/** * Copyright (c) 2009 Open Information Security Foundation * * \file detect-itype.c * \author Gerardo Iglesias * * "itype" keyword support */ #include "eidps-common.h" #include "debug.h" #include "decode.h" #include "detect.h" #include "detect-itype.h" #include "util-byte.h" #include "util-unittest.h" #include "util-debug.h" /** *\brief Regex for parsing our itype options */ #define PARSE_REGEX "^\\s*(<|>)?\\s*([0-9]+)\\s*(?:<>\\s*([0-9]+))?\\s*$" static pcre *parse_regex; static pcre_extra *parse_regex_study; int DetectITypeMatch(ThreadVars *, DetectEngineThreadCtx *, Packet *, Signature *, SigMatch *); int DetectITypeSetup(DetectEngineCtx *, Signature *, SigMatch *, char *); void DetectITypeRegisterTests(void); void DetectITypeFree(void *); /** * \brief Registration function for itype: keyword */ void DetectITypeRegister (void) { sigmatch_table[DETECT_ITYPE].name = "itype"; sigmatch_table[DETECT_ITYPE].Match = DetectITypeMatch; sigmatch_table[DETECT_ITYPE].Setup = DetectITypeSetup; sigmatch_table[DETECT_ITYPE].Free = DetectITypeFree; sigmatch_table[DETECT_ITYPE].RegisterTests = DetectITypeRegisterTests; const char *eb; int eo; int opts = 0; parse_regex = pcre_compile(PARSE_REGEX, opts, &eb, &eo, NULL); if(parse_regex == NULL) { SCLogError(SC_PCRE_COMPILE_FAILED, "pcre compile of \"%s\" failed at offset %" PRId32 ": %s", PARSE_REGEX, eo, eb); goto error; } parse_regex_study = pcre_study(parse_regex, 0, &eb); if(eb != NULL) { SCLogError(SC_PCRE_COMPILE_FAILED, "pcre study failed: %s", eb); goto error; } return; error: return; } /** * \brief This function is used to match itype rule option set on a packet with those passed via itype: * * \param t pointer to thread vars * \param det_ctx pointer to the pattern matcher thread * \param p pointer to the current packet * \param m pointer to the sigmatch that we will cast into DetectITypeData * * \retval 0 no match * \retval 1 match */ int DetectITypeMatch (ThreadVars *t, DetectEngineThreadCtx *det_ctx, Packet *p, Signature *s, SigMatch *m) { int ret = 0; uint8_t pitype; DetectITypeData *itd = (DetectITypeData *)m->ctx; if (PKT_IS_ICMPV4(p)) { pitype = ICMPV4_GET_TYPE(p); } else if (PKT_IS_ICMPV6(p)) { pitype = ICMPV6_GET_TYPE(p); } else { /* Packet not ICMPv4 nor ICMPv6 */ return ret; } switch(itd->mode) { case DETECT_ITYPE_EQ: ret = (pitype == itd->type1) ? 1 : 0; break; case DETECT_ITYPE_LT: ret = (pitype < itd->type1) ? 1 : 0; break; case DETECT_ITYPE_GT: ret = (pitype > itd->type1) ? 1 : 0; break; case DETECT_ITYPE_RN: ret = (pitype > itd->type1 && pitype < itd->type2) ? 1 : 0; break; } return ret; } /** * \brief This function is used to parse itype options passed via itype: keyword * * \param itypestr Pointer to the user provided itype options * * \retval itd pointer to DetectITypeData on success * \retval NULL on failure */ DetectITypeData *DetectITypeParse(char *itypestr) { DetectITypeData *itd = NULL; char *args[3] = {NULL, NULL, NULL}; #define MAX_SUBSTRINGS 30 int ret = 0, res = 0; int ov[MAX_SUBSTRINGS]; ret = pcre_exec(parse_regex, parse_regex_study, itypestr, strlen(itypestr), 0, 0, ov, MAX_SUBSTRINGS); if (ret < 1 || ret > 4) { SCLogError(SC_PCRE_MATCH_FAILED, "DetectITypeParse: parse error"); goto error; } int i; const char *str_ptr; for (i = 1; i < ret; i++) { res = pcre_get_substring((char *)itypestr, ov, MAX_SUBSTRINGS, i, &str_ptr); if (res < 0) { SCLogError(SC_PCRE_GET_SUBSTRING_FAILED, "DetectITypeParse: pcre_get_substring failed"); goto error; } args[i-1] = (char *)str_ptr; } itd = malloc(sizeof(DetectITypeData)); if (itd == NULL) { SCLogError(SC_ERR_MEM_ALLOC, "Error allocating memory"); goto error; } itd->type1 = 0; itd->type2 = 0; itd->mode = 0; /* we have either "<" or ">" */ if (strlen(args[0]) != 0) { /* we have a third part ("<> y"), therefore it's invalid */ if (args[2] != NULL) { SCLogInfo("itype: invalid value"); goto error; } /* we have only a comparison ("<", ">") */ ByteExtractStringUint8(&itd->type1, 10, 0, args[1]); if ((strcmp(args[0], ">")) == 0) itd->mode = DETECT_ITYPE_GT; else itd->mode = DETECT_ITYPE_LT; } else { /* no "<", ">" */ /* we have a range ("<>") */ if (args[2] != NULL) { itd->mode = (uint8_t) DETECT_ITYPE_RN; ByteExtractStringUint8(&itd->type1, 10, 0, args[1]); ByteExtractStringUint8(&itd->type2, 10, 0, args[2]); /* we check that the first given value in the range is less than the second, otherwise we swap them */ if (itd->type1 > itd->type2) { uint8_t temp = itd->type1; itd->type1 = itd->type2; itd->type2 = temp; } } else { /* we have an equality */ itd->mode = DETECT_ITYPE_EQ; ByteExtractStringUint8(&itd->type1, 10, 0, args[1]); } } for (i = 0; i < (ret-1); i++) { if (args[i] != NULL) free(args[i]); } return itd; error: for (i = 0; i < (ret-1); i++) { if (args[i] != NULL) free(args[i]); } if (itd != NULL) DetectITypeFree(itd); return NULL; } /** * \brief this function is used to add the parsed itype data into the current signature * * \param de_ctx pointer to the Detection Engine Context * \param s pointer to the Current Signature * \param m pointer to the Current SigMatch * \param itypestr pointer to the user provided itype options * * \retval 0 on Success * \retval -1 on Failure */ int DetectITypeSetup(DetectEngineCtx *de_ctx, Signature *s, SigMatch *m, char *itypestr) { DetectITypeData *itd = NULL; SigMatch *sm = NULL; itd = DetectITypeParse(itypestr); if (itd == NULL) goto error; sm = SigMatchAlloc(); if (sm == NULL) goto error; sm->type = DETECT_ITYPE; sm->ctx = (void *)itd; SigMatchAppend(s,m,sm); return 0; error: if (itd != NULL) DetectITypeFree(itd); if (sm != NULL) free(sm); return -1; } /** * \brief this function will free memory associated with DetectITypeData * * \param ptr pointer to DetectITypeData */ void DetectITypeFree(void *ptr) { DetectITypeData *itd = (DetectITypeData *)ptr; free(itd); } #ifdef UNITTESTS #include "detect-parse.h" #include "detect-engine.h" #include "detect-engine-mpm.h" /** * \test DetectITypeParseTest01 is a test for setting a valid itype value */ int DetectITypeParseTest01(void) { DetectITypeData *itd = NULL; int result = 0; itd = DetectITypeParse("8"); if (itd != NULL) { if (itd->type1 == 8 && itd->mode == DETECT_ITYPE_EQ) result = 1; DetectITypeFree(itd); } return result; } /** * \test DetectITypeParseTest02 is a test for setting a valid itype value * with ">" operator */ int DetectITypeParseTest02(void) { DetectITypeData *itd = NULL; int result = 0; itd = DetectITypeParse(">8"); if (itd != NULL) { if (itd->type1 == 8 && itd->mode == DETECT_ITYPE_GT) result = 1; DetectITypeFree(itd); } return result; } /** * \test DetectITypeParseTest03 is a test for setting a valid itype value * with "<" operator */ int DetectITypeParseTest03(void) { DetectITypeData *itd = NULL; int result = 0; itd = DetectITypeParse("<8"); if (itd != NULL) { if (itd->type1 == 8 && itd->mode == DETECT_ITYPE_LT) result = 1; DetectITypeFree(itd); } return result; } /** * \test DetectITypeParseTest04 is a test for setting a valid itype value * with "<>" operator */ int DetectITypeParseTest04(void) { DetectITypeData *itd = NULL; int result = 0; itd = DetectITypeParse("8<>20"); if (itd != NULL) { if (itd->type1 == 8 && itd->type2 == 20 && itd->mode == DETECT_ITYPE_RN) result = 1; DetectITypeFree(itd); } return result; } /** * \test DetectITypeParseTest05 is a test for setting a valid itype value * with spaces all around */ int DetectITypeParseTest05(void) { DetectITypeData *itd = NULL; int result = 0; itd = DetectITypeParse(" 8 "); if (itd != NULL) { if (itd->type1 == 8 && itd->mode == DETECT_ITYPE_EQ) result = 1; DetectITypeFree(itd); } return result; } /** * \test DetectITypeParseTest06 is a test for setting a valid itype value * with ">" operator and spaces all around */ int DetectITypeParseTest06(void) { DetectITypeData *itd = NULL; int result = 0; itd = DetectITypeParse(" > 8 "); if (itd != NULL) { if (itd->type1 == 8 && itd->mode == DETECT_ITYPE_GT) result = 1; DetectITypeFree(itd); } return result; } /** * \test DetectITypeParseTest07 is a test for setting a valid itype value * with "<>" operator and spaces all around */ int DetectITypeParseTest07(void) { DetectITypeData *itd = NULL; int result = 0; itd = DetectITypeParse(" 8 <> 20 "); if (itd != NULL) { if (itd->type1 == 8 && itd->type2 == 20 && itd->mode == DETECT_ITYPE_RN) result = 1; DetectITypeFree(itd); } return result; } /** * \test DetectITypeParseTest08 is a test for setting an invalid itype value */ int DetectITypeParseTest08(void) { DetectITypeData *itd = NULL; itd = DetectITypeParse("> 8 <> 20"); if (itd == NULL) return 1; DetectITypeFree(itd); return 0; } /** * \test DetectITypeMatchTest01 is a test for checking the working of itype * keyword by creating 5 rules and matching a crafted packet against * them. 4 out of 5 rules shall trigger. */ int DetectITypeMatchTest01(void) { Packet p; Signature *s = NULL; ThreadVars th_v; DetectEngineThreadCtx *det_ctx; int result = 0; IPV4Hdr ip4h; ICMPV4Hdr icmpv4h; memset(&th_v, 0, sizeof(th_v)); memset(&p, 0, sizeof(p)); memset(&ip4h, 0, sizeof(ip4h)); memset(&icmpv4h, 0, sizeof(icmpv4h)); p.src.family = AF_INET; p.dst.family = AF_INET; p.proto = IPPROTO_ICMP; p.ip4h = &ip4h; icmpv4h.type = 10; p.icmpv4h = &icmpv4h; DetectEngineCtx *de_ctx = DetectEngineCtxInit(); if (de_ctx == NULL) { goto end; } de_ctx->flags |= DE_QUIET; s = de_ctx->sig_list = SigInit(de_ctx,"alert icmp any any -> any any (itype:10; sid:1;)"); if (s == NULL) { goto end; } s = s->next = SigInit(de_ctx,"alert icmp any any -> any any (itype:<15; sid:2;)"); if (s == NULL) { goto end; } s = s->next = SigInit(de_ctx,"alert icmp any any -> any any (itype:>20; sid:3;)"); if (s == NULL) { goto end; } s = s->next = SigInit(de_ctx,"alert icmp any any -> any any (itype:8<>20; sid:4;)"); if (s == NULL) { goto end; } s = s->next = SigInit(de_ctx,"alert icmp any any -> any any (itype:20<>8; sid:5;)"); if (s == 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, 1) == 0) { SCLogDebug("sid 1 did not alert, but should have"); goto cleanup; } else if (PacketAlertCheck(&p, 2) == 0) { SCLogDebug("sid 2 did not alert, but should have"); goto cleanup; } else if (PacketAlertCheck(&p, 3)) { SCLogDebug("sid 3 alerted, but should not have"); goto cleanup; } else if (PacketAlertCheck(&p, 4) == 0) { SCLogDebug("sid 4 did not alert, but should have"); goto cleanup; } else if (PacketAlertCheck(&p, 5) == 0) { SCLogDebug("sid 5 did not alert, but should have"); goto cleanup; } result = 1; cleanup: SigGroupCleanup(de_ctx); SigCleanSignatures(de_ctx); DetectEngineThreadCtxDeinit(&th_v, (void *)det_ctx); DetectEngineCtxFree(de_ctx); end: return result; } #endif /* UNITTESTS */ /** * \brief this function registers unit tests for DetectIType */ void DetectITypeRegisterTests(void) { #ifdef UNITTESTS UtRegisterTest("DetectITypeParseTest01", DetectITypeParseTest01, 1); UtRegisterTest("DetectITypeParseTest02", DetectITypeParseTest02, 1); UtRegisterTest("DetectITypeParseTest03", DetectITypeParseTest03, 1); UtRegisterTest("DetectITypeParseTest04", DetectITypeParseTest04, 1); UtRegisterTest("DetectITypeParseTest05", DetectITypeParseTest05, 1); UtRegisterTest("DetectITypeParseTest06", DetectITypeParseTest06, 1); UtRegisterTest("DetectITypeParseTest07", DetectITypeParseTest07, 1); UtRegisterTest("DetectITypeParseTest08", DetectITypeParseTest08, 1); UtRegisterTest("DetectITypeMatchTest01", DetectITypeMatchTest01, 1); #endif /* UNITTESTS */ }