptions */
u_int32 decryptions; /* number of decryptions */
u_int32 expired; /* number of expired keys */
u_int32 keyuncached; /* calls to encrypt/decrypt with uncached key */
};
/*
* Structure used to pass trap information to the client
*/
struct info_trap {
u_int32 local_address; /* local interface addres (v4) */
u_int32 trap_address; /* remote client's addres (v4) */
u_short trap_port; /* remote port number */
u_short sequence; /* sequence number */
u_int32 settime; /* time trap last set */
u_int32 origtime; /* time trap originally set */
u_int32 resets; /* number of resets on this trap */
u_int32 flags; /* trap flags, as defined in ntp_control.h */
u_int v6_flag; /* is this v6 or not */
struct in6_addr local_address6; /* local interface address (v6) */
struct in6_addr trap_address6; /* remote client's address (v6) */
};
/*
* Structure used to pass add/clear trap information to the client
*/
struct conf_trap {
u_int32 local_address; /* remote client's address */
u_int32 trap_address; /* local interface address */
u_short trap_port; /* remote client's port */
u_short unused; /* (unused) */
u_int v6_flag; /* is this v6 or not */
struct in6_addr local_address6; /* local interface address (v6) */
struct in6_addr trap_address6; /* remote client's address (v6) */
};
/*
* Structure used to return statistics from the control module
*/
struct info_control {
u_int32 ctltimereset;
u_int32 numctlreq; /* number of requests we've received */
u_int32 numctlbadpkts; /* number of bad control packets */
u_int32 numctlresponses; /* # resp packets sent */
u_int32 numctlfrags; /* # of fragments sent */
u_int32 numctlerrors; /* number of error responses sent */
u_int32 numctltooshort; /* number of too short input packets */
u_int32 numctlinputresp; /* number of responses on input */
u_int32 numctlinputfrag; /* number of fragments on input */
u_int32 numctlinputerr; /* # input pkts with err bit set */
u_int32 numctlbadoffset; /* # input pkts with nonzero offset */
u_int32 numctlbadversion; /* # input pkts with unknown version */
u_int32 numctldatatooshort; /* data too short for count */
u_int32 numctlbadop; /* bad op code found in packet */
u_int32 numasyncmsgs; /* # async messages we've sent */
};
/*
* Structure used to return clock information
*/
struct info_clock {
u_int32 clockadr;
u_char type;
u_char flags;
u_char lastevent;
u_char currentstatus;
u_int32 polls;
u_int32 noresponse;
u_int32 badformat;
u_int32 baddata;
u_int32 timestarted;
l_fp fudgetime1;
l_fp fudgetime2;
int32 fudgeval1;
u_int32 fudgeval2;
};
/*
* Structure used for setting clock fudge factors
*/
struct conf_fudge {
u_int32 clockadr;
u_int32 which;
l_fp fudgetime;
u_int32 fudgeval_flags;
};
#define FUDGE_TIME1 1
#define FUDGE_TIME2 2
#define FUDGE_VAL1 3
#define FUDGE_VAL2 4
#define FUDGE_FLAGS 5
/*
* Structure used for returning clock debugging info
*/
#define NUMCBUGVALUES 16
#define NUMCBUGTIMES 32
struct info_clkbug {
u_int32 clockadr;
u_char nvalues;
u_char ntimes;
u_short svalues;
u_int32 stimes;
u_int32 values[NUMCBUGVALUES];
l_fp times[NUMCBUGTIMES];
};
/*
* Structure used for returning kernel pll/PPS information
*/
struct info_kernel {
int32 offset;
int32 freq;
int32 maxerror;
int32 esterror;
u_short status;
u_short shift;
int32 constant;
int32 precision;
int32 tolerance;
/*
* Variables used only if PPS signal discipline is implemented
*/
int32 ppsfreq;
int32 jitter;
int32 stabil;
int32 jitcnt;
int32 calcnt;
int32 errcnt;
int32 stbcnt;
};
/*
* interface statistics
*/
struct info_if_stats {
union addrun unaddr; /* address */
union addrun unbcast; /* broadcast */
union addrun unmask; /* mask */
u_int32 v6_flag; /* is this v6 */
char name[32]; /* name of interface */
int32 flags; /* interface flags */
int32 last_ttl; /* last TTL specified */
int32 num_mcast; /* No. of IP addresses in multicast socket */
int32 received; /* number of incoming packets */
int32 sent; /* number of outgoing packets */
int32 notsent; /* number of send failures */
int32 uptime; /* number of seconds this interface was active */
u_int32 scopeid; /* Scope used for Multicasting */
u_int32 ifindex; /* interface index - from system */
u_int32 ifnum; /* sequential interface number */
u_int32 peercnt; /* number of peers referencinf this interface - informational only */
u_short family; /* Address family */
u_char ignore_packets; /* Specify whether the packet should be ignored */
u_char action; /* reason the item is listed */
int32 _filler0; /* pad to a 64 bit size boundary */
};
#define IFS_EXISTS 1 /* just exists */
#define IFS_CREATED 2 /* was just created */
#define IFS_DELETED 3 /* was just delete */
/*
* Info returned with IP -> hostname lookup
*/
/* 144 might need to become 32, matching data[] member of req_pkt */
#define NTP_MAXHOSTNAME (32 - sizeof(u_int32) - sizeof(u_short))
struct info_dns_assoc {
u_int32 peeraddr; /* peer address (HMS: being careful...) */
associd_t associd; /* association ID */
char hostname[NTP_MAXHOSTNAME]; /* hostname */
};
/*
* function declarations
*/
int get_packet_mode(struct recvbuf *rbufp); /* Return packet mode */
#endif /* NTP_REQUEST_H */