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suricata/src/detect-flowbits.c

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/* Copyright (C) 2007-2017 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 Victor Julien <victor@inliniac.net>
* \author Breno Silva <breno.silva@gmail.com>
*
* Implements the flowbits keyword
*/
#include "suricata-common.h"
#include "decode.h"
#include "detect.h"
#include "threads.h"
#include "flow.h"
#include "flow-bit.h"
#include "flow-util.h"
#include "detect-flowbits.h"
#include "util-spm.h"
#include "app-layer-parser.h"
#include "detect-parse.h"
#include "detect-engine.h"
#include "detect-engine-mpm.h"
#include "detect-engine-state.h"
#include "util-var-name.h"
#include "util-unittest.h"
#include "util-debug.h"
#define PARSE_REGEX "([a-z]+)(?:,\\s*(.*))?"
static pcre *parse_regex;
static pcre_extra *parse_regex_study;
int DetectFlowbitMatch (ThreadVars *, DetectEngineThreadCtx *, Packet *,
const Signature *, const SigMatchCtx *);
static int DetectFlowbitSetup (DetectEngineCtx *, Signature *, const char *);
void DetectFlowbitFree (void *);
void FlowBitsRegisterTests(void);
void DetectFlowbitsRegister (void)
{
sigmatch_table[DETECT_FLOWBITS].name = "flowbits";
sigmatch_table[DETECT_FLOWBITS].desc = "operate on flow flag";
sigmatch_table[DETECT_FLOWBITS].url = DOC_URL DOC_VERSION "/rules/flow-keywords.html#flowbits";
sigmatch_table[DETECT_FLOWBITS].Match = DetectFlowbitMatch;
sigmatch_table[DETECT_FLOWBITS].Setup = DetectFlowbitSetup;
sigmatch_table[DETECT_FLOWBITS].Free = DetectFlowbitFree;
sigmatch_table[DETECT_FLOWBITS].RegisterTests = FlowBitsRegisterTests;
/* this is compatible to ip-only signatures */
sigmatch_table[DETECT_FLOWBITS].flags |= SIGMATCH_IPONLY_COMPAT;
DetectSetupParseRegexes(PARSE_REGEX, &parse_regex, &parse_regex_study);
}
static int DetectFlowbitMatchToggle (Packet *p, const DetectFlowbitsData *fd)
{
if (p->flow == NULL)
return 0;
FlowBitToggle(p->flow,fd->idx);
return 1;
}
static int DetectFlowbitMatchUnset (Packet *p, const DetectFlowbitsData *fd)
{
if (p->flow == NULL)
return 0;
FlowBitUnset(p->flow,fd->idx);
return 1;
}
static int DetectFlowbitMatchSet (Packet *p, const DetectFlowbitsData *fd)
{
if (p->flow == NULL)
return 0;
FlowBitSet(p->flow,fd->idx);
return 1;
}
static int DetectFlowbitMatchIsset (Packet *p, const DetectFlowbitsData *fd)
{
if (p->flow == NULL)
return 0;
return FlowBitIsset(p->flow,fd->idx);
}
static int DetectFlowbitMatchIsnotset (Packet *p, const DetectFlowbitsData *fd)
{
if (p->flow == NULL)
return 0;
return FlowBitIsnotset(p->flow,fd->idx);
}
/*
* returns 0: no match
* 1: match
* -1: error
*/
int DetectFlowbitMatch (ThreadVars *t, DetectEngineThreadCtx *det_ctx, Packet *p,
const Signature *s, const SigMatchCtx *ctx)
{
const DetectFlowbitsData *fd = (const DetectFlowbitsData *)ctx;
if (fd == NULL)
return 0;
switch (fd->cmd) {
case DETECT_FLOWBITS_CMD_ISSET:
return DetectFlowbitMatchIsset(p,fd);
case DETECT_FLOWBITS_CMD_ISNOTSET:
return DetectFlowbitMatchIsnotset(p,fd);
case DETECT_FLOWBITS_CMD_SET:
return DetectFlowbitMatchSet(p,fd);
case DETECT_FLOWBITS_CMD_UNSET:
return DetectFlowbitMatchUnset(p,fd);
case DETECT_FLOWBITS_CMD_TOGGLE:
return DetectFlowbitMatchToggle(p,fd);
default:
SCLogError(SC_ERR_UNKNOWN_VALUE, "unknown cmd %" PRIu32 "", fd->cmd);
return 0;
}
return 0;
}
static int DetectFlowbitParse(const char *str, char *cmd, int cmd_len, char *name,
int name_len)
{
const int max_substrings = 30;
int count, rc;
int ov[max_substrings];
count = pcre_exec(parse_regex, parse_regex_study, str, strlen(str), 0, 0,
ov, max_substrings);
if (count != 2 && count != 3) {
SCLogError(SC_ERR_PCRE_MATCH,
"\"%s\" is not a valid setting for flowbits.", str);
return 0;
}
rc = pcre_copy_substring((char *)str, ov, max_substrings, 1, cmd, cmd_len);
if (rc < 0) {
SCLogError(SC_ERR_PCRE_GET_SUBSTRING, "pcre_copy_substring failed");
return 0;
}
if (count == 3) {
rc = pcre_copy_substring((char *)str, ov, max_substrings, 2, name,
name_len);
if (rc < 0) {
SCLogError(SC_ERR_PCRE_GET_SUBSTRING, "pcre_copy_substring failed");
return 0;
}
/* Trim trailing whitespace. */
while (strlen(name) > 0 && isblank(name[strlen(name) - 1])) {
name[strlen(name) - 1] = '\0';
}
/* Validate name, spaces are not allowed. */
for (size_t i = 0; i < strlen(name); i++) {
if (isblank(name[i])) {
SCLogError(SC_ERR_INVALID_SIGNATURE,
"spaces not allowed in flowbit names");
return 0;
}
}
}
return 1;
}
int DetectFlowbitSetup (DetectEngineCtx *de_ctx, Signature *s, const char *rawstr)
{
DetectFlowbitsData *cd = NULL;
SigMatch *sm = NULL;
uint8_t fb_cmd = 0;
char fb_cmd_str[16] = "", fb_name[256] = "";
if (!DetectFlowbitParse(rawstr, fb_cmd_str, sizeof(fb_cmd_str), fb_name,
sizeof(fb_name))) {
return -1;
}
if (strcmp(fb_cmd_str,"noalert") == 0) {
fb_cmd = DETECT_FLOWBITS_CMD_NOALERT;
} else if (strcmp(fb_cmd_str,"isset") == 0) {
fb_cmd = DETECT_FLOWBITS_CMD_ISSET;
} else if (strcmp(fb_cmd_str,"isnotset") == 0) {
fb_cmd = DETECT_FLOWBITS_CMD_ISNOTSET;
} else if (strcmp(fb_cmd_str,"set") == 0) {
fb_cmd = DETECT_FLOWBITS_CMD_SET;
} else if (strcmp(fb_cmd_str,"unset") == 0) {
fb_cmd = DETECT_FLOWBITS_CMD_UNSET;
} else if (strcmp(fb_cmd_str,"toggle") == 0) {
fb_cmd = DETECT_FLOWBITS_CMD_TOGGLE;
} else {
SCLogError(SC_ERR_UNKNOWN_VALUE, "ERROR: flowbits action \"%s\" is not supported.", fb_cmd_str);
goto error;
}
switch (fb_cmd) {
case DETECT_FLOWBITS_CMD_NOALERT:
if (strlen(fb_name) != 0)
goto error;
s->flags |= SIG_FLAG_NOALERT;
return 0;
case DETECT_FLOWBITS_CMD_ISNOTSET:
case DETECT_FLOWBITS_CMD_ISSET:
case DETECT_FLOWBITS_CMD_SET:
case DETECT_FLOWBITS_CMD_UNSET:
case DETECT_FLOWBITS_CMD_TOGGLE:
default:
if (strlen(fb_name) == 0)
goto error;
break;
}
cd = SCMalloc(sizeof(DetectFlowbitsData));
if (unlikely(cd == NULL))
goto error;
cd->idx = VarNameStoreSetupAdd(fb_name, VAR_TYPE_FLOW_BIT);
de_ctx->max_fb_id = MAX(cd->idx, de_ctx->max_fb_id);
cd->cmd = fb_cmd;
SCLogDebug("idx %" PRIu32 ", cmd %s, name %s",
cd->idx, fb_cmd_str, strlen(fb_name) ? fb_name : "(none)");
/* Okay so far so good, lets get this into a SigMatch
* and put it in the Signature. */
sm = SigMatchAlloc();
if (sm == NULL)
goto error;
sm->type = DETECT_FLOWBITS;
sm->ctx = (SigMatchCtx *)cd;
switch (fb_cmd) {
/* case DETECT_FLOWBITS_CMD_NOALERT can't happen here */
case DETECT_FLOWBITS_CMD_ISNOTSET:
case DETECT_FLOWBITS_CMD_ISSET:
/* checks, so packet list */
SigMatchAppendSMToList(s, sm, DETECT_SM_LIST_MATCH);
break;
case DETECT_FLOWBITS_CMD_SET:
case DETECT_FLOWBITS_CMD_UNSET:
case DETECT_FLOWBITS_CMD_TOGGLE:
/* modifiers, only run when entire sig has matched */
SigMatchAppendSMToList(s, sm, DETECT_SM_LIST_POSTMATCH);
break;
}
return 0;
error:
if (cd != NULL)
SCFree(cd);
if (sm != NULL)
SCFree(sm);
return -1;
}
void DetectFlowbitFree (void *ptr)
{
DetectFlowbitsData *fd = (DetectFlowbitsData *)ptr;
if (fd == NULL)
return;
SCFree(fd);
}
struct FBAnalyze {
uint16_t cnts[DETECT_FLOWBITS_CMD_MAX];
uint16_t state_cnts[DETECT_FLOWBITS_CMD_MAX];
uint32_t *set_sids;
uint32_t set_sids_idx;
uint32_t set_sids_size;
uint32_t *isset_sids;
uint32_t isset_sids_idx;
uint32_t isset_sids_size;
uint32_t *isnotset_sids;
uint32_t isnotset_sids_idx;
uint32_t isnotset_sids_size;
uint32_t *unset_sids;
uint32_t unset_sids_idx;
uint32_t unset_sids_size;
uint32_t *toggle_sids;
uint32_t toggle_sids_idx;
uint32_t toggle_sids_size;
};
#ifdef PROFILING
#ifdef HAVE_LIBJANSSON
static void DetectFlowbitsAnalyzeDump(const DetectEngineCtx *de_ctx,
struct FBAnalyze *array, uint32_t elements);
#endif
#endif
void DetectFlowbitsAnalyze(DetectEngineCtx *de_ctx)
{
const uint32_t max_fb_id = de_ctx->max_fb_id;
if (max_fb_id == 0)
return;
#define MAX_SIDS 8
uint32_t array_size = max_fb_id + 1;
struct FBAnalyze array[array_size];
memset(&array, 0, array_size * sizeof(struct FBAnalyze));
SCLogDebug("fb analyzer array size: %"PRIu64,
(uint64_t)(array_size * sizeof(struct FBAnalyze)));
/* fill flowbit array, updating counters per sig */
for (uint32_t i = 0; i < de_ctx->sig_array_len; i++) {
const Signature *s = de_ctx->sig_array[i];
bool has_state = false;
/* see if the signature uses stateful matching */
for (uint32_t x = DETECT_SM_LIST_DYNAMIC_START; x < s->init_data->smlists_array_size; x++) {
if (s->init_data->smlists[x] == NULL)
continue;
has_state = true;
break;
}
for (const SigMatch *sm = s->init_data->smlists[DETECT_SM_LIST_MATCH] ; sm != NULL; sm = sm->next) {
switch (sm->type) {
case DETECT_FLOWBITS:
{
/* figure out the flowbit action */
const DetectFlowbitsData *fb = (DetectFlowbitsData *)sm->ctx;
array[fb->idx].cnts[fb->cmd]++;
if (has_state)
array[fb->idx].state_cnts[fb->cmd]++;
if (fb->cmd == DETECT_FLOWBITS_CMD_ISSET) {
if (array[fb->idx].isset_sids_idx >= array[fb->idx].isset_sids_size) {
uint32_t old_size = array[fb->idx].isset_sids_size;
uint32_t new_size = MAX(2 * old_size, MAX_SIDS);
void *ptr = SCRealloc(array[fb->idx].isset_sids, new_size * sizeof(uint32_t));
if (ptr == NULL)
goto end;
array[fb->idx].isset_sids_size = new_size;
array[fb->idx].isset_sids = ptr;
}
array[fb->idx].isset_sids[array[fb->idx].isset_sids_idx] = s->num;
array[fb->idx].isset_sids_idx++;
} else if (fb->cmd == DETECT_FLOWBITS_CMD_ISNOTSET){
if (array[fb->idx].isnotset_sids_idx >= array[fb->idx].isnotset_sids_size) {
uint32_t old_size = array[fb->idx].isnotset_sids_size;
uint32_t new_size = MAX(2 * old_size, MAX_SIDS);
void *ptr = SCRealloc(array[fb->idx].isnotset_sids, new_size * sizeof(uint32_t));
if (ptr == NULL)
goto end;
array[fb->idx].isnotset_sids_size = new_size;
array[fb->idx].isnotset_sids = ptr;
}
array[fb->idx].isnotset_sids[array[fb->idx].isnotset_sids_idx] = s->num;
array[fb->idx].isnotset_sids_idx++;
}
}
}
}
for (const SigMatch *sm = s->init_data->smlists[DETECT_SM_LIST_POSTMATCH] ; sm != NULL; sm = sm->next) {
switch (sm->type) {
case DETECT_FLOWBITS:
{
/* figure out what flowbit action */
const DetectFlowbitsData *fb = (DetectFlowbitsData *)sm->ctx;
array[fb->idx].cnts[fb->cmd]++;
if (has_state)
array[fb->idx].state_cnts[fb->cmd]++;
if (fb->cmd == DETECT_FLOWBITS_CMD_SET) {
if (array[fb->idx].set_sids_idx >= array[fb->idx].set_sids_size) {
uint32_t old_size = array[fb->idx].set_sids_size;
uint32_t new_size = MAX(2 * old_size, MAX_SIDS);
void *ptr = SCRealloc(array[fb->idx].set_sids, new_size * sizeof(uint32_t));
if (ptr == NULL)
goto end;
array[fb->idx].set_sids_size = new_size;
array[fb->idx].set_sids = ptr;
}
array[fb->idx].set_sids[array[fb->idx].set_sids_idx] = s->num;
array[fb->idx].set_sids_idx++;
}
else if (fb->cmd == DETECT_FLOWBITS_CMD_UNSET) {
if (array[fb->idx].unset_sids_idx >= array[fb->idx].unset_sids_size) {
uint32_t old_size = array[fb->idx].unset_sids_size;
uint32_t new_size = MAX(2 * old_size, MAX_SIDS);
void *ptr = SCRealloc(array[fb->idx].unset_sids, new_size * sizeof(uint32_t));
if (ptr == NULL)
goto end;
array[fb->idx].unset_sids_size = new_size;
array[fb->idx].unset_sids = ptr;
}
array[fb->idx].unset_sids[array[fb->idx].unset_sids_idx] = s->num;
array[fb->idx].unset_sids_idx++;
}
else if (fb->cmd == DETECT_FLOWBITS_CMD_TOGGLE) {
if (array[fb->idx].toggle_sids_idx >= array[fb->idx].toggle_sids_size) {
uint32_t old_size = array[fb->idx].toggle_sids_size;
uint32_t new_size = MAX(2 * old_size, MAX_SIDS);
void *ptr = SCRealloc(array[fb->idx].toggle_sids, new_size * sizeof(uint32_t));
if (ptr == NULL)
goto end;
array[fb->idx].toggle_sids_size = new_size;
array[fb->idx].toggle_sids = ptr;
}
array[fb->idx].toggle_sids[array[fb->idx].toggle_sids_idx] = s->num;
array[fb->idx].toggle_sids_idx++;
}
}
}
}
}
/* walk array to see if all bits make sense */
for (uint32_t i = 0; i < array_size; i++) {
char *varname = VarNameStoreSetupLookup(i, VAR_TYPE_FLOW_BIT);
if (varname == NULL)
continue;
bool to_state = false;
if (array[i].cnts[DETECT_FLOWBITS_CMD_ISSET] &&
array[i].cnts[DETECT_FLOWBITS_CMD_TOGGLE] == 0 &&
array[i].cnts[DETECT_FLOWBITS_CMD_SET] == 0) {
const Signature *s = de_ctx->sig_array[array[i].isset_sids[0]];
SCLogWarning(SC_WARN_FLOWBIT, "flowbit '%s' is checked but not "
"set. Checked in %u and %u other sigs",
varname, s->id, array[i].isset_sids_idx - 1);
}
if (array[i].state_cnts[DETECT_FLOWBITS_CMD_ISSET] &&
array[i].state_cnts[DETECT_FLOWBITS_CMD_SET] == 0)
{
SCLogDebug("flowbit %s/%u: isset in state, set not in state", varname, i);
}
/* if signature depends on 'stateful' flowbits, then turn the
* sig into a stateful sig itself */
if (array[i].cnts[DETECT_FLOWBITS_CMD_ISSET] > 0 &&
array[i].state_cnts[DETECT_FLOWBITS_CMD_ISSET] == 0 &&
array[i].state_cnts[DETECT_FLOWBITS_CMD_SET])
{
SCLogDebug("flowbit %s/%u: isset not in state, set in state", varname, i);
to_state = true;
}
SCLogDebug("ALL flowbit %s/%u: sets %u toggles %u unsets %u isnotsets %u issets %u", varname, i,
array[i].cnts[DETECT_FLOWBITS_CMD_SET], array[i].cnts[DETECT_FLOWBITS_CMD_TOGGLE],
array[i].cnts[DETECT_FLOWBITS_CMD_UNSET], array[i].cnts[DETECT_FLOWBITS_CMD_ISNOTSET],
array[i].cnts[DETECT_FLOWBITS_CMD_ISSET]);
SCLogDebug("STATE flowbit %s/%u: sets %u toggles %u unsets %u isnotsets %u issets %u", varname, i,
array[i].state_cnts[DETECT_FLOWBITS_CMD_SET], array[i].state_cnts[DETECT_FLOWBITS_CMD_TOGGLE],
array[i].state_cnts[DETECT_FLOWBITS_CMD_UNSET], array[i].state_cnts[DETECT_FLOWBITS_CMD_ISNOTSET],
array[i].state_cnts[DETECT_FLOWBITS_CMD_ISSET]);
for (uint32_t x = 0; x < array[i].set_sids_idx; x++) {
SCLogDebug("SET flowbit %s/%u: SID %u", varname, i,
de_ctx->sig_array[array[i].set_sids[x]]->id);
}
for (uint32_t x = 0; x < array[i].isset_sids_idx; x++) {
Signature *s = de_ctx->sig_array[array[i].isset_sids[x]];
SCLogDebug("GET flowbit %s/%u: SID %u", varname, i, s->id);
if (to_state) {
s->flags |= SIG_FLAG_STATE_MATCH;
SCLogDebug("made SID %u stateful because it depends on "
"stateful rules that set flowbit %s", s->id, varname);
}
}
SCFree(varname);
}
#ifdef PROFILING
#ifdef HAVE_LIBJANSSON
DetectFlowbitsAnalyzeDump(de_ctx, array, array_size);
#endif
#endif
end:
for (uint32_t i = 0; i < array_size; i++) {
SCFree(array[i].set_sids);
SCFree(array[i].unset_sids);
SCFree(array[i].isset_sids);
SCFree(array[i].isnotset_sids);
SCFree(array[i].toggle_sids);
}
}
#ifdef PROFILING
#ifdef HAVE_LIBJANSSON
#include "output-json.h"
#include "util-buffer.h"
SCMutex g_flowbits_dump_write_m = SCMUTEX_INITIALIZER;
static void DetectFlowbitsAnalyzeDump(const DetectEngineCtx *de_ctx,
struct FBAnalyze *array, uint32_t elements)
{
json_t *js = json_object();
if (js == NULL)
return;
json_t *js_array = json_array();
uint32_t x;
for (x = 0; x < elements; x++)
{
char *varname = VarNameStoreSetupLookup(x, VAR_TYPE_FLOW_BIT);
if (varname == NULL)
continue;
const struct FBAnalyze *e = &array[x];
json_t *js_fb = json_object();
if (unlikely(js_fb != NULL)) {
json_object_set_new(js_fb, "name", json_string(varname));
json_object_set_new(js_fb, "internal_id", json_integer(x));
json_object_set_new(js_fb, "set_cnt", json_integer(e->cnts[DETECT_FLOWBITS_CMD_SET]));
json_object_set_new(js_fb, "unset_cnt", json_integer(e->cnts[DETECT_FLOWBITS_CMD_UNSET]));
json_object_set_new(js_fb, "toggle_cnt", json_integer(e->cnts[DETECT_FLOWBITS_CMD_TOGGLE]));
json_object_set_new(js_fb, "isset_cnt", json_integer(e->cnts[DETECT_FLOWBITS_CMD_ISSET]));
json_object_set_new(js_fb, "isnotset_cnt", json_integer(e->cnts[DETECT_FLOWBITS_CMD_ISNOTSET]));
// sets
if (e->cnts[DETECT_FLOWBITS_CMD_SET]) {
json_t *js_set_array = json_array();
if (js_set_array) {
for(uint32_t i = 0; i < e->set_sids_idx; i++) {
const Signature *s = de_ctx->sig_array[e->set_sids[i]];
json_array_append_new(js_set_array, json_integer(s->id));
}
json_object_set_new(js_fb, "sets", js_set_array);
}
}
// gets
if (e->cnts[DETECT_FLOWBITS_CMD_ISSET]) {
json_t *js_isset_array = json_array();
if (js_isset_array) {
for(uint32_t i = 0; i < e->isset_sids_idx; i++) {
const Signature *s = de_ctx->sig_array[e->isset_sids[i]];
json_array_append_new(js_isset_array, json_integer(s->id));
}
json_object_set_new(js_fb, "isset", js_isset_array);
}
}
// isnotset
if (e->cnts[DETECT_FLOWBITS_CMD_ISNOTSET]) {
json_t *js_isnotset_array = json_array();
if (js_isnotset_array) {
for(uint32_t i = 0; i < e->isnotset_sids_idx; i++) {
const Signature *s = de_ctx->sig_array[e->isnotset_sids[i]];
json_array_append_new(js_isnotset_array, json_integer(s->id));
}
json_object_set_new(js_fb, "isnotset", js_isnotset_array);
}
}
// unset
if (e->cnts[DETECT_FLOWBITS_CMD_UNSET]) {
json_t *js_unset_array = json_array();
if (js_unset_array) {
for(uint32_t i = 0; i < e->unset_sids_idx; i++) {
const Signature *s = de_ctx->sig_array[e->unset_sids[i]];
json_array_append_new(js_unset_array, json_integer(s->id));
}
json_object_set_new(js_fb, "unset", js_unset_array);
}
}
// toggle
if (e->cnts[DETECT_FLOWBITS_CMD_TOGGLE]) {
json_t *js_toggle_array = json_array();
if (js_toggle_array) {
for(uint32_t i = 0; i < e->toggle_sids_idx; i++) {
const Signature *s = de_ctx->sig_array[e->toggle_sids[i]];
json_array_append_new(js_toggle_array, json_integer(s->id));
}
json_object_set_new(js_fb, "toggle", js_toggle_array);
}
}
json_array_append_new(js_array, js_fb);
}
SCFree(varname);
}
json_object_set_new(js, "flowbits", js_array);
const char *filename = "flowbits.json";
const char *log_dir = ConfigGetLogDirectory();
char log_path[PATH_MAX] = "";
snprintf(log_path, sizeof(log_path), "%s/%s", log_dir, filename);
MemBuffer *mbuf = NULL;
mbuf = MemBufferCreateNew(4096);
BUG_ON(mbuf == NULL);
OutputJSONMemBufferWrapper wrapper = {
.buffer = &mbuf,
.expand_by = 4096,
};
int r = json_dump_callback(js, OutputJSONMemBufferCallback, &wrapper,
JSON_PRESERVE_ORDER|JSON_COMPACT|JSON_ENSURE_ASCII|
JSON_ESCAPE_SLASH);
if (r != 0) {
SCLogWarning(SC_ERR_SOCKET, "unable to serialize JSON object");
} else {
MemBufferWriteString(mbuf, "\n");
SCMutexLock(&g_flowbits_dump_write_m);
FILE *fp = fopen(log_path, "w");
if (fp != NULL) {
MemBufferPrintToFPAsString(mbuf, fp);
fclose(fp);
}
SCMutexUnlock(&g_flowbits_dump_write_m);
}
MemBufferFree(mbuf);
json_object_clear(js);
json_decref(js);
}
#endif /* HAVE_LIBJANSSON */
#endif /* PROFILING */
#ifdef UNITTESTS
static int FlowBitsTestParse01(void)
{
char command[16] = "", name[16] = "";
/* Single argument version. */
FAIL_IF(!DetectFlowbitParse("noalert", command, sizeof(command), name,
sizeof(name)));
FAIL_IF(strcmp(command, "noalert") != 0);
/* No leading or trailing spaces. */
FAIL_IF(!DetectFlowbitParse("set,flowbit", command, sizeof(command), name,
sizeof(name)));
FAIL_IF(strcmp(command, "set") != 0);
FAIL_IF(strcmp(name, "flowbit") != 0);
/* Leading space. */
FAIL_IF(!DetectFlowbitParse("set, flowbit", command, sizeof(command), name,
sizeof(name)));
FAIL_IF(strcmp(command, "set") != 0);
FAIL_IF(strcmp(name, "flowbit") != 0);
/* Trailing space. */
FAIL_IF(!DetectFlowbitParse("set,flowbit ", command, sizeof(command), name,
sizeof(name)));
FAIL_IF(strcmp(command, "set") != 0);
FAIL_IF(strcmp(name, "flowbit") != 0);
/* Leading and trailing space. */
FAIL_IF(!DetectFlowbitParse("set, flowbit ", command, sizeof(command), name,
sizeof(name)));
FAIL_IF(strcmp(command, "set") != 0);
FAIL_IF(strcmp(name, "flowbit") != 0);
/* Spaces are not allowed in the name. */
FAIL_IF(DetectFlowbitParse("set,namewith space", command, sizeof(command),
name, sizeof(name)));
PASS;
}
/**
* \test FlowBitsTestSig01 is a test for a valid noalert flowbits option
*
* \retval 1 on succces
* \retval 0 on failure
*/
static int FlowBitsTestSig01(void)
{
Signature *s = NULL;
DetectEngineCtx *de_ctx = NULL;
de_ctx = DetectEngineCtxInit();
FAIL_IF_NULL(de_ctx);
de_ctx->flags |= DE_QUIET;
s = de_ctx->sig_list = SigInit(de_ctx,"alert ip any any -> any any (msg:\"Noalert\"; flowbits:noalert,wrongusage; content:\"GET \"; sid:1;)");
FAIL_IF_NOT_NULL(s);
SigGroupBuild(de_ctx);
DetectEngineCtxFree(de_ctx);
PASS;
}
/**
* \test FlowBitsTestSig02 is a test for a valid isset,set,isnotset,unset,toggle flowbits options
*
* \retval 1 on succces
* \retval 0 on failure
*/
static int FlowBitsTestSig02(void)
{
Signature *s = NULL;
ThreadVars th_v;
DetectEngineCtx *de_ctx = NULL;
memset(&th_v, 0, sizeof(th_v));
de_ctx = DetectEngineCtxInit();
FAIL_IF_NULL(de_ctx);
de_ctx->flags |= DE_QUIET;
s = de_ctx->sig_list = SigInit(de_ctx,"alert ip any any -> any any (msg:\"isset rule need an option\"; flowbits:isset; content:\"GET \"; sid:1;)");
FAIL_IF_NOT_NULL(s);
s = de_ctx->sig_list = SigInit(de_ctx,"alert ip any any -> any any (msg:\"isnotset rule need an option\"; flowbits:isnotset; content:\"GET \"; sid:2;)");
FAIL_IF_NOT_NULL(s);
s = de_ctx->sig_list = SigInit(de_ctx,"alert ip any any -> any any (msg:\"set rule need an option\"; flowbits:set; content:\"GET \"; sid:3;)");
FAIL_IF_NOT_NULL(s);
s = de_ctx->sig_list = SigInit(de_ctx,"alert ip any any -> any any (msg:\"unset rule need an option\"; flowbits:unset; content:\"GET \"; sid:4;)");
FAIL_IF_NOT_NULL(s);
s = de_ctx->sig_list = SigInit(de_ctx,"alert ip any any -> any any (msg:\"toggle rule need an option\"; flowbits:toggle; content:\"GET \"; sid:5;)");
FAIL_IF_NOT_NULL(s);
SigGroupBuild(de_ctx);
DetectEngineCtxFree(de_ctx);
PASS;
}
/**
* \test FlowBitsTestSig03 is a test for a invalid flowbits option
*
* \retval 1 on succces
* \retval 0 on failure
*/
static int FlowBitsTestSig03(void)
{
Signature *s = NULL;
DetectEngineCtx *de_ctx = NULL;
de_ctx = DetectEngineCtxInit();
FAIL_IF_NULL(de_ctx);
de_ctx->flags |= DE_QUIET;
s = de_ctx->sig_list = SigInit(de_ctx,"alert ip any any -> any any (msg:\"Unknown cmd\"; flowbits:wrongcmd; content:\"GET \"; sid:1;)");
FAIL_IF_NOT_NULL(s);
SigGroupBuild(de_ctx);
DetectEngineCtxFree(de_ctx);
PASS;
}
/**
* \test FlowBitsTestSig04 is a test check idx value
*
* \retval 1 on succces
* \retval 0 on failure
*/
static int FlowBitsTestSig04(void)
{
Signature *s = NULL;
DetectEngineCtx *de_ctx = NULL;
int idx = 0;
de_ctx = DetectEngineCtxInit();
FAIL_IF_NULL(de_ctx);
de_ctx->flags |= DE_QUIET;
s = de_ctx->sig_list = SigInit(de_ctx,"alert ip any any -> any any (msg:\"isset option\"; flowbits:isset,fbt; content:\"GET \"; sid:1;)");
FAIL_IF_NULL(s);
idx = VarNameStoreSetupAdd("fbt", VAR_TYPE_FLOW_BIT);
FAIL_IF(idx != 1);
SigGroupBuild(de_ctx);
DetectEngineCtxFree(de_ctx);
PASS;
}
/**
* \test FlowBitsTestSig05 is a test check noalert flag
*
* \retval 1 on succces
* \retval 0 on failure
*/
static int FlowBitsTestSig05(void)
{
Signature *s = NULL;
DetectEngineCtx *de_ctx = NULL;
de_ctx = DetectEngineCtxInit();
FAIL_IF_NULL(de_ctx);
de_ctx->flags |= DE_QUIET;
s = de_ctx->sig_list = SigInit(de_ctx,"alert ip any any -> any any (msg:\"Noalert\"; flowbits:noalert; content:\"GET \"; sid:1;)");
FAIL_IF_NULL(s);
FAIL_IF((s->flags & SIG_FLAG_NOALERT) != SIG_FLAG_NOALERT);
SigGroupBuild(de_ctx);
DetectEngineCtxFree(de_ctx);
PASS;
}
/**
* \test FlowBitsTestSig06 is a test set flowbits option
*
* \retval 1 on succces
* \retval 0 on failure
*/
static int FlowBitsTestSig06(void)
{
uint8_t *buf = (uint8_t *)
"GET /one/ HTTP/1.1\r\n"
"Host: one.example.org\r\n"
"\r\n";
uint16_t buflen = strlen((char *)buf);
Packet *p = SCMalloc(SIZE_OF_PACKET);
FAIL_IF_NULL(p);
Signature *s = NULL;
ThreadVars th_v;
DetectEngineThreadCtx *det_ctx = NULL;
DetectEngineCtx *de_ctx = NULL;
Flow f;
GenericVar flowvar, *gv = NULL;
int result = 0;
uint32_t idx = 0;
memset(p, 0, SIZE_OF_PACKET);
memset(&th_v, 0, sizeof(th_v));
memset(&f, 0, sizeof(Flow));
memset(&flowvar, 0, sizeof(GenericVar));
FLOW_INITIALIZE(&f);
p->flow = &f;
p->flow->flowvar = &flowvar;
p->src.family = AF_INET;
p->dst.family = AF_INET;
p->payload = buf;
p->payload_len = buflen;
p->proto = IPPROTO_TCP;
p->flags |= PKT_HAS_FLOW;
p->flowflags |= FLOW_PKT_TOSERVER;
de_ctx = DetectEngineCtxInit();
FAIL_IF_NULL(de_ctx);
de_ctx->flags |= DE_QUIET;
s = de_ctx->sig_list = SigInit(de_ctx,"alert ip any any -> any any (msg:\"Flowbit set\"; flowbits:set,myflow; sid:10;)");
FAIL_IF_NULL(s);
idx = VarNameStoreSetupAdd("myflow", VAR_TYPE_FLOW_BIT);
SigGroupBuild(de_ctx);
DetectEngineThreadCtxInit(&th_v, (void *)de_ctx, (void *)&det_ctx);
SigMatchSignatures(&th_v, de_ctx, det_ctx, p);
gv = p->flow->flowvar;
FAIL_IF_NULL(gv);
for ( ; gv != NULL; gv = gv->next) {
if (gv->type == DETECT_FLOWBITS && gv->idx == idx) {
result = 1;
}
}
FAIL_IF_NOT(result);
DetectEngineThreadCtxDeinit(&th_v, (void *)det_ctx);
DetectEngineCtxFree(de_ctx);
FLOW_DESTROY(&f);
SCFree(p);
PASS;
}
/**
* \test FlowBitsTestSig07 is a test unset flowbits option
*
* \retval 1 on succces
* \retval 0 on failure
*/
static int FlowBitsTestSig07(void)
{
uint8_t *buf = (uint8_t *)
"GET /one/ HTTP/1.1\r\n"
"Host: one.example.org\r\n"
"\r\n";
uint16_t buflen = strlen((char *)buf);
Packet *p = SCMalloc(SIZE_OF_PACKET);
FAIL_IF_NULL(p);
Signature *s = NULL;
ThreadVars th_v;
DetectEngineThreadCtx *det_ctx = NULL;
DetectEngineCtx *de_ctx = NULL;
Flow f;
GenericVar flowvar, *gv = NULL;
int result = 0;
uint32_t idx = 0;
memset(p, 0, SIZE_OF_PACKET);
memset(&th_v, 0, sizeof(th_v));
memset(&f, 0, sizeof(Flow));
memset(&flowvar, 0, sizeof(GenericVar));
FLOW_INITIALIZE(&f);
p->flow = &f;
p->flow->flowvar = &flowvar;
p->src.family = AF_INET;
p->dst.family = AF_INET;
p->payload = buf;
p->payload_len = buflen;
p->proto = IPPROTO_TCP;
de_ctx = DetectEngineCtxInit();
FAIL_IF_NULL(de_ctx);
de_ctx->flags |= DE_QUIET;
s = de_ctx->sig_list = SigInit(de_ctx,"alert ip any any -> any any (msg:\"Flowbit set\"; flowbits:set,myflow2; sid:10;)");
FAIL_IF_NULL(s);
s = s->next = SigInit(de_ctx,"alert ip any any -> any any (msg:\"Flowbit unset\"; flowbits:unset,myflow2; sid:11;)");
FAIL_IF_NULL(s);
idx = VarNameStoreSetupAdd("myflow", VAR_TYPE_FLOW_BIT);
SigGroupBuild(de_ctx);
DetectEngineThreadCtxInit(&th_v, (void *)de_ctx, (void *)&det_ctx);
SigMatchSignatures(&th_v, de_ctx, det_ctx, p);
gv = p->flow->flowvar;
FAIL_IF_NULL(gv);
for ( ; gv != NULL; gv = gv->next) {
if (gv->type == DETECT_FLOWBITS && gv->idx == idx) {
result = 1;
}
}
FAIL_IF(result);
DetectEngineThreadCtxDeinit(&th_v, (void *)det_ctx);
DetectEngineCtxFree(de_ctx);
FLOW_DESTROY(&f);
SCFree(p);
PASS;
}
/**
* \test FlowBitsTestSig08 is a test toogle flowbits option
*
* \retval 1 on succces
* \retval 0 on failure
*/
static int FlowBitsTestSig08(void)
{
uint8_t *buf = (uint8_t *)
"GET /one/ HTTP/1.1\r\n"
"Host: one.example.org\r\n"
"\r\n";
uint16_t buflen = strlen((char *)buf);
Packet *p = SCMalloc(SIZE_OF_PACKET);
if (unlikely(p == NULL))
return 0;
Signature *s = NULL;
ThreadVars th_v;
DetectEngineThreadCtx *det_ctx = NULL;
DetectEngineCtx *de_ctx = NULL;
Flow f;
GenericVar flowvar, *gv = NULL;
int result = 0;
uint32_t idx = 0;
memset(p, 0, SIZE_OF_PACKET);
memset(&th_v, 0, sizeof(th_v));
memset(&f, 0, sizeof(Flow));
memset(&flowvar, 0, sizeof(GenericVar));
FLOW_INITIALIZE(&f);
p->flow = &f;
p->flow->flowvar = &flowvar;
p->src.family = AF_INET;
p->dst.family = AF_INET;
p->payload = buf;
p->payload_len = buflen;
p->proto = IPPROTO_TCP;
de_ctx = DetectEngineCtxInit();
FAIL_IF_NULL(de_ctx);
de_ctx->flags |= DE_QUIET;
s = de_ctx->sig_list = SigInit(de_ctx,"alert ip any any -> any any (msg:\"Flowbit set\"; flowbits:set,myflow2; sid:10;)");
FAIL_IF_NULL(s);
s = s->next = SigInit(de_ctx,"alert ip any any -> any any (msg:\"Flowbit unset\"; flowbits:toggle,myflow2; sid:11;)");
FAIL_IF_NULL(s);
idx = VarNameStoreSetupAdd("myflow", VAR_TYPE_FLOW_BIT);
SigGroupBuild(de_ctx);
DetectEngineThreadCtxInit(&th_v, (void *)de_ctx, (void *)&det_ctx);
SigMatchSignatures(&th_v, de_ctx, det_ctx, p);
gv = p->flow->flowvar;
FAIL_IF_NULL(gv);
for ( ; gv != NULL; gv = gv->next) {
if (gv->type == DETECT_FLOWBITS && gv->idx == idx) {
result = 1;
}
}
FAIL_IF(result);
DetectEngineThreadCtxDeinit(&th_v, (void *)det_ctx);
DetectEngineCtxFree(de_ctx);
FLOW_DESTROY(&f);
SCFree(p);
PASS;
}
#endif /* UNITTESTS */
/**
* \brief this function registers unit tests for FlowBits
*/
void FlowBitsRegisterTests(void)
{
#ifdef UNITTESTS
UtRegisterTest("FlowBitsTestParse01", FlowBitsTestParse01);
UtRegisterTest("FlowBitsTestSig01", FlowBitsTestSig01);
UtRegisterTest("FlowBitsTestSig02", FlowBitsTestSig02);
UtRegisterTest("FlowBitsTestSig03", FlowBitsTestSig03);
UtRegisterTest("FlowBitsTestSig04", FlowBitsTestSig04);
UtRegisterTest("FlowBitsTestSig05", FlowBitsTestSig05);
UtRegisterTest("FlowBitsTestSig06", FlowBitsTestSig06);
UtRegisterTest("FlowBitsTestSig07", FlowBitsTestSig07);
UtRegisterTest("FlowBitsTestSig08", FlowBitsTestSig08);
#endif /* UNITTESTS */
}
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