/* ** ** Copyright 2006-2014, The Android Open Source Project ** ** 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. */ #ifndef __MINGW32__ #define HAVE_STRSEP #endif #include #include #include #include #ifndef __MINGW32__ #include #endif #include #include #include #include #include #include #include #include #include #include #include #define MS_PER_NSEC 1000000 #define US_PER_NSEC 1000 #ifndef MIN #define MIN(a, b) (((a) < (b)) ? (a) : (b)) #endif typedef struct FilterInfo_t { char* mTag; android_LogPriority mPri; struct FilterInfo_t* p_next; } FilterInfo; struct AndroidLogFormat_t { android_LogPriority global_pri; FilterInfo* filters; AndroidLogPrintFormat format; bool colored_output; bool usec_time_output; bool nsec_time_output; bool printable_output; bool year_output; bool zone_output; bool epoch_output; bool monotonic_output; bool uid_output; bool descriptive_output; }; /* * API issues prevent us from exposing "descriptive" in AndroidLogFormat_t * during android_log_processBinaryLogBuffer(), so we break layering. */ static bool descriptive_output = false; /* * gnome-terminal color tags * See http://misc.flogisoft.com/bash/tip_colors_and_formatting * for ideas on how to set the forground color of the text for xterm. * The color manipulation character stream is defined as: * ESC [ 3 8 ; 5 ; m */ #define ANDROID_COLOR_BLUE 75 #define ANDROID_COLOR_DEFAULT 231 #define ANDROID_COLOR_GREEN 40 #define ANDROID_COLOR_ORANGE 166 #define ANDROID_COLOR_RED 196 #define ANDROID_COLOR_YELLOW 226 static FilterInfo* filterinfo_new(const char* tag, android_LogPriority pri) { FilterInfo* p_ret; p_ret = (FilterInfo*)calloc(1, sizeof(FilterInfo)); p_ret->mTag = strdup(tag); p_ret->mPri = pri; return p_ret; } /* balance to above, filterinfo_free left unimplemented */ /* * Note: also accepts 0-9 priorities * returns ANDROID_LOG_UNKNOWN if the character is unrecognized */ static android_LogPriority filterCharToPri(char c) { android_LogPriority pri; c = tolower(c); if (c >= '0' && c <= '9') { if (c >= ('0' + ANDROID_LOG_SILENT)) { pri = ANDROID_LOG_VERBOSE; } else { pri = (android_LogPriority)(c - '0'); } } else if (c == 'v') { pri = ANDROID_LOG_VERBOSE; } else if (c == 'd') { pri = ANDROID_LOG_DEBUG; } else if (c == 'i') { pri = ANDROID_LOG_INFO; } else if (c == 'w') { pri = ANDROID_LOG_WARN; } else if (c == 'e') { pri = ANDROID_LOG_ERROR; } else if (c == 'f') { pri = ANDROID_LOG_FATAL; } else if (c == 's') { pri = ANDROID_LOG_SILENT; } else if (c == '*') { pri = ANDROID_LOG_DEFAULT; } else { pri = ANDROID_LOG_UNKNOWN; } return pri; } static char filterPriToChar(android_LogPriority pri) { switch (pri) { /* clang-format off */ case ANDROID_LOG_VERBOSE: return 'V'; case ANDROID_LOG_DEBUG: return 'D'; case ANDROID_LOG_INFO: return 'I'; case ANDROID_LOG_WARN: return 'W'; case ANDROID_LOG_ERROR: return 'E'; case ANDROID_LOG_FATAL: return 'F'; case ANDROID_LOG_SILENT: return 'S'; case ANDROID_LOG_DEFAULT: case ANDROID_LOG_UNKNOWN: default: return '?'; /* clang-format on */ } } static int colorFromPri(android_LogPriority pri) { switch (pri) { /* clang-format off */ case ANDROID_LOG_VERBOSE: return ANDROID_COLOR_DEFAULT; case ANDROID_LOG_DEBUG: return ANDROID_COLOR_BLUE; case ANDROID_LOG_INFO: return ANDROID_COLOR_GREEN; case ANDROID_LOG_WARN: return ANDROID_COLOR_ORANGE; case ANDROID_LOG_ERROR: return ANDROID_COLOR_RED; case ANDROID_LOG_FATAL: return ANDROID_COLOR_RED; case ANDROID_LOG_SILENT: return ANDROID_COLOR_DEFAULT; case ANDROID_LOG_DEFAULT: case ANDROID_LOG_UNKNOWN: default: return ANDROID_COLOR_DEFAULT; /* clang-format on */ } } static android_LogPriority filterPriForTag(AndroidLogFormat* p_format, const char* tag) { FilterInfo* p_curFilter; for (p_curFilter = p_format->filters; p_curFilter != NULL; p_curFilter = p_curFilter->p_next) { if (0 == strcmp(tag, p_curFilter->mTag)) { if (p_curFilter->mPri == ANDROID_LOG_DEFAULT) { return p_format->global_pri; } else { return p_curFilter->mPri; } } } return p_format->global_pri; } /** * returns 1 if this log line should be printed based on its priority * and tag, and 0 if it should not */ int android_log_shouldPrintLine(AndroidLogFormat* p_format, const char* tag, android_LogPriority pri) { return pri >= filterPriForTag(p_format, tag); } AndroidLogFormat* android_log_format_new() { AndroidLogFormat* p_ret; p_ret = static_cast(calloc(1, sizeof(AndroidLogFormat))); p_ret->global_pri = ANDROID_LOG_VERBOSE; p_ret->format = FORMAT_BRIEF; p_ret->colored_output = false; p_ret->usec_time_output = false; p_ret->nsec_time_output = false; p_ret->printable_output = false; p_ret->year_output = false; p_ret->zone_output = false; p_ret->epoch_output = false; #ifdef __ANDROID__ p_ret->monotonic_output = android_log_clockid() == CLOCK_MONOTONIC; #else p_ret->monotonic_output = false; #endif p_ret->uid_output = false; p_ret->descriptive_output = false; descriptive_output = false; return p_ret; } static list_declare(convertHead); void android_log_format_free(AndroidLogFormat* p_format) { FilterInfo *p_info, *p_info_old; p_info = p_format->filters; while (p_info != NULL) { p_info_old = p_info; p_info = p_info->p_next; free(p_info_old); } free(p_format); /* Free conversion resource, can always be reconstructed */ while (!list_empty(&convertHead)) { struct listnode* node = list_head(&convertHead); list_remove(node); LOG_ALWAYS_FATAL_IF(node == list_head(&convertHead), "corrupted list"); free(node); } } int android_log_setPrintFormat(AndroidLogFormat* p_format, AndroidLogPrintFormat format) { switch (format) { case FORMAT_MODIFIER_COLOR: p_format->colored_output = true; return 0; case FORMAT_MODIFIER_TIME_USEC: p_format->usec_time_output = true; return 0; case FORMAT_MODIFIER_TIME_NSEC: p_format->nsec_time_output = true; return 0; case FORMAT_MODIFIER_PRINTABLE: p_format->printable_output = true; return 0; case FORMAT_MODIFIER_YEAR: p_format->year_output = true; return 0; case FORMAT_MODIFIER_ZONE: p_format->zone_output = !p_format->zone_output; return 0; case FORMAT_MODIFIER_EPOCH: p_format->epoch_output = true; return 0; case FORMAT_MODIFIER_MONOTONIC: p_format->monotonic_output = true; return 0; case FORMAT_MODIFIER_UID: p_format->uid_output = true; return 0; case FORMAT_MODIFIER_DESCRIPT: p_format->descriptive_output = true; descriptive_output = true; return 0; default: break; } p_format->format = format; return 1; } #ifndef __MINGW32__ static const char tz[] = "TZ"; static const char utc[] = "UTC"; #endif /** * Returns FORMAT_OFF on invalid string */ AndroidLogPrintFormat android_log_formatFromString(const char* formatString) { static AndroidLogPrintFormat format; /* clang-format off */ if (!strcmp(formatString, "brief")) format = FORMAT_BRIEF; else if (!strcmp(formatString, "process")) format = FORMAT_PROCESS; else if (!strcmp(formatString, "tag")) format = FORMAT_TAG; else if (!strcmp(formatString, "thread")) format = FORMAT_THREAD; else if (!strcmp(formatString, "raw")) format = FORMAT_RAW; else if (!strcmp(formatString, "time")) format = FORMAT_TIME; else if (!strcmp(formatString, "threadtime")) format = FORMAT_THREADTIME; else if (!strcmp(formatString, "long")) format = FORMAT_LONG; else if (!strcmp(formatString, "color")) format = FORMAT_MODIFIER_COLOR; else if (!strcmp(formatString, "colour")) format = FORMAT_MODIFIER_COLOR; else if (!strcmp(formatString, "usec")) format = FORMAT_MODIFIER_TIME_USEC; else if (!strcmp(formatString, "nsec")) format = FORMAT_MODIFIER_TIME_NSEC; else if (!strcmp(formatString, "printable")) format = FORMAT_MODIFIER_PRINTABLE; else if (!strcmp(formatString, "year")) format = FORMAT_MODIFIER_YEAR; else if (!strcmp(formatString, "zone")) format = FORMAT_MODIFIER_ZONE; else if (!strcmp(formatString, "epoch")) format = FORMAT_MODIFIER_EPOCH; else if (!strcmp(formatString, "monotonic")) format = FORMAT_MODIFIER_MONOTONIC; else if (!strcmp(formatString, "uid")) format = FORMAT_MODIFIER_UID; else if (!strcmp(formatString, "descriptive")) format = FORMAT_MODIFIER_DESCRIPT; /* clang-format on */ #ifndef __MINGW32__ else { extern char* tzname[2]; static const char gmt[] = "GMT"; char* cp = getenv(tz); if (cp) { cp = strdup(cp); } setenv(tz, formatString, 1); /* * Run tzset here to determine if the timezone is legitimate. If the * zone is GMT, check if that is what was asked for, if not then * did not match any on the system; report an error to caller. */ tzset(); if (!tzname[0] || ((!strcmp(tzname[0], utc) || !strcmp(tzname[0], gmt)) /* error? */ && strcasecmp(formatString, utc) && strcasecmp(formatString, gmt))) { /* ok */ if (cp) { setenv(tz, cp, 1); } else { unsetenv(tz); } tzset(); format = FORMAT_OFF; } else { format = FORMAT_MODIFIER_ZONE; } free(cp); } #endif return format; } /** * filterExpression: a single filter expression * eg "AT:d" * * returns 0 on success and -1 on invalid expression * * Assumes single threaded execution */ int android_log_addFilterRule(AndroidLogFormat* p_format, const char* filterExpression) { size_t tagNameLength; android_LogPriority pri = ANDROID_LOG_DEFAULT; tagNameLength = strcspn(filterExpression, ":"); if (tagNameLength == 0) { goto error; } if (filterExpression[tagNameLength] == ':') { pri = filterCharToPri(filterExpression[tagNameLength + 1]); if (pri == ANDROID_LOG_UNKNOWN) { goto error; } } if (0 == strncmp("*", filterExpression, tagNameLength)) { /* * This filter expression refers to the global filter * The default level for this is DEBUG if the priority * is unspecified */ if (pri == ANDROID_LOG_DEFAULT) { pri = ANDROID_LOG_DEBUG; } p_format->global_pri = pri; } else { /* * for filter expressions that don't refer to the global * filter, the default is verbose if the priority is unspecified */ if (pri == ANDROID_LOG_DEFAULT) { pri = ANDROID_LOG_VERBOSE; } char* tagName; /* * Presently HAVE_STRNDUP is never defined, so the second case is always taken * Darwin doesn't have strndup, everything else does */ #ifdef HAVE_STRNDUP tagName = strndup(filterExpression, tagNameLength); #else /* a few extra bytes copied... */ tagName = strdup(filterExpression); tagName[tagNameLength] = '\0'; #endif /*HAVE_STRNDUP*/ FilterInfo* p_fi = filterinfo_new(tagName, pri); free(tagName); p_fi->p_next = p_format->filters; p_format->filters = p_fi; } return 0; error: return -1; } #ifndef HAVE_STRSEP /* KISS replacement helper for below */ static char* strsep(char** stringp, const char* delim) { char* token; char* ret = *stringp; if (!ret || !*ret) { return NULL; } token = strpbrk(ret, delim); if (token) { *token = '\0'; ++token; } else { token = ret + strlen(ret); } *stringp = token; return ret; } #endif /** * filterString: a comma/whitespace-separated set of filter expressions * * eg "AT:d *:i" * * returns 0 on success and -1 on invalid expression * * Assumes single threaded execution * */ int android_log_addFilterString(AndroidLogFormat* p_format, const char* filterString) { char* filterStringCopy = strdup(filterString); char* p_cur = filterStringCopy; char* p_ret; int err; /* Yes, I'm using strsep */ while (NULL != (p_ret = strsep(&p_cur, " \t,"))) { /* ignore whitespace-only entries */ if (p_ret[0] != '\0') { err = android_log_addFilterRule(p_format, p_ret); if (err < 0) { goto error; } } } free(filterStringCopy); return 0; error: free(filterStringCopy); return -1; } /** * Splits a wire-format buffer into an AndroidLogEntry * entry allocated by caller. Pointers will point directly into buf * * Returns 0 on success and -1 on invalid wire format (entry will be * in unspecified state) */ int android_log_processLogBuffer(struct logger_entry* buf, AndroidLogEntry* entry) { entry->message = NULL; entry->messageLen = 0; entry->tv_sec = buf->sec; entry->tv_nsec = buf->nsec; entry->uid = -1; entry->pid = buf->pid; entry->tid = buf->tid; /* * format: \0\0 * * tag str * starts at buf->msg+1 * msg * starts at buf->msg+1+len(tag)+1 * * The message may have been truncated by the kernel log driver. * When that happens, we must null-terminate the message ourselves. */ if (buf->len < 3) { /* * An well-formed entry must consist of at least a priority * and two null characters */ fprintf(stderr, "+++ LOG: entry too small\n"); return -1; } int msgStart = -1; int msgEnd = -1; int i; char* msg = buf->msg; if (buf->hdr_size != sizeof(struct logger_entry)) { fprintf(stderr, "+++ LOG: entry illegal hdr_size\n"); return -1; } entry->uid = buf->uid; for (i = 1; i < buf->len; i++) { if (msg[i] == '\0') { if (msgStart == -1) { msgStart = i + 1; } else { msgEnd = i; break; } } } if (msgStart == -1) { /* +++ LOG: malformed log message, DYB */ for (i = 1; i < buf->len; i++) { /* odd characters in tag? */ if ((msg[i] <= ' ') || (msg[i] == ':') || (msg[i] >= 0x7f)) { msg[i] = '\0'; msgStart = i + 1; break; } } if (msgStart == -1) { msgStart = buf->len - 1; /* All tag, no message, print truncates */ } } if (msgEnd == -1) { /* incoming message not null-terminated; force it */ msgEnd = buf->len - 1; /* may result in msgEnd < msgStart */ msg[msgEnd] = '\0'; } entry->priority = static_cast(msg[0]); entry->tag = msg + 1; entry->tagLen = msgStart - 1; entry->message = msg + msgStart; entry->messageLen = (msgEnd < msgStart) ? 0 : (msgEnd - msgStart); return 0; } static bool findChar(const char** cp, size_t* len, int c) { while ((*len) && isspace(*(*cp))) { ++(*cp); --(*len); } if (c == INT_MAX) return *len; if ((*len) && (*(*cp) == c)) { ++(*cp); --(*len); return true; } return false; } /* * Recursively convert binary log data to printable form. * * This needs to be recursive because you can have lists of lists. * * If we run out of room, we stop processing immediately. It's important * for us to check for space on every output element to avoid producing * garbled output. * * Returns 0 on success, 1 on buffer full, -1 on failure. */ enum objectType { TYPE_OBJECTS = '1', TYPE_BYTES = '2', TYPE_MILLISECONDS = '3', TYPE_ALLOCATIONS = '4', TYPE_ID = '5', TYPE_PERCENT = '6', TYPE_MONOTONIC = 's' }; static int android_log_printBinaryEvent(const unsigned char** pEventData, size_t* pEventDataLen, char** pOutBuf, size_t* pOutBufLen, const char** fmtStr, size_t* fmtLen) { const unsigned char* eventData = *pEventData; size_t eventDataLen = *pEventDataLen; char* outBuf = *pOutBuf; char* outBufSave = outBuf; size_t outBufLen = *pOutBufLen; size_t outBufLenSave = outBufLen; unsigned char type; size_t outCount = 0; int result = 0; const char* cp; size_t len; int64_t lval; if (eventDataLen < 1) return -1; type = *eventData; cp = NULL; len = 0; if (fmtStr && *fmtStr && fmtLen && *fmtLen && **fmtStr) { cp = *fmtStr; len = *fmtLen; } /* * event.logtag format specification: * * Optionally, after the tag names can be put a description for the value(s) * of the tag. Description are in the format * (|data type[|data unit]) * Multiple values are separated by commas. * * The data type is a number from the following values: * 1: int * 2: long * 3: string * 4: list * 5: float * * The data unit is a number taken from the following list: * 1: Number of objects * 2: Number of bytes * 3: Number of milliseconds * 4: Number of allocations * 5: Id * 6: Percent * s: Number of seconds (monotonic time) * Default value for data of type int/long is 2 (bytes). */ if (!cp || !findChar(&cp, &len, '(')) { len = 0; } else { char* outBufLastSpace = NULL; findChar(&cp, &len, INT_MAX); while (len && *cp && (*cp != '|') && (*cp != ')')) { if (outBufLen <= 0) { /* halt output */ goto no_room; } outBufLastSpace = isspace(*cp) ? outBuf : NULL; *outBuf = *cp; ++outBuf; ++cp; --outBufLen; --len; } if (outBufLastSpace) { outBufLen += outBuf - outBufLastSpace; outBuf = outBufLastSpace; } if (outBufLen <= 0) { /* halt output */ goto no_room; } if (outBufSave != outBuf) { *outBuf = '='; ++outBuf; --outBufLen; } if (findChar(&cp, &len, '|') && findChar(&cp, &len, INT_MAX)) { static const unsigned char typeTable[] = {EVENT_TYPE_INT, EVENT_TYPE_LONG, EVENT_TYPE_STRING, EVENT_TYPE_LIST, EVENT_TYPE_FLOAT}; if ((*cp >= '1') && (*cp < (char)('1' + (sizeof(typeTable) / sizeof(typeTable[0])))) && (type != typeTable[(size_t)(*cp - '1')])) len = 0; if (len) { ++cp; --len; } else { /* reset the format */ outBuf = outBufSave; outBufLen = outBufLenSave; } } } outCount = 0; lval = 0; switch (type) { case EVENT_TYPE_INT: /* 32-bit signed int */ { if (eventDataLen < sizeof(android_event_int_t)) return -1; auto* event_int = reinterpret_cast(eventData); lval = event_int->data; eventData += sizeof(android_event_int_t); eventDataLen -= sizeof(android_event_int_t); } goto pr_lval; case EVENT_TYPE_LONG: /* 64-bit signed long */ if (eventDataLen < sizeof(android_event_long_t)) { return -1; } { auto* event_long = reinterpret_cast(eventData); lval = event_long->data; } eventData += sizeof(android_event_long_t); eventDataLen -= sizeof(android_event_long_t); pr_lval: outCount = snprintf(outBuf, outBufLen, "%" PRId64, lval); if (outCount < outBufLen) { outBuf += outCount; outBufLen -= outCount; } else { /* halt output */ goto no_room; } break; case EVENT_TYPE_FLOAT: /* float */ { if (eventDataLen < sizeof(android_event_float_t)) return -1; auto* event_float = reinterpret_cast(eventData); float fval = event_float->data; eventData += sizeof(android_event_int_t); eventDataLen -= sizeof(android_event_int_t); outCount = snprintf(outBuf, outBufLen, "%f", fval); if (outCount < outBufLen) { outBuf += outCount; outBufLen -= outCount; } else { /* halt output */ goto no_room; } } break; case EVENT_TYPE_STRING: /* UTF-8 chars, not NULL-terminated */ { if (eventDataLen < sizeof(android_event_string_t)) return -1; auto* event_string = reinterpret_cast(eventData); unsigned int strLen = event_string->length; eventData += sizeof(android_event_string_t); eventDataLen -= sizeof(android_event_string_t); if (eventDataLen < strLen) { result = -1; /* mark truncated */ strLen = eventDataLen; } if (cp && (strLen == 0)) { /* reset the format if no content */ outBuf = outBufSave; outBufLen = outBufLenSave; } if (strLen < outBufLen) { memcpy(outBuf, eventData, strLen); outBuf += strLen; outBufLen -= strLen; } else { if (outBufLen > 0) { /* copy what we can */ memcpy(outBuf, eventData, outBufLen); outBuf += outBufLen; outBufLen -= outBufLen; } if (!result) result = 1; /* if not truncated, return no room */ } eventData += strLen; eventDataLen -= strLen; if (result != 0) goto bail; break; } case EVENT_TYPE_LIST: /* N items, all different types */ { if (eventDataLen < sizeof(android_event_list_t)) return -1; auto* event_list = reinterpret_cast(eventData); int8_t count = event_list->element_count; eventData += sizeof(android_event_list_t); eventDataLen -= sizeof(android_event_list_t); if (outBufLen <= 0) goto no_room; *outBuf++ = '['; outBufLen--; for (int i = 0; i < count; i++) { result = android_log_printBinaryEvent(&eventData, &eventDataLen, &outBuf, &outBufLen, fmtStr, fmtLen); if (result != 0) goto bail; if (i < (count - 1)) { if (outBufLen <= 0) goto no_room; *outBuf++ = ','; outBufLen--; } } if (outBufLen <= 0) goto no_room; *outBuf++ = ']'; outBufLen--; } break; default: fprintf(stderr, "Unknown binary event type %d\n", type); return -1; } if (cp && len) { if (findChar(&cp, &len, '|') && findChar(&cp, &len, INT_MAX)) { switch (*cp) { case TYPE_OBJECTS: outCount = 0; /* outCount = snprintf(outBuf, outBufLen, " objects"); */ break; case TYPE_BYTES: if ((lval != 0) && ((lval % 1024) == 0)) { /* repaint with multiplier */ static const char suffixTable[] = {'K', 'M', 'G', 'T'}; size_t idx = 0; outBuf -= outCount; outBufLen += outCount; do { lval /= 1024; if ((lval % 1024) != 0) break; } while (++idx < ((sizeof(suffixTable) / sizeof(suffixTable[0])) - 1)); outCount = snprintf(outBuf, outBufLen, "%" PRId64 "%cB", lval, suffixTable[idx]); } else { outCount = snprintf(outBuf, outBufLen, "B"); } break; case TYPE_MILLISECONDS: if (((lval <= -1000) || (1000 <= lval)) && (outBufLen || (outBuf[-1] == '0'))) { /* repaint as (fractional) seconds, possibly saving space */ if (outBufLen) outBuf[0] = outBuf[-1]; outBuf[-1] = outBuf[-2]; outBuf[-2] = outBuf[-3]; outBuf[-3] = '.'; while ((outBufLen == 0) || (*outBuf == '0')) { --outBuf; ++outBufLen; } if (*outBuf != '.') { ++outBuf; --outBufLen; } outCount = snprintf(outBuf, outBufLen, "s"); } else { outCount = snprintf(outBuf, outBufLen, "ms"); } break; case TYPE_MONOTONIC: { static const uint64_t minute = 60; static const uint64_t hour = 60 * minute; static const uint64_t day = 24 * hour; /* Repaint as unsigned seconds, minutes, hours ... */ outBuf -= outCount; outBufLen += outCount; uint64_t val = lval; if (val >= day) { outCount = snprintf(outBuf, outBufLen, "%" PRIu64 "d ", val / day); if (outCount >= outBufLen) break; outBuf += outCount; outBufLen -= outCount; val = (val % day) + day; } if (val >= minute) { if (val >= hour) { outCount = snprintf(outBuf, outBufLen, "%" PRIu64 ":", (val / hour) % (day / hour)); if (outCount >= outBufLen) break; outBuf += outCount; outBufLen -= outCount; } outCount = snprintf(outBuf, outBufLen, (val >= hour) ? "%02" PRIu64 ":" : "%" PRIu64 ":", (val / minute) % (hour / minute)); if (outCount >= outBufLen) break; outBuf += outCount; outBufLen -= outCount; } outCount = snprintf(outBuf, outBufLen, (val >= minute) ? "%02" PRIu64 : "%" PRIu64 "s", val % minute); } break; case TYPE_ALLOCATIONS: outCount = 0; /* outCount = snprintf(outBuf, outBufLen, " allocations"); */ break; case TYPE_ID: outCount = 0; break; case TYPE_PERCENT: outCount = snprintf(outBuf, outBufLen, "%%"); break; default: /* ? */ outCount = 0; break; } ++cp; --len; if (outCount < outBufLen) { outBuf += outCount; outBufLen -= outCount; } else if (outCount) { /* halt output */ goto no_room; } } if (!findChar(&cp, &len, ')')) len = 0; if (!findChar(&cp, &len, ',')) len = 0; } bail: *pEventData = eventData; *pEventDataLen = eventDataLen; *pOutBuf = outBuf; *pOutBufLen = outBufLen; if (cp) { *fmtStr = cp; *fmtLen = len; } return result; no_room: result = 1; goto bail; } /** * Convert a binary log entry to ASCII form. * * For convenience we mimic the processLogBuffer API. There is no * pre-defined output length for the binary data, since we're free to format * it however we choose, which means we can't really use a fixed-size buffer * here. */ int android_log_processBinaryLogBuffer( struct logger_entry* buf, AndroidLogEntry* entry, [[maybe_unused]] const EventTagMap* map, /* only on !__ANDROID__ */ char* messageBuf, int messageBufLen) { size_t inCount; uint32_t tagIndex; const unsigned char* eventData; entry->message = NULL; entry->messageLen = 0; entry->tv_sec = buf->sec; entry->tv_nsec = buf->nsec; entry->priority = ANDROID_LOG_INFO; entry->uid = -1; entry->pid = buf->pid; entry->tid = buf->tid; eventData = (const unsigned char*)buf->msg; if (buf->hdr_size != sizeof(struct logger_entry)) { fprintf(stderr, "+++ LOG: entry illegal hdr_size\n"); return -1; } if (buf->lid == LOG_ID_SECURITY) { entry->priority = ANDROID_LOG_WARN; } entry->uid = buf->uid; inCount = buf->len; if (inCount < sizeof(android_event_header_t)) return -1; auto* event_header = reinterpret_cast(eventData); tagIndex = event_header->tag; eventData += sizeof(android_event_header_t); inCount -= sizeof(android_event_header_t); entry->tagLen = 0; entry->tag = NULL; #ifdef __ANDROID__ if (map != NULL) { entry->tag = android_lookupEventTag_len(map, &entry->tagLen, tagIndex); } #endif /* * If we don't have a map, or didn't find the tag number in the map, * stuff a generated tag value into the start of the output buffer and * shift the buffer pointers down. */ if (entry->tag == NULL) { size_t tagLen; tagLen = snprintf(messageBuf, messageBufLen, "[%" PRIu32 "]", tagIndex); if (tagLen >= (size_t)messageBufLen) { tagLen = messageBufLen - 1; } entry->tag = messageBuf; entry->tagLen = tagLen; messageBuf += tagLen + 1; messageBufLen -= tagLen + 1; } /* * Format the event log data into the buffer. */ const char* fmtStr = NULL; size_t fmtLen = 0; #ifdef __ANDROID__ if (descriptive_output && map) { fmtStr = android_lookupEventFormat_len(map, &fmtLen, tagIndex); } #endif char* outBuf = messageBuf; size_t outRemaining = messageBufLen - 1; /* leave one for nul byte */ int result = 0; if ((inCount > 0) || fmtLen) { result = android_log_printBinaryEvent(&eventData, &inCount, &outBuf, &outRemaining, &fmtStr, &fmtLen); } if ((result == 1) && fmtStr) { /* We overflowed :-(, let's repaint the line w/o format dressings */ eventData = (const unsigned char*)buf->msg; eventData += 4; outBuf = messageBuf; outRemaining = messageBufLen - 1; result = android_log_printBinaryEvent(&eventData, &inCount, &outBuf, &outRemaining, NULL, NULL); } if (result < 0) { fprintf(stderr, "Binary log entry conversion failed\n"); } if (result) { if (!outRemaining) { /* make space to leave an indicator */ --outBuf; ++outRemaining; } *outBuf++ = (result < 0) ? '!' : '^'; /* Error or Truncation? */ outRemaining--; /* pretend we ate all the data to prevent log stutter */ inCount = 0; if (result > 0) result = 0; } /* eat the silly terminating '\n' */ if (inCount == 1 && *eventData == '\n') { eventData++; inCount--; } if (inCount != 0) { fprintf(stderr, "Warning: leftover binary log data (%zu bytes)\n", inCount); } /* * Terminate the buffer. The NUL byte does not count as part of * entry->messageLen. */ *outBuf = '\0'; entry->messageLen = outBuf - messageBuf; assert(entry->messageLen == (messageBufLen - 1) - outRemaining); entry->message = messageBuf; return result; } /* * Convert to printable from message to p buffer, return string length. If p is * NULL, do not copy, but still return the expected string length. */ size_t convertPrintable(char* p, const char* message, size_t messageLen) { char* begin = p; bool print = p != NULL; mbstate_t mb_state = {}; while (messageLen) { char buf[6]; ssize_t len = sizeof(buf) - 1; if ((size_t)len > messageLen) { len = messageLen; } len = mbrtowc(nullptr, message, len, &mb_state); if (len < 0) { snprintf(buf, sizeof(buf), "\\x%02X", static_cast(*message)); len = 1; } else { buf[0] = '\0'; if (len == 1) { if (*message == '\a') { strcpy(buf, "\\a"); } else if (*message == '\b') { strcpy(buf, "\\b"); } else if (*message == '\t') { strcpy(buf, "\t"); /* Do not escape tabs */ } else if (*message == '\v') { strcpy(buf, "\\v"); } else if (*message == '\f') { strcpy(buf, "\\f"); } else if (*message == '\r') { strcpy(buf, "\\r"); } else if (*message == '\\') { strcpy(buf, "\\\\"); } else if ((*message < ' ') || (*message & 0x80)) { snprintf(buf, sizeof(buf), "\\x%02X", static_cast(*message)); } } if (!buf[0]) { strncpy(buf, message, len); buf[len] = '\0'; } } if (print) { strcpy(p, buf); } p += strlen(buf); message += len; messageLen -= len; } return p - begin; } #ifdef __ANDROID__ static char* readSeconds(char* e, struct timespec* t) { unsigned long multiplier; char* p; t->tv_sec = strtoul(e, &p, 10); if (*p != '.') { return NULL; } t->tv_nsec = 0; multiplier = NS_PER_SEC; while (isdigit(*++p) && (multiplier /= 10)) { t->tv_nsec += (*p - '0') * multiplier; } return p; } static struct timespec* sumTimespec(struct timespec* left, struct timespec* right) { left->tv_nsec += right->tv_nsec; left->tv_sec += right->tv_sec; if (left->tv_nsec >= (long)NS_PER_SEC) { left->tv_nsec -= NS_PER_SEC; left->tv_sec += 1; } return left; } static struct timespec* subTimespec(struct timespec* result, struct timespec* left, struct timespec* right) { result->tv_nsec = left->tv_nsec - right->tv_nsec; result->tv_sec = left->tv_sec - right->tv_sec; if (result->tv_nsec < 0) { result->tv_nsec += NS_PER_SEC; result->tv_sec -= 1; } return result; } static long long nsecTimespec(struct timespec* now) { return (long long)now->tv_sec * NS_PER_SEC + now->tv_nsec; } static void convertMonotonic(struct timespec* result, const AndroidLogEntry* entry) { struct listnode* node; struct conversionList { struct listnode node; /* first */ struct timespec time; struct timespec convert; } * list, *next; struct timespec time, convert; /* If we do not have a conversion list, build one up */ if (list_empty(&convertHead)) { bool suspended_pending = false; struct timespec suspended_monotonic = {0, 0}; struct timespec suspended_diff = {0, 0}; /* * Read dmesg for _some_ synchronization markers and insert * Anything in the Android Logger before the dmesg logging span will * be highly suspect regarding the monotonic time calculations. */ FILE* p = popen("/system/bin/dmesg", "re"); if (p) { char* line = NULL; size_t len = 0; while (getline(&line, &len, p) > 0) { static const char suspend[] = "PM: suspend entry "; static const char resume[] = "PM: suspend exit "; static const char healthd[] = "healthd"; static const char battery[] = ": battery "; static const char suspended[] = "Suspended for "; struct timespec monotonic; struct tm tm; char *cp, *e = line; bool add_entry = true; if (*e == '<') { while (*e && (*e != '>')) { ++e; } if (*e != '>') { continue; } } if (*e != '[') { continue; } while (*++e == ' ') { ; } e = readSeconds(e, &monotonic); if (!e || (*e != ']')) { continue; } if ((e = strstr(e, suspend))) { e += sizeof(suspend) - 1; } else if ((e = strstr(line, resume))) { e += sizeof(resume) - 1; } else if (((e = strstr(line, healthd))) && ((e = strstr(e + sizeof(healthd) - 1, battery)))) { /* NB: healthd is roughly 150us late, worth the price to * deal with ntp-induced or hardware clock drift. */ e += sizeof(battery) - 1; } else if ((e = strstr(line, suspended))) { e += sizeof(suspended) - 1; e = readSeconds(e, &time); if (!e) { continue; } add_entry = false; suspended_pending = true; suspended_monotonic = monotonic; suspended_diff = time; } else { continue; } if (add_entry) { /* look for "????-??-?? ??:??:??.????????? UTC" */ cp = strstr(e, " UTC"); if (!cp || ((cp - e) < 29) || (cp[-10] != '.')) { continue; } e = cp - 29; cp = readSeconds(cp - 10, &time); if (!cp) { continue; } cp = strptime(e, "%Y-%m-%d %H:%M:%S.", &tm); if (!cp) { continue; } cp = getenv(tz); if (cp) { cp = strdup(cp); } setenv(tz, utc, 1); time.tv_sec = mktime(&tm); if (cp) { setenv(tz, cp, 1); free(cp); } else { unsetenv(tz); } list = static_cast(calloc(1, sizeof(conversionList))); list_init(&list->node); list->time = time; subTimespec(&list->convert, &time, &monotonic); list_add_tail(&convertHead, &list->node); } if (suspended_pending && !list_empty(&convertHead)) { list = node_to_item(list_tail(&convertHead), struct conversionList, node); if (subTimespec(&time, subTimespec(&time, &list->time, &list->convert), &suspended_monotonic) ->tv_sec > 0) { /* resume, what is convert factor before? */ subTimespec(&convert, &list->convert, &suspended_diff); } else { /* suspend */ convert = list->convert; } time = suspended_monotonic; sumTimespec(&time, &convert); /* breakpoint just before sleep */ list = static_cast(calloc(1, sizeof(conversionList))); list_init(&list->node); list->time = time; list->convert = convert; list_add_tail(&convertHead, &list->node); /* breakpoint just after sleep */ list = static_cast(calloc(1, sizeof(conversionList))); list_init(&list->node); list->time = time; sumTimespec(&list->time, &suspended_diff); list->convert = convert; sumTimespec(&list->convert, &suspended_diff); list_add_tail(&convertHead, &list->node); suspended_pending = false; } } pclose(p); } /* last entry is our current time conversion */ list = static_cast(calloc(1, sizeof(conversionList))); list_init(&list->node); clock_gettime(CLOCK_REALTIME, &list->time); clock_gettime(CLOCK_MONOTONIC, &convert); clock_gettime(CLOCK_MONOTONIC, &time); /* Correct for instant clock_gettime latency (syscall or ~30ns) */ subTimespec(&time, &convert, subTimespec(&time, &time, &convert)); /* Calculate conversion factor */ subTimespec(&list->convert, &list->time, &time); list_add_tail(&convertHead, &list->node); if (suspended_pending) { /* manufacture a suspend @ point before */ subTimespec(&convert, &list->convert, &suspended_diff); time = suspended_monotonic; sumTimespec(&time, &convert); /* breakpoint just after sleep */ list = static_cast(calloc(1, sizeof(conversionList))); list_init(&list->node); list->time = time; sumTimespec(&list->time, &suspended_diff); list->convert = convert; sumTimespec(&list->convert, &suspended_diff); list_add_head(&convertHead, &list->node); /* breakpoint just before sleep */ list = static_cast(calloc(1, sizeof(conversionList))); list_init(&list->node); list->time = time; list->convert = convert; list_add_head(&convertHead, &list->node); } } /* Find the breakpoint in the conversion list */ list = node_to_item(list_head(&convertHead), struct conversionList, node); next = NULL; list_for_each(node, &convertHead) { next = node_to_item(node, struct conversionList, node); if (entry->tv_sec < next->time.tv_sec) { break; } else if (entry->tv_sec == next->time.tv_sec) { if (entry->tv_nsec < next->time.tv_nsec) { break; } } list = next; } /* blend time from one breakpoint to the next */ convert = list->convert; if (next) { unsigned long long total, run; total = nsecTimespec(subTimespec(&time, &next->time, &list->time)); time.tv_sec = entry->tv_sec; time.tv_nsec = entry->tv_nsec; run = nsecTimespec(subTimespec(&time, &time, &list->time)); if (run < total) { long long crun; float f = nsecTimespec(subTimespec(&time, &next->convert, &convert)); f *= run; f /= total; crun = f; convert.tv_sec += crun / (long long)NS_PER_SEC; if (crun < 0) { convert.tv_nsec -= (-crun) % NS_PER_SEC; if (convert.tv_nsec < 0) { convert.tv_nsec += NS_PER_SEC; convert.tv_sec -= 1; } } else { convert.tv_nsec += crun % NS_PER_SEC; if (convert.tv_nsec >= (long)NS_PER_SEC) { convert.tv_nsec -= NS_PER_SEC; convert.tv_sec += 1; } } } } /* Apply the correction factor */ result->tv_sec = entry->tv_sec; result->tv_nsec = entry->tv_nsec; subTimespec(result, result, &convert); } #endif /** * Formats a log message into a buffer * * Uses defaultBuffer if it can, otherwise malloc()'s a new buffer * If return value != defaultBuffer, caller must call free() * Returns NULL on malloc error */ char* android_log_formatLogLine(AndroidLogFormat* p_format, char* defaultBuffer, size_t defaultBufferSize, const AndroidLogEntry* entry, size_t* p_outLength) { #if !defined(_WIN32) struct tm tmBuf; #endif struct tm* ptm; /* good margin, 23+nul for msec, 26+nul for usec, 29+nul to nsec */ char timeBuf[64]; char prefixBuf[128], suffixBuf[128]; char priChar; int prefixSuffixIsHeaderFooter = 0; char* ret; time_t now; unsigned long nsec; priChar = filterPriToChar(entry->priority); size_t prefixLen = 0, suffixLen = 0; size_t len; /* * Get the current date/time in pretty form * * It's often useful when examining a log with "less" to jump to * a specific point in the file by searching for the date/time stamp. * For this reason it's very annoying to have regexp meta characters * in the time stamp. Don't use forward slashes, parenthesis, * brackets, asterisks, or other special chars here. * * The caller may have affected the timezone environment, this is * expected to be sensitive to that. */ now = entry->tv_sec; nsec = entry->tv_nsec; #if __ANDROID__ if (p_format->monotonic_output) { /* prevent convertMonotonic from being called if logd is monotonic */ if (android_log_clockid() != CLOCK_MONOTONIC) { struct timespec time; convertMonotonic(&time, entry); now = time.tv_sec; nsec = time.tv_nsec; } } #endif if (now < 0) { nsec = NS_PER_SEC - nsec; } if (p_format->epoch_output || p_format->monotonic_output) { ptm = NULL; snprintf(timeBuf, sizeof(timeBuf), p_format->monotonic_output ? "%6lld" : "%19lld", (long long)now); } else { #if !defined(_WIN32) ptm = localtime_r(&now, &tmBuf); #else ptm = localtime(&now); #endif strftime(timeBuf, sizeof(timeBuf), &"%Y-%m-%d %H:%M:%S"[p_format->year_output ? 0 : 3], ptm); } len = strlen(timeBuf); if (p_format->nsec_time_output) { len += snprintf(timeBuf + len, sizeof(timeBuf) - len, ".%09ld", nsec); } else if (p_format->usec_time_output) { len += snprintf(timeBuf + len, sizeof(timeBuf) - len, ".%06ld", nsec / US_PER_NSEC); } else { len += snprintf(timeBuf + len, sizeof(timeBuf) - len, ".%03ld", nsec / MS_PER_NSEC); } if (p_format->zone_output && ptm) { strftime(timeBuf + len, sizeof(timeBuf) - len, " %z", ptm); } /* * Construct a buffer containing the log header and log message. */ if (p_format->colored_output) { prefixLen = snprintf(prefixBuf, sizeof(prefixBuf), "\x1B[38;5;%dm", colorFromPri(entry->priority)); prefixLen = MIN(prefixLen, sizeof(prefixBuf)); const char suffixContents[] = "\x1B[0m"; strcpy(suffixBuf, suffixContents); suffixLen = strlen(suffixContents); } char uid[16]; uid[0] = '\0'; if (p_format->uid_output) { if (entry->uid >= 0) { /* * This code is Android specific, bionic guarantees that * calls to non-reentrant getpwuid() are thread safe. */ #ifdef __ANDROID__ struct passwd* pwd = getpwuid(entry->uid); if (pwd && (strlen(pwd->pw_name) <= 5)) { snprintf(uid, sizeof(uid), "%5s:", pwd->pw_name); } else #endif { /* Not worth parsing package list, names all longer than 5 */ snprintf(uid, sizeof(uid), "%5d:", entry->uid); } } else { snprintf(uid, sizeof(uid), " "); } } switch (p_format->format) { case FORMAT_TAG: len = snprintf(prefixBuf + prefixLen, sizeof(prefixBuf) - prefixLen, "%c/%-8.*s: ", priChar, (int)entry->tagLen, entry->tag); strcpy(suffixBuf + suffixLen, "\n"); ++suffixLen; break; case FORMAT_PROCESS: len = snprintf(suffixBuf + suffixLen, sizeof(suffixBuf) - suffixLen, " (%.*s)\n", (int)entry->tagLen, entry->tag); suffixLen += MIN(len, sizeof(suffixBuf) - suffixLen); len = snprintf(prefixBuf + prefixLen, sizeof(prefixBuf) - prefixLen, "%c(%s%5d) ", priChar, uid, entry->pid); break; case FORMAT_THREAD: len = snprintf(prefixBuf + prefixLen, sizeof(prefixBuf) - prefixLen, "%c(%s%5d:%5d) ", priChar, uid, entry->pid, entry->tid); strcpy(suffixBuf + suffixLen, "\n"); ++suffixLen; break; case FORMAT_RAW: prefixBuf[prefixLen] = 0; len = 0; strcpy(suffixBuf + suffixLen, "\n"); ++suffixLen; break; case FORMAT_TIME: len = snprintf(prefixBuf + prefixLen, sizeof(prefixBuf) - prefixLen, "%s %c/%-8.*s(%s%5d): ", timeBuf, priChar, (int)entry->tagLen, entry->tag, uid, entry->pid); strcpy(suffixBuf + suffixLen, "\n"); ++suffixLen; break; case FORMAT_THREADTIME: ret = strchr(uid, ':'); if (ret) { *ret = ' '; } len = snprintf(prefixBuf + prefixLen, sizeof(prefixBuf) - prefixLen, "%s %s%5d %5d %c %-8.*s: ", timeBuf, uid, entry->pid, entry->tid, priChar, (int)entry->tagLen, entry->tag); strcpy(suffixBuf + suffixLen, "\n"); ++suffixLen; break; case FORMAT_LONG: len = snprintf(prefixBuf + prefixLen, sizeof(prefixBuf) - prefixLen, "[ %s %s%5d:%5d %c/%-8.*s ]\n", timeBuf, uid, entry->pid, entry->tid, priChar, (int)entry->tagLen, entry->tag); strcpy(suffixBuf + suffixLen, "\n\n"); suffixLen += 2; prefixSuffixIsHeaderFooter = 1; break; case FORMAT_BRIEF: default: len = snprintf(prefixBuf + prefixLen, sizeof(prefixBuf) - prefixLen, "%c/%-8.*s(%s%5d): ", priChar, (int)entry->tagLen, entry->tag, uid, entry->pid); strcpy(suffixBuf + suffixLen, "\n"); ++suffixLen; break; } /* snprintf has a weird return value. It returns what would have been * written given a large enough buffer. In the case that the prefix is * longer then our buffer(128), it messes up the calculations below * possibly causing heap corruption. To avoid this we double check and * set the length at the maximum (size minus null byte) */ prefixLen += len; if (prefixLen >= sizeof(prefixBuf)) { prefixLen = sizeof(prefixBuf) - 1; prefixBuf[sizeof(prefixBuf) - 1] = '\0'; } if (suffixLen >= sizeof(suffixBuf)) { suffixLen = sizeof(suffixBuf) - 1; suffixBuf[sizeof(suffixBuf) - 2] = '\n'; suffixBuf[sizeof(suffixBuf) - 1] = '\0'; } /* the following code is tragically unreadable */ size_t numLines; char* p; size_t bufferSize; const char* pm; if (prefixSuffixIsHeaderFooter) { /* we're just wrapping message with a header/footer */ numLines = 1; } else { pm = entry->message; numLines = 0; /* * The line-end finding here must match the line-end finding * in for ( ... numLines...) loop below */ while (pm < (entry->message + entry->messageLen)) { if (*pm++ == '\n') numLines++; } /* plus one line for anything not newline-terminated at the end */ if (pm > entry->message && *(pm - 1) != '\n') numLines++; } /* * this is an upper bound--newlines in message may be counted * extraneously */ bufferSize = (numLines * (prefixLen + suffixLen)) + 1; if (p_format->printable_output) { /* Calculate extra length to convert non-printable to printable */ bufferSize += convertPrintable(NULL, entry->message, entry->messageLen); } else { bufferSize += entry->messageLen; } if (defaultBufferSize >= bufferSize) { ret = defaultBuffer; } else { ret = (char*)malloc(bufferSize); if (ret == NULL) { return ret; } } ret[0] = '\0'; /* to start strcat off */ p = ret; pm = entry->message; if (prefixSuffixIsHeaderFooter) { strcat(p, prefixBuf); p += prefixLen; if (p_format->printable_output) { p += convertPrintable(p, entry->message, entry->messageLen); } else { strncat(p, entry->message, entry->messageLen); p += entry->messageLen; } strcat(p, suffixBuf); p += suffixLen; } else { do { const char* lineStart; size_t lineLen; lineStart = pm; /* Find the next end-of-line in message */ while (pm < (entry->message + entry->messageLen) && *pm != '\n') pm++; lineLen = pm - lineStart; strcat(p, prefixBuf); p += prefixLen; if (p_format->printable_output) { p += convertPrintable(p, lineStart, lineLen); } else { strncat(p, lineStart, lineLen); p += lineLen; } strcat(p, suffixBuf); p += suffixLen; if (*pm == '\n') pm++; } while (pm < (entry->message + entry->messageLen)); } if (p_outLength != NULL) { *p_outLength = p - ret; } return ret; } /** * Either print or do not print log line, based on filter * * Returns count bytes written */ int android_log_printLogLine(AndroidLogFormat* p_format, int fd, const AndroidLogEntry* entry) { int ret; char defaultBuffer[512]; char* outBuffer = NULL; size_t totalLen; outBuffer = android_log_formatLogLine(p_format, defaultBuffer, sizeof(defaultBuffer), entry, &totalLen); if (!outBuffer) return -1; do { ret = write(fd, outBuffer, totalLen); } while (ret < 0 && errno == EINTR); if (ret < 0) { fprintf(stderr, "+++ LOG: write failed (errno=%d)\n", errno); ret = 0; goto done; } if (((size_t)ret) < totalLen) { fprintf(stderr, "+++ LOG: write partial (%d of %d)\n", ret, (int)totalLen); goto done; } done: if (outBuffer != defaultBuffer) { free(outBuffer); } return ret; }