/* * honggfuzz - file operations * ----------------------------------------- * * Author: Robert Swiecki * * Copyright 2010-2020 by Google Inc. All Rights Reserved. * * Licensed under the Apache License, Version 2.0 (the "License"); you may * not use this file except in compliance with the License. You may obtain * a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or * implied. See the License for the specific language governing * permissions and limitations under the License. * */ #include "input.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include "fuzz.h" #include "libhfcommon/common.h" #include "libhfcommon/files.h" #include "libhfcommon/log.h" #include "libhfcommon/util.h" #include "mangle.h" #include "subproc.h" void input_setSize(run_t* run, size_t sz) { if (run->dynfile->size == sz) { return; } if (sz > run->global->mutate.maxInputSz) { PLOG_F("Too large size requested: %zu > maxSize: %zu", sz, run->global->mutate.maxInputSz); } /* ftruncate of a mmaped file fails under CygWin, it's also painfully slow under MacOS X */ #if !defined(__CYGWIN__) && !defined(_HF_ARCH_DARWIN) if (TEMP_FAILURE_RETRY(ftruncate(run->dynfile->fd, sz)) == -1) { PLOG_W("ftruncate(run->dynfile->fd=%d, sz=%zu)", run->dynfile->fd, sz); } #endif /* !defined(__CYGWIN__) && !defined(_HF_ARCH_DARWIN) */ run->dynfile->size = sz; } bool input_getDirStatsAndRewind(honggfuzz_t* hfuzz) { rewinddir(hfuzz->io.inputDirPtr); size_t fileCnt = 0U; for (;;) { errno = 0; struct dirent* entry = readdir(hfuzz->io.inputDirPtr); if (entry == NULL && errno == EINTR) { continue; } if (entry == NULL && errno != 0) { PLOG_W("readdir('%s')", hfuzz->io.inputDir); return false; } if (entry == NULL) { break; } char path[PATH_MAX]; snprintf(path, sizeof(path), "%s/%s", hfuzz->io.inputDir, entry->d_name); LOG_D("Analyzing file '%s'", path); struct stat st; if (stat(path, &st) == -1) { LOG_W("Couldn't stat() the '%s' file", path); continue; } if (!S_ISREG(st.st_mode)) { LOG_D("'%s' is not a regular file, skipping", path); continue; } if (hfuzz->io.maxFileSz && st.st_size > (off_t)hfuzz->io.maxFileSz) { LOG_D("File '%s' is bigger than maximal defined file size (-F): %" PRIu64 " > %zu", path, (uint64_t)st.st_size, hfuzz->io.maxFileSz); } if ((size_t)st.st_size > hfuzz->mutate.maxInputSz) { hfuzz->mutate.maxInputSz = st.st_size; } fileCnt++; } ATOMIC_SET(hfuzz->io.fileCnt, fileCnt); if (hfuzz->io.maxFileSz) { hfuzz->mutate.maxInputSz = hfuzz->io.maxFileSz; } else if (hfuzz->mutate.maxInputSz < _HF_INPUT_DEFAULT_SIZE) { hfuzz->mutate.maxInputSz = _HF_INPUT_DEFAULT_SIZE; } else if (hfuzz->mutate.maxInputSz > _HF_INPUT_MAX_SIZE) { hfuzz->mutate.maxInputSz = _HF_INPUT_MAX_SIZE; } if (hfuzz->io.fileCnt == 0U) { LOG_W("No usable files in the input directory '%s'", hfuzz->io.inputDir); } LOG_D("Analyzed '%s' directory: maxInputSz:%zu, number of usable files:%zu", hfuzz->io.inputDir, hfuzz->mutate.maxInputSz, hfuzz->io.fileCnt); rewinddir(hfuzz->io.inputDirPtr); return true; } bool input_getNext(run_t* run, char fname[PATH_MAX], bool rewind) { MX_SCOPED_LOCK(&run->global->mutex.input); if (run->global->io.fileCnt == 0U) { LOG_W("No useful files in the input directory"); return false; } for (;;) { errno = 0; struct dirent* entry = readdir(run->global->io.inputDirPtr); if (entry == NULL && errno == EINTR) { continue; } if (entry == NULL && errno != 0) { PLOG_W("readdir_r('%s')", run->global->io.inputDir); return false; } if (entry == NULL && !rewind) { return false; } if (entry == NULL && rewind) { rewinddir(run->global->io.inputDirPtr); continue; } char path[PATH_MAX]; snprintf(path, PATH_MAX, "%s/%s", run->global->io.inputDir, entry->d_name); struct stat st; if (stat(path, &st) == -1) { LOG_W("Couldn't stat() the '%s' file", path); continue; } if (!S_ISREG(st.st_mode)) { LOG_D("'%s' is not a regular file, skipping", path); continue; } snprintf(fname, PATH_MAX, "%s", entry->d_name); return true; } } bool input_init(honggfuzz_t* hfuzz) { hfuzz->io.fileCnt = 0U; if (!hfuzz->io.inputDir) { LOG_W("No input file/dir specified"); return false; } int dir_fd = TEMP_FAILURE_RETRY(open(hfuzz->io.inputDir, O_DIRECTORY | O_RDONLY | O_CLOEXEC)); if (dir_fd == -1) { PLOG_W("open('%s', O_DIRECTORY|O_RDONLY|O_CLOEXEC)", hfuzz->io.inputDir); return false; } if ((hfuzz->io.inputDirPtr = fdopendir(dir_fd)) == NULL) { PLOG_W("fdopendir(dir='%s', fd=%d)", hfuzz->io.inputDir, dir_fd); close(dir_fd); return false; } if (!input_getDirStatsAndRewind(hfuzz)) { hfuzz->io.fileCnt = 0U; LOG_W("input_getDirStatsAndRewind('%s')", hfuzz->io.inputDir); return false; } return true; } bool input_parseDictionary(honggfuzz_t* hfuzz) { LOG_I("Parsing dictionary file '%s'", hfuzz->mutate.dictionaryFile); FILE* fDict = fopen(hfuzz->mutate.dictionaryFile, "rb"); if (fDict == NULL) { PLOG_W("Couldn't open '%s' - R/O mode", hfuzz->mutate.dictionaryFile); return false; } defer { fclose(fDict); }; char* lineptr = NULL; size_t n = 0; defer { free(lineptr); }; for (;;) { ssize_t len = getdelim(&lineptr, &n, '\n', fDict); if (len == -1) { break; } if (hfuzz->mutate.dictionaryCnt == ARRAYSIZE(hfuzz->mutate.dictionary)) { LOG_W("Maximum number of dictionary entries '%zu' alread loaded. Skipping the rest", ARRAYSIZE(hfuzz->mutate.dictionary)); break; } if (len > 1 && lineptr[len - 1] == '\n') { lineptr[len - 1] = '\0'; len--; } if (lineptr[0] == '#') { continue; } if (lineptr[0] == '\n') { continue; } if (lineptr[0] == '\0') { continue; } const char* start = strchr(lineptr, '"'); char* end = strrchr(lineptr, '"'); if (!start || !end) { LOG_W("Malformed dictionary line '%s', skipping", lineptr); continue; } if ((uintptr_t)start == (uintptr_t)end) { LOG_W("Malformed dictionary line '%s', skipping", lineptr); continue; } *end = '\0'; char bufv[1025] = {}; if (sscanf(&start[1], "%1024c", bufv) != 1) { LOG_W("Malformed dictionary line '%s', skipping", lineptr); continue; } LOG_D("Parsing dictionary word: '%s'", bufv); len = util_decodeCString(bufv); size_t dictEntry = ATOMIC_POST_INC(hfuzz->mutate.dictionaryCnt); len = HF_MIN((size_t)len, sizeof(hfuzz->mutate.dictionary[dictEntry].val)); memcpy(hfuzz->mutate.dictionary[dictEntry].val, bufv, len); hfuzz->mutate.dictionary[dictEntry].len = len; LOG_D("Dictionary: loaded word: '%s' (len=%zd)", bufv, len); } LOG_I("Loaded %zu words from the dictionary '%s'", hfuzz->mutate.dictionaryCnt, hfuzz->mutate.dictionaryFile); return true; } bool input_parseBlacklist(honggfuzz_t* hfuzz) { FILE* fBl = fopen(hfuzz->feedback.blocklistFile, "rb"); if (fBl == NULL) { PLOG_W("Couldn't open '%s' - R/O mode", hfuzz->feedback.blocklistFile); return false; } defer { fclose(fBl); }; char* lineptr = NULL; /* lineptr can be NULL, but it's fine for free() */ defer { free(lineptr); }; size_t n = 0; for (;;) { if (getline(&lineptr, &n, fBl) == -1) { break; } if ((hfuzz->feedback.blocklist = util_Realloc(hfuzz->feedback.blocklist, (hfuzz->feedback.blocklistCnt + 1) * sizeof(hfuzz->feedback.blocklist[0]))) == NULL) { PLOG_W("realloc failed (sz=%zu)", (hfuzz->feedback.blocklistCnt + 1) * sizeof(hfuzz->feedback.blocklist[0])); return false; } hfuzz->feedback.blocklist[hfuzz->feedback.blocklistCnt] = strtoull(lineptr, 0, 16); LOG_D("Blacklist: loaded %'" PRIu64 "'", hfuzz->feedback.blocklist[hfuzz->feedback.blocklistCnt]); /* Verify entries are sorted so we can use interpolation search */ if (hfuzz->feedback.blocklistCnt >= 1) { if (hfuzz->feedback.blocklist[hfuzz->feedback.blocklistCnt - 1] > hfuzz->feedback.blocklist[hfuzz->feedback.blocklistCnt]) { LOG_F("Blacklist file not sorted. Use 'tools/createStackBlacklist.sh' to sort " "records"); return false; } } hfuzz->feedback.blocklistCnt += 1; } if (hfuzz->feedback.blocklistCnt > 0) { LOG_I("Loaded %zu stack hash(es) from the blocklist file", hfuzz->feedback.blocklistCnt); } else { LOG_F("Empty stack hashes blocklist file '%s'", hfuzz->feedback.blocklistFile); } return true; } static void input_generateFileName(dynfile_t* dynfile, const char* dir, char fname[PATH_MAX]) { uint64_t crc64f = util_CRC64(dynfile->data, dynfile->size); uint64_t crc64r = util_CRC64Rev(dynfile->data, dynfile->size); if (dir) { snprintf(fname, PATH_MAX, "%s/%016" PRIx64 "%016" PRIx64 ".%08" PRIx32 ".honggfuzz.cov", dir, crc64f, crc64r, (uint32_t)dynfile->size); } else { snprintf(fname, PATH_MAX, "%016" PRIx64 "%016" PRIx64 ".%08" PRIx32 ".honggfuzz.cov", crc64f, crc64r, (uint32_t)dynfile->size); } } bool input_writeCovFile(const char* dir, dynfile_t* dynfile) { char fname[PATH_MAX]; input_generateFileName(dynfile, dir, fname); if (files_exists(fname)) { LOG_D("File '%s' already exists in the output corpus directory '%s'", fname, dir); return true; } LOG_D("Adding file '%s' to the corpus directory '%s'", fname, dir); if (!files_writeBufToFile( fname, dynfile->data, dynfile->size, O_WRONLY | O_CREAT | O_EXCL | O_CLOEXEC)) { LOG_W("Couldn't write buffer to file '%s' (sz=%zu)", fname, dynfile->size); return false; } return true; } /* true if item1 is bigger than item2 */ static bool input_cmpCov(dynfile_t* item1, dynfile_t* item2) { for (size_t j = 0; j < ARRAYSIZE(item1->cov); j++) { if (item1->cov[j] > item2->cov[j]) { return true; } if (item1->cov[j] < item2->cov[j]) { return false; } } /* Both are equal */ return false; } #define TAILQ_FOREACH_HF(var, head, field) \ for ((var) = TAILQ_FIRST((head)); (var); (var) = TAILQ_NEXT((var), field)) void input_addDynamicInput(run_t* run) { ATOMIC_SET(run->global->timing.lastCovUpdate, time(NULL)); dynfile_t* dynfile = (dynfile_t*)util_Calloc(sizeof(dynfile_t)); dynfile->size = run->dynfile->size; dynfile->timeExecUSecs = util_timeNowUSecs() - run->timeStartedUSecs; dynfile->data = (uint8_t*)util_AllocCopy(run->dynfile->data, run->dynfile->size); dynfile->src = run->dynfile->src; memcpy(dynfile->cov, run->dynfile->cov, sizeof(dynfile->cov)); if (run->dynfile->src) { ATOMIC_POST_INC(run->dynfile->src->refs); } dynfile->phase = fuzz_getState(run->global); input_generateFileName(dynfile, NULL, dynfile->path); MX_SCOPED_RWLOCK_WRITE(&run->global->mutex.dynfileq); dynfile->idx = ATOMIC_PRE_INC(run->global->io.dynfileqCnt); run->global->feedback.maxCov[0] = HF_MAX(run->global->feedback.maxCov[0], dynfile->cov[0]); run->global->feedback.maxCov[1] = HF_MAX(run->global->feedback.maxCov[1], dynfile->cov[1]); run->global->feedback.maxCov[2] = HF_MAX(run->global->feedback.maxCov[2], dynfile->cov[2]); run->global->feedback.maxCov[3] = HF_MAX(run->global->feedback.maxCov[3], dynfile->cov[3]); run->global->io.dynfileqMaxSz = HF_MAX(run->global->io.dynfileqMaxSz, dynfile->size); /* Sort it by coverage - put better coverage earlier in the list */ dynfile_t* iter = NULL; TAILQ_FOREACH_HF (iter, &run->global->io.dynfileq, pointers) { if (input_cmpCov(dynfile, iter)) { TAILQ_INSERT_BEFORE(iter, dynfile, pointers); break; } } if (iter == NULL) { TAILQ_INSERT_TAIL(&run->global->io.dynfileq, dynfile, pointers); } if (run->global->socketFuzzer.enabled) { /* Don't add coverage data to files in socketFuzzer mode */ return; } const char* outDir = run->global->io.outputDir ? run->global->io.outputDir : run->global->io.inputDir; if (!input_writeCovFile(outDir, dynfile)) { LOG_E("Couldn't save the coverage data to '%s'", run->global->io.outputDir); } /* No need to add files to the new coverage dir, if it's not the main phase */ if (fuzz_getState(run->global) != _HF_STATE_DYNAMIC_MAIN) { return; } ATOMIC_POST_INC(run->global->io.newUnitsAdded); if (run->global->io.covDirNew && !input_writeCovFile(run->global->io.covDirNew, dynfile)) { LOG_E("Couldn't save the new coverage data to '%s'", run->global->io.covDirNew); } } bool input_inDynamicCorpus(run_t* run, const char* fname) { MX_SCOPED_RWLOCK_WRITE(&run->global->mutex.dynfileq); dynfile_t* iter = NULL; TAILQ_FOREACH_HF (iter, &run->global->io.dynfileq, pointers) { if (strncmp(iter->path, fname, PATH_MAX) == 0) { return true; } } return false; } static inline int input_speedFactor(run_t* run, dynfile_t* dynfile) { /* Slower the input, lower the chance of it being tested */ uint64_t avg_usecs_per_input = ((uint64_t)(time(NULL) - run->global->timing.timeStart) * 1000000); avg_usecs_per_input /= ATOMIC_GET(run->global->cnts.mutationsCnt); avg_usecs_per_input /= run->global->threads.threadsMax; /* Cap both vals to 1us-1s */ avg_usecs_per_input = HF_CAP(avg_usecs_per_input, 1U, 1000000U); uint64_t sample_usecs = HF_CAP(dynfile->timeExecUSecs, 1U, 1000000U); if (sample_usecs >= avg_usecs_per_input) { return (int)(sample_usecs / avg_usecs_per_input); } else { return -(int)(avg_usecs_per_input / sample_usecs); } } static inline int input_skipFactor(run_t* run, dynfile_t* dynfile, int* speed_factor) { int penalty = 0; #if 1 { *speed_factor = HF_CAP(input_speedFactor(run, dynfile), -10, 5); penalty += *speed_factor; } #endif #if 0 { /* Inputs with lower total coverage -> lower chance of being tested */ static const int scaleMap[200] = { [95 ... 199] = -10, [80 ... 94] = -2, [50 ... 79] = 0, [11 ... 49] = 1, [0 ... 10] = 2, }; uint64_t maxCov0 = ATOMIC_GET(run->global->feedback.maxCov[0]); if (maxCov0) { const unsigned percentile = (dynfile->cov[0] * 100) / maxCov0; penalty += scaleMap[percentile]; } } #endif #if 1 { /* Older inputs -> lower chance of being tested */ static const int scaleMap[200] = { [98 ... 199] = -20, [91 ... 97] = -2, [81 ... 90] = -1, [71 ... 80] = 0, [41 ... 70] = 1, [0 ... 40] = 2, }; if (dynfile->phase == _HF_STATE_DYNAMIC_MAIN) { const unsigned percentile = (dynfile->idx * 100) / run->global->io.dynfileqCnt; penalty += scaleMap[percentile]; } } #endif #if 1 { /* If the input wasn't source of other inputs so far, make it less likely to be tested */ penalty += HF_CAP((2 - (int)dynfile->refs), -10, 2); } #endif #if 1 { /* Add penalty for the input being too big - 0 is for 1kB inputs */ if (dynfile->size > 0) { penalty += HF_CAP(((int)util_Log2(dynfile->size) - 10), -5, 5); } } #endif return penalty; } bool input_prepareDynamicInput(run_t* run, bool needs_mangle) { if (ATOMIC_GET(run->global->io.dynfileqCnt) == 0) { LOG_F("The dynamic file corpus is empty. This shouldn't happen"); } int speed_factor = 0; for (;;) { MX_SCOPED_RWLOCK_WRITE(&run->global->mutex.dynfileq); if (run->global->io.dynfileqCurrent == NULL) { run->global->io.dynfileqCurrent = TAILQ_FIRST(&run->global->io.dynfileq); } if (run->triesLeft) { run->triesLeft--; break; } run->current = run->global->io.dynfileqCurrent; run->global->io.dynfileqCurrent = TAILQ_NEXT(run->global->io.dynfileqCurrent, pointers); int skip_factor = input_skipFactor(run, run->current, &speed_factor); if (skip_factor <= 0) { run->triesLeft = -(skip_factor); break; } if ((util_rnd64() % skip_factor) == 0) { break; } } input_setSize(run, run->current->size); run->dynfile->idx = run->current->idx; run->dynfile->timeExecUSecs = run->current->timeExecUSecs; run->dynfile->src = run->current; run->dynfile->refs = 0; run->dynfile->phase = fuzz_getState(run->global); memcpy(run->dynfile->cov, run->current->cov, sizeof(run->dynfile->cov)); snprintf(run->dynfile->path, sizeof(run->dynfile->path), "%s", run->current->path); memcpy(run->dynfile->data, run->current->data, run->current->size); if (needs_mangle) { mangle_mangleContent(run, speed_factor); } return true; } bool input_dynamicQueueGetNext(char fname[PATH_MAX], DIR* dynamicDirPtr, char* dynamicWorkDir) { static pthread_mutex_t input_mutex = PTHREAD_MUTEX_INITIALIZER; MX_SCOPED_LOCK(&input_mutex); for (;;) { errno = 0; struct dirent* entry = readdir(dynamicDirPtr); if (entry == NULL && errno == EINTR) { continue; } if (entry == NULL && errno != 0) { PLOG_W("readdir_r('%s')", dynamicWorkDir); return false; } if (entry == NULL) { return false; } char path[PATH_MAX]; snprintf(path, PATH_MAX, "%s/%s", dynamicWorkDir, entry->d_name); struct stat st; if (stat(path, &st) == -1) { LOG_W("Couldn't stat() the '%s' file", path); continue; } if (!S_ISREG(st.st_mode)) { LOG_D("'%s' is not a regular file, skipping", path); continue; } snprintf(fname, PATH_MAX, "%s/%s", dynamicWorkDir, entry->d_name); return true; } } void input_enqueueDynamicInputs(honggfuzz_t* hfuzz) { char dynamicWorkDir[PATH_MAX]; snprintf(dynamicWorkDir, sizeof(dynamicWorkDir), "%s", hfuzz->io.dynamicInputDir); int dynamicDirFd = TEMP_FAILURE_RETRY(open(dynamicWorkDir, O_DIRECTORY | O_RDONLY | O_CLOEXEC)); if (dynamicDirFd == -1) { PLOG_W("open('%s', O_DIRECTORY|O_RDONLY|O_CLOEXEC)", dynamicWorkDir); return; } DIR* dynamicDirPtr; if ((dynamicDirPtr = fdopendir(dynamicDirFd)) == NULL) { PLOG_W("fdopendir(dir='%s', fd=%d)", dynamicWorkDir, dynamicDirFd); close(dynamicDirFd); return; } char dynamicInputFileName[PATH_MAX]; for (;;) { if (!input_dynamicQueueGetNext(dynamicInputFileName, dynamicDirPtr, dynamicWorkDir)) { break; } int dynamicFileFd; if ((dynamicFileFd = open(dynamicInputFileName, O_RDWR)) == -1) { PLOG_E("Error opening dynamic input file: %s", dynamicInputFileName); continue; } /* Get file status. */ struct stat dynamicFileStat; size_t dynamicFileSz; if (fstat(dynamicFileFd, &dynamicFileStat) == -1) { PLOG_E("Error getting file status: %s", dynamicInputFileName); close(dynamicFileFd); continue; } dynamicFileSz = dynamicFileStat.st_size; uint8_t* dynamicFile = (uint8_t*)mmap( NULL, dynamicFileSz, PROT_READ | PROT_WRITE, MAP_SHARED, dynamicFileFd, 0); if (dynamicFile == MAP_FAILED) { PLOG_E("Error mapping dynamic input file: %s", dynamicInputFileName); close(dynamicFileFd); continue; } LOG_I("Loading dynamic input file: %s (%lu)", dynamicInputFileName, dynamicFileSz); run_t tmp_run; tmp_run.global = hfuzz; dynfile_t tmp_dynfile = { .size = dynamicFileSz, .cov = {0xff, 0xff, 0xff, 0xff}, .idx = 0, .fd = -1, .timeExecUSecs = 1, .path = "", .data = dynamicFile, }; tmp_run.timeStartedUSecs = util_timeNowUSecs() - 1; memcpy(tmp_dynfile.path, dynamicInputFileName, PATH_MAX); tmp_run.dynfile = &tmp_dynfile; input_addDynamicInput(&tmp_run); // input_addDynamicInput(hfuzz, dynamicFile, dynamicFileSz, (uint64_t[4]){0xff, 0xff, 0xff, // 0xff}, dynamicInputFileName); /* Unmap input file. */ if (munmap((void*)dynamicFile, dynamicFileSz) == -1) { PLOG_E("Error unmapping input file!"); } /* Close input file. */ if (close(dynamicFileFd) == -1) { PLOG_E("Error closing input file!"); } /* Remove enqueued file from the directory. */ unlink(dynamicInputFileName); } closedir(dynamicDirPtr); } const uint8_t* input_getRandomInputAsBuf(run_t* run, size_t* len) { if (run->global->feedback.dynFileMethod == _HF_DYNFILE_NONE) { LOG_W( "The dynamic input queue is empty because no instrumentation mode (-x) was requested"); *len = 0; return NULL; } if (ATOMIC_GET(run->global->io.dynfileqCnt) == 0) { *len = 0; return NULL; } dynfile_t* current = NULL; { MX_SCOPED_RWLOCK_WRITE(&run->global->mutex.dynfileq); if (run->global->io.dynfileq2Current == NULL) { run->global->io.dynfileq2Current = TAILQ_FIRST(&run->global->io.dynfileq); } current = run->global->io.dynfileq2Current; run->global->io.dynfileq2Current = TAILQ_NEXT(run->global->io.dynfileq2Current, pointers); } *len = current->size; return current->data; } static bool input_shouldReadNewFile(run_t* run) { if (fuzz_getState(run->global) != _HF_STATE_DYNAMIC_DRY_RUN) { input_setSize(run, run->global->mutate.maxInputSz); return true; } if (!run->staticFileTryMore) { run->staticFileTryMore = true; /* Start with 4 bytes, increase the size in following iterations */ input_setSize(run, HF_MIN(4U, run->global->mutate.maxInputSz)); return true; } /* Increase size of the current file by a factor of 2, and return it instead of a new file */ size_t newsz = run->dynfile->size * 2; if (newsz >= run->global->mutate.maxInputSz) { /* That's the largest size for this specific file that will be ever used */ newsz = run->global->mutate.maxInputSz; run->staticFileTryMore = false; } input_setSize(run, newsz); return false; } bool input_prepareStaticFile(run_t* run, bool rewind, bool needs_mangle) { if (input_shouldReadNewFile(run)) { for (;;) { if (!input_getNext(run, run->dynfile->path, /* rewind= */ rewind)) { return false; } if (!needs_mangle || !input_inDynamicCorpus(run, run->dynfile->path)) { LOG_D("Skipping '%s' as it's already in the dynamic corpus", run->dynfile->path); break; } } run->global->io.testedFileCnt++; } char path[PATH_MAX]; snprintf(path, sizeof(path), "%s/%s", run->global->io.inputDir, run->dynfile->path); ssize_t fileSz = files_readFileToBufMax(path, run->dynfile->data, run->dynfile->size); if (fileSz < 0) { LOG_E("Couldn't read contents of '%s'", path); return false; } if (run->staticFileTryMore && ((size_t)fileSz < run->dynfile->size)) { /* The file is smaller than the requested size, no need to re-read it anymore */ run->staticFileTryMore = false; } input_setSize(run, fileSz); util_memsetInline(run->dynfile->cov, '\0', sizeof(run->dynfile->cov)); run->dynfile->idx = 0; run->dynfile->src = NULL; run->dynfile->refs = 0; run->dynfile->phase = fuzz_getState(run->global); if (needs_mangle) { mangle_mangleContent(run, /* slow_factor= */ 0); } return true; } bool input_removeStaticFile(const char* dir, const char* name) { char path[PATH_MAX]; snprintf(path, sizeof(path), "%s/%s", dir, name); if (unlink(path) == -1 && errno != EEXIST) { PLOG_E("unlink('%s') failed", path); return false; } return true; } bool input_prepareExternalFile(run_t* run) { snprintf(run->dynfile->path, sizeof(run->dynfile->path), "[EXTERNAL]"); int fd = files_writeBufToTmpFile(run->global->io.workDir, (const uint8_t*)"", 0, 0); if (fd == -1) { LOG_E("Couldn't write input file to a temporary buffer"); return false; } defer { close(fd); }; char fname[PATH_MAX]; snprintf(fname, sizeof(fname), "/dev/fd/%d", fd); const char* const argv[] = {run->global->exe.externalCommand, fname, NULL}; if (subproc_System(run, argv) != 0) { LOG_E("Subprocess '%s' returned abnormally", run->global->exe.externalCommand); return false; } LOG_D("Subporcess '%s' finished with success", run->global->exe.externalCommand); input_setSize(run, run->global->mutate.maxInputSz); ssize_t sz = files_readFromFdSeek(fd, run->dynfile->data, run->global->mutate.maxInputSz, 0); if (sz == -1) { LOG_E("Couldn't read file from fd=%d", fd); return false; } input_setSize(run, (size_t)sz); return true; } bool input_postProcessFile(run_t* run, const char* cmd) { int fd = files_writeBufToTmpFile(run->global->io.workDir, run->dynfile->data, run->dynfile->size, 0); if (fd == -1) { LOG_E("Couldn't write input file to a temporary buffer"); return false; } defer { close(fd); }; char fname[PATH_MAX]; snprintf(fname, sizeof(fname), "/dev/fd/%d", fd); const char* const argv[] = {cmd, fname, NULL}; if (subproc_System(run, argv) != 0) { LOG_E("Subprocess '%s' returned abnormally", cmd); return false; } LOG_D("Subporcess '%s' finished with success", cmd); input_setSize(run, run->global->mutate.maxInputSz); ssize_t sz = files_readFromFdSeek(fd, run->dynfile->data, run->global->mutate.maxInputSz, 0); if (sz == -1) { LOG_E("Couldn't read file from fd=%d", fd); return false; } input_setSize(run, (size_t)sz); return true; }