/* Copyright (C) 2007-2010 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. */ #include "suricata-common.h" #include "tm-threads.h" #include "conf.h" #include "runmodes.h" #include "runmode-pcap-file.h" #include "output.h" #include "detect-engine.h" #include "source-pcap-file.h" #include "util-debug.h" #include "util-time.h" #include "util-cpu.h" #include "util-affinity.h" #include "util-runmodes.h" const char *RunModeFilePcapGetDefaultMode(void) { return "autofp"; } void RunModeFilePcapRegister(void) { RunModeRegisterNewRunMode(RUNMODE_PCAP_FILE, "single", "Single threaded pcap file mode", RunModeFilePcapSingle, NULL); RunModeRegisterNewRunMode(RUNMODE_PCAP_FILE, "autofp", "Multi-threaded pcap file mode. Packets from each flow are assigned to a consistent " "detection thread", RunModeFilePcapAutoFp, NULL); return; } /** * \brief Single thread version of the Pcap file processing. */ int RunModeFilePcapSingle(void) { const char *file = NULL; char tname[TM_THREAD_NAME_MAX]; if (ConfGet("pcap-file.file", &file) == 0) { FatalError("Failed retrieving pcap-file from Conf"); } TimeModeSetOffline(); PcapFileGlobalInit(); snprintf(tname, sizeof(tname), "%s#01", thread_name_single); /* create the threads */ ThreadVars *tv = TmThreadCreatePacketHandler(tname, "packetpool", "packetpool", "packetpool", "packetpool", "pktacqloop"); if (tv == NULL) { FatalError("threading setup failed"); } TmModule *tm_module = TmModuleGetByName("ReceivePcapFile"); if (tm_module == NULL) { FatalError("TmModuleGetByName failed for ReceivePcap"); } TmSlotSetFuncAppend(tv, tm_module, file); tm_module = TmModuleGetByName("DecodePcapFile"); if (tm_module == NULL) { FatalError("TmModuleGetByName DecodePcap failed"); } TmSlotSetFuncAppend(tv, tm_module, NULL); tm_module = TmModuleGetByName("FlowWorker"); if (tm_module == NULL) { FatalError("TmModuleGetByName for FlowWorker failed"); } TmSlotSetFuncAppend(tv, tm_module, NULL); TmThreadSetCPU(tv, WORKER_CPU_SET); if (TmThreadSpawn(tv) != TM_ECODE_OK) { FatalError("TmThreadSpawn failed"); } return 0; } /** * \brief RunModeFilePcapAutoFp set up the following thread packet handlers: * - Receive thread (from pcap file) * - 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. * - Outputs thread * By default the threads will use the first cpu available * except the Detection threads if we have more than one cpu. * * \retval 0 If all goes well. (If any problem is detected the engine will * exit()). */ int RunModeFilePcapAutoFp(void) { SCEnter(); char tname[TM_THREAD_NAME_MAX]; char qname[TM_QUEUE_NAME_MAX]; uint16_t cpu = 0; char *queues = NULL; uint16_t thread; const char *file = NULL; if (ConfGet("pcap-file.file", &file) == 0) { FatalError("Failed retrieving pcap-file from Conf"); } SCLogDebug("file %s", file); TimeModeSetOffline(); PcapFileGlobalInit(); /* 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(WORKER_CPU_SET); if (thread_max == 0) thread_max = ncpus * threading_detect_ratio; if (thread_max < 1) thread_max = 1; if (thread_max > 1024) thread_max = 1024; queues = RunmodeAutoFpCreatePickupQueuesString(thread_max); if (queues == NULL) { FatalError("RunmodeAutoFpCreatePickupQueuesString failed"); } snprintf(tname, sizeof(tname), "%s#01", thread_name_autofp); /* create the threads */ ThreadVars *tv_receivepcap = TmThreadCreatePacketHandler(tname, "packetpool", "packetpool", queues, "flow", "pktacqloop"); SCFree(queues); if (tv_receivepcap == NULL) { FatalError("threading setup failed"); } TmModule *tm_module = TmModuleGetByName("ReceivePcapFile"); if (tm_module == NULL) { FatalError("TmModuleGetByName failed for ReceivePcap"); } TmSlotSetFuncAppend(tv_receivepcap, tm_module, file); tm_module = TmModuleGetByName("DecodePcapFile"); if (tm_module == NULL) { FatalError("TmModuleGetByName DecodePcap failed"); } TmSlotSetFuncAppend(tv_receivepcap, tm_module, NULL); TmThreadSetCPU(tv_receivepcap, RECEIVE_CPU_SET); if (TmThreadSpawn(tv_receivepcap) != TM_ECODE_OK) { FatalError("TmThreadSpawn failed"); } for (thread = 0; thread < (uint16_t)thread_max; thread++) { snprintf(tname, sizeof(tname), "%s#%02d", thread_name_workers, thread + 1); snprintf(qname, sizeof(qname), "pickup%d", thread + 1); SCLogDebug("tname %s, qname %s", tname, qname); SCLogDebug("Assigning %s affinity to cpu %u", tname, cpu); ThreadVars *tv_detect_ncpu = TmThreadCreatePacketHandler(tname, qname, "flow", "packetpool", "packetpool", "varslot"); if (tv_detect_ncpu == NULL) { FatalError("TmThreadsCreate failed"); } tm_module = TmModuleGetByName("FlowWorker"); if (tm_module == NULL) { FatalError("TmModuleGetByName for FlowWorker failed"); } TmSlotSetFuncAppend(tv_detect_ncpu, tm_module, NULL); TmThreadSetGroupName(tv_detect_ncpu, "Detect"); TmThreadSetCPU(tv_detect_ncpu, WORKER_CPU_SET); if (TmThreadSpawn(tv_detect_ncpu) != TM_ECODE_OK) { FatalError("TmThreadSpawn failed"); } if ((cpu + 1) == ncpus) cpu = 0; else cpu++; } return 0; }