/* Copyright (C) 2007-2013 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 Pablo Rincon Crespo * * This file provide a set of helper functions for reducing the complexity * when constructing unittests */ #include "suricata-common.h" #include "decode.h" #include "flow-private.h" #include "flow-util.h" #include "detect.h" #include "detect-parse.h" #include "detect-engine.h" #include "detect-engine-sigorder.h" #include "util-debug.h" #include "util-time.h" #include "util-error.h" #include "util-unittest.h" #include "util-unittest-helper.h" #ifdef UNITTESTS /** * \brief return the uint32_t for a ipv4 address string * * \param str Valid ipaddress in string form (e.g. 1.2.3.4) * * \retval uint the uin32_t representation */ uint32_t UTHSetIPv4Address(char *str) { struct in_addr in; if (inet_pton(AF_INET, str, &in) != 1) { printf("invalid IPv6 address %s\n", str); exit(EXIT_FAILURE); } return (uint32_t)in.s_addr; } /** * \brief UTHBuildPacketReal is a function that create tcp/udp packets for unittests * specifying ip and port sources and destinations (IPV6) * * \param payload pointer to the payloadd buffer * \param payload_len pointer to the length of the payload * \param ipproto Protocols allowed atm are IPPROTO_TCP and IPPROTO_UDP * \param src pointer to a string containing the ip source * \param dst pointer to a string containing the ip destination * \param sport pointer to a string containing the port source * \param dport pointer to a string containing the port destination * * \retval Packet pointer to the built in packet */ Packet *UTHBuildPacketIPV6Real(uint8_t *payload, uint16_t payload_len, uint8_t ipproto, char *src, char *dst, uint16_t sport, uint16_t dport) { uint32_t in[4]; Packet *p = PacketGetFromAlloc(); if (unlikely(p == NULL)) return NULL; TimeSet(&p->ts); p->src.family = AF_INET6; p->dst.family = AF_INET6; p->payload = payload; p->payload_len = payload_len; p->proto = ipproto; p->ip6h = SCMalloc(sizeof(IPV6Hdr)); if (p->ip6h == NULL) goto error; memset(p->ip6h, 0, sizeof(IPV6Hdr)); p->ip6h->s_ip6_nxt = ipproto; p->ip6h->s_ip6_plen = htons(payload_len + sizeof(TCPHdr)); if (inet_pton(AF_INET6, src, &in) != 1) goto error; p->src.addr_data32[0] = in[0]; p->src.addr_data32[1] = in[1]; p->src.addr_data32[2] = in[2]; p->src.addr_data32[3] = in[3]; p->sp = sport; p->ip6h->s_ip6_src[0] = in[0]; p->ip6h->s_ip6_src[1] = in[1]; p->ip6h->s_ip6_src[2] = in[2]; p->ip6h->s_ip6_src[3] = in[3]; if (inet_pton(AF_INET6, dst, &in) != 1) goto error; p->dst.addr_data32[0] = in[0]; p->dst.addr_data32[1] = in[1]; p->dst.addr_data32[2] = in[2]; p->dst.addr_data32[3] = in[3]; p->dp = dport; p->ip6h->s_ip6_dst[0] = in[0]; p->ip6h->s_ip6_dst[1] = in[1]; p->ip6h->s_ip6_dst[2] = in[2]; p->ip6h->s_ip6_dst[3] = in[3]; p->tcph = SCMalloc(sizeof(TCPHdr)); if (p->tcph == NULL) goto error; memset(p->tcph, 0, sizeof(TCPHdr)); p->tcph->th_sport = htons(sport); p->tcph->th_dport = htons(dport); SET_PKT_LEN(p, sizeof(IPV6Hdr) + sizeof(TCPHdr) + payload_len); return p; error: if (p != NULL) { if (p->ip6h != NULL) { SCFree(p->ip6h); } if (p->tcph != NULL) { SCFree(p->tcph); } SCFree(p); } return NULL; } /** * \brief UTHBuildPacketReal is a function that create tcp/udp packets for unittests * specifying ip and port sources and destinations * * \param payload pointer to the payloadd buffer * \param payload_len pointer to the length of the payload * \param ipproto Protocols allowed atm are IPPROTO_TCP and IPPROTO_UDP * \param src pointer to a string containing the ip source * \param dst pointer to a string containing the ip destination * \param sport pointer to a string containing the port source * \param dport pointer to a string containing the port destination * * \retval Packet pointer to the built in packet */ Packet *UTHBuildPacketReal(uint8_t *payload, uint16_t payload_len, uint8_t ipproto, char *src, char *dst, uint16_t sport, uint16_t dport) { struct in_addr in; Packet *p = PacketGetFromAlloc(); if (unlikely(p == NULL)) return NULL; struct timeval tv; TimeGet(&tv); COPY_TIMESTAMP(&tv, &p->ts); p->src.family = AF_INET; p->dst.family = AF_INET; p->payload = payload; p->payload_len = payload_len; p->proto = ipproto; if (inet_pton(AF_INET, src, &in) != 1) goto error; p->src.addr_data32[0] = in.s_addr; p->sp = sport; if (inet_pton(AF_INET, dst, &in) != 1) goto error; p->dst.addr_data32[0] = in.s_addr; p->dp = dport; p->ip4h = (IPV4Hdr *)GET_PKT_DATA(p); if (p->ip4h == NULL) goto error; p->ip4h->s_ip_src.s_addr = p->src.addr_data32[0]; p->ip4h->s_ip_dst.s_addr = p->dst.addr_data32[0]; p->ip4h->ip_proto = ipproto; p->ip4h->ip_verhl = sizeof(IPV4Hdr); p->proto = ipproto; int hdr_offset = sizeof(IPV4Hdr); switch (ipproto) { case IPPROTO_UDP: p->udph = (UDPHdr *)(GET_PKT_DATA(p) + sizeof(IPV4Hdr)); if (p->udph == NULL) goto error; p->udph->uh_sport = sport; p->udph->uh_dport = dport; hdr_offset += sizeof(UDPHdr); break; case IPPROTO_TCP: p->tcph = (TCPHdr *)(GET_PKT_DATA(p) + sizeof(IPV4Hdr)); if (p->tcph == NULL) goto error; p->tcph->th_sport = htons(sport); p->tcph->th_dport = htons(dport); hdr_offset += sizeof(TCPHdr); break; case IPPROTO_ICMP: p->icmpv4h = (ICMPV4Hdr *)(GET_PKT_DATA(p) + sizeof(IPV4Hdr)); if (p->icmpv4h == NULL) goto error; hdr_offset += sizeof(ICMPV4Hdr); break; default: break; /* TODO: Add more protocols */ } PacketCopyDataOffset(p, hdr_offset, payload, payload_len); SET_PKT_LEN(p, hdr_offset + payload_len); p->payload = GET_PKT_DATA(p)+hdr_offset; return p; error: SCFree(p); return NULL; } /** * \brief UTHBuildPacket is a wrapper that build packets with default ip * and port fields * * \param payload pointer to the payloadd buffer * \param payload_len pointer to the length of the payload * \param ipproto Protocols allowed atm are IPPROTO_TCP and IPPROTO_UDP * * \retval Packet pointer to the built in packet */ Packet *UTHBuildPacket(uint8_t *payload, uint16_t payload_len, uint8_t ipproto) { return UTHBuildPacketReal(payload, payload_len, ipproto, "192.168.1.5", "192.168.1.1", 41424, 80); } /** * \brief UTHBuildPacketArrayFromEth is a wrapper that build a packets from an array of * packets in ethernet rawbytes. Hint: It also share the flows. * * \param raw_eth pointer to the array of ethernet packets in rawbytes * \param pktsize pointer to the array of sizes corresponding to each buffer pointed * from pktsize. * \param numpkts number of packets in the array * * \retval Packet pointer to the array of built in packets; NULL if something fail */ Packet **UTHBuildPacketArrayFromEth(uint8_t *raw_eth[], int *pktsize, int numpkts) { DecodeThreadVars dtv; ThreadVars th_v; if (raw_eth == NULL || pktsize == NULL || numpkts <= 0) { SCLogError(SC_ERR_INVALID_ARGUMENT, "The arrays cant be null, and the number" " of packets should be grater thatn zero"); return NULL; } Packet **p = NULL; p = SCMalloc(sizeof(Packet *) * numpkts); if (unlikely(p == NULL)) return NULL; memset(&dtv, 0, sizeof(DecodeThreadVars)); memset(&th_v, 0, sizeof(th_v)); int i = 0; for (; i < numpkts; i++) { p[i] = PacketGetFromAlloc(); if (p[i] == NULL) { SCFree(p); return NULL; } DecodeEthernet(&th_v, &dtv, p[i], raw_eth[i], pktsize[i], NULL); } return p; } /** * \brief UTHBuildPacketFromEth is a wrapper that build a packet for the rawbytes * * \param raw_eth pointer to the rawbytes containing an ethernet packet * (and any other headers inside) * \param pktsize pointer to the length of the payload * * \retval Packet pointer to the built in packet; NULL if something fail */ Packet *UTHBuildPacketFromEth(uint8_t *raw_eth, uint16_t pktsize) { DecodeThreadVars dtv; ThreadVars th_v; Packet *p = PacketGetFromAlloc(); if (unlikely(p == NULL)) return NULL; memset(&dtv, 0, sizeof(DecodeThreadVars)); memset(&th_v, 0, sizeof(th_v)); DecodeEthernet(&th_v, &dtv, p, raw_eth, pktsize, NULL); return p; } /** * \brief UTHBuildPacketSrcDst is a wrapper that build packets specifying IPs * and defaulting ports * * \param payload pointer to the payloadd buffer * \param payload_len pointer to the length of the payload * \param ipproto Protocols allowed atm are IPPROTO_TCP and IPPROTO_UDP * * \retval Packet pointer to the built in packet */ Packet *UTHBuildPacketSrcDst(uint8_t *payload, uint16_t payload_len, uint8_t ipproto, char *src, char *dst) { return UTHBuildPacketReal(payload, payload_len, ipproto, src, dst, 41424, 80); } /** * \brief UTHBuildPacketSrcDst is a wrapper that build packets specifying IPs * and defaulting ports (IPV6) * * \param payload pointer to the payloadd buffer * \param payload_len pointer to the length of the payload * \param ipproto Protocols allowed atm are IPPROTO_TCP and IPPROTO_UDP * * \retval Packet pointer to the built in packet */ Packet *UTHBuildPacketIPV6SrcDst(uint8_t *payload, uint16_t payload_len, uint8_t ipproto, char *src, char *dst) { return UTHBuildPacketIPV6Real(payload, payload_len, ipproto, src, dst, 41424, 80); } /** * \brief UTHBuildPacketSrcDstPorts is a wrapper that build packets specifying * src and dst ports and defaulting IPs * * \param payload pointer to the payloadd buffer * \param payload_len pointer to the length of the payload * \param ipproto Protocols allowed atm are IPPROTO_TCP and IPPROTO_UDP * * \retval Packet pointer to the built in packet */ Packet *UTHBuildPacketSrcDstPorts(uint8_t *payload, uint16_t payload_len, uint8_t ipproto, uint16_t sport, uint16_t dport) { return UTHBuildPacketReal(payload, payload_len, ipproto, "192.168.1.5", "192.168.1.1", sport, dport); } /** * \brief UTHFreePackets: function to release the allocated data * from UTHBuildPacket and the packet itself * * \param p pointer to the Packet */ void UTHFreePackets(Packet **p, int numpkts) { if (p == NULL) return; int i = 0; for (; i < numpkts; i++) { UTHFreePacket(p[i]); } } /** * \brief UTHFreePacket: function to release the allocated data * from UTHBuildPacket and the packet itself * * \param p pointer to the Packet */ void UTHFreePacket(Packet *p) { if (p == NULL) return; #if 0 // VJ we now use one buffer switch (p->proto) { case IPPROTO_UDP: if (p->udph != NULL) SCFree(p->udph); if (p->ip4h != NULL) SCFree(p->ip4h); break; case IPPROTO_TCP: if (p->tcph != NULL) SCFree(p->tcph); if (p->ip4h != NULL) SCFree(p->ip4h); break; case IPPROTO_ICMP: if (p->ip4h != NULL) SCFree(p->ip4h); break; /* TODO: Add more protocols */ } #endif SCFree(p); } Flow *UTHBuildFlow(int family, char *src, char *dst, Port sp, Port dp) { struct in_addr in; Flow *f = SCMalloc(sizeof(Flow)); if (unlikely(f == NULL)) { printf("FlowAlloc failed\n"); ; return NULL; } memset(f, 0x00, sizeof(Flow)); FLOW_INITIALIZE(f); if (family == AF_INET) { f->flags |= FLOW_IPV4; } else if (family == AF_INET6) { f->flags |= FLOW_IPV6; } if (src != NULL) { if (family == AF_INET) { if (inet_pton(AF_INET, src, &in) != 1) { printf("invalid address %s\n", src); SCFree(f); return NULL; } f->src.addr_data32[0] = in.s_addr; } else { BUG_ON(1); } } if (dst != NULL) { if (family == AF_INET) { if (inet_pton(AF_INET, dst, &in) != 1) { printf("invalid address %s\n", dst); SCFree(f); return NULL; } f->dst.addr_data32[0] = in.s_addr; } else { BUG_ON(1); } } f->sp = sp; f->dp = dp; return f; } void UTHFreeFlow(Flow *flow) { if (flow != NULL) { FlowFree(flow); } } /** * \brief UTHGenericTest: function that perfom a generic check taking care of * as maximum common unittest elements as possible. * It will create a detection engine, append an array * of signatures an check the spected results for each * of them, it check matches for an array of packets * * \param pkt pointer to the array of packets * \param numpkts number of packets to match * \param sigs array of char* pointing to signatures to load * \param numsigs number of signatures to load and check * \param results pointer to arrays of numbers, each of them foreach packet * to check if sids matches that packet as expected with * that number of times or not. The size of results should be * numpkts * numsigs * sizeof(uint16_t *) * * Example: * result[1][3] would mean the number of times the pkt[1] * match the sid[3] * * \retval int 1 if the match of all the sids is the specified has the * specified results; 0 if not */ int UTHGenericTest(Packet **pkt, int numpkts, char *sigs[], uint32_t sids[], uint32_t *results, int numsigs) { int result = 0; if (pkt == NULL || sigs == NULL || numpkts == 0 || sids == NULL || results == NULL || numsigs == 0) { SCLogError(SC_ERR_INVALID_ARGUMENT, "Arguments invalid, that the pointer/arrays are not NULL, and the number of signatures and packets is > 0"); goto end; } DetectEngineCtx *de_ctx = DetectEngineCtxInit(); if (de_ctx == NULL) { goto end; } de_ctx->flags |= DE_QUIET; if (UTHAppendSigs(de_ctx, sigs, numsigs) == 0) goto cleanup; result = UTHMatchPacketsWithResults(de_ctx, pkt, numpkts, sids, results, numsigs); cleanup: if (de_ctx != NULL) { SigGroupCleanup(de_ctx); SigCleanSignatures(de_ctx); DetectEngineCtxFree(de_ctx); } end: return result; } /** * \brief UTHCheckPacketMatches: function to check if a packet match some sids * * * \param p pointer to the Packet * \param sigs array of char* pointing to signatures to load * \param numsigs number of signatures to load from the array * \param results pointer to an array of numbers to check if sids matches * that number of times or not. * * \retval int 1 if the match of all the sids is the specified has the * specified results; 0 if not */ int UTHCheckPacketMatchResults(Packet *p, uint32_t sids[], uint32_t results[], int numsids) { if (p == NULL || sids == NULL) { SCLogError(SC_ERR_INVALID_ARGUMENT, "Arguments invalid, check if the " "packet is NULL, and if the array contain sids is set"); return 0; } int i = 0; int res = 1; for (; i < numsids; i++) { uint16_t r = PacketAlertCheck(p, sids[i]); if (r != results[i]) { SCLogInfo("Sid %"PRIu32" matched %"PRIu16" times, and not %"PRIu16 " as expected", sids[i], r, results[i]); res = 0; } else { SCLogInfo("Sid %"PRIu32" matched %"PRIu16" times, as expected", sids[i], r); } } return res; } /** * \brief UTHAppendSigs: Add sigs to the detection_engine checking for errors * * \param de_ctx pointer to the DetectEngineCtx used * \param sigs array of char* pointing to signatures to load * \param numsigs number of signatures to load from the array * (size of the array) * * \retval int 0 if we have errors; 1 if all the signatures loaded succesfuly */ int UTHAppendSigs(DetectEngineCtx *de_ctx, char *sigs[], int numsigs) { if (de_ctx == NULL || numsigs <= 0 || sigs == NULL) { SCLogError(SC_ERR_INVALID_ARGUMENT, "Arguments invalid, check if sigs or de_ctx are NULL, and if the array contain sigs"); return 0; } //SCLogDebug("Adding %d signatures for the current unittest", numsigs); Signature *s; int i = 0; for ( ; i < numsigs; i++) { if (sigs[i] == NULL) { SCLogError(SC_ERR_INVALID_ARGUMENT, "Check the signature" " at position %d", i); return 0; } s = DetectEngineAppendSig(de_ctx, sigs[i]); if (s == NULL) { SCLogError(SC_ERR_INVALID_ARGUMENT, "Check the signature at" " position %d (%s)", i, sigs[i]); return 0; } } //SCLogDebug("Added %d signatures to the de_ctx of the unittest", i); return 1; } /** * \test UTHMatchPacketsWithResults Match a packet or a array of packets against sigs * of a de_ctx, checking that each signature match match X times for certain packets * * \param de_ctx pointer with the signatures loaded * \param p pointer to the array of packets * \param num_packets number of packets in the array * * \retval return 1 if all goes well * \retval return 0 if something fail */ int UTHMatchPacketsWithResults(DetectEngineCtx *de_ctx, Packet **p, int num_packets, uint32_t sids[], uint32_t *results, int numsigs) { int result = 0; if (de_ctx == NULL || p == NULL) { SCLogError(SC_ERR_INVALID_ARGUMENT, "packet or de_ctx was null"); result = 0; goto end; } DecodeThreadVars dtv; ThreadVars th_v; DetectEngineThreadCtx *det_ctx = NULL; memset(&dtv, 0, sizeof(DecodeThreadVars)); memset(&th_v, 0, sizeof(th_v)); //de_ctx->flags |= DE_QUIET; SigGroupBuild(de_ctx); DetectEngineThreadCtxInit(&th_v, (void *)de_ctx, (void *)&det_ctx); int i = 0; for (; i < num_packets; i++) { SigMatchSignatures(&th_v, de_ctx, det_ctx, p[i]); if (UTHCheckPacketMatchResults(p[i], sids, &results[(i * numsigs)], numsigs) == 0) goto cleanup; } /* so far, so good ;) */ result = 1; cleanup: if (det_ctx != NULL) DetectEngineThreadCtxDeinit(&th_v, (void *)det_ctx); end: return result; } /** * \test UTHMatchPackets Match a packet or a array of packets against sigs * of a de_ctx, but note that the return value doesn't mean that we have a * match, we have to check it later with PacketAlertCheck() * * \param de_ctx pointer with the signatures loaded * \param p pointer to the array of packets * \param num_packets number of packets in the array * * \retval return 1 if all goes well * \retval return 0 if something fail */ int UTHMatchPackets(DetectEngineCtx *de_ctx, Packet **p, int num_packets) { int result = 1; if (de_ctx == NULL || p == NULL) { SCLogError(SC_ERR_INVALID_ARGUMENT, "packet or de_ctx was null"); result = 0; goto end; } DecodeThreadVars dtv; ThreadVars th_v; DetectEngineThreadCtx *det_ctx = NULL; memset(&dtv, 0, sizeof(DecodeThreadVars)); memset(&th_v, 0, sizeof(th_v)); //de_ctx->flags |= DE_QUIET; SCSigRegisterSignatureOrderingFuncs(de_ctx); SCSigOrderSignatures(de_ctx); SCSigSignatureOrderingModuleCleanup(de_ctx); SigGroupBuild(de_ctx); DetectEngineThreadCtxInit(&th_v, (void *)de_ctx, (void *)&det_ctx); int i = 0; for (; i < num_packets; i++) SigMatchSignatures(&th_v, de_ctx, det_ctx, p[i]); /* Here we don't check if the packet matched or not, because * the de_ctx can have multiple signatures, and some of them may match * and others may not. That check will be outside */ if (det_ctx != NULL) { DetectEngineThreadCtxDeinit(&th_v, (void *)det_ctx); } end: if (de_ctx != NULL) SigGroupCleanup(de_ctx); return result; } /** * \test Test if a packet match a signature given as string and a mpm_type * Hint: Useful for unittests with only one packet and one signature * * \param sig pointer to the string signature to test * \param sid sid number of the signature * * \retval return 1 if match * \retval return 0 if not */ int UTHPacketMatchSigMpm(Packet *p, char *sig, uint16_t mpm_type) { SCEnter(); int result = 0; DecodeThreadVars dtv; ThreadVars th_v; DetectEngineThreadCtx *det_ctx = NULL; memset(&dtv, 0, sizeof(DecodeThreadVars)); memset(&th_v, 0, sizeof(th_v)); DetectEngineCtx *de_ctx = DetectEngineCtxInit(); if (de_ctx == NULL) { printf("de_ctx == NULL: "); goto end; } de_ctx->flags |= DE_QUIET; de_ctx->mpm_matcher = mpm_type; de_ctx->sig_list = SigInit(de_ctx, sig); if (de_ctx->sig_list == NULL) { printf("signature == NULL: "); goto end; } SigGroupBuild(de_ctx); DetectEngineThreadCtxInit(&th_v, (void *)de_ctx, (void *)&det_ctx); SigMatchSignatures(&th_v, de_ctx, det_ctx, p); if (PacketAlertCheck(p, de_ctx->sig_list->id) != 1) { printf("signature didn't alert: "); goto end; } result = 1; end: SigGroupCleanup(de_ctx); SigCleanSignatures(de_ctx); if (det_ctx != NULL) DetectEngineThreadCtxDeinit(&th_v, (void *)det_ctx); if (de_ctx != NULL) DetectEngineCtxFree(de_ctx); SCReturnInt(result); } /** * \test Test if a packet match a signature given as string * Hint: Useful for unittests with only one packet and one signature * * \param sig pointer to the string signature to test * \param sid sid number of the signature * * \retval return 1 if match * \retval return 0 if not */ int UTHPacketMatchSig(Packet *p, char *sig) { int result = 1; DecodeThreadVars dtv; ThreadVars th_v; DetectEngineThreadCtx *det_ctx = NULL; memset(&dtv, 0, sizeof(DecodeThreadVars)); memset(&th_v, 0, sizeof(th_v)); DetectEngineCtx *de_ctx = DetectEngineCtxInit(); if (de_ctx == NULL) { result=0; goto end; } de_ctx->flags |= DE_QUIET; de_ctx->sig_list = SigInit(de_ctx, sig); if (de_ctx->sig_list == NULL) { result = 0; goto end; } SigGroupBuild(de_ctx); DetectEngineThreadCtxInit(&th_v, (void *)de_ctx, (void *)&det_ctx); SigMatchSignatures(&th_v, de_ctx, det_ctx, p); if (PacketAlertCheck(p, de_ctx->sig_list->id) != 1) { result = 0; goto end; } end: if (de_ctx) { SigGroupCleanup(de_ctx); SigCleanSignatures(de_ctx); } if (det_ctx != NULL) DetectEngineThreadCtxDeinit(&th_v, (void *)det_ctx); if (de_ctx != NULL) DetectEngineCtxFree(de_ctx); return result; } uint32_t UTHBuildPacketOfFlows(uint32_t start, uint32_t end, uint8_t dir) { uint32_t i = start; uint8_t payload[] = "Payload"; for (; i < end; i++) { Packet *p = UTHBuildPacket(payload, sizeof(payload), IPPROTO_TCP); if (dir == 0) { p->src.addr_data32[0] = i; p->dst.addr_data32[0] = i + 1; } else { p->src.addr_data32[0] = i + 1; p->dst.addr_data32[0] = i; } FlowHandlePacket(NULL, NULL, p); if (p->flow != NULL) SC_ATOMIC_RESET(p->flow->use_cnt); /* Now the queues shoul be updated */ UTHFreePacket(p); } return i; } /* * unittests for the unittest helpers */ /** * \brief CheckUTHTestPacket wrapper to check packets for unittests */ int CheckUTHTestPacket(Packet *p, uint8_t ipproto) { uint16_t sport = 41424; uint16_t dport = 80; uint8_t payload[] = "Payload"; uint8_t len = sizeof(payload); if (p == NULL) return 0; if (p->payload_len != len) return 0; if (strncmp((char *)payload, (char *)p->payload, len) != 0) return 0; if (p->src.family != AF_INET) return 0; if (p->dst.family != AF_INET) return 0; if (p->proto != ipproto) return 0; switch(ipproto) { case IPPROTO_UDP: if (p->udph == NULL) return 0; if (p->udph->uh_sport != sport) return 0; if (p->udph->uh_dport != dport) return 0; break; case IPPROTO_TCP: if (p->tcph == NULL) return 0; if (ntohs(p->tcph->th_sport) != sport) return 0; if (ntohs(p->tcph->th_dport) != dport) return 0; break; } return 1; } /** * \brief UTHBuildPacketRealTest01 wrapper to check packets for unittests */ int UTHBuildPacketRealTest01(void) { uint8_t payload[] = "Payload"; Packet *p = UTHBuildPacketReal(payload, sizeof(payload), IPPROTO_TCP, "192.168.1.5", "192.168.1.1", 41424, 80); int ret = CheckUTHTestPacket(p, IPPROTO_TCP); UTHFreePacket(p); return ret; } /** * \brief UTHBuildPacketRealTest02 wrapper to check packets for unittests */ int UTHBuildPacketRealTest02(void) { uint8_t payload[] = "Payload"; Packet *p = UTHBuildPacketReal(payload, sizeof(payload), IPPROTO_UDP, "192.168.1.5", "192.168.1.1", 41424, 80); int ret = CheckUTHTestPacket(p, IPPROTO_UDP); UTHFreePacket(p); return ret; } /** * \brief UTHBuildPacketTest01 wrapper to check packets for unittests */ int UTHBuildPacketTest01(void) { uint8_t payload[] = "Payload"; Packet *p = UTHBuildPacket(payload, sizeof(payload), IPPROTO_TCP); int ret = CheckUTHTestPacket(p, IPPROTO_TCP); UTHFreePacket(p); return ret; } /** * \brief UTHBuildPacketTest02 wrapper to check packets for unittests */ int UTHBuildPacketTest02(void) { uint8_t payload[] = "Payload"; Packet *p = UTHBuildPacket(payload, sizeof(payload), IPPROTO_UDP); int ret = CheckUTHTestPacket(p, IPPROTO_UDP); UTHFreePacket(p); return ret; } /** * \brief UTHBuildPacketOfFlowsTest01 wrapper to check packets for unittests */ int UTHBuildPacketOfFlowsTest01(void) { int result = 0; FlowInitConfig(FLOW_QUIET); uint32_t flow_spare_q_len = flow_spare_q.len; UTHBuildPacketOfFlows(0, 100, 0); if (flow_spare_q.len != flow_spare_q_len - 100) result = 0; else result = 1; FlowShutdown(); return result; } /** * \brief UTHBuildPacketSrcDstTest01 wrapper to check packets for unittests */ int UTHBuildPacketSrcDstTest01(void) { uint8_t payload[] = "Payload"; Packet *p = UTHBuildPacketSrcDst(payload, sizeof(payload), IPPROTO_TCP, "192.168.1.5", "192.168.1.1"); int ret = CheckUTHTestPacket(p, IPPROTO_TCP); UTHFreePacket(p); return ret; } /** * \brief UTHBuildPacketSrcDstTest02 wrapper to check packets for unittests */ int UTHBuildPacketSrcDstTest02(void) { uint8_t payload[] = "Payload"; Packet *p = UTHBuildPacketSrcDst(payload, sizeof(payload), IPPROTO_UDP, "192.168.1.5", "192.168.1.1"); int ret = CheckUTHTestPacket(p, IPPROTO_UDP); UTHFreePacket(p); return ret; } /** * \brief UTHBuildPacketSrcDstPortsTest01 wrapper to check packets for unittests */ int UTHBuildPacketSrcDstPortsTest01(void) { uint8_t payload[] = "Payload"; Packet *p = UTHBuildPacketSrcDstPorts(payload, sizeof(payload), IPPROTO_TCP, 41424, 80); int ret = CheckUTHTestPacket(p, IPPROTO_TCP); UTHFreePacket(p); return ret; } /** * \brief UTHBuildPacketSrcDstPortsTest02 wrapper to check packets for unittests */ int UTHBuildPacketSrcDstPortsTest02(void) { uint8_t payload[] = "Payload"; Packet *p = UTHBuildPacketSrcDstPorts(payload, sizeof(payload), IPPROTO_UDP, 41424, 80); int ret = CheckUTHTestPacket(p, IPPROTO_UDP); UTHFreePacket(p); return ret; } #endif /* UNITTESTS */ void UTHRegisterTests(void) { #ifdef UNITTESTS UtRegisterTest("UTHBuildPacketRealTest01", UTHBuildPacketRealTest01, 1); UtRegisterTest("UTHBuildPacketRealTest02", UTHBuildPacketRealTest02, 1); UtRegisterTest("UTHBuildPacketTest01", UTHBuildPacketTest01, 1); UtRegisterTest("UTHBuildPacketTest02", UTHBuildPacketTest02, 1); UtRegisterTest("UTHBuildPacketSrcDstTest01", UTHBuildPacketSrcDstTest01, 1); UtRegisterTest("UTHBuildPacketSrcDstTest02", UTHBuildPacketSrcDstTest02, 1); UtRegisterTest("UTHBuildPacketSrcDstPortsTest01", UTHBuildPacketSrcDstPortsTest01, 1); UtRegisterTest("UTHBuildPacketSrcDstPortsTest02", UTHBuildPacketSrcDstPortsTest02, 1); UtRegisterTest("UTHBuildPacketOfFlowsTest01", UTHBuildPacketOfFlowsTest01, 1); #endif /* UNITTESTS */ }