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|
/*
* Copyright (c) 1998-2007 The TCPDUMP project
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that: (1) source code
* distributions retain the above copyright notice and this paragraph
* in its entirety, and (2) distributions including binary code include
* the above copyright notice and this paragraph in its entirety in
* the documentation or other materials provided with the distribution.
* THIS SOFTWARE IS PROVIDED ``AS IS'' AND
* WITHOUT ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, WITHOUT
* LIMITATION, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
* FOR A PARTICULAR PURPOSE.
*
* The SFLOW protocol as per http://www.sflow.org/developers/specifications.php
*
* Original code by Carles Kishimoto <carles.kishimoto@gmail.com>
*
* Expansion and refactoring by Rick Jones <rick.jones2@hp.com>
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <netdissect-stdinc.h>
#include "netdissect.h"
#include "extract.h"
#include "addrtoname.h"
/*
* sFlow datagram
*
* 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
* +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
* | Sflow version (2,4,5) |
* +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
* | IP version (1 for IPv4 | 2 for IPv6) |
* +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
* | IP Address AGENT (4 or 16 bytes) |
* +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
* | Sub agent ID |
* +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
* | Datagram sequence number |
* +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
* | Switch uptime in ms |
* +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
* | num samples in datagram |
* +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
*
*/
struct sflow_datagram_t {
uint8_t version[4];
uint8_t ip_version[4];
uint8_t agent[4];
uint8_t agent_id[4];
uint8_t seqnum[4];
uint8_t uptime[4];
uint8_t samples[4];
};
struct sflow_sample_header {
uint8_t format[4];
uint8_t len[4];
};
#define SFLOW_FLOW_SAMPLE 1
#define SFLOW_COUNTER_SAMPLE 2
#define SFLOW_EXPANDED_FLOW_SAMPLE 3
#define SFLOW_EXPANDED_COUNTER_SAMPLE 4
static const struct tok sflow_format_values[] = {
{ SFLOW_FLOW_SAMPLE, "flow sample" },
{ SFLOW_COUNTER_SAMPLE, "counter sample" },
{ SFLOW_EXPANDED_FLOW_SAMPLE, "expanded flow sample" },
{ SFLOW_EXPANDED_COUNTER_SAMPLE, "expanded counter sample" },
{ 0, NULL}
};
struct sflow_flow_sample_t {
uint8_t seqnum[4];
uint8_t typesource[4];
uint8_t rate[4];
uint8_t pool[4];
uint8_t drops[4];
uint8_t in_interface[4];
uint8_t out_interface[4];
uint8_t records[4];
};
struct sflow_expanded_flow_sample_t {
uint8_t seqnum[4];
uint8_t type[4];
uint8_t index[4];
uint8_t rate[4];
uint8_t pool[4];
uint8_t drops[4];
uint8_t in_interface_format[4];
uint8_t in_interface_value[4];
uint8_t out_interface_format[4];
uint8_t out_interface_value[4];
uint8_t records[4];
};
#define SFLOW_FLOW_RAW_PACKET 1
#define SFLOW_FLOW_ETHERNET_FRAME 2
#define SFLOW_FLOW_IPV4_DATA 3
#define SFLOW_FLOW_IPV6_DATA 4
#define SFLOW_FLOW_EXTENDED_SWITCH_DATA 1001
#define SFLOW_FLOW_EXTENDED_ROUTER_DATA 1002
#define SFLOW_FLOW_EXTENDED_GATEWAY_DATA 1003
#define SFLOW_FLOW_EXTENDED_USER_DATA 1004
#define SFLOW_FLOW_EXTENDED_URL_DATA 1005
#define SFLOW_FLOW_EXTENDED_MPLS_DATA 1006
#define SFLOW_FLOW_EXTENDED_NAT_DATA 1007
#define SFLOW_FLOW_EXTENDED_MPLS_TUNNEL 1008
#define SFLOW_FLOW_EXTENDED_MPLS_VC 1009
#define SFLOW_FLOW_EXTENDED_MPLS_FEC 1010
#define SFLOW_FLOW_EXTENDED_MPLS_LVP_FEC 1011
#define SFLOW_FLOW_EXTENDED_VLAN_TUNNEL 1012
static const struct tok sflow_flow_type_values[] = {
{ SFLOW_FLOW_RAW_PACKET, "Raw packet"},
{ SFLOW_FLOW_ETHERNET_FRAME, "Ethernet frame"},
{ SFLOW_FLOW_IPV4_DATA, "IPv4 Data"},
{ SFLOW_FLOW_IPV6_DATA, "IPv6 Data"},
{ SFLOW_FLOW_EXTENDED_SWITCH_DATA, "Extended Switch data"},
{ SFLOW_FLOW_EXTENDED_ROUTER_DATA, "Extended Router data"},
{ SFLOW_FLOW_EXTENDED_GATEWAY_DATA, "Extended Gateway data"},
{ SFLOW_FLOW_EXTENDED_USER_DATA, "Extended User data"},
{ SFLOW_FLOW_EXTENDED_URL_DATA, "Extended URL data"},
{ SFLOW_FLOW_EXTENDED_MPLS_DATA, "Extended MPLS data"},
{ SFLOW_FLOW_EXTENDED_NAT_DATA, "Extended NAT data"},
{ SFLOW_FLOW_EXTENDED_MPLS_TUNNEL, "Extended MPLS tunnel"},
{ SFLOW_FLOW_EXTENDED_MPLS_VC, "Extended MPLS VC"},
{ SFLOW_FLOW_EXTENDED_MPLS_FEC, "Extended MPLS FEC"},
{ SFLOW_FLOW_EXTENDED_MPLS_LVP_FEC, "Extended MPLS LVP FEC"},
{ SFLOW_FLOW_EXTENDED_VLAN_TUNNEL, "Extended VLAN Tunnel"},
{ 0, NULL}
};
#define SFLOW_HEADER_PROTOCOL_ETHERNET 1
#define SFLOW_HEADER_PROTOCOL_IPV4 11
#define SFLOW_HEADER_PROTOCOL_IPV6 12
static const struct tok sflow_flow_raw_protocol_values[] = {
{ SFLOW_HEADER_PROTOCOL_ETHERNET, "Ethernet"},
{ SFLOW_HEADER_PROTOCOL_IPV4, "IPv4"},
{ SFLOW_HEADER_PROTOCOL_IPV6, "IPv6"},
{ 0, NULL}
};
struct sflow_expanded_flow_raw_t {
uint8_t protocol[4];
uint8_t length[4];
uint8_t stripped_bytes[4];
uint8_t header_size[4];
};
struct sflow_ethernet_frame_t {
uint8_t length[4];
uint8_t src_mac[8];
uint8_t dst_mac[8];
uint8_t type[4];
};
struct sflow_extended_switch_data_t {
uint8_t src_vlan[4];
uint8_t src_pri[4];
uint8_t dst_vlan[4];
uint8_t dst_pri[4];
};
struct sflow_counter_record_t {
uint8_t format[4];
uint8_t length[4];
};
struct sflow_flow_record_t {
uint8_t format[4];
uint8_t length[4];
};
struct sflow_counter_sample_t {
uint8_t seqnum[4];
uint8_t typesource[4];
uint8_t records[4];
};
struct sflow_expanded_counter_sample_t {
uint8_t seqnum[4];
uint8_t type[4];
uint8_t index[4];
uint8_t records[4];
};
#define SFLOW_COUNTER_GENERIC 1
#define SFLOW_COUNTER_ETHERNET 2
#define SFLOW_COUNTER_TOKEN_RING 3
#define SFLOW_COUNTER_BASEVG 4
#define SFLOW_COUNTER_VLAN 5
#define SFLOW_COUNTER_PROCESSOR 1001
static const struct tok sflow_counter_type_values[] = {
{ SFLOW_COUNTER_GENERIC, "Generic counter"},
{ SFLOW_COUNTER_ETHERNET, "Ethernet counter"},
{ SFLOW_COUNTER_TOKEN_RING, "Token ring counter"},
{ SFLOW_COUNTER_BASEVG, "100 BaseVG counter"},
{ SFLOW_COUNTER_VLAN, "Vlan counter"},
{ SFLOW_COUNTER_PROCESSOR, "Processor counter"},
{ 0, NULL}
};
#define SFLOW_IFACE_DIRECTION_UNKNOWN 0
#define SFLOW_IFACE_DIRECTION_FULLDUPLEX 1
#define SFLOW_IFACE_DIRECTION_HALFDUPLEX 2
#define SFLOW_IFACE_DIRECTION_IN 3
#define SFLOW_IFACE_DIRECTION_OUT 4
static const struct tok sflow_iface_direction_values[] = {
{ SFLOW_IFACE_DIRECTION_UNKNOWN, "unknown"},
{ SFLOW_IFACE_DIRECTION_FULLDUPLEX, "full-duplex"},
{ SFLOW_IFACE_DIRECTION_HALFDUPLEX, "half-duplex"},
{ SFLOW_IFACE_DIRECTION_IN, "in"},
{ SFLOW_IFACE_DIRECTION_OUT, "out"},
{ 0, NULL}
};
struct sflow_generic_counter_t {
uint8_t ifindex[4];
uint8_t iftype[4];
uint8_t ifspeed[8];
uint8_t ifdirection[4];
uint8_t ifstatus[4];
uint8_t ifinoctets[8];
uint8_t ifinunicastpkts[4];
uint8_t ifinmulticastpkts[4];
uint8_t ifinbroadcastpkts[4];
uint8_t ifindiscards[4];
uint8_t ifinerrors[4];
uint8_t ifinunkownprotos[4];
uint8_t ifoutoctets[8];
uint8_t ifoutunicastpkts[4];
uint8_t ifoutmulticastpkts[4];
uint8_t ifoutbroadcastpkts[4];
uint8_t ifoutdiscards[4];
uint8_t ifouterrors[4];
uint8_t ifpromiscmode[4];
};
struct sflow_ethernet_counter_t {
uint8_t alignerrors[4];
uint8_t fcserrors[4];
uint8_t single_collision_frames[4];
uint8_t multiple_collision_frames[4];
uint8_t test_errors[4];
uint8_t deferred_transmissions[4];
uint8_t late_collisions[4];
uint8_t excessive_collisions[4];
uint8_t mac_transmit_errors[4];
uint8_t carrier_sense_errors[4];
uint8_t frame_too_longs[4];
uint8_t mac_receive_errors[4];
uint8_t symbol_errors[4];
};
struct sflow_100basevg_counter_t {
uint8_t in_highpriority_frames[4];
uint8_t in_highpriority_octets[8];
uint8_t in_normpriority_frames[4];
uint8_t in_normpriority_octets[8];
uint8_t in_ipmerrors[4];
uint8_t in_oversized[4];
uint8_t in_data_errors[4];
uint8_t in_null_addressed_frames[4];
uint8_t out_highpriority_frames[4];
uint8_t out_highpriority_octets[8];
uint8_t transitioninto_frames[4];
uint8_t hc_in_highpriority_octets[8];
uint8_t hc_in_normpriority_octets[8];
uint8_t hc_out_highpriority_octets[8];
};
struct sflow_vlan_counter_t {
uint8_t vlan_id[4];
uint8_t octets[8];
uint8_t unicast_pkt[4];
uint8_t multicast_pkt[4];
uint8_t broadcast_pkt[4];
uint8_t discards[4];
};
static int
print_sflow_counter_generic(netdissect_options *ndo,
const u_char *pointer, u_int len)
{
const struct sflow_generic_counter_t *sflow_gen_counter;
if (len < sizeof(struct sflow_generic_counter_t))
return 1;
sflow_gen_counter = (const struct sflow_generic_counter_t *)pointer;
ND_TCHECK(*sflow_gen_counter);
ND_PRINT((ndo, "\n\t ifindex %u, iftype %u, ifspeed %" PRIu64 ", ifdirection %u (%s)",
EXTRACT_32BITS(sflow_gen_counter->ifindex),
EXTRACT_32BITS(sflow_gen_counter->iftype),
EXTRACT_64BITS(sflow_gen_counter->ifspeed),
EXTRACT_32BITS(sflow_gen_counter->ifdirection),
tok2str(sflow_iface_direction_values, "Unknown",
EXTRACT_32BITS(sflow_gen_counter->ifdirection))));
ND_PRINT((ndo, "\n\t ifstatus %u, adminstatus: %s, operstatus: %s",
EXTRACT_32BITS(sflow_gen_counter->ifstatus),
EXTRACT_32BITS(sflow_gen_counter->ifstatus)&1 ? "up" : "down",
(EXTRACT_32BITS(sflow_gen_counter->ifstatus)>>1)&1 ? "up" : "down"));
ND_PRINT((ndo, "\n\t In octets %" PRIu64
", unicast pkts %u, multicast pkts %u, broadcast pkts %u, discards %u",
EXTRACT_64BITS(sflow_gen_counter->ifinoctets),
EXTRACT_32BITS(sflow_gen_counter->ifinunicastpkts),
EXTRACT_32BITS(sflow_gen_counter->ifinmulticastpkts),
EXTRACT_32BITS(sflow_gen_counter->ifinbroadcastpkts),
EXTRACT_32BITS(sflow_gen_counter->ifindiscards)));
ND_PRINT((ndo, "\n\t In errors %u, unknown protos %u",
EXTRACT_32BITS(sflow_gen_counter->ifinerrors),
EXTRACT_32BITS(sflow_gen_counter->ifinunkownprotos)));
ND_PRINT((ndo, "\n\t Out octets %" PRIu64
", unicast pkts %u, multicast pkts %u, broadcast pkts %u, discards %u",
EXTRACT_64BITS(sflow_gen_counter->ifoutoctets),
EXTRACT_32BITS(sflow_gen_counter->ifoutunicastpkts),
EXTRACT_32BITS(sflow_gen_counter->ifoutmulticastpkts),
EXTRACT_32BITS(sflow_gen_counter->ifoutbroadcastpkts),
EXTRACT_32BITS(sflow_gen_counter->ifoutdiscards)));
ND_PRINT((ndo, "\n\t Out errors %u, promisc mode %u",
EXTRACT_32BITS(sflow_gen_counter->ifouterrors),
EXTRACT_32BITS(sflow_gen_counter->ifpromiscmode)));
return 0;
trunc:
return 1;
}
static int
print_sflow_counter_ethernet(netdissect_options *ndo,
const u_char *pointer, u_int len)
{
const struct sflow_ethernet_counter_t *sflow_eth_counter;
if (len < sizeof(struct sflow_ethernet_counter_t))
return 1;
sflow_eth_counter = (const struct sflow_ethernet_counter_t *)pointer;
ND_TCHECK(*sflow_eth_counter);
ND_PRINT((ndo, "\n\t align errors %u, fcs errors %u, single collision %u, multiple collision %u, test error %u",
EXTRACT_32BITS(sflow_eth_counter->alignerrors),
EXTRACT_32BITS(sflow_eth_counter->fcserrors),
EXTRACT_32BITS(sflow_eth_counter->single_collision_frames),
EXTRACT_32BITS(sflow_eth_counter->multiple_collision_frames),
EXTRACT_32BITS(sflow_eth_counter->test_errors)));
ND_PRINT((ndo, "\n\t deferred %u, late collision %u, excessive collision %u, mac trans error %u",
EXTRACT_32BITS(sflow_eth_counter->deferred_transmissions),
EXTRACT_32BITS(sflow_eth_counter->late_collisions),
EXTRACT_32BITS(sflow_eth_counter->excessive_collisions),
EXTRACT_32BITS(sflow_eth_counter->mac_transmit_errors)));
ND_PRINT((ndo, "\n\t carrier error %u, frames too long %u, mac receive errors %u, symbol errors %u",
EXTRACT_32BITS(sflow_eth_counter->carrier_sense_errors),
EXTRACT_32BITS(sflow_eth_counter->frame_too_longs),
EXTRACT_32BITS(sflow_eth_counter->mac_receive_errors),
EXTRACT_32BITS(sflow_eth_counter->symbol_errors)));
return 0;
trunc:
return 1;
}
static int
print_sflow_counter_token_ring(netdissect_options *ndo _U_,
const u_char *pointer _U_, u_int len _U_)
{
return 0;
}
static int
print_sflow_counter_basevg(netdissect_options *ndo,
const u_char *pointer, u_int len)
{
const struct sflow_100basevg_counter_t *sflow_100basevg_counter;
if (len < sizeof(struct sflow_100basevg_counter_t))
return 1;
sflow_100basevg_counter = (const struct sflow_100basevg_counter_t *)pointer;
ND_TCHECK(*sflow_100basevg_counter);
ND_PRINT((ndo, "\n\t in high prio frames %u, in high prio octets %" PRIu64,
EXTRACT_32BITS(sflow_100basevg_counter->in_highpriority_frames),
EXTRACT_64BITS(sflow_100basevg_counter->in_highpriority_octets)));
ND_PRINT((ndo, "\n\t in norm prio frames %u, in norm prio octets %" PRIu64,
EXTRACT_32BITS(sflow_100basevg_counter->in_normpriority_frames),
EXTRACT_64BITS(sflow_100basevg_counter->in_normpriority_octets)));
ND_PRINT((ndo, "\n\t in ipm errors %u, oversized %u, in data errors %u, null addressed frames %u",
EXTRACT_32BITS(sflow_100basevg_counter->in_ipmerrors),
EXTRACT_32BITS(sflow_100basevg_counter->in_oversized),
EXTRACT_32BITS(sflow_100basevg_counter->in_data_errors),
EXTRACT_32BITS(sflow_100basevg_counter->in_null_addressed_frames)));
ND_PRINT((ndo, "\n\t out high prio frames %u, out high prio octets %" PRIu64
", trans into frames %u",
EXTRACT_32BITS(sflow_100basevg_counter->out_highpriority_frames),
EXTRACT_64BITS(sflow_100basevg_counter->out_highpriority_octets),
EXTRACT_32BITS(sflow_100basevg_counter->transitioninto_frames)));
ND_PRINT((ndo, "\n\t in hc high prio octets %" PRIu64
", in hc norm prio octets %" PRIu64
", out hc high prio octets %" PRIu64,
EXTRACT_64BITS(sflow_100basevg_counter->hc_in_highpriority_octets),
EXTRACT_64BITS(sflow_100basevg_counter->hc_in_normpriority_octets),
EXTRACT_64BITS(sflow_100basevg_counter->hc_out_highpriority_octets)));
return 0;
trunc:
return 1;
}
static int
print_sflow_counter_vlan(netdissect_options *ndo,
const u_char *pointer, u_int len)
{
const struct sflow_vlan_counter_t *sflow_vlan_counter;
if (len < sizeof(struct sflow_vlan_counter_t))
return 1;
sflow_vlan_counter = (const struct sflow_vlan_counter_t *)pointer;
ND_TCHECK(*sflow_vlan_counter);
ND_PRINT((ndo, "\n\t vlan_id %u, octets %" PRIu64
", unicast_pkt %u, multicast_pkt %u, broadcast_pkt %u, discards %u",
EXTRACT_32BITS(sflow_vlan_counter->vlan_id),
EXTRACT_64BITS(sflow_vlan_counter->octets),
EXTRACT_32BITS(sflow_vlan_counter->unicast_pkt),
EXTRACT_32BITS(sflow_vlan_counter->multicast_pkt),
EXTRACT_32BITS(sflow_vlan_counter->broadcast_pkt),
EXTRACT_32BITS(sflow_vlan_counter->discards)));
return 0;
trunc:
return 1;
}
struct sflow_processor_counter_t {
uint8_t five_sec_util[4];
uint8_t one_min_util[4];
uint8_t five_min_util[4];
uint8_t total_memory[8];
uint8_t free_memory[8];
};
static int
print_sflow_counter_processor(netdissect_options *ndo,
const u_char *pointer, u_int len)
{
const struct sflow_processor_counter_t *sflow_processor_counter;
if (len < sizeof(struct sflow_processor_counter_t))
return 1;
sflow_processor_counter = (const struct sflow_processor_counter_t *)pointer;
ND_TCHECK(*sflow_processor_counter);
ND_PRINT((ndo, "\n\t 5sec %u, 1min %u, 5min %u, total_mem %" PRIu64
", total_mem %" PRIu64,
EXTRACT_32BITS(sflow_processor_counter->five_sec_util),
EXTRACT_32BITS(sflow_processor_counter->one_min_util),
EXTRACT_32BITS(sflow_processor_counter->five_min_util),
EXTRACT_64BITS(sflow_processor_counter->total_memory),
EXTRACT_64BITS(sflow_processor_counter->free_memory)));
return 0;
trunc:
return 1;
}
static int
sflow_print_counter_records(netdissect_options *ndo,
const u_char *pointer, u_int len, u_int records)
{
u_int nrecords;
const u_char *tptr;
u_int tlen;
u_int counter_type;
u_int counter_len;
u_int enterprise;
const struct sflow_counter_record_t *sflow_counter_record;
nrecords = records;
tptr = pointer;
tlen = len;
while (nrecords > 0) {
/* do we have the "header?" */
if (tlen < sizeof(struct sflow_counter_record_t))
return 1;
sflow_counter_record = (const struct sflow_counter_record_t *)tptr;
ND_TCHECK(*sflow_counter_record);
enterprise = EXTRACT_32BITS(sflow_counter_record->format);
counter_type = enterprise & 0x0FFF;
enterprise = enterprise >> 20;
counter_len = EXTRACT_32BITS(sflow_counter_record->length);
ND_PRINT((ndo, "\n\t enterprise %u, %s (%u) length %u",
enterprise,
(enterprise == 0) ? tok2str(sflow_counter_type_values,"Unknown",counter_type) : "Unknown",
counter_type,
counter_len));
tptr += sizeof(struct sflow_counter_record_t);
tlen -= sizeof(struct sflow_counter_record_t);
if (tlen < counter_len)
return 1;
if (enterprise == 0) {
switch (counter_type) {
case SFLOW_COUNTER_GENERIC:
if (print_sflow_counter_generic(ndo, tptr, tlen))
return 1;
break;
case SFLOW_COUNTER_ETHERNET:
if (print_sflow_counter_ethernet(ndo, tptr, tlen))
return 1;
break;
case SFLOW_COUNTER_TOKEN_RING:
if (print_sflow_counter_token_ring(ndo, tptr,tlen))
return 1;
break;
case SFLOW_COUNTER_BASEVG:
if (print_sflow_counter_basevg(ndo, tptr, tlen))
return 1;
break;
case SFLOW_COUNTER_VLAN:
if (print_sflow_counter_vlan(ndo, tptr, tlen))
return 1;
break;
case SFLOW_COUNTER_PROCESSOR:
if (print_sflow_counter_processor(ndo, tptr, tlen))
return 1;
break;
default:
if (ndo->ndo_vflag <= 1)
print_unknown_data(ndo, tptr, "\n\t\t", counter_len);
break;
}
}
tptr += counter_len;
tlen -= counter_len;
nrecords--;
}
return 0;
trunc:
return 1;
}
static int
sflow_print_counter_sample(netdissect_options *ndo,
const u_char *pointer, u_int len)
{
const struct sflow_counter_sample_t *sflow_counter_sample;
u_int nrecords;
u_int typesource;
u_int type;
u_int index;
if (len < sizeof(struct sflow_counter_sample_t))
return 1;
sflow_counter_sample = (const struct sflow_counter_sample_t *)pointer;
ND_TCHECK(*sflow_counter_sample);
typesource = EXTRACT_32BITS(sflow_counter_sample->typesource);
nrecords = EXTRACT_32BITS(sflow_counter_sample->records);
type = typesource >> 24;
index = typesource & 0x0FFF;
ND_PRINT((ndo, " seqnum %u, type %u, idx %u, records %u",
EXTRACT_32BITS(sflow_counter_sample->seqnum),
type,
index,
nrecords));
return sflow_print_counter_records(ndo, pointer + sizeof(struct sflow_counter_sample_t),
len - sizeof(struct sflow_counter_sample_t),
nrecords);
trunc:
return 1;
}
static int
sflow_print_expanded_counter_sample(netdissect_options *ndo,
const u_char *pointer, u_int len)
{
const struct sflow_expanded_counter_sample_t *sflow_expanded_counter_sample;
u_int nrecords;
if (len < sizeof(struct sflow_expanded_counter_sample_t))
return 1;
sflow_expanded_counter_sample = (const struct sflow_expanded_counter_sample_t *)pointer;
ND_TCHECK(*sflow_expanded_counter_sample);
nrecords = EXTRACT_32BITS(sflow_expanded_counter_sample->records);
ND_PRINT((ndo, " seqnum %u, type %u, idx %u, records %u",
EXTRACT_32BITS(sflow_expanded_counter_sample->seqnum),
EXTRACT_32BITS(sflow_expanded_counter_sample->type),
EXTRACT_32BITS(sflow_expanded_counter_sample->index),
nrecords));
return sflow_print_counter_records(ndo, pointer + sizeof(struct sflow_expanded_counter_sample_t),
len - sizeof(struct sflow_expanded_counter_sample_t),
nrecords);
trunc:
return 1;
}
static int
print_sflow_raw_packet(netdissect_options *ndo,
const u_char *pointer, u_int len)
{
const struct sflow_expanded_flow_raw_t *sflow_flow_raw;
if (len < sizeof(struct sflow_expanded_flow_raw_t))
return 1;
sflow_flow_raw = (const struct sflow_expanded_flow_raw_t *)pointer;
ND_TCHECK(*sflow_flow_raw);
ND_PRINT((ndo, "\n\t protocol %s (%u), length %u, stripped bytes %u, header_size %u",
tok2str(sflow_flow_raw_protocol_values,"Unknown",EXTRACT_32BITS(sflow_flow_raw->protocol)),
EXTRACT_32BITS(sflow_flow_raw->protocol),
EXTRACT_32BITS(sflow_flow_raw->length),
EXTRACT_32BITS(sflow_flow_raw->stripped_bytes),
EXTRACT_32BITS(sflow_flow_raw->header_size)));
/* QUESTION - should we attempt to print the raw header itself?
assuming of course there is wnough data present to do so... */
return 0;
trunc:
return 1;
}
static int
print_sflow_ethernet_frame(netdissect_options *ndo,
const u_char *pointer, u_int len)
{
const struct sflow_ethernet_frame_t *sflow_ethernet_frame;
if (len < sizeof(struct sflow_ethernet_frame_t))
return 1;
sflow_ethernet_frame = (const struct sflow_ethernet_frame_t *)pointer;
ND_TCHECK(*sflow_ethernet_frame);
ND_PRINT((ndo, "\n\t frame len %u, type %u",
EXTRACT_32BITS(sflow_ethernet_frame->length),
EXTRACT_32BITS(sflow_ethernet_frame->type)));
return 0;
trunc:
return 1;
}
static int
print_sflow_extended_switch_data(netdissect_options *ndo,
const u_char *pointer, u_int len)
{
const struct sflow_extended_switch_data_t *sflow_extended_sw_data;
if (len < sizeof(struct sflow_extended_switch_data_t))
return 1;
sflow_extended_sw_data = (const struct sflow_extended_switch_data_t *)pointer;
ND_TCHECK(*sflow_extended_sw_data);
ND_PRINT((ndo, "\n\t src vlan %u, src pri %u, dst vlan %u, dst pri %u",
EXTRACT_32BITS(sflow_extended_sw_data->src_vlan),
EXTRACT_32BITS(sflow_extended_sw_data->src_pri),
EXTRACT_32BITS(sflow_extended_sw_data->dst_vlan),
EXTRACT_32BITS(sflow_extended_sw_data->dst_pri)));
return 0;
trunc:
return 1;
}
static int
sflow_print_flow_records(netdissect_options *ndo,
const u_char *pointer, u_int len, u_int records)
{
u_int nrecords;
const u_char *tptr;
u_int tlen;
u_int flow_type;
u_int enterprise;
u_int flow_len;
const struct sflow_flow_record_t *sflow_flow_record;
nrecords = records;
tptr = pointer;
tlen = len;
while (nrecords > 0) {
/* do we have the "header?" */
if (tlen < sizeof(struct sflow_flow_record_t))
return 1;
sflow_flow_record = (const struct sflow_flow_record_t *)tptr;
ND_TCHECK(*sflow_flow_record);
/* so, the funky encoding means we cannot blythly mask-off
bits, we must also check the enterprise. */
enterprise = EXTRACT_32BITS(sflow_flow_record->format);
flow_type = enterprise & 0x0FFF;
enterprise = enterprise >> 12;
flow_len = EXTRACT_32BITS(sflow_flow_record->length);
ND_PRINT((ndo, "\n\t enterprise %u %s (%u) length %u",
enterprise,
(enterprise == 0) ? tok2str(sflow_flow_type_values,"Unknown",flow_type) : "Unknown",
flow_type,
flow_len));
tptr += sizeof(struct sflow_flow_record_t);
tlen -= sizeof(struct sflow_flow_record_t);
if (tlen < flow_len)
return 1;
if (enterprise == 0) {
switch (flow_type) {
case SFLOW_FLOW_RAW_PACKET:
if (print_sflow_raw_packet(ndo, tptr, tlen))
return 1;
break;
case SFLOW_FLOW_EXTENDED_SWITCH_DATA:
if (print_sflow_extended_switch_data(ndo, tptr, tlen))
return 1;
break;
case SFLOW_FLOW_ETHERNET_FRAME:
if (print_sflow_ethernet_frame(ndo, tptr, tlen))
return 1;
break;
/* FIXME these need a decoder */
case SFLOW_FLOW_IPV4_DATA:
case SFLOW_FLOW_IPV6_DATA:
case SFLOW_FLOW_EXTENDED_ROUTER_DATA:
case SFLOW_FLOW_EXTENDED_GATEWAY_DATA:
case SFLOW_FLOW_EXTENDED_USER_DATA:
case SFLOW_FLOW_EXTENDED_URL_DATA:
case SFLOW_FLOW_EXTENDED_MPLS_DATA:
case SFLOW_FLOW_EXTENDED_NAT_DATA:
case SFLOW_FLOW_EXTENDED_MPLS_TUNNEL:
case SFLOW_FLOW_EXTENDED_MPLS_VC:
case SFLOW_FLOW_EXTENDED_MPLS_FEC:
case SFLOW_FLOW_EXTENDED_MPLS_LVP_FEC:
case SFLOW_FLOW_EXTENDED_VLAN_TUNNEL:
break;
default:
if (ndo->ndo_vflag <= 1)
print_unknown_data(ndo, tptr, "\n\t\t", flow_len);
break;
}
}
tptr += flow_len;
tlen -= flow_len;
nrecords--;
}
return 0;
trunc:
return 1;
}
static int
sflow_print_flow_sample(netdissect_options *ndo,
const u_char *pointer, u_int len)
{
const struct sflow_flow_sample_t *sflow_flow_sample;
u_int nrecords;
u_int typesource;
u_int type;
u_int index;
if (len < sizeof(struct sflow_flow_sample_t))
return 1;
sflow_flow_sample = (const struct sflow_flow_sample_t *)pointer;
ND_TCHECK(*sflow_flow_sample);
typesource = EXTRACT_32BITS(sflow_flow_sample->typesource);
nrecords = EXTRACT_32BITS(sflow_flow_sample->records);
type = typesource >> 24;
index = typesource & 0x0FFF;
ND_PRINT((ndo, " seqnum %u, type %u, idx %u, rate %u, pool %u, drops %u, input %u output %u records %u",
EXTRACT_32BITS(sflow_flow_sample->seqnum),
type,
index,
EXTRACT_32BITS(sflow_flow_sample->rate),
EXTRACT_32BITS(sflow_flow_sample->pool),
EXTRACT_32BITS(sflow_flow_sample->drops),
EXTRACT_32BITS(sflow_flow_sample->in_interface),
EXTRACT_32BITS(sflow_flow_sample->out_interface),
nrecords));
return sflow_print_flow_records(ndo, pointer + sizeof(struct sflow_flow_sample_t),
len - sizeof(struct sflow_flow_sample_t),
nrecords);
trunc:
return 1;
}
static int
sflow_print_expanded_flow_sample(netdissect_options *ndo,
const u_char *pointer, u_int len)
{
const struct sflow_expanded_flow_sample_t *sflow_expanded_flow_sample;
u_int nrecords;
if (len < sizeof(struct sflow_expanded_flow_sample_t))
return 1;
sflow_expanded_flow_sample = (const struct sflow_expanded_flow_sample_t *)pointer;
ND_TCHECK(*sflow_expanded_flow_sample);
nrecords = EXTRACT_32BITS(sflow_expanded_flow_sample->records);
ND_PRINT((ndo, " seqnum %u, type %u, idx %u, rate %u, pool %u, drops %u, records %u",
EXTRACT_32BITS(sflow_expanded_flow_sample->seqnum),
EXTRACT_32BITS(sflow_expanded_flow_sample->type),
EXTRACT_32BITS(sflow_expanded_flow_sample->index),
EXTRACT_32BITS(sflow_expanded_flow_sample->rate),
EXTRACT_32BITS(sflow_expanded_flow_sample->pool),
EXTRACT_32BITS(sflow_expanded_flow_sample->drops),
EXTRACT_32BITS(sflow_expanded_flow_sample->records)));
return sflow_print_flow_records(ndo, pointer + sizeof(struct sflow_expanded_flow_sample_t),
len - sizeof(struct sflow_expanded_flow_sample_t),
nrecords);
trunc:
return 1;
}
void
sflow_print(netdissect_options *ndo,
const u_char *pptr, u_int len)
{
const struct sflow_datagram_t *sflow_datagram;
const struct sflow_sample_header *sflow_sample;
const u_char *tptr;
u_int tlen;
uint32_t sflow_sample_type, sflow_sample_len;
uint32_t nsamples;
tptr = pptr;
tlen = len;
sflow_datagram = (const struct sflow_datagram_t *)pptr;
ND_TCHECK(*sflow_datagram);
/*
* Sanity checking of the header.
*/
if (EXTRACT_32BITS(sflow_datagram->version) != 5) {
ND_PRINT((ndo, "sFlow version %u packet not supported",
EXTRACT_32BITS(sflow_datagram->version)));
return;
}
if (ndo->ndo_vflag < 1) {
ND_PRINT((ndo, "sFlowv%u, %s agent %s, agent-id %u, length %u",
EXTRACT_32BITS(sflow_datagram->version),
EXTRACT_32BITS(sflow_datagram->ip_version) == 1 ? "IPv4" : "IPv6",
ipaddr_string(ndo, sflow_datagram->agent),
EXTRACT_32BITS(sflow_datagram->agent_id),
len));
return;
}
/* ok they seem to want to know everything - lets fully decode it */
nsamples=EXTRACT_32BITS(sflow_datagram->samples);
ND_PRINT((ndo, "sFlowv%u, %s agent %s, agent-id %u, seqnum %u, uptime %u, samples %u, length %u",
EXTRACT_32BITS(sflow_datagram->version),
EXTRACT_32BITS(sflow_datagram->ip_version) == 1 ? "IPv4" : "IPv6",
ipaddr_string(ndo, sflow_datagram->agent),
EXTRACT_32BITS(sflow_datagram->agent_id),
EXTRACT_32BITS(sflow_datagram->seqnum),
EXTRACT_32BITS(sflow_datagram->uptime),
nsamples,
len));
/* skip Common header */
tptr += sizeof(const struct sflow_datagram_t);
tlen -= sizeof(const struct sflow_datagram_t);
while (nsamples > 0 && tlen > 0) {
sflow_sample = (const struct sflow_sample_header *)tptr;
ND_TCHECK(*sflow_sample);
sflow_sample_type = (EXTRACT_32BITS(sflow_sample->format)&0x0FFF);
sflow_sample_len = EXTRACT_32BITS(sflow_sample->len);
if (tlen < sizeof(struct sflow_sample_header))
goto trunc;
tptr += sizeof(struct sflow_sample_header);
tlen -= sizeof(struct sflow_sample_header);
ND_PRINT((ndo, "\n\t%s (%u), length %u,",
tok2str(sflow_format_values, "Unknown", sflow_sample_type),
sflow_sample_type,
sflow_sample_len));
/* basic sanity check */
if (sflow_sample_type == 0 || sflow_sample_len ==0) {
return;
}
if (tlen < sflow_sample_len)
goto trunc;
/* did we capture enough for fully decoding the sample ? */
ND_TCHECK2(*tptr, sflow_sample_len);
switch(sflow_sample_type) {
case SFLOW_FLOW_SAMPLE:
if (sflow_print_flow_sample(ndo, tptr, tlen))
goto trunc;
break;
case SFLOW_COUNTER_SAMPLE:
if (sflow_print_counter_sample(ndo, tptr,tlen))
goto trunc;
break;
case SFLOW_EXPANDED_FLOW_SAMPLE:
if (sflow_print_expanded_flow_sample(ndo, tptr, tlen))
goto trunc;
break;
case SFLOW_EXPANDED_COUNTER_SAMPLE:
if (sflow_print_expanded_counter_sample(ndo, tptr,tlen))
goto trunc;
break;
default:
if (ndo->ndo_vflag <= 1)
print_unknown_data(ndo, tptr, "\n\t ", sflow_sample_len);
break;
}
tptr += sflow_sample_len;
tlen -= sflow_sample_len;
nsamples--;
}
return;
trunc:
ND_PRINT((ndo, "[|SFLOW]"));
}
/*
* Local Variables:
* c-style: whitesmith
* c-basic-offset: 4
* End:
*/
|