예제 #1
0
/**
 * \brief RunModeTileMpipeWorkers set up to process all modules in each thread.
 *
 * \param de_ctx pointer to the Detection Engine
 * \param iface pointer to the name of the interface from which we will
 *              fetch the packets
 * \retval 0 if all goes well. (If any problem is detected the engine will
 *           exit())
 */
int RunModeTileMpipeWorkers(DetectEngineCtx *de_ctx)
{
    SCEnter();
    char tname[TM_THREAD_NAME_MAX];
    char *thread_name;
    TmModule *tm_module;
    int pipe;

    RunModeInitialize();

    /* Available cpus */
    uint16_t ncpus = UtilCpuGetNumProcessorsOnline();

    TimeModeSetLive();

    unsigned int pipe_max = 1;
    if (ncpus > 1)
        pipe_max = ncpus - 1;

    intmax_t threads;

    if (ConfGetInt("mpipe.threads", &threads) == 1) {
        tile_num_pipelines = threads;
    } else {
        tile_num_pipelines = pipe_max;
    }
    SCLogInfo("%d Tilera worker threads", tile_num_pipelines);

    ReceiveMpipeInit();

    char *mpipe_dev = NULL;
    int nlive = LiveGetDeviceCount();
    if (nlive > 0) {
        SCLogInfo("Using %d live device(s).", nlive);
        /*mpipe_dev = LiveGetDevice(0);*/
    } else {
        /*
         * Attempt to get interface from config file
         * overrides -i from command line.
         */
        if (ConfGet("mpipe.interface", &mpipe_dev) == 0) {
            if (ConfGet("mpipe.single_mpipe_dev", &mpipe_dev) == 0) {
                SCLogError(SC_ERR_RUNMODE, "Failed retrieving "
                           "mpipe.single_mpipe_dev from Conf");
                exit(EXIT_FAILURE);
            }
        }
    }

    for (pipe = 0; pipe < tile_num_pipelines; pipe++) {
        char *mpipe_devc;

        if (nlive > 0) {
            mpipe_devc = SCStrdup("multi");
        } else {
            mpipe_devc = SCStrdup(mpipe_dev);
        }
        if (unlikely(mpipe_devc == NULL)) {
            printf("ERROR: SCStrdup failed for ReceiveMpipe\n");
            exit(EXIT_FAILURE);
        }

        snprintf(tname, sizeof(tname), "Worker%d", pipe+1);
        thread_name = SCStrdup(tname);
        if (unlikely(thread_name == NULL)) {
            printf("ERROR: SCStrdup failed for ReceiveMpipe\n");
            exit(EXIT_FAILURE);
        }

        /* create the threads */
        ThreadVars *tv_worker =
             TmThreadCreatePacketHandler(thread_name,
                                         "packetpool", "packetpool",
                                         "packetpool", "packetpool", 
                                         "pktacqloop");
        if (tv_worker == NULL) {
            printf("ERROR: TmThreadsCreate failed\n");
            exit(EXIT_FAILURE);
        }
        tm_module = TmModuleGetByName("ReceiveMpipe");
        if (tm_module == NULL) {
            printf("ERROR: TmModuleGetByName failed for ReceiveMpipe\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend(tv_worker, tm_module, (void *)mpipe_devc);

        /* set affinity for worker */
        int pipe_cpu = pipe + 1;
        TmThreadSetCPUAffinity(tv_worker, pipe_cpu);

        tm_module = TmModuleGetByName("DecodeMpipe");
        if (tm_module == NULL) {
            printf("ERROR: TmModuleGetByName DecodeMpipe failed\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend(tv_worker, tm_module, NULL);

        tm_module = TmModuleGetByName("StreamTcp");
        if (tm_module == NULL) {
            printf("ERROR: TmModuleGetByName StreamTcp failed\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend(tv_worker, tm_module, NULL);

        tm_module = TmModuleGetByName("Detect");
        if (tm_module == NULL) {
            printf("ERROR: TmModuleGetByName Detect failed\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend(tv_worker, tm_module, (void *)de_ctx);

        tm_module = TmModuleGetByName("RespondReject");
        if (tm_module == NULL) {
            printf("ERROR: TmModuleGetByName for RespondReject failed\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend(tv_worker, tm_module, NULL);

        SetupOutputs(tv_worker);

        if (TmThreadSpawn(tv_worker) != TM_ECODE_OK) {
            printf("ERROR: TmThreadSpawn failed\n");
            exit(EXIT_FAILURE);
        }
    }

    return 0;
}
예제 #2
0
int RunModeNapatechAuto(DetectEngineCtx *de_ctx) {
#ifdef HAVE_NAPATECH
    int i;
    uint16_t feed, cpu;
    char tname [128];
    char *feedName  = NULL;
    char *threadName  = NULL;
    char *inQueueName  = NULL;
    char *outQueueName  = NULL;
    char *thread_group_name = NULL;

    RunModeInitialize ();
    TimeModeSetLive();

    /* Available cpus */
    uint16_t ncpus = UtilCpuGetNumProcessorsOnline();

    char *device = NULL;
    if (ConfGet("napatech.adapter", &device) == 0) {
        SCLogError(SC_ERR_RUNMODE, "Failed retrieving napatech.adapter from Conf");
        exit(EXIT_FAILURE);
    }

    uint16_t adapter = atoi (device);
    SCLogDebug("Napatech adapter %s", adapter);


    /* start with cpu 1 so that if we're creating an odd number of detect
     * threads we're not creating the most on CPU0. */
    if (ncpus > 0)
        cpu = 1;

    int32_t feed_count = napatech_count (adapter);
    if (feed_count <= 0) {
        printf("ERROR: No Napatech feeds defined for adapter %i\n", adapter);
        exit(EXIT_FAILURE);
    }

    for (feed=0; feed < feed_count; feed++) {
        snprintf(tname, sizeof(tname),"%"PRIu16":%"PRIu16, adapter, feed);
        feedName = SCStrdup(tname);
        if (unlikely(feedName == NULL)) {
        fprintf(stderr, "ERROR: Alloc feed name\n");
        exit(EXIT_FAILURE);
        }

        snprintf(tname, sizeof(tname),"Feed%"PRIu16,feed);
        threadName = SCStrdup(tname);
        if (unlikely(threadName == NULL)) {
        fprintf(stderr, "ERROR: Alloc thread name\n");
        exit(EXIT_FAILURE);
        }


        snprintf(tname, sizeof(tname),"feed-queue%"PRIu16,feed);
        outQueueName = SCStrdup(tname);
        if (unlikely(outQueueName == NULL)) {
        fprintf(stderr, "ERROR: Alloc output queue name\n");
        exit(EXIT_FAILURE);
        }

        /* create the threads */
        ThreadVars *tv_napatechFeed = TmThreadCreatePacketHandler(threadName,"packetpool",
                "packetpool",outQueueName,
                "simple","pktacqloop");
        if (tv_napatechFeed == NULL) {
            fprintf(stderr, "ERROR: TmThreadsCreate failed\n");
            exit(EXIT_FAILURE);
        }
        TmModule *tm_module = TmModuleGetByName("NapatechFeed");
        if (tm_module == NULL) {
            fprintf(stderr, "ERROR: TmModuleGetByName failed for NapatechFeed\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend (tv_napatechFeed,tm_module,feedName);

        tm_module = TmModuleGetByName("NapatechDecode");
        if (tm_module == NULL) {
            fprintf(stderr, "ERROR: TmModuleGetByName failed for NapatechDecode\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend(tv_napatechFeed,tm_module,feedName);

        if (threading_set_cpu_affinity) {
            TmThreadSetCPUAffinity(tv_napatechFeed, feed);
        }

        if (TmThreadSpawn(tv_napatechFeed) != TM_ECODE_OK) {
            printf("ERROR: TmThreadSpawn failed\n");
            exit(EXIT_FAILURE);
        }
        /*
         * -------------------------------------------
         */

        /* hard code it for now */
        uint16_t detect=0;
        /* always create at least one thread */
        int thread_max = TmThreadGetNbThreads(DETECT_CPU_SET);
        if (thread_max == 0)
            thread_max = ncpus * threading_detect_ratio;
        if (thread_max < 1)
            thread_max = 1;

        for (i=0; i< thread_max; i++)
        {
            snprintf(tname, sizeof(tname),"Detect%"PRIu16"/%"PRIu16,feed,detect++);
            threadName = SCStrdup(tname);
            if (unlikely(threadName == NULL)) {
            fprintf(stderr, "ERROR: can not strdup thread name\n");
            exit(EXIT_FAILURE);
            }
            snprintf(tname, sizeof(tname),"feed-queue%"PRIu16,feed);
            inQueueName = SCStrdup(tname);
            if (unlikely(inQueueName == NULL)) {
            fprintf(stderr, "ERROR: can not strdup in queue name\n");
            exit(EXIT_FAILURE);
            }

            ThreadVars *tv_detect = TmThreadCreatePacketHandler(threadName,
                    inQueueName,"simple",
                    "packetpool","packetpool","varslot");
            if (tv_detect == NULL) {
                fprintf(stderr,"ERROR: TmThreadsCreate failed\n");
                exit(EXIT_FAILURE);
            }

            tm_module = TmModuleGetByName("StreamTcp");
            if (tm_module == NULL) {
                fprintf(stderr, "ERROR: TmModuleGetByName StreamTcp failed\n");
                exit(EXIT_FAILURE);
            }
            TmSlotSetFuncAppend(tv_detect,tm_module,NULL);

            tm_module = TmModuleGetByName("Detect");
            if (tm_module == NULL) {
                fprintf(stderr, "ERROR: TmModuleGetByName Detect failed\n");
                exit(EXIT_FAILURE);
            }
            TmSlotSetFuncAppend(tv_detect,tm_module,(void *)de_ctx);

            thread_group_name = SCStrdup("Detect");
            if (unlikely(thread_group_name == NULL)) {
            fprintf(stderr, "Error allocating memory\n");
            exit(EXIT_FAILURE);
            }
            tv_detect->thread_group_name = thread_group_name;

            SetupOutputs(tv_detect);
            thread_group_name = SCStrdup("Outputs");
            if (unlikely(thread_group_name == NULL)) {
            fprintf(stderr, "Error allocating memory\n");
            exit(EXIT_FAILURE);
            }
            tv_detect->thread_group_name = thread_group_name;

            if (TmThreadSpawn(tv_detect) != TM_ECODE_OK) {
                fprintf(stderr, "ERROR: TmThreadSpawn failed\n");
                exit(EXIT_FAILURE);
            }
        }

    }
#endif
    return 0;
}
예제 #3
0
/**
 * \brief RunModeIdsTileNetioAuto set up the following thread packet handlers:
 *        - Receive thread (from iface pcap)
 *        - Decode thread
 *        - Stream thread
 *        - Detect: If we have only 1 cpu, it will setup one Detect thread
 *                  If we have more than one, it will setup num_cpus - 1
 *                  starting from the second cpu available.
 *        - Respond/Reject thread
 *        - Outputs thread
 *        By default the threads will use the first cpu available
 *        except the Detection threads if we have more than one cpu
 *
 * \param de_ctx pointer to the Detection Engine
 * \param iface pointer to the name of the interface from which we will
 *              fetch the packets
 * \retval 0 if all goes well. (If any problem is detected the engine will
 *           exit())
 */
int RunModeIdsTileNetioAuto(DetectEngineCtx *de_ctx) {
    SCEnter();
    char tname[32];
    char *thread_name;
    uint16_t cpu = 0;
    TmModule *tm_module;
    uint16_t thread;
    uint32_t tile = 1;
    int pipe;
    extern TmEcode ReceiveNetioInit(void); // move this

    RunModeInitialize();

    /* Available cpus */
    uint16_t ncpus = UtilCpuGetNumProcessorsOnline();

    TimeModeSetLive();

    int nnetio = NetioLiveGetDeviceCount();

    int pipe_max = TileNumPipelines;

    ReceiveNetioInit();

    for (pipe = 0; pipe < pipe_max; pipe++) {

        if (nnetio == 1) {
	        char *netio_dev = NULL;

            if (ConfGet("netio.single_netio_dev", &netio_dev) == 0) {
	        SCLogError(SC_ERR_RUNMODE, "Failed retrieving "
                           "netio.single_netio_dev from Conf");
                exit(EXIT_FAILURE);
            }

            SCLogDebug("netio_dev %s", netio_dev);

            char *netio_devc = SCStrdup(netio_dev);

            sprintf(pickup_queue[pipe], "pickup-queue%d", pipe);

            snprintf(tname, sizeof(tname), "ReceiveNetio%"PRIu16, pipe+1);
            thread_name = SCStrdup(tname);

            /* create the threads */
            ThreadVars *tv_receivenetio =
                 TmThreadCreatePacketHandler(thread_name,
                                             "packetpool", "packetpool",
                                             pickup_queue[pipe],"simple", 
                                             "pktacqloop");
            if (tv_receivenetio == NULL) {
                printf("ERROR: TmThreadsCreate failed\n");
                exit(EXIT_FAILURE);
            }
            tm_module = TmModuleGetByName("ReceiveNetio");
            if (tm_module == NULL) {
                printf("ERROR: TmModuleGetByName failed for ReceiveNetio\n");
                exit(EXIT_FAILURE);
            }
            TmSlotSetFuncAppend(tv_receivenetio,tm_module,(void *)netio_devc);

            /* set affinity for netio */
            TmThreadSetCPUAffinity(tv_receivenetio, tile++);

            if (TmThreadSpawn(tv_receivenetio) != TM_ECODE_OK) {
                printf("ERROR: TmThreadSpawn failed\n");
                exit(EXIT_FAILURE);
            }
            SCLogInfo("ReceiveNetio spawned\n");
        } else {
        }

        sprintf(stream_queue[pipe], "stream-queue%d", pipe);

        snprintf(tname, sizeof(tname), "Decode & Stream%"PRIu16, pipe+1);
        thread_name = SCStrdup(tname);

        ThreadVars *tv_decode1 =
            TmThreadCreatePacketHandler(thread_name,
                                        pickup_queue[pipe],"simple",
#if 0
                                        "packetpool","packetpool",
                                        "varslot");
#else
                                        stream_queue[pipe],"simple",
                                        "varslot");
#endif
        if (tv_decode1 == NULL) {
            printf("ERROR: TmThreadCreate failed for Decode1\n");
            exit(EXIT_FAILURE);
        }
        tm_module = TmModuleGetByName("DecodeNetio");
        if (tm_module == NULL) {
            printf("ERROR: TmModuleGetByName DecodeNetio failed\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend(tv_decode1,tm_module,NULL);

        tm_module = TmModuleGetByName("StreamTcp");
        if (tm_module == NULL) {
            printf("ERROR: TmModuleGetByName StreamTcp failed\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend(tv_decode1,tm_module,NULL);

        TmThreadSetCPUAffinity(tv_decode1, tile++);

        if (TmThreadSpawn(tv_decode1) != TM_ECODE_OK) {
            printf("ERROR: TmThreadSpawn failed\n");
            exit(EXIT_FAILURE);
        }
        SCLogInfo("Decode & Stream spawned\n");

        int thread_max = TileDetectThreadsPerPipeline;

        for (thread = 0; thread < thread_max; thread++) {

            snprintf(tname, sizeof(tname),"Detect%d-%"PRIu16, pipe+1, thread+1);
            thread_name = SCStrdup(tname);

            SCLogDebug("Assigning %s affinity to cpu %u", thread_name, cpu);

            sprintf(verdict_queue[pipe], "verdict-queue%d", pipe);

            ThreadVars *tv_detect_ncpu =
                TmThreadCreatePacketHandler(thread_name,
                                            stream_queue[pipe],"simple", 
                                            verdict_queue[pipe],"simple",
                                            "1slot");
            if (tv_detect_ncpu == NULL) {
                printf("ERROR: TmThreadsCreate failed\n");
                exit(EXIT_FAILURE);
            }
            tm_module = TmModuleGetByName("Detect");
            if (tm_module == NULL) {
                printf("ERROR: TmModuleGetByName Detect failed\n");
                exit(EXIT_FAILURE);
            }
            TmSlotSetFuncAppend(tv_detect_ncpu,tm_module,(void *)de_ctx);

            TmThreadSetCPUAffinity(tv_detect_ncpu, tile++);

            char *thread_group_name = SCStrdup("Detect");
            if (thread_group_name == NULL) {
                printf("Error allocating memory\n");
                exit(EXIT_FAILURE);
            }
            tv_detect_ncpu->thread_group_name = thread_group_name;

            if (TmThreadSpawn(tv_detect_ncpu) != TM_ECODE_OK) {
                printf("ERROR: TmThreadSpawn failed\n");
                exit(EXIT_FAILURE);
            }
            SCLogInfo("Detect spawned\n");

            if ((cpu + 1) == ncpus)
                cpu = 0;
            else
                cpu++;
        }
#undef SINGLE_OUTPUT

#ifndef SINGLE_OUTPUT
        sprintf(alert_queue[pipe], "alert-queue%d", pipe);
#endif

        snprintf(tname, sizeof(tname), "RespondReject%"PRIu16, pipe+1);
        thread_name = SCStrdup(tname);

        ThreadVars *tv_rreject =
            TmThreadCreatePacketHandler(thread_name,
                                        verdict_queue[pipe],"simple", 
#ifdef SINGLE_OUTPUT
                                        "alert-queue","simple",
#else
                                        alert_queue[pipe],"simple",
#endif
                                        "1slot");
        if (tv_rreject == NULL) {
            printf("ERROR: TmThreadsCreate failed\n");
            exit(EXIT_FAILURE);
        }
        tm_module = TmModuleGetByName("RespondReject");
        if (tm_module == NULL) {
            printf("ERROR: TmModuleGetByName for RespondReject failed\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend(tv_rreject,tm_module,NULL);

        TmThreadSetCPUAffinity(tv_rreject, tile++);

        if (TmThreadSpawn(tv_rreject) != TM_ECODE_OK) {
            printf("ERROR: TmThreadSpawn failed\n");
            exit(EXIT_FAILURE);
        }
        SCLogInfo("RespondReject spawned\n");

#ifndef SINGLE_OUTPUT
        snprintf(tname, sizeof(tname), "Outputs%"PRIu16, pipe+1);
        thread_name = SCStrdup(tname);

        ThreadVars *tv_outputs =
            TmThreadCreatePacketHandler(thread_name,
                                        alert_queue[pipe], "simple", 
                                        "packetpool", "packetpool", 
                                        "varslot");
        SetupOutputs(tv_outputs);

        TmThreadSetCPUAffinity(tv_outputs, tile++);

        if (TmThreadSpawn(tv_outputs) != TM_ECODE_OK) {
            printf("ERROR: TmThreadSpawn failed\n");
            exit(EXIT_FAILURE);
        }
        SCLogInfo("Outputs spawned\n");
#endif
    }
#ifdef SINGLE_OUTPUT
    snprintf(tname, sizeof(tname), "Outputs");
    thread_name = SCStrdup(tname);

    ThreadVars *tv_outputs =
        TmThreadCreatePacketHandler(thread_name,
                                    "alert-queue", "simple", 
                                    "packetpool", "packetpool", 
                                    "varslot");
    SetupOutputs(tv_outputs);

    TmThreadSetCPUAffinity(tv_outputs, tile++);

    if (TmThreadSpawn(tv_outputs) != TM_ECODE_OK) {
        printf("ERROR: TmThreadSpawn failed\n");
        exit(EXIT_FAILURE);
    }
    SCLogInfo("Outputs spawned\n");
#endif

    return 0;
}
예제 #4
0
/**
 * \brief RunModeIdsTileMpipeWorkers set up the following thread packet handlers:
 *        - Receive thread (from iface pcap)
 *        - Decode thread
 *        - Stream thread
 *        - Detect: If we have only 1 cpu, it will setup one Detect thread
 *                  If we have more than one, it will setup num_cpus - 1
 *                  starting from the second cpu available.
 *        - Respond/Reject thread
 *        - Outputs thread
 *        By default the threads will use the first cpu available
 *        except the Detection threads if we have more than one cpu
 *
 * \param de_ctx pointer to the Detection Engine
 * \param iface pointer to the name of the interface from which we will
 *              fetch the packets
 * \retval 0 if all goes well. (If any problem is detected the engine will
 *           exit())
 */
int RunModeIdsTileMpipeWorkers(DetectEngineCtx *de_ctx) {
    SCEnter();
    char tname[32];
    char *thread_name;
    TmModule *tm_module;
    int pipe;
    char *detectmode = NULL;
    int pool_detect_threads = 0;
    extern TmEcode ReceiveMpipeInit(void); // move this

    if (ConfGet("tile.detect", &detectmode) == 1) {
        if (detectmode) {
        	SCLogInfo("DEBUG: detectmode %s", detectmode);
        	if (strcmp(detectmode, "pooled") == 0) {
        		pool_detect_threads = 1;
        	}
        }   
    }

    RunModeTileMpipeMapCores();

    RunModeInitialize();

    /* Available cpus */
    cpu_set_t cpus;
    tmc_cpus_get_dataplane_cpus(&cpus);
    uint16_t ncpus = tmc_cpus_count(&cpus);

    TimeModeSetLive();

    int pipe_max = ncpus - 1;
    TileNumPipelines = pipe_max;
    TileNumPipelinesPerRx = 1;

    ReceiveMpipeInit();

    char *mpipe_dev = NULL;
    int nlive = LiveGetDeviceCount();
    if (nlive > 0) {
        SCLogInfo("Using %d live device(s).", nlive);
        /*mpipe_dev = LiveGetDevice(0);*/
    } else {
        /*
         * Attempt to get interface from config file
         * overrides -i from command line.
         */
        if (ConfGet("mpipe.interface", &mpipe_dev) == 0) {
            if (ConfGet("mpipe.single_mpipe_dev", &mpipe_dev) == 0) {
	            SCLogError(SC_ERR_RUNMODE, "Failed retrieving "
                           "mpipe.single_mpipe_dev from Conf");
                exit(EXIT_FAILURE);
            }
        }
    }

    /*
     * Careful.  All of the pickup_queues must be created
     * prior to building to pipeline so that the queues
     * are adjacent in the lookup table.  This lets the
     * demux2 queue handler work.
     */
    for (pipe = 0; pipe < pipe_max; pipe++) {
        sprintf(pickup_queue[pipe], "pickup-queue%d", pipe);
        if (TmqCreateQueue(pickup_queue[pipe]) == NULL) {
            SCLogError(SC_ERR_RUNMODE, "Could not create pickup queue");
            exit(EXIT_FAILURE);
        }
    }

    for (pipe = 0; pipe < pipe_max; pipe++) {

        char *mpipe_devc;

        /* HACK: Receive Threads are shared between pairs of
         * pipelines.  So for every other pipeline create two
         * queues and spawn only one thread.
         */

        if (nlive > 0) {
            mpipe_devc = SCStrdup("multi");
        } else {
            mpipe_devc = SCStrdup(mpipe_dev);
        }

        snprintf(tname, sizeof(tname), "Worker%d", pipe+1);
        thread_name = SCStrdup(tname);

        /* create the threads */
        ThreadVars *tv_worker =
             TmThreadCreatePacketHandler(thread_name,
                                         "packetpool", "packetpool",
                                         "packetpool", "packetpool", 
                                         "pktacqloop");
        if (tv_worker == NULL) {
            printf("ERROR: TmThreadsCreate failed\n");
            exit(EXIT_FAILURE);
        }
        tm_module = TmModuleGetByName("ReceiveMpipe");
        if (tm_module == NULL) {
            printf("ERROR: TmModuleGetByName failed for ReceiveMpipe\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend(tv_worker, tm_module, (void *)mpipe_devc);

        /* set affinity for worker */
        TmThreadSetCPUAffinity(tv_worker, 1+pipe);

        SCLogInfo("Thread %s pipe_max %d pipe %d cpu %d",
                  thread_name, pipe_max, pipe,
                  1+pipe);

        tm_module = TmModuleGetByName("DecodeMpipe");
        if (tm_module == NULL) {
            printf("ERROR: TmModuleGetByName DecodeMpipe failed\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend(tv_worker,tm_module,NULL);

        tm_module = TmModuleGetByName("StreamTcp");
        if (tm_module == NULL) {
            printf("ERROR: TmModuleGetByName StreamTcp failed\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend(tv_worker,tm_module,NULL);

        tm_module = TmModuleGetByName("Detect");
        if (tm_module == NULL) {
            printf("ERROR: TmModuleGetByName Detect failed\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend(tv_worker,tm_module,(void *)de_ctx);

        tm_module = TmModuleGetByName("RespondReject");
        if (tm_module == NULL) {
            printf("ERROR: TmModuleGetByName for RespondReject failed\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend(tv_worker,tm_module,NULL);

        SetupOutputs(tv_worker);

        if (TmThreadSpawn(tv_worker) != TM_ECODE_OK) {
            printf("ERROR: TmThreadSpawn failed\n");
            exit(EXIT_FAILURE);
        }

    }

    return 0;
}
예제 #5
0
/**
 * \brief RunModeIdsTileMpipeAuto set up the following thread packet handlers:
 *        - Receive thread (from iface pcap)
 *        - Decode thread
 *        - Stream thread
 *        - Detect: If we have only 1 cpu, it will setup one Detect thread
 *                  If we have more than one, it will setup num_cpus - 1
 *                  starting from the second cpu available.
 *        - Respond/Reject thread
 *        - Outputs thread
 *        By default the threads will use the first cpu available
 *        except the Detection threads if we have more than one cpu
 *
 * \param de_ctx pointer to the Detection Engine
 * \param iface pointer to the name of the interface from which we will
 *              fetch the packets
 * \retval 0 if all goes well. (If any problem is detected the engine will
 *           exit())
 */
int RunModeIdsTileMpipeAuto(DetectEngineCtx *de_ctx) {
    SCEnter();
    char tname[32];
    char *thread_name;
    uint16_t cpu = 0;
    TmModule *tm_module;
    uint16_t thread;
    /*uint32_t tile = 1;*/
    int pipe;
    unsigned int poll_n = TileNumPipelinesPerRx;
    char *detectmode = NULL;
    int pool_detect_threads = 0;
    extern TmEcode ReceiveMpipeInit(void); // move this

    /*SCLogInfo("RunModeIdsTileMpipeAuto\n");*/
    
    if (ConfGet("tile.detect", &detectmode) == 1) {
        if (detectmode) {
        	SCLogInfo("DEBUG: detectmode %s", detectmode);
        	if (strcmp(detectmode, "pooled") == 0) {
        		pool_detect_threads = 1;
        	}
        }   
    }

    RunModeTileMpipeMapCores();

    RunModeInitialize();

    /* Available cpus */
    uint16_t ncpus = UtilCpuGetNumProcessorsOnline();

    TimeModeSetLive();

    int pipe_max = TileNumPipelines;

    ReceiveMpipeInit();

    char *mpipe_dev = NULL;
    int nlive = LiveGetDeviceCount();
    if (nlive > 0) {
        char *link_name;
        int i;
        SCLogInfo("Using %d live device(s).", nlive);
        /*mpipe_dev = LiveGetDevice(0);*/
        for (i = 0; i < nlive; i++) {
            MpipeIfaceConfig *aconf;
            link_name = LiveGetDeviceName(i);
            aconf = ParseMpipeConfig(link_name);
            if (aconf != NULL) 
                SCFree(aconf);
        }
    } else {
        /*
         * Attempt to get interface from config file
         * overrides -i from command line.
         */
        if (ConfGet("mpipe.interface", &mpipe_dev) == 0) {
            if (ConfGet("mpipe.single_mpipe_dev", &mpipe_dev) == 0) {
	            SCLogError(SC_ERR_RUNMODE, "Failed retrieving "
                           "mpipe.single_mpipe_dev from Conf");
                exit(EXIT_FAILURE);
            }
        }
    }

    /*
     * Careful.  All of the pickup_queues must be created
     * prior to building to pipeline so that the queues
     * are adjacent in the lookup table.  This lets the
     * demux2 queue handler work.
     */
    for (pipe = 0; pipe < pipe_max; pipe++) {
        sprintf(pickup_queue[pipe], "pickup-queue%d", pipe);
        if (TmqCreateQueue(pickup_queue[pipe]) == NULL) {
            SCLogError(SC_ERR_RUNMODE, "Could not create pickup queue");
            exit(EXIT_FAILURE);
        }
    }

    for (pipe = 0; pipe < pipe_max; pipe++) {

        char *mpipe_devc;

        /* HACK: Receive Threads are shared between pairs of
         * pipelines.  So for every other pipeline create two
         * queues and spawn only one thread.
         */

        if (nlive > 0) {
            mpipe_devc = SCStrdup("multi");
        } else {
            mpipe_devc = SCStrdup(mpipe_dev);
        }

        //sprintf(pickup_queue[pipe], "pickup-queue%d", pipe);

        snprintf(tname, sizeof(tname), "ReceiveMpipe%d", pipe+1);
        thread_name = SCStrdup(tname);

        /* create the threads */
        ThreadVars *tv_receivempipe =
             TmThreadCreatePacketHandler(thread_name,
                                         "packetpool", "packetpool",
                                         //pickup_queue[pipe],"simple", 
                                         pickup_queue[pipe],(poll_n == 2)?"demux2":"simple", 
                                         "pktacqloop");
        if (tv_receivempipe == NULL) {
            printf("ERROR: TmThreadsCreate failed\n");
            exit(EXIT_FAILURE);
        }
        tm_module = TmModuleGetByName("ReceiveMpipe");
        if (tm_module == NULL) {
            printf("ERROR: TmModuleGetByName failed for ReceiveMpipe\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend(tv_receivempipe, tm_module, (void *)mpipe_devc);

        if ((pipe % poll_n) == 0) {
            /* set affinity for mpipe */
            TmThreadSetCPUAffinity(tv_receivempipe, 1+(pipe/poll_n));

            SCLogInfo("Thread %s pipe_max %d pipe %d cpu %d",
                      thread_name, pipe_max, pipe,
                      1+(pipe/poll_n));

            if (TmThreadSpawn(tv_receivempipe) != TM_ECODE_OK) {
                printf("ERROR: TmThreadSpawn failed\n");
                exit(EXIT_FAILURE);
            }
        }

        sprintf(stream_queue[pipe], "stream-queue%d", pipe);

        snprintf(tname, sizeof(tname), "Decode&Stream%d", pipe+1);
        thread_name = SCStrdup(tname);

        ThreadVars *tv_decode1 =
	        TmThreadCreatePacketHandler(thread_name,
                                            //pickup_queue[pipe],"simple",
                                            pickup_queue[pipe],(poll_n==2)?"demux2":"simple",
                                            stream_queue[(pool_detect_threads) ? 0 : pipe], (queue_type == simple) ? "simple" : "tmc_mrsw",
                                            "varslot");
        if (tv_decode1 == NULL) {
            printf("ERROR: TmThreadCreate failed for Decode1\n");
            exit(EXIT_FAILURE);
        }
        tm_module = TmModuleGetByName("DecodeMpipe");
        if (tm_module == NULL) {
            printf("ERROR: TmModuleGetByName DecodeMpipe failed\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend(tv_decode1,tm_module,NULL);

        tm_module = TmModuleGetByName("StreamTcp");
        if (tm_module == NULL) {
            printf("ERROR: TmModuleGetByName StreamTcp failed\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend(tv_decode1,tm_module,NULL);

        //TmThreadSetCPUAffinity(tv_decode1, MapTile(tile++));
        TmThreadSetCPUAffinity(tv_decode1,
                               1+((pipe_max+1)/poll_n)+(pipe*TILES_PER_PIPELINE));

        SCLogInfo("Thread %s pipe_max %d pipe %d cpu %d",
                  thread_name, pipe_max, pipe,
                  1+((pipe_max+1)/poll_n)+(pipe*TILES_PER_PIPELINE));

        if (TmThreadSpawn(tv_decode1) != TM_ECODE_OK) {
            printf("ERROR: TmThreadSpawn failed\n");
            exit(EXIT_FAILURE);
        }

        int thread_max = TileDetectThreadPerPipeline;

        for (thread = 0; thread < thread_max; thread++) {
            snprintf(tname, sizeof(tname),"Detect%d-%"PRIu16, pipe+1, thread+1);
            if (tname == NULL)
                break;

            thread_name = SCStrdup(tname);
            SCLogDebug("Assigning %s affinity to cpu %u", thread_name, cpu);

            sprintf(verdict_queue[pipe], "verdict-queue%d", pipe);

//#define PIPELINES_PER_OUTPUT 2
#define PIPELINES_PER_OUTPUT 1
            ThreadVars *tv_detect_ncpu =
                TmThreadCreatePacketHandler(thread_name,
                                            stream_queue[(pool_detect_threads) ? 0 : pipe], (queue_type == simple) ? "simple" : "tmc_mrsw", 
#if 1
                                            verdict_queue[pipe/PIPELINES_PER_OUTPUT], (queue_type == simple) ? "simple" : "tmc_srmw",
#else
                                            "packetpool", "packetpool", 
#endif
                                            "1slot");
            if (tv_detect_ncpu == NULL) {
                printf("ERROR: TmThreadsCreate failed\n");
                exit(EXIT_FAILURE);
            }
            tm_module = TmModuleGetByName("Detect");
            if (tm_module == NULL) {
                printf("ERROR: TmModuleGetByName Detect failed\n");
                exit(EXIT_FAILURE);
            }
            TmSlotSetFuncAppend(tv_detect_ncpu,tm_module,(void *)de_ctx);

            //TmThreadSetCPUAffinity(tv_detect_ncpu, MapTile(tile++));
            TmThreadSetCPUAffinity(tv_detect_ncpu,
                               1+((pipe_max+1)/poll_n)+(pipe*TILES_PER_PIPELINE)+thread+1);
SCLogInfo("Thread %s pipe_max %d pipe %d cpu %d", thread_name, pipe_max, pipe,
                               1+((pipe_max+1)/poll_n)+(pipe*TILES_PER_PIPELINE)+thread+1);

            char *thread_group_name = SCStrdup("Detect");
            if (thread_group_name == NULL) {
                printf("Error allocating memory\n");
                exit(EXIT_FAILURE);
            }
            tv_detect_ncpu->thread_group_name = thread_group_name;

            if (TmThreadSpawn(tv_detect_ncpu) != TM_ECODE_OK) {
                printf("ERROR: TmThreadSpawn failed\n");
                exit(EXIT_FAILURE);
            }

            if ((cpu + 1) == ncpus)
                cpu = 0;
            else
                cpu++;
        }

#ifdef COMBINE_RESPOND_REJECT_AND_OUTPUT
	//if ((pipe % PIPELINES_PER_OUTPUT) == 0) {
	if (1) {
        snprintf(tname, sizeof(tname), "RR&Output%d", pipe+1);
        thread_name = SCStrdup(tname);
        ThreadVars *tv_outputs =
            TmThreadCreatePacketHandler(thread_name,
                                        verdict_queue[pipe/PIPELINES_PER_OUTPUT], (queue_type == simple) ? "simple" : "tmc_srmw", 
                                        "packetpool", "packetpool", 
                                        "varslot");
        if (tv_outputs == NULL) {
            printf("ERROR: TmThreadsCreate failed\n");
            exit(EXIT_FAILURE);
        }
        //TmThreadSetCPUAffinity(tv_outputs, MapTile(tile++));
        //TmThreadSetCPUAffinity(tv_outputs, MapTile((pipe_max * TILES_PER_PIPELINE) + (pipe / 2) + 1));
        TmThreadSetCPUAffinity(tv_outputs,
                               1+((pipe_max+1)/poll_n)+(pipe_max*TILES_PER_PIPELINE)+(pipe/PIPELINES_PER_OUTPUT));

        tm_module = TmModuleGetByName("RespondReject");
        if (tm_module == NULL) {
            printf("ERROR: TmModuleGetByName for RespondReject failed\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend(tv_outputs,tm_module,NULL);

        SetupOutputs(tv_outputs);

        if (TmThreadSpawn(tv_outputs) != TM_ECODE_OK) {
            printf("ERROR: TmThreadSpawn failed\n");
            exit(EXIT_FAILURE);
        }
	}
#else
        sprintf(alert_queue[pipe], "alert-queue%d", pipe);

        snprintf(tname, sizeof(tname), "RespondReject%"PRIu16, pipe+1);
        thread_name = SCStrdup(tname);
        ThreadVars *tv_rreject =
            TmThreadCreatePacketHandler(thread_name,
                                        verdict_queue[pipe],"simple", 
                                        alert_queue[pipe],"simple",
                                        "1slot");
        if (tv_rreject == NULL) {
            printf("ERROR: TmThreadsCreate failed\n");
            exit(EXIT_FAILURE);
        }
        tm_module = TmModuleGetByName("RespondReject");
        if (tm_module == NULL) {
            printf("ERROR: TmModuleGetByName for RespondReject failed\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend(tv_rreject,tm_module,NULL);

        TmThreadSetCPUAffinity(tv_rreject, MapTile(tile++));

        if (TmThreadSpawn(tv_rreject) != TM_ECODE_OK) {
            printf("ERROR: TmThreadSpawn failed\n");
            exit(EXIT_FAILURE);
        }

        snprintf(tname, sizeof(tname), "Outputs%"PRIu16, pipe+1);
        thread_name = SCStrdup(tname);

        ThreadVars *tv_outputs =
            TmThreadCreatePacketHandler(thread_name,
                                        alert_queue[pipe], "simple", 
                                        "packetpool", "packetpool", 
                                        "varslot");
        SetupOutputs(tv_outputs);

        TmThreadSetCPUAffinity(tv_outputs, MapTile(tile++));

        if (TmThreadSpawn(tv_outputs) != TM_ECODE_OK) {
            printf("ERROR: TmThreadSpawn failed\n");
            exit(EXIT_FAILURE);
        }
#endif
    }

    return 0;
}
예제 #6
0
int RunModeErfFileAutoFp(DetectEngineCtx *de_ctx)
{
    SCEnter();
    char tname[TM_THREAD_NAME_MAX];
    char qname[TM_QUEUE_NAME_MAX];
    uint16_t cpu = 0;
    char *queues = NULL;
    int thread;

    RunModeInitialize();

    char *file = NULL;
    if (ConfGet("erf-file.file", &file) == 0) {
        SCLogError(SC_ERR_RUNMODE,
            "Failed retrieving erf-file.file from config");
        exit(EXIT_FAILURE);
    }

    TimeModeSetOffline();

    /* Available cpus */
    uint16_t ncpus = UtilCpuGetNumProcessorsOnline();

    /* start with cpu 1 so that if we're creating an odd number of detect
     * threads we're not creating the most on CPU0. */
    if (ncpus > 0)
        cpu = 1;

    /* always create at least one thread */
    int thread_max = TmThreadGetNbThreads(DETECT_CPU_SET);
    if (thread_max == 0)
        thread_max = ncpus * threading_detect_ratio;
    if (thread_max < 1)
        thread_max = 1;

    queues = RunmodeAutoFpCreatePickupQueuesString(thread_max);
    if (queues == NULL) {
        SCLogError(SC_ERR_RUNMODE, "RunmodeAutoFpCreatePickupQueuesString failed");
        exit(EXIT_FAILURE);
    }

    /* create the threads */
    ThreadVars *tv =
        TmThreadCreatePacketHandler("ReceiveErfFile",
                                    "packetpool", "packetpool",
                                    queues, "flow",
                                    "pktacqloop");
    SCFree(queues);

    if (tv == NULL) {
        printf("ERROR: TmThreadsCreate failed\n");
        exit(EXIT_FAILURE);
    }
    TmModule *tm_module = TmModuleGetByName("ReceiveErfFile");
    if (tm_module == NULL) {
        printf("ERROR: TmModuleGetByName failed for ReceiveErfFile\n");
        exit(EXIT_FAILURE);
    }
    TmSlotSetFuncAppend(tv, tm_module, file);

    tm_module = TmModuleGetByName("DecodeErfFile");
    if (tm_module == NULL) {
        printf("ERROR: TmModuleGetByName DecodeErfFile failed\n");
        exit(EXIT_FAILURE);
    }
    TmSlotSetFuncAppend(tv, tm_module, NULL);

    if (threading_set_cpu_affinity) {
        TmThreadSetCPUAffinity(tv, 0);
        if (ncpus > 1)
            TmThreadSetThreadPriority(tv, PRIO_MEDIUM);
    }

    if (TmThreadSpawn(tv) != TM_ECODE_OK) {
        printf("ERROR: TmThreadSpawn failed\n");
        exit(EXIT_FAILURE);
    }

    for (thread = 0; thread < thread_max; thread++) {
        snprintf(tname, sizeof(tname), "Detect%"PRIu16, thread+1);
        snprintf(qname, sizeof(qname), "pickup%"PRIu16, thread+1);

        SCLogDebug("tname %s, qname %s", tname, qname);

        char *thread_name = SCStrdup(tname);
        if (unlikely(thread_name == NULL)) {
            printf("ERROR: Can't allocate thread name\n");
            exit(EXIT_FAILURE);
        }
        SCLogDebug("Assigning %s affinity to cpu %u", thread_name, cpu);

        ThreadVars *tv_detect_ncpu =
            TmThreadCreatePacketHandler(thread_name,
                                        qname, "flow",
                                        "packetpool", "packetpool",
                                        "varslot");
        if (tv_detect_ncpu == NULL) {
            printf("ERROR: TmThreadsCreate failed\n");
            exit(EXIT_FAILURE);
        }
        tm_module = TmModuleGetByName("StreamTcp");
        if (tm_module == NULL) {
            printf("ERROR: TmModuleGetByName StreamTcp failed\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend(tv_detect_ncpu, tm_module, NULL);

        tm_module = TmModuleGetByName("Detect");
        if (tm_module == NULL) {
            printf("ERROR: TmModuleGetByName Detect failed\n");
            exit(EXIT_FAILURE);
        }
        TmSlotSetFuncAppend(tv_detect_ncpu, tm_module, (void *)de_ctx);

        if (threading_set_cpu_affinity) {
            TmThreadSetCPUAffinity(tv_detect_ncpu, (int)cpu);
            /* If we have more than one core/cpu, the first Detect thread
             * (at cpu 0) will have less priority (higher 'nice' value)
             * In this case we will set the thread priority to +10 (default is 0)
             */
            if (cpu == 0 && ncpus > 1) {
                TmThreadSetThreadPriority(tv_detect_ncpu, PRIO_LOW);
            } else if (ncpus > 1) {
                TmThreadSetThreadPriority(tv_detect_ncpu, PRIO_MEDIUM);
            }
        }

        char *thread_group_name = SCStrdup("Detect");
        if (unlikely(thread_group_name == NULL)) {
            printf("Error allocating memory\n");
            exit(EXIT_FAILURE);
        }
        tv_detect_ncpu->thread_group_name = thread_group_name;

        /* add outputs as well */
        SetupOutputs(tv_detect_ncpu);

        if (TmThreadSpawn(tv_detect_ncpu) != TM_ECODE_OK) {
            printf("ERROR: TmThreadSpawn failed\n");
            exit(EXIT_FAILURE);
        }

        if ((cpu + 1) == ncpus)
            cpu = 0;
        else
            cpu++;
    }

    SCLogInfo("RunModeErfFileAutoFp initialised");

    SCReturnInt(0);
}