/* Copyright (C) 2014-2020 Open Information Security Foundation * * You can copy, redistribute or modify this Program under the terms of * the GNU General Public License version 2 as published by the Free * Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * version 2 along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA * 02110-1301, USA. */ /** * \file * * \author Victor Julien * * Implements Unidirectiontal NetFlow JSON logging portion of the engine. */ #include "suricata-common.h" #include "debug.h" #include "detect.h" #include "pkt-var.h" #include "conf.h" #include "threads.h" #include "threadvars.h" #include "tm-threads.h" #include "util-print.h" #include "util-unittest.h" #include "util-debug.h" #include "output.h" #include "util-privs.h" #include "util-buffer.h" #include "util-proto-name.h" #include "util-logopenfile.h" #include "util-time.h" #include "output-json.h" #include "output-json-netflow.h" #include "stream-tcp-private.h" typedef struct LogJsonFileCtx_ { LogFileCtx *file_ctx; OutputJsonCommonSettings cfg; } LogJsonFileCtx; typedef struct JsonNetFlowLogThread_ { LogFileCtx *file_ctx; LogJsonFileCtx *flowlog_ctx; /** LogFileCtx has the pointer to the file and a mutex to allow multithreading */ MemBuffer *buffer; } JsonNetFlowLogThread; static JsonBuilder *CreateEveHeaderFromNetFlow(const Flow *f, int dir) { char timebuf[64]; char srcip[46] = {0}, dstip[46] = {0}; Port sp, dp; JsonBuilder *js = jb_new_object(); if (unlikely(js == NULL)) return NULL; struct timeval tv; memset(&tv, 0x00, sizeof(tv)); TimeGet(&tv); CreateIsoTimeString(&tv, timebuf, sizeof(timebuf)); /* reverse header direction if the flow started out wrong */ dir ^= ((f->flags & FLOW_DIR_REVERSED) != 0); if (FLOW_IS_IPV4(f)) { if (dir == 0) { PrintInet(AF_INET, (const void *)&(f->src.addr_data32[0]), srcip, sizeof(srcip)); PrintInet(AF_INET, (const void *)&(f->dst.addr_data32[0]), dstip, sizeof(dstip)); } else { PrintInet(AF_INET, (const void *)&(f->dst.addr_data32[0]), srcip, sizeof(srcip)); PrintInet(AF_INET, (const void *)&(f->src.addr_data32[0]), dstip, sizeof(dstip)); } } else if (FLOW_IS_IPV6(f)) { if (dir == 0) { PrintInet(AF_INET6, (const void *)&(f->src.address), srcip, sizeof(srcip)); PrintInet(AF_INET6, (const void *)&(f->dst.address), dstip, sizeof(dstip)); } else { PrintInet(AF_INET6, (const void *)&(f->dst.address), srcip, sizeof(srcip)); PrintInet(AF_INET6, (const void *)&(f->src.address), dstip, sizeof(dstip)); } } if (dir == 0) { sp = f->sp; dp = f->dp; } else { sp = f->dp; dp = f->sp; } /* time */ jb_set_string(js, "timestamp", timebuf); CreateEveFlowId(js, (const Flow *)f); #if 0 // TODO /* sensor id */ if (sensor_id >= 0) json_object_set_new(js, "sensor_id", json_integer(sensor_id)); #endif /* input interface */ if (f->livedev) { jb_set_string(js, "in_iface", f->livedev->dev); } JB_SET_STRING(js, "event_type", "netflow"); /* vlan */ if (f->vlan_idx > 0) { jb_open_array(js, "vlan"); jb_append_uint(js, f->vlan_id[0]); if (f->vlan_idx > 1) { jb_append_uint(js, f->vlan_id[1]); } jb_close(js); } /* tuple */ jb_set_string(js, "src_ip", srcip); switch(f->proto) { case IPPROTO_ICMP: break; case IPPROTO_UDP: case IPPROTO_TCP: case IPPROTO_SCTP: jb_set_uint(js, "src_port", sp); break; } jb_set_string(js, "dest_ip", dstip); switch(f->proto) { case IPPROTO_ICMP: break; case IPPROTO_UDP: case IPPROTO_TCP: case IPPROTO_SCTP: jb_set_uint(js, "dest_port", dp); break; } if (SCProtoNameValid(f->proto)) { jb_set_string(js, "proto", known_proto[f->proto]); } else { char proto[4]; snprintf(proto, sizeof(proto), "%"PRIu8"", f->proto); jb_set_string(js, "proto", proto); } switch (f->proto) { case IPPROTO_ICMP: case IPPROTO_ICMPV6: { uint8_t type = f->icmp_s.type; uint8_t code = f->icmp_s.code; if (dir == 1) { type = f->icmp_d.type; code = f->icmp_d.code; } jb_set_uint(js, "icmp_type", type); jb_set_uint(js, "icmp_code", code); break; } } return js; } /* JSON format logging */ static void NetFlowLogEveToServer(JsonNetFlowLogThread *aft, JsonBuilder *js, Flow *f) { jb_set_string(js, "app_proto", AppProtoToString(f->alproto_ts ? f->alproto_ts : f->alproto)); jb_open_object(js, "netflow"); jb_set_uint(js, "pkts", f->todstpktcnt); jb_set_uint(js, "bytes", f->todstbytecnt); char timebuf1[64], timebuf2[64]; CreateIsoTimeString(&f->startts, timebuf1, sizeof(timebuf1)); CreateIsoTimeString(&f->lastts, timebuf2, sizeof(timebuf2)); jb_set_string(js, "start", timebuf1); jb_set_string(js, "end", timebuf2); int32_t age = f->lastts.tv_sec - f->startts.tv_sec; jb_set_uint(js, "age", age); jb_set_uint(js, "min_ttl", f->min_ttl_toserver); jb_set_uint(js, "max_ttl", f->max_ttl_toserver); /* Close netflow. */ jb_close(js); /* TCP */ if (f->proto == IPPROTO_TCP) { jb_open_object(js, "tcp"); TcpSession *ssn = f->protoctx; char hexflags[3]; snprintf(hexflags, sizeof(hexflags), "%02x", ssn ? ssn->client.tcp_flags : 0); jb_set_string(js, "tcp_flags", hexflags); EveTcpFlags(ssn ? ssn->client.tcp_flags : 0, js); jb_close(js); } } static void NetFlowLogEveToClient(JsonNetFlowLogThread *aft, JsonBuilder *js, Flow *f) { jb_set_string(js, "app_proto", AppProtoToString(f->alproto_tc ? f->alproto_tc : f->alproto)); jb_open_object(js, "netflow"); jb_set_uint(js, "pkts", f->tosrcpktcnt); jb_set_uint(js, "bytes", f->tosrcbytecnt); char timebuf1[64], timebuf2[64]; CreateIsoTimeString(&f->startts, timebuf1, sizeof(timebuf1)); CreateIsoTimeString(&f->lastts, timebuf2, sizeof(timebuf2)); jb_set_string(js, "start", timebuf1); jb_set_string(js, "end", timebuf2); int32_t age = f->lastts.tv_sec - f->startts.tv_sec; jb_set_uint(js, "age", age); /* To client is zero if we did not see any packet */ if (f->tosrcpktcnt) { jb_set_uint(js, "min_ttl", f->min_ttl_toclient); jb_set_uint(js, "max_ttl", f->max_ttl_toclient); } /* Close netflow. */ jb_close(js); /* TCP */ if (f->proto == IPPROTO_TCP) { jb_open_object(js, "tcp"); TcpSession *ssn = f->protoctx; char hexflags[3]; snprintf(hexflags, sizeof(hexflags), "%02x", ssn ? ssn->server.tcp_flags : 0); jb_set_string(js, "tcp_flags", hexflags); EveTcpFlags(ssn ? ssn->server.tcp_flags : 0, js); jb_close(js); } } static int JsonNetFlowLogger(ThreadVars *tv, void *thread_data, Flow *f) { SCEnter(); JsonNetFlowLogThread *jhl = (JsonNetFlowLogThread *)thread_data; LogJsonFileCtx *netflow_ctx = jhl->flowlog_ctx; /* reset */ MemBufferReset(jhl->buffer); JsonBuilder *jb = CreateEveHeaderFromNetFlow(f, 0); if (unlikely(jb == NULL)) return TM_ECODE_OK; NetFlowLogEveToServer(jhl, jb, f); EveAddCommonOptions(&netflow_ctx->cfg, NULL, f, jb); OutputJsonBuilderBuffer(jb, jhl->file_ctx, &jhl->buffer); jb_free(jb); /* only log a response record if we actually have seen response packets */ if (f->tosrcpktcnt) { /* reset */ MemBufferReset(jhl->buffer); jb = CreateEveHeaderFromNetFlow(f, 1); if (unlikely(jb == NULL)) return TM_ECODE_OK; NetFlowLogEveToClient(jhl, jb, f); EveAddCommonOptions(&netflow_ctx->cfg, NULL, f, jb); OutputJsonBuilderBuffer(jb, jhl->file_ctx, &jhl->buffer); jb_free(jb); } SCReturnInt(TM_ECODE_OK); } static void OutputNetFlowLogDeinitSub(OutputCtx *output_ctx) { LogJsonFileCtx *flow_ctx = output_ctx->data; SCFree(flow_ctx); SCFree(output_ctx); } static OutputInitResult OutputNetFlowLogInitSub(ConfNode *conf, OutputCtx *parent_ctx) { OutputInitResult result = { NULL, false }; OutputJsonCtx *ojc = parent_ctx->data; LogJsonFileCtx *flow_ctx = SCMalloc(sizeof(LogJsonFileCtx)); if (unlikely(flow_ctx == NULL)) return result; OutputCtx *output_ctx = SCCalloc(1, sizeof(OutputCtx)); if (unlikely(output_ctx == NULL)) { SCFree(flow_ctx); return result; } flow_ctx->file_ctx = ojc->file_ctx; flow_ctx->cfg = ojc->cfg; output_ctx->data = flow_ctx; output_ctx->DeInit = OutputNetFlowLogDeinitSub; result.ctx = output_ctx; result.ok = true; return result; } static TmEcode JsonNetFlowLogThreadInit(ThreadVars *t, const void *initdata, void **data) { JsonNetFlowLogThread *aft = SCCalloc(1, sizeof(JsonNetFlowLogThread)); if (unlikely(aft == NULL)) return TM_ECODE_FAILED; if(initdata == NULL) { SCLogDebug("Error getting context for EveLogNetflow. \"initdata\" argument NULL"); goto error_exit; } /* Use the Ouptut Context (file pointer and mutex) */ aft->flowlog_ctx = ((OutputCtx *)initdata)->data; //TODO aft->buffer = MemBufferCreateNew(JSON_OUTPUT_BUFFER_SIZE); if (aft->buffer == NULL) { goto error_exit; } aft->file_ctx = LogFileEnsureExists(aft->flowlog_ctx->file_ctx, t->id); if (!aft->file_ctx) { goto error_exit; } *data = (void *)aft; return TM_ECODE_OK; error_exit: if (aft->buffer != NULL) { MemBufferFree(aft->buffer); } SCFree(aft); return TM_ECODE_FAILED; } static TmEcode JsonNetFlowLogThreadDeinit(ThreadVars *t, void *data) { JsonNetFlowLogThread *aft = (JsonNetFlowLogThread *)data; if (aft == NULL) { return TM_ECODE_OK; } MemBufferFree(aft->buffer); /* clear memory */ memset(aft, 0, sizeof(JsonNetFlowLogThread)); SCFree(aft); return TM_ECODE_OK; } void JsonNetFlowLogRegister(void) { /* register as child of eve-log */ OutputRegisterFlowSubModule(LOGGER_JSON_NETFLOW, "eve-log", "JsonNetFlowLog", "eve-log.netflow", OutputNetFlowLogInitSub, JsonNetFlowLogger, JsonNetFlowLogThreadInit, JsonNetFlowLogThreadDeinit, NULL); }