Current Path : /sys/amd64/compile/hs32/modules/usr/src/sys/modules/usb/uark/@/netgraph/netflow/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/usb/uark/@/netgraph/netflow/ng_netflow.h |
/*- * Copyright (c) 2010-2011 Alexander V. Chernikov <melifaro@ipfw.ru> * Copyright (c) 2004-2005 Gleb Smirnoff <glebius@FreeBSD.org> * Copyright (c) 2001-2003 Roman V. Palagin <romanp@unshadow.net> * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * $SourceForge: ng_netflow.h,v 1.26 2004/09/04 15:44:55 glebius Exp $ * $FreeBSD: release/9.1.0/sys/netgraph/netflow/ng_netflow.h 234557 2012-04-21 19:22:53Z melifaro $ */ #ifndef _NG_NETFLOW_H_ #define _NG_NETFLOW_H_ #define NG_NETFLOW_NODE_TYPE "netflow" #define NGM_NETFLOW_COOKIE 1309868867 #define NG_NETFLOW_MAXIFACES USHRT_MAX /* Hook names */ #define NG_NETFLOW_HOOK_DATA "iface" #define NG_NETFLOW_HOOK_OUT "out" #define NG_NETFLOW_HOOK_EXPORT "export" #define NG_NETFLOW_HOOK_EXPORT9 "export9" /* This define effectively disable (v5) netflow export hook! */ /* #define COUNTERS_64 */ /* Netgraph commands understood by netflow node */ enum { NGM_NETFLOW_INFO = 1|NGM_READONLY|NGM_HASREPLY, /* get node info */ NGM_NETFLOW_IFINFO = 2|NGM_READONLY|NGM_HASREPLY, /* get iface info */ NGM_NETFLOW_SHOW = 3|NGM_READONLY|NGM_HASREPLY, /* show ip cache flow */ NGM_NETFLOW_SETDLT = 4, /* set data-link type */ NGM_NETFLOW_SETIFINDEX = 5, /* set interface index */ NGM_NETFLOW_SETTIMEOUTS = 6, /* set active/inactive flow timeouts */ NGM_NETFLOW_SETCONFIG = 7, /* set flow generation options */ NGM_NETFLOW_SETTEMPLATE = 8, /* set v9 flow template periodic */ NGM_NETFLOW_SETMTU = 9, /* set outgoing interface MTU */ }; /* This structure is returned by the NGM_NETFLOW_INFO message */ struct ng_netflow_info { uint64_t nfinfo_bytes; /* accounted IPv4 bytes */ uint32_t nfinfo_packets; /* accounted IPv4 packets */ uint64_t nfinfo_bytes6; /* accounted IPv6 bytes */ uint32_t nfinfo_packets6; /* accounted IPv6 packets */ uint64_t nfinfo_sbytes; /* skipped IPv4 bytes */ uint32_t nfinfo_spackets; /* skipped IPv4 packets */ uint64_t nfinfo_sbytes6; /* skipped IPv6 bytes */ uint32_t nfinfo_spackets6; /* skipped IPv6 packets */ uint32_t nfinfo_used; /* used cache records */ uint32_t nfinfo_used6; /* used IPv6 cache records */ uint32_t nfinfo_alloc_failed; /* failed allocations */ uint32_t nfinfo_export_failed; /* failed exports */ uint32_t nfinfo_export9_failed; /* failed exports */ uint32_t nfinfo_realloc_mbuf; /* reallocated mbufs */ uint32_t nfinfo_alloc_fibs; /* fibs allocated */ uint32_t nfinfo_act_exp; /* active expiries */ uint32_t nfinfo_inact_exp; /* inactive expiries */ uint32_t nfinfo_inact_t; /* flow inactive timeout */ uint32_t nfinfo_act_t; /* flow active timeout */ }; /* This structure is returned by the NGM_NETFLOW_IFINFO message */ struct ng_netflow_ifinfo { uint32_t ifinfo_packets; /* number of packets for this iface */ uint8_t ifinfo_dlt; /* Data Link Type, DLT_XXX */ #define MAXDLTNAMELEN 20 u_int16_t ifinfo_index; /* connected iface index */ uint32_t conf; }; /* This structure is passed to NGM_NETFLOW_SETDLT message */ struct ng_netflow_setdlt { uint16_t iface; /* which iface dlt change */ uint8_t dlt; /* DLT_XXX from bpf.h */ }; /* This structure is passed to NGM_NETFLOW_SETIFINDEX */ struct ng_netflow_setifindex { u_int16_t iface; /* which iface index change */ u_int16_t index; /* new index */ }; /* This structure is passed to NGM_NETFLOW_SETTIMEOUTS */ struct ng_netflow_settimeouts { uint32_t inactive_timeout; /* flow inactive timeout */ uint32_t active_timeout; /* flow active timeout */ }; #define NG_NETFLOW_CONF_INGRESS 1 #define NG_NETFLOW_CONF_EGRESS 2 #define NG_NETFLOW_CONF_ONCE 4 #define NG_NETFLOW_CONF_THISONCE 8 /* This structure is passed to NGM_NETFLOW_SETCONFIG */ struct ng_netflow_setconfig { u_int16_t iface; /* which iface config change */ u_int32_t conf; /* new config */ }; /* This structure is passed to NGM_NETFLOW_SETTEMPLATE */ struct ng_netflow_settemplate { uint16_t time; /* max time between announce */ uint16_t packets; /* max packets between announce */ }; /* This structure is passed to NGM_NETFLOW_SETMTU */ struct ng_netflow_setmtu { uint16_t mtu; /* MTU for packet */ }; /* This structure is used in NGM_NETFLOW_SHOW request/responce */ struct ngnf_show_header { u_char version; /* IPv4 or IPv6 */ uint32_t hash_id; /* current hash index */ uint32_t list_id; /* current record number in given hash */ uint32_t nentries; /* number of records in response */ }; /* XXXGL * Somewhere flow_rec6 is casted to flow_rec, and flow6_entry_data is * casted to flow_entry_data. After casting, fle->r.fib is accessed. * So beginning of these structs up to fib should be kept common. */ /* This is unique data, which identifies flow */ struct flow_rec { uint16_t flow_type; /* IPv4 L4/L3 flow, see NETFLOW_V9_FLOW* */ uint16_t fib; struct in_addr r_src; struct in_addr r_dst; union { struct { uint16_t s_port; /* source TCP/UDP port */ uint16_t d_port; /* destination TCP/UDP port */ } dir; uint32_t both; } ports; union { struct { u_char prot; /* IP protocol */ u_char tos; /* IP TOS */ uint16_t i_ifx; /* input interface index */ } i; uint32_t all; } misc; }; /* This is unique data, which identifies flow */ struct flow6_rec { uint16_t flow_type; /* IPv4 L4/L3 Ipv6 L4/L3 flow, see NETFLOW_V9_FLOW* */ uint16_t fib; union { struct in_addr r_src; struct in6_addr r_src6; } src; union { struct in_addr r_dst; struct in6_addr r_dst6; } dst; union { struct { uint16_t s_port; /* source TCP/UDP port */ uint16_t d_port; /* destination TCP/UDP port */ } dir; uint32_t both; } ports; union { struct { u_char prot; /* IP protocol */ u_char tos; /* IP TOS */ uint16_t i_ifx; /* input interface index */ } i; uint32_t all; } misc; }; #define r_ip_p misc.i.prot #define r_tos misc.i.tos #define r_i_ifx misc.i.i_ifx #define r_misc misc.all #define r_ports ports.both #define r_sport ports.dir.s_port #define r_dport ports.dir.d_port /* A flow entry which accumulates statistics */ struct flow_entry_data { uint16_t version; /* Protocol version */ struct flow_rec r; struct in_addr next_hop; uint16_t fle_o_ifx; /* output interface index */ #define fle_i_ifx r.misc.i.i_ifx uint8_t dst_mask; /* destination route mask bits */ uint8_t src_mask; /* source route mask bits */ u_long packets; u_long bytes; long first; /* uptime on first packet */ long last; /* uptime on last packet */ u_char tcp_flags; /* cumulative OR */ }; struct flow6_entry_data { uint16_t version; /* Protocol version */ struct flow6_rec r; union { struct in_addr next_hop; struct in6_addr next_hop6; } n; uint16_t fle_o_ifx; /* output interface index */ #define fle_i_ifx r.misc.i.i_ifx uint8_t dst_mask; /* destination route mask bits */ uint8_t src_mask; /* source route mask bits */ u_long packets; u_long bytes; long first; /* uptime on first packet */ long last; /* uptime on last packet */ u_char tcp_flags; /* cumulative OR */ }; /* * How many flow records we will transfer at once * without overflowing socket receive buffer */ #define NREC_AT_ONCE 1000 #define NREC6_AT_ONCE (NREC_AT_ONCE * sizeof(struct flow_entry_data) / \ sizeof(struct flow6_entry_data)) #define NGRESP_SIZE (sizeof(struct ngnf_show_header) + (NREC_AT_ONCE * \ sizeof(struct flow_entry_data))) #define SORCVBUF_SIZE (NGRESP_SIZE + 2 * sizeof(struct ng_mesg)) /* Everything below is for kernel */ #ifdef _KERNEL struct flow_entry { TAILQ_ENTRY(flow_entry) fle_hash; /* entries in hash slot */ struct flow_entry_data f; }; struct flow6_entry { TAILQ_ENTRY(flow_entry) fle_hash; /* entries in hash slot */ struct flow6_entry_data f; }; /* Parsing declarations */ /* Parse the info structure */ #define NG_NETFLOW_INFO_TYPE { \ { "IPv4 bytes", &ng_parse_uint64_type }, \ { "IPv4 packets", &ng_parse_uint32_type }, \ { "IPv6 bytes", &ng_parse_uint64_type }, \ { "IPv6 packets", &ng_parse_uint32_type }, \ { "IPv4 skipped bytes", &ng_parse_uint64_type }, \ { "IPv4 skipped packets", &ng_parse_uint32_type }, \ { "IPv6 skipped bytes", &ng_parse_uint64_type }, \ { "IPv6 skipped packets", &ng_parse_uint32_type }, \ { "IPv4 records used", &ng_parse_uint32_type },\ { "IPv6 records used", &ng_parse_uint32_type },\ { "Failed allocations", &ng_parse_uint32_type },\ { "V5 failed exports", &ng_parse_uint32_type },\ { "V9 failed exports", &ng_parse_uint32_type },\ { "mbuf reallocations", &ng_parse_uint32_type },\ { "fibs allocated", &ng_parse_uint32_type },\ { "Active expiries", &ng_parse_uint32_type },\ { "Inactive expiries", &ng_parse_uint32_type },\ { "Inactive timeout", &ng_parse_uint32_type },\ { "Active timeout", &ng_parse_uint32_type },\ { NULL } \ } /* Parse the ifinfo structure */ #define NG_NETFLOW_IFINFO_TYPE { \ { "packets", &ng_parse_uint32_type }, \ { "data link type", &ng_parse_uint8_type }, \ { "index", &ng_parse_uint16_type }, \ { "conf", &ng_parse_uint32_type }, \ { NULL } \ } /* Parse the setdlt structure */ #define NG_NETFLOW_SETDLT_TYPE { \ { "iface", &ng_parse_uint16_type }, \ { "dlt", &ng_parse_uint8_type }, \ { NULL } \ } /* Parse the setifindex structure */ #define NG_NETFLOW_SETIFINDEX_TYPE { \ { "iface", &ng_parse_uint16_type }, \ { "index", &ng_parse_uint16_type }, \ { NULL } \ } /* Parse the settimeouts structure */ #define NG_NETFLOW_SETTIMEOUTS_TYPE { \ { "inactive", &ng_parse_uint32_type }, \ { "active", &ng_parse_uint32_type }, \ { NULL } \ } /* Parse the setifindex structure */ #define NG_NETFLOW_SETCONFIG_TYPE { \ { "iface", &ng_parse_uint16_type }, \ { "conf", &ng_parse_uint32_type }, \ { NULL } \ } /* Parse the settemplate structure */ #define NG_NETFLOW_SETTEMPLATE_TYPE { \ { "time", &ng_parse_uint16_type }, \ { "packets", &ng_parse_uint16_type }, \ { NULL } \ } /* Parse the setmtu structure */ #define NG_NETFLOW_SETMTU_TYPE { \ { "mtu", &ng_parse_uint16_type }, \ { NULL } \ } /* Private hook data */ struct ng_netflow_iface { hook_p hook; /* NULL when disconnected */ hook_p out; /* NULL when no bypass hook */ struct ng_netflow_ifinfo info; }; typedef struct ng_netflow_iface *iface_p; typedef struct ng_netflow_ifinfo *ifinfo_p; struct netflow_export_item { item_p item; item_p item9; struct netflow_v9_packet_opt *item9_opt; }; /* Structure contatining fib-specific data */ struct fib_export { uint32_t fib; /* kernel fib id */ struct netflow_export_item exp; /* Various data used for export */ struct mtx export_mtx; /* exp.item mutex */ struct mtx export9_mtx; /* exp.item9 mutex */ uint32_t flow_seq; /* current V5 flow sequence */ uint32_t flow9_seq; /* current V9 flow sequence */ uint32_t domain_id; /* Observartion domain id */ /* Netflow V9 counters */ uint32_t templ_last_ts; /* unixtime of last template announce */ uint32_t templ_last_pkt; /* packets count on last template announce */ uint32_t sent_packets; /* packets sent by exporter; */ struct netflow_v9_packet_opt *export9_opt; /* current packet specific options */ }; typedef struct fib_export *fib_export_p; /* Structure describing our flow engine */ struct netflow { node_p node; /* link to the node itself */ hook_p export; /* export data goes there */ hook_p export9; /* Netflow V9 export data goes there */ struct ng_netflow_info info; struct callout exp_callout; /* expiry periodic job */ /* * Flow entries are allocated in uma(9) zone zone. They are * indexed by hash hash. Each hash element consist of tailqueue * head and mutex to protect this element. */ #define CACHESIZE (65536*4) #define CACHELOWAT (CACHESIZE * 3/4) #define CACHEHIGHWAT (CACHESIZE * 9/10) uma_zone_t zone; struct flow_hash_entry *hash; /* * NetFlow data export * * export_item is a data item, it has an mbuf with cluster * attached to it. A thread detaches export_item from priv * and works with it. If the export is full it is sent, and * a new one is allocated. Before exiting thread re-attaches * its current item back to priv. If there is item already, * current incomplete datagram is sent. * export_mtx is used for attaching/detaching. */ /* IPv6 support */ #ifdef INET6 uma_zone_t zone6; struct flow_hash_entry *hash6; #endif /* Multiple FIB support */ fib_export_p *fib_data; /* array of pointers to per-fib data */ uint16_t maxfibs; /* number of allocated fibs */ /* * RFC 3954 clause 7.3 * "Both options MUST be configurable by the user on the Exporter." */ uint16_t templ_time; /* time between sending templates */ uint16_t templ_packets; /* packets between sending templates */ #define NETFLOW_V9_MAX_FLOWSETS 2 u_char flowsets_count; /* current flowsets used */ u_char flowset_records[NETFLOW_V9_MAX_FLOWSETS - 1]; /* Count of records in each flowset */ uint16_t mtu; /* export interface MTU */ struct netflow_v9_flowset_header *v9_flowsets[NETFLOW_V9_MAX_FLOWSETS - 1]; /* Pointers to pre-compiled flowsets */ struct ng_netflow_iface ifaces[NG_NETFLOW_MAXIFACES]; }; typedef struct netflow *priv_p; /* Header of a small list in hash cell */ struct flow_hash_entry { struct mtx mtx; TAILQ_HEAD(fhead, flow_entry) head; }; #define ERROUT(x) { error = (x); goto done; } #define MTAG_NETFLOW 1221656444 #define MTAG_NETFLOW_CALLED 0 #define m_pktlen(m) ((m)->m_pkthdr.len) #define IP6VERSION 6 #define priv_to_fib(priv, fib) (priv)->fib_data[(fib)] /* * Cisco uses milliseconds for uptime. Bad idea, since it overflows * every 48+ days. But we will do same to keep compatibility. This macro * does overflowable multiplication to 1000. */ #define MILLIUPTIME(t) (((t) << 9) + /* 512 */ \ ((t) << 8) + /* 256 */ \ ((t) << 7) + /* 128 */ \ ((t) << 6) + /* 64 */ \ ((t) << 5) + /* 32 */ \ ((t) << 3)) /* 8 */ /* Prototypes for netflow.c */ void ng_netflow_cache_init(priv_p); void ng_netflow_cache_flush(priv_p); int ng_netflow_fib_init(priv_p priv, int fib); void ng_netflow_copyinfo(priv_p, struct ng_netflow_info *); timeout_t ng_netflow_expire; int ng_netflow_flow_add(priv_p, fib_export_p, struct ip *, caddr_t, uint8_t, uint8_t, unsigned int); int ng_netflow_flow6_add(priv_p, fib_export_p, struct ip6_hdr *, caddr_t , uint8_t, uint8_t, unsigned int); int ng_netflow_flow_show(priv_p, struct ngnf_show_header *req, struct ngnf_show_header *resp); void ng_netflow_v9_cache_init(priv_p); void ng_netflow_v9_cache_flush(priv_p); item_p get_export9_dgram(priv_p, fib_export_p, struct netflow_v9_packet_opt **); void return_export9_dgram(priv_p, fib_export_p, item_p, struct netflow_v9_packet_opt *, int); int export9_add(item_p, struct netflow_v9_packet_opt *, struct flow_entry *); int export9_send(priv_p, fib_export_p, item_p, struct netflow_v9_packet_opt *, int); #endif /* _KERNEL */ #endif /* _NG_NETFLOW_H_ */