flow-worker_8c_source.html

 /* Copyright (C) 2016 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 <victor@inliniac.net>
  *
  * Flow Workers are single thread modules taking care of (almost)
  * everything related to packets with flows:
  *
  * - Lookup/creation
  * - Stream tracking, reassembly
  * - Applayer update
  * - Detection
  *
  * This all while holding the flow lock.
  */

 #include "suricata-common.h"
 #include "suricata.h"

 #include "decode.h"
 #include "stream-tcp.h"
 #include "app-layer.h"
 #include "detect-engine.h"
 #include "output.h"
 #include "app-layer-parser.h"

 #include "util-validate.h"

 #include "flow-util.h"

 typedef DetectEngineThreadCtx *DetectEngineThreadCtxPtr;

 typedef struct FlowWorkerThreadData_ {
     DecodeThreadVars *dtv;

     union {
         StreamTcpThread *stream_thread;
         void *stream_thread_ptr;
     };

     SC_ATOMIC_DECLARE(DetectEngineThreadCtxPtr, detect_thread);

     void *output_thread; /* Output thread data. */

     uint16_t local_bypass_pkts;
     uint16_t local_bypass_bytes;
     uint16_t both_bypass_pkts;
     uint16_t both_bypass_bytes;

     PacketQueue pq;

 } FlowWorkerThreadData;

 /** \brief handle flow for packet
  *
  *  Handle flow creation/lookup
  */
 static inline TmEcode FlowUpdate(ThreadVars *tv, FlowWorkerThreadData *fw, Packet *p)
 {
     FlowHandlePacketUpdate(p->flow, p);

     int state = SC_ATOMIC_GET(p->flow->flow_state);
     switch (state) {
         case FLOW_STATE_CAPTURE_BYPASSED:
             StatsAddUI64(tv, fw->both_bypass_pkts, 1);
             StatsAddUI64(tv, fw->both_bypass_bytes, GET_PKT_LEN(p));
             return TM_ECODE_DONE;
         case FLOW_STATE_LOCAL_BYPASSED:
             StatsAddUI64(tv, fw->local_bypass_pkts, 1);
             StatsAddUI64(tv, fw->local_bypass_bytes, GET_PKT_LEN(p));
             return TM_ECODE_DONE;
         default:
             return TM_ECODE_OK;
     }
 }

 static TmEcode FlowWorkerThreadDeinit(ThreadVars *tv, void *data);

 static TmEcode FlowWorkerThreadInit(ThreadVars *tv, const void *initdata, void **data)
 {
     FlowWorkerThreadData *fw = SCCalloc(1, sizeof(*fw));
     if (fw == NULL)
         return TM_ECODE_FAILED;

     SC_ATOMIC_INIT(fw->detect_thread);
     SC_ATOMIC_SET(fw->detect_thread, NULL);

     fw->local_bypass_pkts = StatsRegisterCounter("flow_bypassed.local_pkts", tv);
     fw->local_bypass_bytes = StatsRegisterCounter("flow_bypassed.local_bytes", tv);
     fw->both_bypass_pkts = StatsRegisterCounter("flow_bypassed.local_capture_pkts", tv);
     fw->both_bypass_bytes = StatsRegisterCounter("flow_bypassed.local_capture_bytes", tv);

     fw->dtv = DecodeThreadVarsAlloc(tv);
     if (fw->dtv == NULL) {
         FlowWorkerThreadDeinit(tv, fw);
         return TM_ECODE_FAILED;
     }

     /* setup TCP */
     if (StreamTcpThreadInit(tv, NULL, &fw->stream_thread_ptr) != TM_ECODE_OK) {
         FlowWorkerThreadDeinit(tv, fw);
         return TM_ECODE_FAILED;
     }

     if (DetectEngineEnabled()) {
         /* setup DETECT */
         void *detect_thread = NULL;
         if (DetectEngineThreadCtxInit(tv, NULL, &detect_thread) != TM_ECODE_OK) {
             FlowWorkerThreadDeinit(tv, fw);
             return TM_ECODE_FAILED;
         }
         SC_ATOMIC_SET(fw->detect_thread, detect_thread);
     }

     /* Setup outputs for this thread. */
     if (OutputLoggerThreadInit(tv, initdata, &fw->output_thread) != TM_ECODE_OK) {
         FlowWorkerThreadDeinit(tv, fw);
         return TM_ECODE_FAILED;
     }

     DecodeRegisterPerfCounters(fw->dtv, tv);
     AppLayerRegisterThreadCounters(tv);

     /* setup pq for stream end pkts */
     memset(&fw->pq, 0, sizeof(PacketQueue));
     SCMutexInit(&fw->pq.mutex_q, NULL);

     *data = fw;
     return TM_ECODE_OK;
 }

 static TmEcode FlowWorkerThreadDeinit(ThreadVars *tv, void *data)
 {
     FlowWorkerThreadData *fw = data;

     DecodeThreadVarsFree(tv, fw->dtv);

     /* free TCP */
     StreamTcpThreadDeinit(tv, (void *)fw->stream_thread);

     /* free DETECT */
     void *detect_thread = SC_ATOMIC_GET(fw->detect_thread);
     if (detect_thread != NULL) {
         DetectEngineThreadCtxDeinit(tv, detect_thread);
         SC_ATOMIC_SET(fw->detect_thread, NULL);
     }

     /* Free output. */
     OutputLoggerThreadDeinit(tv, fw->output_thread);

     /* free pq */
     BUG_ON(fw->pq.len);
     SCMutexDestroy(&fw->pq.mutex_q);

     SC_ATOMIC_DESTROY(fw->detect_thread);
     SCFree(fw);
     return TM_ECODE_OK;
 }

 TmEcode Detect(ThreadVars *tv, Packet *p, void *data, PacketQueue *pq, PacketQueue *postpq);
 TmEcode StreamTcp (ThreadVars *, Packet *, void *, PacketQueue *, PacketQueue *);

 static TmEcode FlowWorker(ThreadVars *tv, Packet *p, void *data, PacketQueue *preq, PacketQueue *unused)
 {
     FlowWorkerThreadData *fw = data;
     void *detect_thread = SC_ATOMIC_GET(fw->detect_thread);

     SCLogDebug("packet %"PRIu64, p->pcap_cnt);

     /* update time */
     if (!(PKT_IS_PSEUDOPKT(p))) {
         TimeSetByThread(tv->id, &p->ts);
     }

     /* handle Flow */
     if (p->flags & PKT_WANTS_FLOW) {
         FLOWWORKER_PROFILING_START(p, PROFILE_FLOWWORKER_FLOW);

         FlowHandlePacket(tv, fw->dtv, p);
         if (likely(p->flow != NULL)) {
             DEBUG_ASSERT_FLOW_LOCKED(p->flow);
             if (FlowUpdate(tv, fw, p) == TM_ECODE_DONE) {
                 FLOWLOCK_UNLOCK(p->flow);
                 return TM_ECODE_OK;
             }
         }
         /* Flow is now LOCKED */

         FLOWWORKER_PROFILING_END(p, PROFILE_FLOWWORKER_FLOW);

     /* if PKT_WANTS_FLOW is not set, but PKT_HAS_FLOW is, then this is a
      * pseudo packet created by the flow manager. */
     } else if (p->flags & PKT_HAS_FLOW) {
         FLOWLOCK_WRLOCK(p->flow);
     }

     SCLogDebug("packet %"PRIu64" has flow? %s", p->pcap_cnt, p->flow ? "yes" : "no");

     /* handle TCP and app layer */
     if (p->flow && PKT_IS_TCP(p)) {
         SCLogDebug("packet %"PRIu64" is TCP. Direction %s", p->pcap_cnt, PKT_IS_TOSERVER(p) ? "TOSERVER" : "TOCLIENT");
         DEBUG_ASSERT_FLOW_LOCKED(p->flow);

         /* if detect is disabled, we need to apply file flags to the flow
          * here on the first packet. */
         if (detect_thread == NULL &&
                 ((PKT_IS_TOSERVER(p) && (p->flowflags & FLOW_PKT_TOSERVER_FIRST)) ||
                  (PKT_IS_TOCLIENT(p) && (p->flowflags & FLOW_PKT_TOCLIENT_FIRST))))
         {
             DisableDetectFlowFileFlags(p->flow);
         }

         FLOWWORKER_PROFILING_START(p, PROFILE_FLOWWORKER_STREAM);
         StreamTcp(tv, p, fw->stream_thread, &fw->pq, NULL);
         FLOWWORKER_PROFILING_END(p, PROFILE_FLOWWORKER_STREAM);

         if (FlowChangeProto(p->flow)) {
             StreamTcpDetectLogFlush(tv, fw->stream_thread, p->flow, p, &fw->pq);
         }

         /* Packets here can safely access p->flow as it's locked */
         SCLogDebug("packet %"PRIu64": extra packets %u", p->pcap_cnt, fw->pq.len);
         Packet *x;
         while ((x = PacketDequeue(&fw->pq))) {
             SCLogDebug("packet %"PRIu64" extra packet %p", p->pcap_cnt, x);

             // TODO do we need to call StreamTcp on these pseudo packets or not?
             //StreamTcp(tv, x, fw->stream_thread, &fw->pq, NULL);
             if (detect_thread != NULL) {
                 FLOWWORKER_PROFILING_START(x, PROFILE_FLOWWORKER_DETECT);
                 Detect(tv, x, detect_thread, NULL, NULL);
                 FLOWWORKER_PROFILING_END(x, PROFILE_FLOWWORKER_DETECT);
             }

             //  Outputs
             OutputLoggerLog(tv, x, fw->output_thread);

             /* put these packets in the preq queue so that they are
              * by the other thread modules before packet 'p'. */
             PacketEnqueue(preq, x);
         }

     /* handle the app layer part of the UDP packet payload */
     } else if (p->flow && p->proto == IPPROTO_UDP) {
         FLOWWORKER_PROFILING_START(p, PROFILE_FLOWWORKER_APPLAYERUDP);
         AppLayerHandleUdp(tv, fw->stream_thread->ra_ctx->app_tctx, p, p->flow);
         FLOWWORKER_PROFILING_END(p, PROFILE_FLOWWORKER_APPLAYERUDP);
     }

     PacketUpdateEngineEventCounters(tv, fw->dtv, p);

     /* handle Detect */
     DEBUG_ASSERT_FLOW_LOCKED(p->flow);
     SCLogDebug("packet %"PRIu64" calling Detect", p->pcap_cnt);

     if (detect_thread != NULL) {
         FLOWWORKER_PROFILING_START(p, PROFILE_FLOWWORKER_DETECT);
         Detect(tv, p, detect_thread, NULL, NULL);
         FLOWWORKER_PROFILING_END(p, PROFILE_FLOWWORKER_DETECT);
     }

     // Outputs.
     OutputLoggerLog(tv, p, fw->output_thread);

     /*  Release tcp segments. Done here after alerting can use them. */
     if (p->flow != NULL && p->proto == IPPROTO_TCP) {
         FLOWWORKER_PROFILING_START(p, PROFILE_FLOWWORKER_TCPPRUNE);
         StreamTcpPruneSession(p->flow, p->flowflags & FLOW_PKT_TOSERVER ?
                 STREAM_TOSERVER : STREAM_TOCLIENT);
         FLOWWORKER_PROFILING_END(p, PROFILE_FLOWWORKER_TCPPRUNE);
     }

     if (p->flow) {
         DEBUG_ASSERT_FLOW_LOCKED(p->flow);

         /* run tx cleanup last */
         AppLayerParserTransactionsCleanup(p->flow);
         FLOWLOCK_UNLOCK(p->flow);
     }

     return TM_ECODE_OK;
 }

 void FlowWorkerReplaceDetectCtx(void *flow_worker, void *detect_ctx)
 {
     FlowWorkerThreadData *fw = flow_worker;

     SC_ATOMIC_SET(fw->detect_thread, detect_ctx);
 }

 void *FlowWorkerGetDetectCtxPtr(void *flow_worker)
 {
     FlowWorkerThreadData *fw = flow_worker;

     return SC_ATOMIC_GET(fw->detect_thread);
 }

 const char *ProfileFlowWorkerIdToString(enum ProfileFlowWorkerId fwi)
 {
     switch (fwi) {
         case PROFILE_FLOWWORKER_FLOW:
             return "flow";
         case PROFILE_FLOWWORKER_STREAM:
             return "stream";
         case PROFILE_FLOWWORKER_APPLAYERUDP:
             return "app-layer";
         case PROFILE_FLOWWORKER_DETECT:
             return "detect";
         case PROFILE_FLOWWORKER_TCPPRUNE:
             return "tcp-prune";
         case PROFILE_FLOWWORKER_SIZE:
             return "size";
     }
     return "error";
 }

 static void FlowWorkerExitPrintStats(ThreadVars *tv, void *data)
 {
     FlowWorkerThreadData *fw = data;
     OutputLoggerExitPrintStats(tv, fw->output_thread);
 }

 void TmModuleFlowWorkerRegister (void)
 {
     tmm_modules[TMM_FLOWWORKER].name = "FlowWorker";
     tmm_modules[TMM_FLOWWORKER].ThreadInit = FlowWorkerThreadInit;
     tmm_modules[TMM_FLOWWORKER].Func = FlowWorker;
     tmm_modules[TMM_FLOWWORKER].ThreadDeinit = FlowWorkerThreadDeinit;
     tmm_modules[TMM_FLOWWORKER].ThreadExitPrintStats = FlowWorkerExitPrintStats;
     tmm_modules[TMM_FLOWWORKER].cap_flags = 0;
     tmm_modules[TMM_FLOWWORKER].flags = TM_FLAG_STREAM_TM|TM_FLAG_DETECT_TM;
 }
OutputLoggerLog
TmEcode OutputLoggerLog(ThreadVars *tv, Packet *p, void *thread_data)
Definition: output.c:915

DecodeThreadVarsAlloc
DecodeThreadVars * DecodeThreadVarsAlloc(ThreadVars *tv)
Alloc and setup DecodeThreadVars.
Definition: decode.c:605

SCLogDebug
#define SCLogDebug(...)
Definition: util-debug.h:335

StreamTcp
TmEcode StreamTcp(ThreadVars *, Packet *, void *, PacketQueue *, PacketQueue *)
Definition: stream-tcp.c:5103

Packet_::flow
struct Flow_ * flow
Definition: decode.h:445

TmModule_::cap_flags
uint8_t cap_flags
Definition: tm-modules.h:67

output.h

FlowHandlePacket
void FlowHandlePacket(ThreadVars *tv, DecodeThreadVars *dtv, Packet *p)
Entry point for packet flow handling.
Definition: flow.c:496

BUG_ON
#define BUG_ON(x)
Definition: suricata-common.h:267

TmModule_::flags
uint8_t flags
Definition: tm-modules.h:70

DetectEngineThreadCtxPtr
DetectEngineThreadCtx * DetectEngineThreadCtxPtr
Definition: flow-worker.c:48

StreamTcpDetectLogFlush
void StreamTcpDetectLogFlush(ThreadVars *tv, StreamTcpThread *stt, Flow *f, Packet *p, PacketQueue *pq)
create packets in both directions to flush out logging and detection before switching protocols...
Definition: stream-tcp.c:6203

PKT_IS_TOCLIENT
#define PKT_IS_TOCLIENT(p)
Definition: decode.h:258

FlowWorkerThreadData_::stream_thread
StreamTcpThread * stream_thread
Definition: flow-worker.c:54

FLOWLOCK_UNLOCK
#define FLOWLOCK_UNLOCK(fb)
Definition: flow.h:243

FlowWorkerThreadData_::output_thread
void * output_thread
Definition: flow-worker.c:60

TmModule_::Func
TmEcode(* Func)(ThreadVars *, Packet *, void *, PacketQueue *, PacketQueue *)
Definition: tm-modules.h:52

TcpReassemblyThreadCtx_::app_tctx
void * app_tctx
Definition: stream-tcp-reassemble.h:61

PROFILE_FLOWWORKER_DETECT
Definition: flow-worker.h:25

FlowWorkerReplaceDetectCtx
void FlowWorkerReplaceDetectCtx(void *flow_worker, void *detect_ctx)
Definition: flow-worker.c:301

DecodeRegisterPerfCounters
void DecodeRegisterPerfCounters(DecodeThreadVars *dtv, ThreadVars *tv)
Definition: decode.c:465

suricata.h

ProfileFlowWorkerId
ProfileFlowWorkerId
Definition: flow-worker.h:21

PROFILE_FLOWWORKER_APPLAYERUDP
Definition: flow-worker.h:24

TimeSetByThread
void TimeSetByThread(const int thread_id, const struct timeval *tv)
Definition: util-time.c:107

FLOW_STATE_CAPTURE_BYPASSED
Definition: flow.h:471

FlowWorkerGetDetectCtxPtr
void * FlowWorkerGetDetectCtxPtr(void *flow_worker)
Definition: flow-worker.c:308

OutputLoggerExitPrintStats
void OutputLoggerExitPrintStats(ThreadVars *tv, void *thread_data)
Definition: output.c:988

FLOW_PKT_TOSERVER_FIRST
#define FLOW_PKT_TOSERVER_FIRST
Definition: flow.h:206

FlowWorkerThreadData_::both_bypass_pkts
uint16_t both_bypass_pkts
Definition: flow-worker.c:64

PacketQueue_
Definition: decode.h:620

FLOW_STATE_LOCAL_BYPASSED
Definition: flow.h:470

TM_FLAG_STREAM_TM
#define TM_FLAG_STREAM_TM
Definition: tm-modules.h:33

FLOWLOCK_WRLOCK
#define FLOWLOCK_WRLOCK(fb)
Definition: flow.h:240

Packet_::pcap_cnt
uint64_t pcap_cnt
Definition: decode.h:561

DetectEngineThreadCtxInit
TmEcode DetectEngineThreadCtxInit(ThreadVars *, void *, void **)
initialize thread specific detection engine context
Definition: detect-engine.c:2761

StreamTcpThreadInit
TmEcode StreamTcpThreadInit(ThreadVars *tv, void *initdata, void **data)
Definition: stream-tcp.c:5139

decode.h

FlowWorkerThreadData_::local_bypass_bytes
uint16_t local_bypass_bytes
Definition: flow-worker.c:63

SC_ATOMIC_DESTROY
#define SC_ATOMIC_DESTROY(name)
Destroy the lock used to protect this variable.
Definition: util-atomic.h:97

DetectEngineThreadCtxDeinit
TmEcode DetectEngineThreadCtxDeinit(ThreadVars *, void *)
Definition: detect-engine.c:2969

StreamTcpThread_::ra_ctx
TcpReassemblyThreadCtx * ra_ctx
Definition: stream-tcp.h:103

StatsRegisterCounter
uint16_t StatsRegisterCounter(const char *name, struct ThreadVars_ *tv)
Registers a normal, unqualified counter.
Definition: counters.c:931

FlowWorkerThreadData_::stream_thread_ptr
void * stream_thread_ptr
Definition: flow-worker.c:55

SC_ATOMIC_INIT
#define SC_ATOMIC_INIT(name)
Initialize the previously declared atomic variable and it&#39;s lock.
Definition: util-atomic.h:81

SCCalloc
#define SCCalloc(nm, a)
Definition: util-mem.h:253

FLOWWORKER_PROFILING_START
#define FLOWWORKER_PROFILING_START(p, id)
Definition: util-profiling.h:166

Packet_::proto
uint8_t proto
Definition: decode.h:430

OutputLoggerThreadInit
TmEcode OutputLoggerThreadInit(ThreadVars *tv, const void *initdata, void **data)
Definition: output.c:931

PacketQueue_::len
uint32_t len
Definition: decode.h:623

StreamTcpThread_
Definition: stream-tcp.h:70

PROFILE_FLOWWORKER_TCPPRUNE
Definition: flow-worker.h:26

TmEcode
TmEcode
Definition: tm-threads-common.h:77

DecodeThreadVars_
Structure to hold thread specific data for all decode modules.
Definition: decode.h:632

DEBUG_ASSERT_FLOW_LOCKED
#define DEBUG_ASSERT_FLOW_LOCKED(f)
Definition: util-validate.h:108

FlowWorkerThreadData_::pq
PacketQueue pq
Definition: flow-worker.c:67

TmModule_::ThreadDeinit
TmEcode(* ThreadDeinit)(ThreadVars *, void *)
Definition: tm-modules.h:49

FlowWorkerThreadData_::dtv
DecodeThreadVars * dtv
Definition: flow-worker.c:51

Packet_::flowflags
uint8_t flowflags
Definition: decode.h:439

FlowChangeProto
int FlowChangeProto(Flow *f)
Check if change proto flag is set for flow.
Definition: flow.c:240

DetectEngineEnabled
int DetectEngineEnabled(void)
Check if detection is enabled.
Definition: detect-engine.c:3126

suricata-common.h

STREAM_TOCLIENT
#define STREAM_TOCLIENT
Definition: stream.h:32

PKT_IS_TOSERVER
#define PKT_IS_TOSERVER(p)
Definition: decode.h:257

FLOW_PKT_TOSERVER
#define FLOW_PKT_TOSERVER
Definition: flow.h:201

TmModuleFlowWorkerRegister
void TmModuleFlowWorkerRegister(void)
Definition: flow-worker.c:340

detect-engine.h

TM_ECODE_OK
Definition: tm-threads-common.h:78

OutputLoggerThreadDeinit
TmEcode OutputLoggerThreadDeinit(ThreadVars *tv, void *thread_data)
Definition: output.c:962

PacketUpdateEngineEventCounters
void PacketUpdateEngineEventCounters(ThreadVars *tv, DecodeThreadVars *dtv, Packet *p)
Definition: decode.c:122

PROFILE_FLOWWORKER_FLOW
Definition: flow-worker.h:22

SCMutexInit
#define SCMutexInit(mut, mutattrs)
Definition: threads-debug.h:116

Packet_
Definition: decode.h:407

TmModule_::ThreadExitPrintStats
void(* ThreadExitPrintStats)(ThreadVars *, void *)
Definition: tm-modules.h:48

PROFILE_FLOWWORKER_STREAM
Definition: flow-worker.h:23

Detect
TmEcode Detect(ThreadVars *tv, Packet *p, void *data, PacketQueue *pq, PacketQueue *postpq)
Detection engine thread wrapper.
Definition: detect.c:1602

FLOW_PKT_TOCLIENT_FIRST
#define FLOW_PKT_TOCLIENT_FIRST
Definition: flow.h:207

FlowWorkerThreadData
struct FlowWorkerThreadData_ FlowWorkerThreadData

TmModule_::name
const char * name
Definition: tm-modules.h:44

FlowWorkerThreadData_::local_bypass_pkts
uint16_t local_bypass_pkts
Definition: flow-worker.c:62

DisableDetectFlowFileFlags
void DisableDetectFlowFileFlags(Flow *f)
disable file features we don&#39;t need Called if we have no detection engine.
Definition: detect.c:1660

stream-tcp.h

SC_ATOMIC_SET
#define SC_ATOMIC_SET(name, val)
Set the value for the atomic variable.
Definition: util-atomic.h:207

ThreadVars_::id
int id
Definition: threadvars.h:69

AppLayerParserTransactionsCleanup
void AppLayerParserTransactionsCleanup(Flow *f)
remove obsolete (inspected and logged) transactions
Definition: app-layer-parser.c:883

SCFree
#define SCFree(a)
Definition: util-mem.h:322

PKT_IS_TCP
#define PKT_IS_TCP(p)
Definition: decode.h:253

tmm_modules
TmModule tmm_modules[TMM_SIZE]
Definition: tm-modules.h:73

StreamTcpThreadDeinit
TmEcode StreamTcpThreadDeinit(ThreadVars *tv, void *data)
Definition: stream-tcp.c:5206

FLOWWORKER_PROFILING_END
#define FLOWWORKER_PROFILING_END(p, id)
Definition: util-profiling.h:173

PROFILE_FLOWWORKER_SIZE
Definition: flow-worker.h:27

FlowWorkerThreadData_::SC_ATOMIC_DECLARE
SC_ATOMIC_DECLARE(DetectEngineThreadCtxPtr, detect_thread)

TMM_FLOWWORKER
Definition: tm-threads-common.h:34

flow-util.h

util-validate.h

STREAM_TOSERVER
#define STREAM_TOSERVER
Definition: stream.h:31

TmModule_::ThreadInit
TmEcode(* ThreadInit)(ThreadVars *, const void *, void **)
Definition: tm-modules.h:47

FlowHandlePacketUpdate
void FlowHandlePacketUpdate(Flow *f, Packet *p)
Update Packet and Flow.
Definition: flow.c:398

SC_ATOMIC_GET
#define SC_ATOMIC_GET(name)
Get the value from the atomic variable.
Definition: util-atomic.h:192

TM_ECODE_FAILED
Definition: tm-threads-common.h:79

PKT_HAS_FLOW
#define PKT_HAS_FLOW
Definition: decode.h:1090

PacketDequeue
Packet * PacketDequeue(PacketQueue *q)
Definition: packet-queue.c:167

TM_ECODE_DONE
Definition: tm-threads-common.h:80

PKT_WANTS_FLOW
#define PKT_WANTS_FLOW
Definition: decode.h:1111

PKT_IS_PSEUDOPKT
#define PKT_IS_PSEUDOPKT(p)
return 1 if the packet is a pseudo packet
Definition: decode.h:1129

ProfileFlowWorkerIdToString
const char * ProfileFlowWorkerIdToString(enum ProfileFlowWorkerId fwi)
Definition: flow-worker.c:315

FlowWorkerThreadData_::both_bypass_bytes
uint16_t both_bypass_bytes
Definition: flow-worker.c:65

app-layer.h

TM_FLAG_DETECT_TM
#define TM_FLAG_DETECT_TM
Definition: tm-modules.h:34

AppLayerHandleUdp
int AppLayerHandleUdp(ThreadVars *tv, AppLayerThreadCtx *tctx, Packet *p, Flow *f)
Handle a app layer UDP message.
Definition: app-layer.c:688

ThreadVars_
Per thread variable structure.
Definition: threadvars.h:57

Packet_::ts
struct timeval ts
Definition: decode.h:451

DetectEngineThreadCtx_
Definition: detect.h:996

GET_PKT_LEN
#define GET_PKT_LEN(p)
Definition: decode.h:224

Packet_::flags
uint32_t flags
Definition: decode.h:443

StatsAddUI64
void StatsAddUI64(ThreadVars *tv, uint16_t id, uint64_t x)
Adds a value of type uint64_t to the local counter.
Definition: counters.c:142

likely
#define likely(expr)
Definition: util-optimize.h:32

DecodeThreadVarsFree
void DecodeThreadVarsFree(ThreadVars *tv, DecodeThreadVars *dtv)
Definition: decode.c:624

FlowWorkerThreadData_
Definition: flow-worker.c:50

app-layer-parser.h

PacketEnqueue
void PacketEnqueue(PacketQueue *q, Packet *p)
Definition: packet-queue.c:139

AppLayerRegisterThreadCounters
void AppLayerRegisterThreadCounters(ThreadVars *tv)
Registers per flow counters for all protocols.
Definition: app-layer.c:926

PacketQueue_::mutex_q
SCMutex mutex_q
Definition: decode.h:627

SCMutexDestroy
#define SCMutexDestroy
Definition: threads-debug.h:120

StreamTcpPruneSession
void StreamTcpPruneSession(Flow *f, uint8_t flags)
Remove idle TcpSegments from TcpSession.
Definition: stream-tcp-list.c:801