platform_system_core/liblog/logprint.cpp

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/*
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**
** Copyright 2006-2014, The Android Open Source Project
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**
** 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
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#include <assert.h>
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#include <ctype.h>
#include <errno.h>
#include <inttypes.h>
#ifndef __MINGW32__
#include <pwd.h>
#endif
#include <stdbool.h>
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#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
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#include <string.h>
#include <sys/param.h>
#include <sys/types.h>
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#include <cutils/list.h>
#include <log/log.h>
#include <log/logprint.h>
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#include "log_portability.h"
#define MS_PER_NSEC 1000000
#define US_PER_NSEC 1000
#ifndef MIN
#define MIN(a, b) (((a) < (b)) ? (a) : (b))
#endif
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typedef struct FilterInfo_t {
char* mTag;
android_LogPriority mPri;
struct FilterInfo_t* p_next;
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} 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;
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};
/*
* 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 ; <color#> 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;
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p_ret = (FilterInfo*)calloc(1, sizeof(FilterInfo));
p_ret->mTag = strdup(tag);
p_ret->mPri = pri;
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return p_ret;
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}
/* balance to above, filterinfo_free left unimplemented */
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/*
* Note: also accepts 0-9 priorities
* returns ANDROID_LOG_UNKNOWN if the character is unrecognized
*/
static android_LogPriority filterCharToPri(char c) {
android_LogPriority pri;
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c = tolower(c);
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if (c >= '0' && c <= '9') {
if (c >= ('0' + ANDROID_LOG_SILENT)) {
pri = ANDROID_LOG_VERBOSE;
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} 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;
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}
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 */
}
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}
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;
}
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}
}
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return p_format->global_pri;
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}
/**
* returns 1 if this log line should be printed based on its priority
* and tag, and 0 if it should not
*/
LIBLOG_ABI_PUBLIC int android_log_shouldPrintLine(AndroidLogFormat* p_format, const char* tag,
android_LogPriority pri) {
return pri >= filterPriForTag(p_format, tag);
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}
LIBLOG_ABI_PUBLIC AndroidLogFormat* android_log_format_new() {
AndroidLogFormat* p_ret;
p_ret = static_cast<AndroidLogFormat*>(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;
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return p_ret;
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}
static list_declare(convertHead);
LIBLOG_ABI_PUBLIC void android_log_format_free(AndroidLogFormat* p_format) {
FilterInfo *p_info, *p_info_old;
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p_info = p_format->filters;
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while (p_info != NULL) {
p_info_old = p_info;
p_info = p_info->p_next;
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free(p_info_old);
}
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free(p_format);
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/* 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);
}
}
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LIBLOG_ABI_PUBLIC 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;
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}
static const char tz[] = "TZ";
static const char utc[] = "UTC";
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/**
* Returns FORMAT_OFF on invalid string
*/
LIBLOG_ABI_PUBLIC 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
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return format;
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}
/**
* filterExpression: a single filter expression
* eg "AT:d"
*
* returns 0 on success and -1 on invalid expression
*
* Assumes single threaded execution
*/
LIBLOG_ABI_PUBLIC int android_log_addFilterRule(AndroidLogFormat* p_format,
const char* filterExpression) {
size_t tagNameLength;
android_LogPriority pri = ANDROID_LOG_DEFAULT;
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tagNameLength = strcspn(filterExpression, ":");
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if (tagNameLength == 0) {
goto error;
}
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if (filterExpression[tagNameLength] == ':') {
pri = filterCharToPri(filterExpression[tagNameLength + 1]);
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if (pri == ANDROID_LOG_UNKNOWN) {
goto error;
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}
}
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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;
}
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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;
}
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char* tagName;
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/*
* Presently HAVE_STRNDUP is never defined, so the second case is always taken
* Darwin doesn't have strndup, everything else does
*/
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#ifdef HAVE_STRNDUP
tagName = strndup(filterExpression, tagNameLength);
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#else
/* a few extra bytes copied... */
tagName = strdup(filterExpression);
tagName[tagNameLength] = '\0';
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#endif /*HAVE_STRNDUP*/
FilterInfo* p_fi = filterinfo_new(tagName, pri);
free(tagName);
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p_fi->p_next = p_format->filters;
p_format->filters = p_fi;
}
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return 0;
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error:
return -1;
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}
#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
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/**
* 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
*
*/
LIBLOG_ABI_PUBLIC 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;
}
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}
}
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free(filterStringCopy);
return 0;
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error:
free(filterStringCopy);
return -1;
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}
/**
* 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)
*/
LIBLOG_ABI_PUBLIC 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: <priority:1><tag:N>\0<message:N>\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;
struct logger_entry_v2* buf2 = (struct logger_entry_v2*)buf;
if (buf2->hdr_size) {
if ((buf2->hdr_size < sizeof(((struct log_msg*)NULL)->entry_v1)) ||
(buf2->hdr_size > sizeof(((struct log_msg*)NULL)->entry))) {
fprintf(stderr, "+++ LOG: entry illegal hdr_size\n");
return -1;
}
msg = ((char*)buf2) + buf2->hdr_size;
if (buf2->hdr_size >= sizeof(struct logger_entry_v4)) {
entry->uid = ((struct logger_entry_v4*)buf)->uid;
}
}
for (i = 1; i < buf->len; i++) {
if (msg[i] == '\0') {
if (msgStart == -1) {
msgStart = i + 1;
} else {
msgEnd = i;
break;
}
}
}
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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<android_LogPriority>(msg[0]);
entry->tag = msg + 1;
entry->tagLen = msgStart - 1;
entry->message = msg + msgStart;
entry->messageLen = (msgEnd < msgStart) ? 0 : (msgEnd - msgStart);
return 0;
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}
/*
* Extract a 4-byte value from a byte stream.
*/
static inline uint32_t get4LE(const uint8_t* src) {
return src[0] | (src[1] << 8) | (src[2] << 16) | (src[3] << 24);
}
/*
* Extract an 8-byte value from a byte stream.
*/
static inline uint64_t get8LE(const uint8_t* src) {
uint32_t low, high;
low = src[0] | (src[1] << 8) | (src[2] << 16) | (src[3] << 24);
high = src[4] | (src[5] << 8) | (src[6] << 16) | (src[7] << 24);
return ((uint64_t)high << 32) | (uint64_t)low;
}
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;
}
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/*
* 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++;
eventDataLen--;
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
* (<name>|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) {
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case EVENT_TYPE_INT:
/* 32-bit signed int */
{
int32_t ival;
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if (eventDataLen < 4) return -1;
ival = get4LE(eventData);
eventData += 4;
eventDataLen -= 4;
2008-10-21 16:00:00 +02:00
lval = ival;
}
goto pr_lval;
2008-10-21 16:00:00 +02:00
case EVENT_TYPE_LONG:
/* 64-bit signed long */
if (eventDataLen < 8) return -1;
lval = get8LE(eventData);
eventData += 8;
eventDataLen -= 8;
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 */
{
uint32_t ival;
float fval;
if (eventDataLen < 4) return -1;
ival = get4LE(eventData);
fval = *(float*)&ival;
eventData += 4;
eventDataLen -= 4;
outCount = snprintf(outBuf, outBufLen, "%f", fval);
if (outCount < outBufLen) {
outBuf += outCount;
outBufLen -= outCount;
} else {
/* halt output */
goto no_room;
2008-10-21 16:00:00 +02:00
}
}
break;
2008-10-21 16:00:00 +02:00
case EVENT_TYPE_STRING:
/* UTF-8 chars, not NULL-terminated */
{
unsigned int strLen;
2008-10-21 16:00:00 +02:00
if (eventDataLen < 4) return -1;
strLen = get4LE(eventData);
eventData += 4;
eventDataLen -= 4;
if (eventDataLen < strLen) {
result = -1; /* mark truncated */
strLen = eventDataLen;
2008-10-21 16:00:00 +02:00
}
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 */
{
unsigned char count;
int i;
2008-10-21 16:00:00 +02:00
if (eventDataLen < 1) return -1;
2008-10-21 16:00:00 +02:00
count = *eventData++;
eventDataLen--;
if (outBufLen <= 0) goto no_room;
2008-10-21 16:00:00 +02:00
*outBuf++ = '[';
outBufLen--;
2008-10-21 16:00:00 +02:00
for (i = 0; i < count; i++) {
result = android_log_printBinaryEvent(&eventData, &eventDataLen, &outBuf, &outBufLen,
fmtStr, fmtLen);
if (result != 0) goto bail;
2008-10-21 16:00:00 +02:00
if (i < (count - 1)) {
if (outBufLen <= 0) goto no_room;
*outBuf++ = ',';
outBufLen--;
}
2008-10-21 16:00:00 +02:00
}
if (outBufLen <= 0) goto no_room;
*outBuf++ = ']';
outBufLen--;
}
break;
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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;
}
2008-10-21 16:00:00 +02:00
bail:
*pEventData = eventData;
*pEventDataLen = eventDataLen;
*pOutBuf = outBuf;
*pOutBufLen = outBufLen;
if (cp) {
*fmtStr = cp;
*fmtLen = len;
}
return result;
2008-10-21 16:00:00 +02:00
no_room:
result = 1;
goto bail;
2008-10-21 16:00:00 +02:00
}
/**
* 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.
*/
LIBLOG_ABI_PUBLIC 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;
/*
* Pull the tag out, fill in some additional details based on incoming
* buffer version (v3 adds lid, v4 adds uid).
*/
eventData = (const unsigned char*)buf->msg;
struct logger_entry_v2* buf2 = (struct logger_entry_v2*)buf;
if (buf2->hdr_size) {
if ((buf2->hdr_size < sizeof(((struct log_msg*)NULL)->entry_v1)) ||
(buf2->hdr_size > sizeof(((struct log_msg*)NULL)->entry))) {
fprintf(stderr, "+++ LOG: entry illegal hdr_size\n");
return -1;
}
eventData = ((unsigned char*)buf2) + buf2->hdr_size;
if ((buf2->hdr_size >= sizeof(struct logger_entry_v3)) &&
(((struct logger_entry_v3*)buf)->lid == LOG_ID_SECURITY)) {
entry->priority = ANDROID_LOG_WARN;
}
if (buf2->hdr_size >= sizeof(struct logger_entry_v4)) {
entry->uid = ((struct logger_entry_v4*)buf)->uid;
}
}
inCount = buf->len;
if (inCount < 4) return -1;
tagIndex = get4LE(eventData);
eventData += 4;
inCount -= 4;
entry->tagLen = 0;
entry->tag = NULL;
#ifdef __ANDROID__
if (map != NULL) {
entry->tag = android_lookupEventTag_len(map, &entry->tagLen, tagIndex);
}
#endif
2008-10-21 16:00:00 +02:00
/*
* 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;
2008-10-21 16:00:00 +02:00
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;
if (buf2->hdr_size) {
eventData = ((unsigned char*)buf2) + buf2->hdr_size;
2008-10-21 16:00:00 +02:00
}
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;
2008-10-21 16:00:00 +02:00
}
/*
* One utf8 character at a time
*
* Returns the length of the utf8 character in the buffer,
* or -1 if illegal or truncated
*
* Open coded from libutils/Unicode.cpp, borrowed from utf8_length(),
* can not remove from here because of library circular dependencies.
* Expect one-day utf8_character_length with the same signature could
* _also_ be part of libutils/Unicode.cpp if its usefullness needs to
* propagate globally.
*/
LIBLOG_WEAK ssize_t utf8_character_length(const char* src, size_t len) {
const char* cur = src;
const char first_char = *cur++;
static const uint32_t kUnicodeMaxCodepoint = 0x0010FFFF;
int32_t mask, to_ignore_mask;
size_t num_to_read;
uint32_t utf32;
if ((first_char & 0x80) == 0) { /* ASCII */
return first_char ? 1 : -1;
}
/*
* (UTF-8's character must not be like 10xxxxxx,
* but 110xxxxx, 1110xxxx, ... or 1111110x)
*/
if ((first_char & 0x40) == 0) {
return -1;
}
for (utf32 = 1, num_to_read = 1, mask = 0x40, to_ignore_mask = 0x80;
num_to_read < 5 && (first_char & mask); num_to_read++, to_ignore_mask |= mask, mask >>= 1) {
if (num_to_read > len) {
return -1;
}
if ((*cur & 0xC0) != 0x80) { /* can not be 10xxxxxx? */
return -1;
}
utf32 = (utf32 << 6) + (*cur++ & 0b00111111);
}
/* "first_char" must be (110xxxxx - 11110xxx) */
if (num_to_read >= 5) {
return -1;
}
to_ignore_mask |= mask;
utf32 |= ((~to_ignore_mask) & first_char) << (6 * (num_to_read - 1));
if (utf32 > kUnicodeMaxCodepoint) {
return -1;
}
return num_to_read;
}
/*
* 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.
*/
static size_t convertPrintable(char* p, const char* message, size_t messageLen) {
char* begin = p;
bool print = p != NULL;
while (messageLen) {
char buf[6];
ssize_t len = sizeof(buf) - 1;
if ((size_t)len > messageLen) {
len = messageLen;
}
len = utf8_character_length(message, len);
if (len < 0) {
snprintf(buf, sizeof(buf), ((messageLen > 1) && isdigit(message[1])) ? "\\%03o" : "\\%o",
*message & 0377);
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), "\\%o", *message & 0377);
}
}
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;
}
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;
}
#ifdef __ANDROID__
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<conversionList*>(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<conversionList*>(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<conversionList*>(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<conversionList*>(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<conversionList*>(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<conversionList*>(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
2008-10-21 16:00:00 +02:00
/**
* 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
*/
LIBLOG_ABI_PUBLIC 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;
2008-10-21 16:00:00 +02:00
#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);
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#else
ptm = localtime(&now);
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#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.
*/
#if !defined(__MINGW32__)
#if (FAKE_LOG_DEVICE == 0)
#ifndef __BIONIC__
#warning "This code assumes that getpwuid is thread safe, only true with Bionic!"
#endif
#endif
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);
}
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} 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;
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/*
* 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;
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}
/**
* Either print or do not print log line, based on filter
*
* Returns count bytes written
*/
LIBLOG_ABI_PUBLIC int android_log_printLogLine(AndroidLogFormat* p_format, int fd,
const AndroidLogEntry* entry) {
int ret;
char defaultBuffer[512];
char* outBuffer = NULL;
size_t totalLen;
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outBuffer =
android_log_formatLogLine(p_format, defaultBuffer, sizeof(defaultBuffer), entry, &totalLen);
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if (!outBuffer) return -1;
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do {
ret = write(fd, outBuffer, totalLen);
} while (ret < 0 && errno == EINTR);
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if (ret < 0) {
fprintf(stderr, "+++ LOG: write failed (errno=%d)\n", errno);
ret = 0;
goto done;
}
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if (((size_t)ret) < totalLen) {
fprintf(stderr, "+++ LOG: write partial (%d of %d)\n", ret, (int)totalLen);
goto done;
}
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done:
if (outBuffer != defaultBuffer) {
free(outBuffer);
}
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return ret;
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}