/* Copyright (C) 2007-2022 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 "runmode-pcap.h" #include "runmodes.h" #include "output.h" #include "util-conf.h" #include "util-debug.h" #include "util-time.h" #include "util-cpu.h" #include "util-device.h" #include "util-runmodes.h" #include "util-misc.h" #include "util-byte.h" const char *RunModeIdsGetDefaultMode(void) { return "autofp"; } int RunModeIdsPcapWorkers(void); void RunModeIdsPcapRegister(void) { RunModeRegisterNewRunMode(RUNMODE_PCAP_DEV, "single", "Single threaded pcap live mode", RunModeIdsPcapSingle, NULL); RunModeRegisterNewRunMode(RUNMODE_PCAP_DEV, "autofp", "Multi-threaded pcap live mode. Packets from each flow are assigned to a consistent " "detection thread", RunModeIdsPcapAutoFp, NULL); RunModeRegisterNewRunMode(RUNMODE_PCAP_DEV, "workers", "Workers pcap live mode, each thread does all" " tasks from acquisition to logging", RunModeIdsPcapWorkers, NULL); return; } static void PcapDerefConfig(void *conf) { PcapIfaceConfig *pfp = (PcapIfaceConfig *)conf; /* Pcap config is used only once but cost of this low. */ if (SC_ATOMIC_SUB(pfp->ref, 1) == 1) { SCFree(pfp); } } static void *ParsePcapConfig(const char *iface) { const char *threadsstr = NULL; ConfNode *if_root; ConfNode *if_default = NULL; ConfNode *pcap_node; PcapIfaceConfig *aconf = SCMalloc(sizeof(*aconf)); const char *tmpbpf; const char *tmpctype; intmax_t value; int promisc = 0; intmax_t snaplen = 0; if (unlikely(aconf == NULL)) { return NULL; } if (iface == NULL) { SCFree(aconf); return NULL; } memset(aconf, 0x00, sizeof(*aconf)); strlcpy(aconf->iface, iface, sizeof(aconf->iface)); aconf->buffer_size = 0; /* If set command line option has precedence over config */ if ((ConfGetInt("pcap.buffer-size", &value)) == 1) { if (value >= 0 && value <= INT_MAX) { SCLogInfo("Pcap will use %d buffer size", (int)value); aconf->buffer_size = value; } else { SCLogWarning("pcap.buffer-size " "value of %" PRIiMAX " is invalid. Valid range is " "0-2147483647", value); } } aconf->checksum_mode = CHECKSUM_VALIDATION_AUTO; aconf->bpf_filter = NULL; if ((ConfGet("bpf-filter", &tmpbpf)) == 1) { aconf->bpf_filter = tmpbpf; } SC_ATOMIC_INIT(aconf->ref); aconf->DerefFunc = PcapDerefConfig; aconf->threads = 1; /* Find initial node */ pcap_node = ConfGetNode("pcap"); if (pcap_node == NULL) { SCLogInfo("Unable to find pcap config using default value"); return aconf; } if_root = ConfFindDeviceConfig(pcap_node, iface); if_default = ConfFindDeviceConfig(pcap_node, "default"); if (if_root == NULL && if_default == NULL) { SCLogInfo("Unable to find pcap config for " "interface %s, using default value", iface); return aconf; } /* If there is no setting for current interface use default one as main iface */ if (if_root == NULL) { if_root = if_default; if_default = NULL; } if (ConfGetChildValueWithDefault(if_root, if_default, "threads", &threadsstr) != 1) { aconf->threads = 1; } else { if (threadsstr != NULL) { if (StringParseInt32(&aconf->threads, 10, 0, (const char *)threadsstr) < 0) { SCLogWarning("Invalid value for " "pcap.threads: %s, resetting to 1", threadsstr); aconf->threads = 1; } } } if (aconf->threads == 0) { aconf->threads = 1; } (void) SC_ATOMIC_ADD(aconf->ref, aconf->threads); if (aconf->buffer_size == 0) { const char *s_limit = NULL; int ret; ret = ConfGetChildValueWithDefault(if_root, if_default, "buffer-size", &s_limit); if (ret == 1 && s_limit) { uint64_t bsize = 0; if (ParseSizeStringU64(s_limit, &bsize) < 0) { SCLogError("Failed to parse pcap buffer size: %s", s_limit); } else { /* the string 2gb returns 2147483648 which is 1 to high * for a int. */ if (bsize == (uint64_t)((uint64_t)INT_MAX + (uint64_t)1)) bsize = (uint64_t)INT_MAX; if (bsize > INT_MAX) { SCLogError("Failed to set pcap buffer size: 2gb max. %" PRIu64 " > %d", bsize, INT_MAX); } else { aconf->buffer_size = (int)bsize; } } } } if (aconf->bpf_filter == NULL) { /* set bpf filter if we have one */ if (ConfGetChildValueWithDefault(if_root, if_default, "bpf-filter", &tmpbpf) != 1) { SCLogDebug("could not get bpf or none specified"); } else { aconf->bpf_filter = tmpbpf; } } else { SCLogInfo("BPF filter set from command line or via old 'bpf-filter' option."); } if (ConfGetChildValueWithDefault(if_root, if_default, "checksum-checks", &tmpctype) == 1) { if (strcmp(tmpctype, "auto") == 0) { aconf->checksum_mode = CHECKSUM_VALIDATION_AUTO; } else if (ConfValIsTrue(tmpctype)) { aconf->checksum_mode = CHECKSUM_VALIDATION_ENABLE; } else if (ConfValIsFalse(tmpctype)) { aconf->checksum_mode = CHECKSUM_VALIDATION_DISABLE; } else { SCLogError("Invalid value for checksum-checks for %s", aconf->iface); } } aconf->promisc = LIBPCAP_PROMISC; if (ConfGetChildValueBoolWithDefault(if_root, if_default, "promisc", &promisc) != 1) { SCLogDebug("could not get promisc or none specified"); } else { aconf->promisc = promisc; } aconf->snaplen = 0; if (ConfGetChildValueIntWithDefault(if_root, if_default, "snaplen", &snaplen) != 1) { SCLogDebug("could not get snaplen or none specified"); } else { aconf->snaplen = snaplen; } return aconf; } static int PcapConfigGeThreadsCount(void *conf) { PcapIfaceConfig *pfp = (PcapIfaceConfig *)conf; return pfp->threads; } /** * \brief Single thread version of the Pcap live processing. */ int RunModeIdsPcapSingle(void) { int ret; const char *live_dev = NULL; SCEnter(); TimeModeSetLive(); (void)ConfGet("pcap.single-pcap-dev", &live_dev); ret = RunModeSetLiveCaptureSingle(ParsePcapConfig, PcapConfigGeThreadsCount, "ReceivePcap", "DecodePcap", thread_name_single, live_dev); if (ret != 0) { FatalError("Runmode start failed"); } SCLogDebug("RunModeIdsPcapSingle initialised"); SCReturnInt(0); } /** * \brief RunModIdsPcapAutoFp set up the following thread packet handlers: * - Receive thread (from pcap device) * - 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 RunModeIdsPcapAutoFp(void) { int ret; const char *live_dev = NULL; SCEnter(); TimeModeSetLive(); (void) ConfGet("pcap.single-pcap-dev", &live_dev); ret = RunModeSetLiveCaptureAutoFp(ParsePcapConfig, PcapConfigGeThreadsCount, "ReceivePcap", "DecodePcap", thread_name_autofp, live_dev); if (ret != 0) { FatalError("Runmode start failed"); } SCLogDebug("RunModeIdsPcapAutoFp initialised"); SCReturnInt(0); } /** * \brief Workers version of the PCAP LIVE processing. * * Start N threads with each thread doing all the work. * */ int RunModeIdsPcapWorkers(void) { int ret; const char *live_dev = NULL; SCEnter(); TimeModeSetLive(); (void) ConfGet("pcap.single-pcap-dev", &live_dev); ret = RunModeSetLiveCaptureWorkers(ParsePcapConfig, PcapConfigGeThreadsCount, "ReceivePcap", "DecodePcap", thread_name_workers, live_dev); if (ret != 0) { FatalError("Unable to start runmode"); } SCLogDebug("RunModeIdsPcapWorkers initialised"); SCReturnInt(0); }