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Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/usb/uplcom/@/netgraph/netflow/netflow_v9.c |
/*- * Copyright (c) 2010 Alexander V. Chernikov <melifaro@ipfw.ru> * 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. * * $FreeBSD: release/9.1.0/sys/netgraph/netflow/netflow_v9.c 238295 2012-07-09 11:53:06Z melifaro $ */ static const char rcs_id[] = "@(#) $FreeBSD: release/9.1.0/sys/netgraph/netflow/netflow_v9.c 238295 2012-07-09 11:53:06Z melifaro $"; #include "opt_inet6.h" #include "opt_route.h" #include <sys/param.h> #include <sys/kernel.h> #include <sys/limits.h> #include <sys/mbuf.h> #include <sys/syslog.h> #include <sys/systm.h> #include <sys/socket.h> #include <sys/endian.h> #include <machine/atomic.h> #include <machine/stdarg.h> #include <net/if.h> #include <net/route.h> #include <net/ethernet.h> #include <netinet/in.h> #include <netinet/in_systm.h> #include <netinet/ip.h> #include <netinet/ip6.h> #include <netinet/tcp.h> #include <netinet/udp.h> #include <netgraph/ng_message.h> #include <netgraph/netgraph.h> #include <netgraph/netflow/netflow.h> #include <netgraph/netflow/ng_netflow.h> #include <netgraph/netflow/netflow_v9.h> MALLOC_DECLARE(M_NETFLOW_GENERAL); MALLOC_DEFINE(M_NETFLOW_GENERAL, "netflow_general", "plog, V9 templates data"); /* * Base V9 templates for L4+ IPv4/IPv6 protocols */ struct netflow_v9_template _netflow_v9_record_ipv4_tcp[] = { { NETFLOW_V9_FIELD_IPV4_SRC_ADDR, 4}, { NETFLOW_V9_FIELD_IPV4_DST_ADDR, 4}, { NETFLOW_V9_FIELD_IPV4_NEXT_HOP, 4}, { NETFLOW_V9_FIELD_INPUT_SNMP, 2}, { NETFLOW_V9_FIELD_OUTPUT_SNMP, 2}, { NETFLOW_V9_FIELD_IN_PKTS, sizeof(CNTR)}, { NETFLOW_V9_FIELD_IN_BYTES, sizeof(CNTR)}, { NETFLOW_V9_FIELD_OUT_PKTS, sizeof(CNTR)}, { NETFLOW_V9_FIELD_OUT_BYTES, sizeof(CNTR)}, { NETFLOW_V9_FIELD_FIRST_SWITCHED, 4}, { NETFLOW_V9_FIELD_LAST_SWITCHED, 4}, { NETFLOW_V9_FIELD_L4_SRC_PORT, 2}, { NETFLOW_V9_FIELD_L4_DST_PORT, 2}, { NETFLOW_V9_FIELD_TCP_FLAGS, 1}, { NETFLOW_V9_FIELD_PROTOCOL, 1}, { NETFLOW_V9_FIELD_TOS, 1}, { NETFLOW_V9_FIELD_SRC_AS, 4}, { NETFLOW_V9_FIELD_DST_AS, 4}, { NETFLOW_V9_FIELD_SRC_MASK, 1}, { NETFLOW_V9_FIELD_DST_MASK, 1}, {0, 0} }; struct netflow_v9_template _netflow_v9_record_ipv6_tcp[] = { { NETFLOW_V9_FIELD_IPV6_SRC_ADDR, 16}, { NETFLOW_V9_FIELD_IPV6_DST_ADDR, 16}, { NETFLOW_V9_FIELD_IPV6_NEXT_HOP, 16}, { NETFLOW_V9_FIELD_INPUT_SNMP, 2}, { NETFLOW_V9_FIELD_OUTPUT_SNMP, 2}, { NETFLOW_V9_FIELD_IN_PKTS, sizeof(CNTR)}, { NETFLOW_V9_FIELD_IN_BYTES, sizeof(CNTR)}, { NETFLOW_V9_FIELD_OUT_PKTS, sizeof(CNTR)}, { NETFLOW_V9_FIELD_OUT_BYTES, sizeof(CNTR)}, { NETFLOW_V9_FIELD_FIRST_SWITCHED, 4}, { NETFLOW_V9_FIELD_LAST_SWITCHED, 4}, { NETFLOW_V9_FIELD_L4_SRC_PORT, 2}, { NETFLOW_V9_FIELD_L4_DST_PORT, 2}, { NETFLOW_V9_FIELD_TCP_FLAGS, 1}, { NETFLOW_V9_FIELD_PROTOCOL, 1}, { NETFLOW_V9_FIELD_TOS, 1}, { NETFLOW_V9_FIELD_SRC_AS, 4}, { NETFLOW_V9_FIELD_DST_AS, 4}, { NETFLOW_V9_FIELD_SRC_MASK, 1}, { NETFLOW_V9_FIELD_DST_MASK, 1}, {0, 0} }; /* * Pre-compiles flow exporter for all possible FlowSets * so we can add flowset to packet via simple memcpy() */ static void generate_v9_templates(priv_p priv) { uint16_t *p, *template_fields_cnt; int cnt; int flowset_size = sizeof(struct netflow_v9_flowset_header) + _NETFLOW_V9_TEMPLATE_SIZE(_netflow_v9_record_ipv4_tcp) + /* netflow_v9_record_ipv4_tcp */ _NETFLOW_V9_TEMPLATE_SIZE(_netflow_v9_record_ipv6_tcp); /* netflow_v9_record_ipv6_tcp */ priv->v9_flowsets[0] = malloc(flowset_size, M_NETFLOW_GENERAL, M_WAITOK | M_ZERO); if (flowset_size % 4) flowset_size += 4 - (flowset_size % 4); /* Padding to 4-byte boundary */ priv->flowsets_count = 1; p = (uint16_t *)priv->v9_flowsets[0]; *p++ = 0; /* Flowset ID, 0 is reserved for Template FlowSets */ *p++ = htons(flowset_size); /* Total FlowSet length */ /* * Most common TCP/UDP IPv4 template, ID = 256 */ *p++ = htons(NETFLOW_V9_MAX_RESERVED_FLOWSET + NETFLOW_V9_FLOW_V4_L4); template_fields_cnt = p++; for (cnt = 0; _netflow_v9_record_ipv4_tcp[cnt].field_id != 0; cnt++) { *p++ = htons(_netflow_v9_record_ipv4_tcp[cnt].field_id); *p++ = htons(_netflow_v9_record_ipv4_tcp[cnt].field_length); } *template_fields_cnt = htons(cnt); /* * TCP/UDP IPv6 template, ID = 257 */ *p++ = htons(NETFLOW_V9_MAX_RESERVED_FLOWSET + NETFLOW_V9_FLOW_V6_L4); template_fields_cnt = p++; for (cnt = 0; _netflow_v9_record_ipv6_tcp[cnt].field_id != 0; cnt++) { *p++ = htons(_netflow_v9_record_ipv6_tcp[cnt].field_id); *p++ = htons(_netflow_v9_record_ipv6_tcp[cnt].field_length); } *template_fields_cnt = htons(cnt); priv->flowset_records[0] = 2; } /* Closes current data flowset */ static void inline close_flowset(struct mbuf *m, struct netflow_v9_packet_opt *t) { struct mbuf *m_old; uint32_t zero = 0; int offset = 0; uint16_t *flowset_length, len; /* Hack to ensure we are not crossing mbuf boundary, length is uint16_t */ m_old = m_getptr(m, t->flow_header + offsetof(struct netflow_v9_flowset_header, length), &offset); flowset_length = (uint16_t *)(mtod(m_old, char *) + offset); len = (uint16_t)(m_pktlen(m) - t->flow_header); /* Align on 4-byte boundary (RFC 3954, Clause 5.3) */ if (len % 4) { if (m_append(m, 4 - (len % 4), (void *)&zero) != 1) panic("ng_netflow: m_append() failed!"); len += 4 - (len % 4); } *flowset_length = htons(len); } /* * Non-static functions called from ng_netflow.c */ /* We have full datagram in fib data. Send it to export hook. */ int export9_send(priv_p priv, fib_export_p fe, item_p item, struct netflow_v9_packet_opt *t, int flags) { struct mbuf *m = NGI_M(item); struct netflow_v9_export_dgram *dgram = mtod(m, struct netflow_v9_export_dgram *); struct netflow_v9_header *header = &dgram->header; struct timespec ts; int error = 0; if (t == NULL) { CTR0(KTR_NET, "export9_send(): V9 export packet without tag"); NG_FREE_ITEM(item); return (0); } /* Close flowset if not closed already */ if (m_pktlen(m) != t->flow_header) close_flowset(m, t); /* Fill export header. */ header->count = t->count; header->sys_uptime = htonl(MILLIUPTIME(time_uptime)); getnanotime(&ts); header->unix_secs = htonl(ts.tv_sec); header->seq_num = htonl(atomic_fetchadd_32(&fe->flow9_seq, 1)); header->count = htons(t->count); header->source_id = htonl(fe->domain_id); if (priv->export9 != NULL) NG_FWD_ITEM_HOOK_FLAGS(error, item, priv->export9, flags); else NG_FREE_ITEM(item); free(t, M_NETFLOW_GENERAL); return (error); } /* Add V9 record to dgram. */ int export9_add(item_p item, struct netflow_v9_packet_opt *t, struct flow_entry *fle) { size_t len = 0; struct netflow_v9_flowset_header fsh; struct netflow_v9_record_general rg; struct mbuf *m = NGI_M(item); uint16_t flow_type; struct flow_entry_data *fed; #ifdef INET6 struct flow6_entry_data *fed6; #endif if (t == NULL) { CTR0(KTR_NET, "ng_netflow: V9 export packet without tag!"); return (0); } /* Prepare flow record */ fed = (struct flow_entry_data *)&fle->f; #ifdef INET6 fed6 = (struct flow6_entry_data *)&fle->f; #endif /* We can use flow_type field since fle6 offset is equal to fle */ flow_type = fed->r.flow_type; switch (flow_type) { case NETFLOW_V9_FLOW_V4_L4: { /* IPv4 TCP/UDP/[SCTP] */ struct netflow_v9_record_ipv4_tcp *rec = &rg.rec.v4_tcp; rec->src_addr = fed->r.r_src.s_addr; rec->dst_addr = fed->r.r_dst.s_addr; rec->next_hop = fed->next_hop.s_addr; rec->i_ifx = htons(fed->fle_i_ifx); rec->o_ifx = htons(fed->fle_o_ifx); rec->i_packets = htonl(fed->packets); rec->i_octets = htonl(fed->bytes); rec->o_packets = htonl(0); rec->o_octets = htonl(0); rec->first = htonl(MILLIUPTIME(fed->first)); rec->last = htonl(MILLIUPTIME(fed->last)); rec->s_port = fed->r.r_sport; rec->d_port = fed->r.r_dport; rec->flags = fed->tcp_flags; rec->prot = fed->r.r_ip_p; rec->tos = fed->r.r_tos; rec->dst_mask = fed->dst_mask; rec->src_mask = fed->src_mask; /* Not supported fields. */ rec->src_as = rec->dst_as = 0; len = sizeof(struct netflow_v9_record_ipv4_tcp); break; } #ifdef INET6 case NETFLOW_V9_FLOW_V6_L4: { /* IPv6 TCP/UDP/[SCTP] */ struct netflow_v9_record_ipv6_tcp *rec = &rg.rec.v6_tcp; rec->src_addr = fed6->r.src.r_src6; rec->dst_addr = fed6->r.dst.r_dst6; rec->next_hop = fed6->n.next_hop6; rec->i_ifx = htons(fed6->fle_i_ifx); rec->o_ifx = htons(fed6->fle_o_ifx); rec->i_packets = htonl(fed6->packets); rec->i_octets = htonl(fed6->bytes); rec->o_packets = htonl(0); rec->o_octets = htonl(0); rec->first = htonl(MILLIUPTIME(fed6->first)); rec->last = htonl(MILLIUPTIME(fed6->last)); rec->s_port = fed6->r.r_sport; rec->d_port = fed6->r.r_dport; rec->flags = fed6->tcp_flags; rec->prot = fed6->r.r_ip_p; rec->tos = fed6->r.r_tos; rec->dst_mask = fed6->dst_mask; rec->src_mask = fed6->src_mask; /* Not supported fields. */ rec->src_as = rec->dst_as = 0; len = sizeof(struct netflow_v9_record_ipv6_tcp); break; } #endif default: { CTR1(KTR_NET, "export9_add(): Don't know what to do with %d flow type!", flow_type); return (0); } } /* Check if new records has the same template */ if (flow_type != t->flow_type) { /* close old flowset */ if (t->flow_type != 0) close_flowset(m, t); t->flow_type = flow_type; t->flow_header = m_pktlen(m); /* Generate data flowset ID */ fsh.id = htons(NETFLOW_V9_MAX_RESERVED_FLOWSET + flow_type); fsh.length = 0; /* m_append should not fail since all data is already allocated */ if (m_append(m, sizeof(fsh), (void *)&fsh) != 1) panic("ng_netflow: m_append() failed"); } if (m_append(m, len, (void *)&rg.rec) != 1) panic("ng_netflow: m_append() failed"); t->count++; if (m_pktlen(m) + sizeof(struct netflow_v9_record_general) + sizeof(struct netflow_v9_flowset_header) >= _NETFLOW_V9_MAX_SIZE(t->mtu)) return (1); /* end of datagram */ return (0); } /* * Detach export datagram from fib instance, if there is any. * If there is no, allocate a new one. */ item_p get_export9_dgram(priv_p priv, fib_export_p fe, struct netflow_v9_packet_opt **tt) { item_p item = NULL; struct netflow_v9_packet_opt *t = NULL; mtx_lock(&fe->export9_mtx); if (fe->exp.item9 != NULL) { item = fe->exp.item9; fe->exp.item9 = NULL; t = fe->exp.item9_opt; fe->exp.item9_opt = NULL; } mtx_unlock(&fe->export9_mtx); if (item == NULL) { struct netflow_v9_export_dgram *dgram; struct mbuf *m; uint16_t mtu = priv->mtu; /* Allocate entire packet at once, allowing easy m_append() calls */ m = m_getm(NULL, mtu, M_DONTWAIT, MT_DATA); if (m == NULL) return (NULL); t = malloc(sizeof(struct netflow_v9_packet_opt), M_NETFLOW_GENERAL, M_NOWAIT | M_ZERO); if (t == NULL) { m_free(m); return (NULL); } item = ng_package_data(m, NG_NOFLAGS); if (item == NULL) { free(t, M_NETFLOW_GENERAL); return (NULL); } dgram = mtod(m, struct netflow_v9_export_dgram *); dgram->header.count = 0; dgram->header.version = htons(NETFLOW_V9); /* Set mbuf current data length */ m->m_len = m->m_pkthdr.len = sizeof(struct netflow_v9_header); t->count = 0; t->mtu = mtu; t->flow_header = m->m_len; /* * Check if we need to insert templates into packet */ struct netflow_v9_flowset_header *fl; if ((time_uptime >= priv->templ_time + fe->templ_last_ts) || (fe->sent_packets >= priv->templ_packets + fe->templ_last_pkt)) { fe->templ_last_ts = time_uptime; fe->templ_last_pkt = fe->sent_packets; fl = priv->v9_flowsets[0]; m_append(m, ntohs(fl->length), (void *)fl); t->flow_header = m->m_len; t->count += priv->flowset_records[0]; } } *tt = t; return (item); } /* * Re-attach incomplete datagram back to fib instance. * If there is already another one, then send incomplete. */ void return_export9_dgram(priv_p priv, fib_export_p fe, item_p item, struct netflow_v9_packet_opt *t, int flags) { /* * It may happen on SMP, that some thread has already * put its item there, in this case we bail out and * send what we have to collector. */ mtx_lock(&fe->export9_mtx); if (fe->exp.item9 == NULL) { fe->exp.item9 = item; fe->exp.item9_opt = t; mtx_unlock(&fe->export9_mtx); } else { mtx_unlock(&fe->export9_mtx); export9_send(priv, fe, item, t, flags); } } /* Allocate memory and set up flow cache */ void ng_netflow_v9_cache_init(priv_p priv) { generate_v9_templates(priv); priv->templ_time = NETFLOW_V9_MAX_TIME_TEMPL; priv->templ_packets = NETFLOW_V9_MAX_PACKETS_TEMPL; priv->mtu = BASE_MTU; } /* Free all flow cache memory. Called from ng_netflow_cache_flush() */ void ng_netflow_v9_cache_flush(priv_p priv) { int i; /* Free flowsets*/ for (i = 0; i < priv->flowsets_count; i++) free(priv->v9_flowsets[i], M_NETFLOW_GENERAL); }