ClashX/Pods/CocoaLumberjack/Classes/DDFileLogger.m

1501 lines
50 KiB
Objective-C

// Software License Agreement (BSD License)
//
// Copyright (c) 2010-2016, Deusty, LLC
// All rights reserved.
//
// Redistribution and use of this software in source and binary forms,
// with or without modification, are permitted provided that the following conditions are met:
//
// * Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer.
//
// * Neither the name of Deusty nor the names of its contributors may be used
// to endorse or promote products derived from this software without specific
// prior written permission of Deusty, LLC.
#import "DDFileLogger.h"
#import <unistd.h>
#import <sys/attr.h>
#import <sys/xattr.h>
#import <libkern/OSAtomic.h>
#if !__has_feature(objc_arc)
#error This file must be compiled with ARC. Use -fobjc-arc flag (or convert project to ARC).
#endif
// We probably shouldn't be using DDLog() statements within the DDLog implementation.
// But we still want to leave our log statements for any future debugging,
// and to allow other developers to trace the implementation (which is a great learning tool).
//
// So we use primitive logging macros around NSLog.
// We maintain the NS prefix on the macros to be explicit about the fact that we're using NSLog.
#ifndef DD_NSLOG_LEVEL
#define DD_NSLOG_LEVEL 2
#endif
#define NSLogError(frmt, ...) do{ if(DD_NSLOG_LEVEL >= 1) NSLog((frmt), ##__VA_ARGS__); } while(0)
#define NSLogWarn(frmt, ...) do{ if(DD_NSLOG_LEVEL >= 2) NSLog((frmt), ##__VA_ARGS__); } while(0)
#define NSLogInfo(frmt, ...) do{ if(DD_NSLOG_LEVEL >= 3) NSLog((frmt), ##__VA_ARGS__); } while(0)
#define NSLogDebug(frmt, ...) do{ if(DD_NSLOG_LEVEL >= 4) NSLog((frmt), ##__VA_ARGS__); } while(0)
#define NSLogVerbose(frmt, ...) do{ if(DD_NSLOG_LEVEL >= 5) NSLog((frmt), ##__VA_ARGS__); } while(0)
#if TARGET_OS_IPHONE
BOOL doesAppRunInBackground(void);
#endif
unsigned long long const kDDDefaultLogMaxFileSize = 1024 * 1024; // 1 MB
NSTimeInterval const kDDDefaultLogRollingFrequency = 60 * 60 * 24; // 24 Hours
NSUInteger const kDDDefaultLogMaxNumLogFiles = 5; // 5 Files
unsigned long long const kDDDefaultLogFilesDiskQuota = 20 * 1024 * 1024; // 20 MB
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#pragma mark -
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
@interface DDLogFileManagerDefault () {
NSUInteger _maximumNumberOfLogFiles;
unsigned long long _logFilesDiskQuota;
NSString *_logsDirectory;
#if TARGET_OS_IPHONE
NSFileProtectionType _defaultFileProtectionLevel;
#endif
}
- (void)deleteOldLogFiles;
- (NSString *)defaultLogsDirectory;
@end
@implementation DDLogFileManagerDefault
@synthesize maximumNumberOfLogFiles = _maximumNumberOfLogFiles;
@synthesize logFilesDiskQuota = _logFilesDiskQuota;
- (instancetype)init {
return [self initWithLogsDirectory:nil];
}
- (instancetype)initWithLogsDirectory:(NSString *)aLogsDirectory {
if ((self = [super init])) {
_maximumNumberOfLogFiles = kDDDefaultLogMaxNumLogFiles;
_logFilesDiskQuota = kDDDefaultLogFilesDiskQuota;
if (aLogsDirectory) {
_logsDirectory = [aLogsDirectory copy];
} else {
_logsDirectory = [[self defaultLogsDirectory] copy];
}
NSKeyValueObservingOptions kvoOptions = NSKeyValueObservingOptionOld | NSKeyValueObservingOptionNew;
[self addObserver:self forKeyPath:NSStringFromSelector(@selector(maximumNumberOfLogFiles)) options:kvoOptions context:nil];
[self addObserver:self forKeyPath:NSStringFromSelector(@selector(logFilesDiskQuota)) options:kvoOptions context:nil];
NSLogVerbose(@"DDFileLogManagerDefault: logsDirectory:\n%@", [self logsDirectory]);
NSLogVerbose(@"DDFileLogManagerDefault: sortedLogFileNames:\n%@", [self sortedLogFileNames]);
}
return self;
}
+ (BOOL)automaticallyNotifiesObserversForKey:(NSString *)theKey
{
BOOL automatic = NO;
if ([theKey isEqualToString:@"maximumNumberOfLogFiles"] || [theKey isEqualToString:@"logFilesDiskQuota"]) {
automatic = NO;
} else {
automatic = [super automaticallyNotifiesObserversForKey:theKey];
}
return automatic;
}
#if TARGET_OS_IPHONE
- (instancetype)initWithLogsDirectory:(NSString *)logsDirectory defaultFileProtectionLevel:(NSFileProtectionType)fileProtectionLevel {
if ((self = [self initWithLogsDirectory:logsDirectory])) {
if ([fileProtectionLevel isEqualToString:NSFileProtectionNone] ||
[fileProtectionLevel isEqualToString:NSFileProtectionComplete] ||
[fileProtectionLevel isEqualToString:NSFileProtectionCompleteUnlessOpen] ||
[fileProtectionLevel isEqualToString:NSFileProtectionCompleteUntilFirstUserAuthentication]) {
_defaultFileProtectionLevel = fileProtectionLevel;
}
}
return self;
}
#endif
- (void)dealloc {
// try-catch because the observer might be removed or never added. In this case, removeObserver throws and exception
@try {
[self removeObserver:self forKeyPath:NSStringFromSelector(@selector(maximumNumberOfLogFiles))];
[self removeObserver:self forKeyPath:NSStringFromSelector(@selector(logFilesDiskQuota))];
} @catch (NSException *exception) {
}
}
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#pragma mark Configuration
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
- (void)observeValueForKeyPath:(NSString *)keyPath
ofObject:(id)object
change:(NSDictionary *)change
context:(void *)context {
NSNumber *old = change[NSKeyValueChangeOldKey];
NSNumber *new = change[NSKeyValueChangeNewKey];
if ([old isEqual:new]) {
// No change in value - don't bother with any processing.
return;
}
if ([keyPath isEqualToString:NSStringFromSelector(@selector(maximumNumberOfLogFiles))] ||
[keyPath isEqualToString:NSStringFromSelector(@selector(logFilesDiskQuota))]) {
NSLogInfo(@"DDFileLogManagerDefault: Responding to configuration change: %@", keyPath);
dispatch_async([DDLog loggingQueue], ^{ @autoreleasepool {
[self deleteOldLogFiles];
} });
}
}
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#pragma mark File Deleting
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
/**
* Deletes archived log files that exceed the maximumNumberOfLogFiles or logFilesDiskQuota configuration values.
**/
- (void)deleteOldLogFiles {
NSLogVerbose(@"DDLogFileManagerDefault: deleteOldLogFiles");
NSArray *sortedLogFileInfos = [self sortedLogFileInfos];
NSUInteger firstIndexToDelete = NSNotFound;
const unsigned long long diskQuota = self.logFilesDiskQuota;
const NSUInteger maxNumLogFiles = self.maximumNumberOfLogFiles;
if (diskQuota) {
unsigned long long used = 0;
for (NSUInteger i = 0; i < sortedLogFileInfos.count; i++) {
DDLogFileInfo *info = sortedLogFileInfos[i];
used += info.fileSize;
if (used > diskQuota) {
firstIndexToDelete = i;
break;
}
}
}
if (maxNumLogFiles) {
if (firstIndexToDelete == NSNotFound) {
firstIndexToDelete = maxNumLogFiles;
} else {
firstIndexToDelete = MIN(firstIndexToDelete, maxNumLogFiles);
}
}
if (firstIndexToDelete == 0) {
// Do we consider the first file?
// We are only supposed to be deleting archived files.
// In most cases, the first file is likely the log file that is currently being written to.
// So in most cases, we do not want to consider this file for deletion.
if (sortedLogFileInfos.count > 0) {
DDLogFileInfo *logFileInfo = sortedLogFileInfos[0];
if (!logFileInfo.isArchived) {
// Don't delete active file.
++firstIndexToDelete;
}
}
}
if (firstIndexToDelete != NSNotFound) {
// removing all logfiles starting with firstIndexToDelete
for (NSUInteger i = firstIndexToDelete; i < sortedLogFileInfos.count; i++) {
DDLogFileInfo *logFileInfo = sortedLogFileInfos[i];
NSLogInfo(@"DDLogFileManagerDefault: Deleting file: %@", logFileInfo.fileName);
[[NSFileManager defaultManager] removeItemAtPath:logFileInfo.filePath error:nil];
}
}
}
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#pragma mark Log Files
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
/**
* Returns the path to the default logs directory.
* If the logs directory doesn't exist, this method automatically creates it.
**/
- (NSString *)defaultLogsDirectory {
#if TARGET_OS_IPHONE
NSArray *paths = NSSearchPathForDirectoriesInDomains(NSCachesDirectory, NSUserDomainMask, YES);
NSString *baseDir = paths.firstObject;
NSString *logsDirectory = [baseDir stringByAppendingPathComponent:@"Logs"];
#else
NSString *appName = [[NSProcessInfo processInfo] processName];
NSArray *paths = NSSearchPathForDirectoriesInDomains(NSLibraryDirectory, NSUserDomainMask, YES);
NSString *basePath = ([paths count] > 0) ? paths[0] : NSTemporaryDirectory();
NSString *logsDirectory = [[basePath stringByAppendingPathComponent:@"Logs"] stringByAppendingPathComponent:appName];
#endif
return logsDirectory;
}
- (NSString *)logsDirectory {
// We could do this check once, during initalization, and not bother again.
// But this way the code continues to work if the directory gets deleted while the code is running.
if (![[NSFileManager defaultManager] fileExistsAtPath:_logsDirectory]) {
NSError *err = nil;
if (![[NSFileManager defaultManager] createDirectoryAtPath:_logsDirectory
withIntermediateDirectories:YES
attributes:nil
error:&err]) {
NSLogError(@"DDFileLogManagerDefault: Error creating logsDirectory: %@", err);
}
}
return _logsDirectory;
}
- (BOOL)isLogFile:(NSString *)fileName {
NSString *appName = [self applicationName];
// We need to add a space to the name as otherwise we could match applications that have the name prefix.
BOOL hasProperPrefix = [fileName hasPrefix:[appName stringByAppendingString:@" "]];
BOOL hasProperSuffix = [fileName hasSuffix:@".log"];
return (hasProperPrefix && hasProperSuffix);
}
// if you change formatter, then change sortedLogFileInfos method also accordingly
- (NSDateFormatter *)logFileDateFormatter {
NSMutableDictionary *dictionary = [[NSThread currentThread]
threadDictionary];
NSString *dateFormat = @"yyyy'-'MM'-'dd'--'HH'-'mm'-'ss'-'SSS'";
NSString *key = [NSString stringWithFormat:@"logFileDateFormatter.%@", dateFormat];
NSDateFormatter *dateFormatter = dictionary[key];
if (dateFormatter == nil) {
dateFormatter = [[NSDateFormatter alloc] init];
[dateFormatter setLocale:[NSLocale localeWithLocaleIdentifier:@"en_US_POSIX"]];
[dateFormatter setDateFormat:dateFormat];
[dateFormatter setTimeZone:[NSTimeZone timeZoneForSecondsFromGMT:0]];
dictionary[key] = dateFormatter;
}
return dateFormatter;
}
- (NSArray *)unsortedLogFilePaths {
NSString *logsDirectory = [self logsDirectory];
NSArray *fileNames = [[NSFileManager defaultManager] contentsOfDirectoryAtPath:logsDirectory error:nil];
NSMutableArray *unsortedLogFilePaths = [NSMutableArray arrayWithCapacity:[fileNames count]];
for (NSString *fileName in fileNames) {
// Filter out any files that aren't log files. (Just for extra safety)
#if TARGET_IPHONE_SIMULATOR
// In case of iPhone simulator there can be 'archived' extension. isLogFile:
// method knows nothing about it. Thus removing it for this method.
//
// See full explanation in the header file.
NSString *theFileName = [fileName stringByReplacingOccurrencesOfString:@".archived"
withString:@""];
if ([self isLogFile:theFileName])
#else
if ([self isLogFile:fileName])
#endif
{
NSString *filePath = [logsDirectory stringByAppendingPathComponent:fileName];
[unsortedLogFilePaths addObject:filePath];
}
}
return unsortedLogFilePaths;
}
- (NSArray *)unsortedLogFileNames {
NSArray *unsortedLogFilePaths = [self unsortedLogFilePaths];
NSMutableArray *unsortedLogFileNames = [NSMutableArray arrayWithCapacity:[unsortedLogFilePaths count]];
for (NSString *filePath in unsortedLogFilePaths) {
[unsortedLogFileNames addObject:[filePath lastPathComponent]];
}
return unsortedLogFileNames;
}
- (NSArray *)unsortedLogFileInfos {
NSArray *unsortedLogFilePaths = [self unsortedLogFilePaths];
NSMutableArray *unsortedLogFileInfos = [NSMutableArray arrayWithCapacity:[unsortedLogFilePaths count]];
for (NSString *filePath in unsortedLogFilePaths) {
DDLogFileInfo *logFileInfo = [[DDLogFileInfo alloc] initWithFilePath:filePath];
[unsortedLogFileInfos addObject:logFileInfo];
}
return unsortedLogFileInfos;
}
- (NSArray *)sortedLogFilePaths {
NSArray *sortedLogFileInfos = [self sortedLogFileInfos];
NSMutableArray *sortedLogFilePaths = [NSMutableArray arrayWithCapacity:[sortedLogFileInfos count]];
for (DDLogFileInfo *logFileInfo in sortedLogFileInfos) {
[sortedLogFilePaths addObject:[logFileInfo filePath]];
}
return sortedLogFilePaths;
}
- (NSArray *)sortedLogFileNames {
NSArray *sortedLogFileInfos = [self sortedLogFileInfos];
NSMutableArray *sortedLogFileNames = [NSMutableArray arrayWithCapacity:[sortedLogFileInfos count]];
for (DDLogFileInfo *logFileInfo in sortedLogFileInfos) {
[sortedLogFileNames addObject:[logFileInfo fileName]];
}
return sortedLogFileNames;
}
- (NSArray *)sortedLogFileInfos {
return [[self unsortedLogFileInfos] sortedArrayUsingComparator:^NSComparisonResult(DDLogFileInfo * _Nonnull obj1, DDLogFileInfo * _Nonnull obj2) {
NSDate *date1 = [NSDate new];
NSDate *date2 = [NSDate new];
NSArray<NSString *> *arrayComponent = [[obj1 fileName] componentsSeparatedByString:@" "];
if (arrayComponent.count > 0) {
NSString *stringDate = arrayComponent.lastObject;
stringDate = [stringDate stringByReplacingOccurrencesOfString:@".log" withString:@""];
stringDate = [stringDate stringByReplacingOccurrencesOfString:@".archived" withString:@""];
date1 = [[self logFileDateFormatter] dateFromString:stringDate] ?: [obj1 creationDate];
}
arrayComponent = [[obj2 fileName] componentsSeparatedByString:@" "];
if (arrayComponent.count > 0) {
NSString *stringDate = arrayComponent.lastObject;
stringDate = [stringDate stringByReplacingOccurrencesOfString:@".log" withString:@""];
stringDate = [stringDate stringByReplacingOccurrencesOfString:@".archived" withString:@""];
date2 = [[self logFileDateFormatter] dateFromString:stringDate] ?: [obj2 creationDate];
}
return [date2 compare:date1 ?: [NSDate new]];
}];
}
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#pragma mark Creation
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
//if you change newLogFileName , then change isLogFile method also accordingly
- (NSString *)newLogFileName {
NSString *appName = [self applicationName];
NSDateFormatter *dateFormatter = [self logFileDateFormatter];
NSString *formattedDate = [dateFormatter stringFromDate:[NSDate date]];
return [NSString stringWithFormat:@"%@ %@.log", appName, formattedDate];
}
- (NSString *)createNewLogFile {
NSString *fileName = [self newLogFileName];
NSString *logsDirectory = [self logsDirectory];
NSUInteger attempt = 1;
do {
NSString *actualFileName = fileName;
if (attempt > 1) {
NSString *extension = [actualFileName pathExtension];
actualFileName = [actualFileName stringByDeletingPathExtension];
actualFileName = [actualFileName stringByAppendingFormat:@" %lu", (unsigned long)attempt];
if (extension.length) {
actualFileName = [actualFileName stringByAppendingPathExtension:extension];
}
}
NSString *filePath = [logsDirectory stringByAppendingPathComponent:actualFileName];
if (![[NSFileManager defaultManager] fileExistsAtPath:filePath]) {
NSLogVerbose(@"DDLogFileManagerDefault: Creating new log file: %@", actualFileName);
NSDictionary *attributes = nil;
#if TARGET_OS_IPHONE
// When creating log file on iOS we're setting NSFileProtectionKey attribute to NSFileProtectionCompleteUnlessOpen.
//
// But in case if app is able to launch from background we need to have an ability to open log file any time we
// want (even if device is locked). Thats why that attribute have to be changed to
// NSFileProtectionCompleteUntilFirstUserAuthentication.
NSFileProtectionType key = _defaultFileProtectionLevel ? :
(doesAppRunInBackground() ? NSFileProtectionCompleteUntilFirstUserAuthentication : NSFileProtectionCompleteUnlessOpen);
attributes = @{
NSFileProtectionKey: key
};
#endif
[[NSFileManager defaultManager] createFileAtPath:filePath contents:nil attributes:attributes];
// Since we just created a new log file, we may need to delete some old log files
[self deleteOldLogFiles];
return filePath;
} else {
attempt++;
}
} while (YES);
}
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#pragma mark Utility
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
- (NSString *)applicationName {
static NSString *_appName;
static dispatch_once_t onceToken;
dispatch_once(&onceToken, ^{
_appName = [[NSBundle mainBundle] objectForInfoDictionaryKey:@"CFBundleIdentifier"];
if (!_appName) {
_appName = [[NSProcessInfo processInfo] processName];
}
if (!_appName) {
_appName = @"";
}
});
return _appName;
}
@end
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#pragma mark -
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
@interface DDLogFileFormatterDefault () {
NSDateFormatter *_dateFormatter;
}
@end
@implementation DDLogFileFormatterDefault
- (instancetype)init {
return [self initWithDateFormatter:nil];
}
- (instancetype)initWithDateFormatter:(NSDateFormatter *)aDateFormatter {
if ((self = [super init])) {
if (aDateFormatter) {
_dateFormatter = aDateFormatter;
} else {
_dateFormatter = [[NSDateFormatter alloc] init];
[_dateFormatter setFormatterBehavior:NSDateFormatterBehavior10_4]; // 10.4+ style
[_dateFormatter setDateFormat:@"yyyy/MM/dd HH:mm:ss:SSS"];
}
}
return self;
}
- (NSString *)formatLogMessage:(DDLogMessage *)logMessage {
NSString *dateAndTime = [_dateFormatter stringFromDate:(logMessage->_timestamp)];
return [NSString stringWithFormat:@"%@ %@", dateAndTime, logMessage->_message];
}
@end
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#pragma mark -
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
@interface DDFileLogger () {
__strong id <DDLogFileManager> _logFileManager;
NSFileHandle *_currentLogFileHandle;
dispatch_source_t _currentLogFileVnode;
dispatch_source_t _rollingTimer;
unsigned long long _maximumFileSize;
NSTimeInterval _rollingFrequency;
}
- (void)rollLogFileNow;
- (void)maybeRollLogFileDueToAge;
- (void)maybeRollLogFileDueToSize;
@end
@implementation DDFileLogger
- (instancetype)init {
DDLogFileManagerDefault *defaultLogFileManager = [[DDLogFileManagerDefault alloc] init];
return [self initWithLogFileManager:defaultLogFileManager];
}
- (instancetype)initWithLogFileManager:(id <DDLogFileManager>)aLogFileManager {
if ((self = [super init])) {
_maximumFileSize = kDDDefaultLogMaxFileSize;
_rollingFrequency = kDDDefaultLogRollingFrequency;
_automaticallyAppendNewlineForCustomFormatters = YES;
logFileManager = aLogFileManager;
self.logFormatter = [DDLogFileFormatterDefault new];
}
return self;
}
- (void)dealloc {
[_currentLogFileHandle synchronizeFile];
[_currentLogFileHandle closeFile];
if (_currentLogFileVnode) {
dispatch_source_cancel(_currentLogFileVnode);
_currentLogFileVnode = NULL;
}
if (_rollingTimer) {
dispatch_source_cancel(_rollingTimer);
_rollingTimer = NULL;
}
}
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#pragma mark Properties
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
@synthesize logFileManager;
- (unsigned long long)maximumFileSize {
__block unsigned long long result;
dispatch_block_t block = ^{
result = self->_maximumFileSize;
};
// The design of this method is taken from the DDAbstractLogger implementation.
// For extensive documentation please refer to the DDAbstractLogger implementation.
// Note: The internal implementation MUST access the maximumFileSize variable directly,
// This method is designed explicitly for external access.
//
// Using "self." syntax to go through this method will cause immediate deadlock.
// This is the intended result. Fix it by accessing the ivar directly.
// Great strides have been take to ensure this is safe to do. Plus it's MUCH faster.
NSAssert(![self isOnGlobalLoggingQueue], @"Core architecture requirement failure");
NSAssert(![self isOnInternalLoggerQueue], @"MUST access ivar directly, NOT via self.* syntax.");
dispatch_queue_t globalLoggingQueue = [DDLog loggingQueue];
dispatch_sync(globalLoggingQueue, ^{
dispatch_sync(self.loggerQueue, block);
});
return result;
}
- (void)setMaximumFileSize:(unsigned long long)newMaximumFileSize {
dispatch_block_t block = ^{
@autoreleasepool {
self->_maximumFileSize = newMaximumFileSize;
[self maybeRollLogFileDueToSize];
}
};
// The design of this method is taken from the DDAbstractLogger implementation.
// For extensive documentation please refer to the DDAbstractLogger implementation.
// Note: The internal implementation MUST access the maximumFileSize variable directly,
// This method is designed explicitly for external access.
//
// Using "self." syntax to go through this method will cause immediate deadlock.
// This is the intended result. Fix it by accessing the ivar directly.
// Great strides have been take to ensure this is safe to do. Plus it's MUCH faster.
NSAssert(![self isOnGlobalLoggingQueue], @"Core architecture requirement failure");
NSAssert(![self isOnInternalLoggerQueue], @"MUST access ivar directly, NOT via self.* syntax.");
dispatch_queue_t globalLoggingQueue = [DDLog loggingQueue];
dispatch_async(globalLoggingQueue, ^{
dispatch_async(self.loggerQueue, block);
});
}
- (NSTimeInterval)rollingFrequency {
__block NSTimeInterval result;
dispatch_block_t block = ^{
result = self->_rollingFrequency;
};
// The design of this method is taken from the DDAbstractLogger implementation.
// For extensive documentation please refer to the DDAbstractLogger implementation.
// Note: The internal implementation should access the rollingFrequency variable directly,
// This method is designed explicitly for external access.
//
// Using "self." syntax to go through this method will cause immediate deadlock.
// This is the intended result. Fix it by accessing the ivar directly.
// Great strides have been take to ensure this is safe to do. Plus it's MUCH faster.
NSAssert(![self isOnGlobalLoggingQueue], @"Core architecture requirement failure");
NSAssert(![self isOnInternalLoggerQueue], @"MUST access ivar directly, NOT via self.* syntax.");
dispatch_queue_t globalLoggingQueue = [DDLog loggingQueue];
dispatch_sync(globalLoggingQueue, ^{
dispatch_sync(self.loggerQueue, block);
});
return result;
}
- (void)setRollingFrequency:(NSTimeInterval)newRollingFrequency {
dispatch_block_t block = ^{
@autoreleasepool {
self->_rollingFrequency = newRollingFrequency;
[self maybeRollLogFileDueToAge];
}
};
// The design of this method is taken from the DDAbstractLogger implementation.
// For extensive documentation please refer to the DDAbstractLogger implementation.
// Note: The internal implementation should access the rollingFrequency variable directly,
// This method is designed explicitly for external access.
//
// Using "self." syntax to go through this method will cause immediate deadlock.
// This is the intended result. Fix it by accessing the ivar directly.
// Great strides have been take to ensure this is safe to do. Plus it's MUCH faster.
NSAssert(![self isOnGlobalLoggingQueue], @"Core architecture requirement failure");
NSAssert(![self isOnInternalLoggerQueue], @"MUST access ivar directly, NOT via self.* syntax.");
dispatch_queue_t globalLoggingQueue = [DDLog loggingQueue];
dispatch_async(globalLoggingQueue, ^{
dispatch_async(self.loggerQueue, block);
});
}
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#pragma mark File Rolling
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
- (void)scheduleTimerToRollLogFileDueToAge {
if (_rollingTimer) {
dispatch_source_cancel(_rollingTimer);
_rollingTimer = NULL;
}
if (_currentLogFileInfo == nil || _rollingFrequency <= 0.0) {
return;
}
NSDate *logFileCreationDate = [_currentLogFileInfo creationDate];
NSTimeInterval ti = [logFileCreationDate timeIntervalSinceReferenceDate];
ti += _rollingFrequency;
NSDate *logFileRollingDate = [NSDate dateWithTimeIntervalSinceReferenceDate:ti];
NSLogVerbose(@"DDFileLogger: scheduleTimerToRollLogFileDueToAge");
NSLogVerbose(@"DDFileLogger: logFileCreationDate: %@", logFileCreationDate);
NSLogVerbose(@"DDFileLogger: logFileRollingDate : %@", logFileRollingDate);
_rollingTimer = dispatch_source_create(DISPATCH_SOURCE_TYPE_TIMER, 0, 0, self.loggerQueue);
dispatch_source_set_event_handler(_rollingTimer, ^{ @autoreleasepool {
[self maybeRollLogFileDueToAge];
} });
#if !OS_OBJECT_USE_OBJC
dispatch_source_t theRollingTimer = _rollingTimer;
dispatch_source_set_cancel_handler(_rollingTimer, ^{
dispatch_release(theRollingTimer);
});
#endif
uint64_t delay = (uint64_t)([logFileRollingDate timeIntervalSinceNow] * (NSTimeInterval) NSEC_PER_SEC);
dispatch_time_t fireTime = dispatch_time(DISPATCH_TIME_NOW, delay);
dispatch_source_set_timer(_rollingTimer, fireTime, DISPATCH_TIME_FOREVER, 1ull * NSEC_PER_SEC);
dispatch_resume(_rollingTimer);
}
- (void)rollLogFile {
[self rollLogFileWithCompletionBlock:nil];
}
- (void)rollLogFileWithCompletionBlock:(void (^)(void))completionBlock {
// This method is public.
// We need to execute the rolling on our logging thread/queue.
dispatch_block_t block = ^{
@autoreleasepool {
[self rollLogFileNow];
if (completionBlock) {
dispatch_async(dispatch_get_global_queue(DISPATCH_QUEUE_PRIORITY_DEFAULT, 0), ^{
completionBlock();
});
}
}
};
// The design of this method is taken from the DDAbstractLogger implementation.
// For extensive documentation please refer to the DDAbstractLogger implementation.
if ([self isOnInternalLoggerQueue]) {
block();
} else {
dispatch_queue_t globalLoggingQueue = [DDLog loggingQueue];
NSAssert(![self isOnGlobalLoggingQueue], @"Core architecture requirement failure");
dispatch_async(globalLoggingQueue, ^{
dispatch_async(self.loggerQueue, block);
});
}
}
- (void)rollLogFileNow {
NSLogVerbose(@"DDFileLogger: rollLogFileNow");
if (_currentLogFileHandle == nil) {
return;
}
[_currentLogFileHandle synchronizeFile];
[_currentLogFileHandle closeFile];
_currentLogFileHandle = nil;
_currentLogFileInfo.isArchived = YES;
if ([logFileManager respondsToSelector:@selector(didRollAndArchiveLogFile:)]) {
[logFileManager didRollAndArchiveLogFile:(_currentLogFileInfo.filePath)];
}
_currentLogFileInfo = nil;
if (_currentLogFileVnode) {
dispatch_source_cancel(_currentLogFileVnode);
_currentLogFileVnode = NULL;
}
if (_rollingTimer) {
dispatch_source_cancel(_rollingTimer);
_rollingTimer = NULL;
}
}
- (void)maybeRollLogFileDueToAge {
if (_rollingFrequency > 0.0 && _currentLogFileInfo.age >= _rollingFrequency) {
NSLogVerbose(@"DDFileLogger: Rolling log file due to age...");
[self rollLogFileNow];
} else {
[self scheduleTimerToRollLogFileDueToAge];
}
}
- (void)maybeRollLogFileDueToSize {
// This method is called from logMessage.
// Keep it FAST.
// Note: Use direct access to maximumFileSize variable.
// We specifically wrote our own getter/setter method to allow us to do this (for performance reasons).
if (_maximumFileSize > 0) {
unsigned long long fileSize = [_currentLogFileHandle offsetInFile];
if (fileSize >= _maximumFileSize) {
NSLogVerbose(@"DDFileLogger: Rolling log file due to size (%qu)...", fileSize);
[self rollLogFileNow];
}
}
}
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#pragma mark File Logging
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
/**
* Returns the log file that should be used.
* If there is an existing log file that is suitable,
* within the constraints of maximumFileSize and rollingFrequency, then it is returned.
*
* Otherwise a new file is created and returned.
**/
- (DDLogFileInfo *)currentLogFileInfo {
if (_currentLogFileInfo == nil) {
NSArray *sortedLogFileInfos = [logFileManager sortedLogFileInfos];
if ([sortedLogFileInfos count] > 0) {
DDLogFileInfo *mostRecentLogFileInfo = sortedLogFileInfos[0];
BOOL shouldArchiveMostRecent = NO;
if (mostRecentLogFileInfo.isArchived) {
shouldArchiveMostRecent = NO;
} else if ([self shouldArchiveRecentLogFileInfo:mostRecentLogFileInfo]) {
shouldArchiveMostRecent = YES;
} else if (_maximumFileSize > 0 && mostRecentLogFileInfo.fileSize >= _maximumFileSize) {
shouldArchiveMostRecent = YES;
} else if (_rollingFrequency > 0.0 && mostRecentLogFileInfo.age >= _rollingFrequency) {
shouldArchiveMostRecent = YES;
}
#if TARGET_OS_IPHONE
// When creating log file on iOS we're setting NSFileProtectionKey attribute to NSFileProtectionCompleteUnlessOpen.
//
// But in case if app is able to launch from background we need to have an ability to open log file any time we
// want (even if device is locked). Thats why that attribute have to be changed to
// NSFileProtectionCompleteUntilFirstUserAuthentication.
//
// If previous log was created when app wasn't running in background, but now it is - we archive it and create
// a new one.
//
// If user has overwritten to NSFileProtectionNone there is no neeed to create a new one.
if (!_doNotReuseLogFiles && doesAppRunInBackground()) {
NSFileProtectionType key = mostRecentLogFileInfo.fileAttributes[NSFileProtectionKey];
if ([key length] > 0 && !([key isEqualToString:NSFileProtectionCompleteUntilFirstUserAuthentication] || [key isEqualToString:NSFileProtectionNone])) {
shouldArchiveMostRecent = YES;
}
}
#endif
if (!_doNotReuseLogFiles && !mostRecentLogFileInfo.isArchived && !shouldArchiveMostRecent) {
NSLogVerbose(@"DDFileLogger: Resuming logging with file %@", mostRecentLogFileInfo.fileName);
_currentLogFileInfo = mostRecentLogFileInfo;
} else {
if (shouldArchiveMostRecent) {
mostRecentLogFileInfo.isArchived = YES;
if ([logFileManager respondsToSelector:@selector(didArchiveLogFile:)]) {
[logFileManager didArchiveLogFile:(mostRecentLogFileInfo.filePath)];
}
}
}
}
if (_currentLogFileInfo == nil) {
NSString *currentLogFilePath = [logFileManager createNewLogFile];
_currentLogFileInfo = [[DDLogFileInfo alloc] initWithFilePath:currentLogFilePath];
}
}
return _currentLogFileInfo;
}
- (NSFileHandle *)currentLogFileHandle {
if (_currentLogFileHandle == nil) {
NSString *logFilePath = [[self currentLogFileInfo] filePath];
_currentLogFileHandle = [NSFileHandle fileHandleForWritingAtPath:logFilePath];
[_currentLogFileHandle seekToEndOfFile];
if (_currentLogFileHandle) {
[self scheduleTimerToRollLogFileDueToAge];
// Here we are monitoring the log file. In case if it would be deleted ormoved
// somewhere we want to roll it and use a new one.
_currentLogFileVnode = dispatch_source_create(
DISPATCH_SOURCE_TYPE_VNODE,
[_currentLogFileHandle fileDescriptor],
DISPATCH_VNODE_DELETE | DISPATCH_VNODE_RENAME,
self.loggerQueue
);
dispatch_source_set_event_handler(_currentLogFileVnode, ^{ @autoreleasepool {
NSLogInfo(@"DDFileLogger: Current logfile was moved. Rolling it and creating a new one");
[self rollLogFileNow];
} });
#if !OS_OBJECT_USE_OBJC
dispatch_source_t vnode = _currentLogFileVnode;
dispatch_source_set_cancel_handler(_currentLogFileVnode, ^{
dispatch_release(vnode);
});
#endif
dispatch_resume(_currentLogFileVnode);
}
}
return _currentLogFileHandle;
}
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#pragma mark DDLogger Protocol
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
static int exception_count = 0;
- (void)logMessage:(DDLogMessage *)logMessage {
NSString *message = logMessage->_message;
BOOL isFormatted = NO;
if (_logFormatter) {
message = [_logFormatter formatLogMessage:logMessage];
isFormatted = message != logMessage->_message;
}
if (message) {
if ((!isFormatted || _automaticallyAppendNewlineForCustomFormatters) &&
(![message hasSuffix:@"\n"])) {
message = [message stringByAppendingString:@"\n"];
}
NSData *logData = [message dataUsingEncoding:NSUTF8StringEncoding];
@try {
[self willLogMessage];
[[self currentLogFileHandle] writeData:logData];
[self didLogMessage];
} @catch (NSException *exception) {
exception_count++;
if (exception_count <= 10) {
NSLogError(@"DDFileLogger.logMessage: %@", exception);
if (exception_count == 10) {
NSLogError(@"DDFileLogger.logMessage: Too many exceptions -- will not log any more of them.");
}
}
}
}
}
- (void)willLogMessage {
}
- (void)didLogMessage {
[self maybeRollLogFileDueToSize];
}
- (BOOL)shouldArchiveRecentLogFileInfo:(DDLogFileInfo *)recentLogFileInfo {
return NO;
}
- (void)willRemoveLogger {
// If you override me be sure to invoke [super willRemoveLogger];
[self rollLogFileNow];
}
- (NSString *)loggerName {
return @"cocoa.lumberjack.fileLogger";
}
- (void)flush {
[_currentLogFileHandle synchronizeFile];
}
@end
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#pragma mark -
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#if TARGET_IPHONE_SIMULATOR
static NSString * const kDDXAttrArchivedName = @"archived";
#else
static NSString * const kDDXAttrArchivedName = @"lumberjack.log.archived";
#endif
@interface DDLogFileInfo () {
__strong NSString *_filePath;
__strong NSString *_fileName;
__strong NSDictionary *_fileAttributes;
__strong NSDate *_creationDate;
__strong NSDate *_modificationDate;
unsigned long long _fileSize;
}
@end
@implementation DDLogFileInfo
@synthesize filePath;
@dynamic fileName;
@dynamic fileAttributes;
@dynamic creationDate;
@dynamic modificationDate;
@dynamic fileSize;
@dynamic age;
@dynamic isArchived;
#pragma mark Lifecycle
+ (instancetype)logFileWithPath:(NSString *)aFilePath {
return [[self alloc] initWithFilePath:aFilePath];
}
- (instancetype)initWithFilePath:(NSString *)aFilePath {
if ((self = [super init])) {
filePath = [aFilePath copy];
}
return self;
}
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#pragma mark Standard Info
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
- (NSDictionary *)fileAttributes {
if (_fileAttributes == nil && filePath != nil) {
_fileAttributes = [[NSFileManager defaultManager] attributesOfItemAtPath:filePath error:nil];
}
return _fileAttributes;
}
- (NSString *)fileName {
if (_fileName == nil) {
_fileName = [filePath lastPathComponent];
}
return _fileName;
}
- (NSDate *)modificationDate {
if (_modificationDate == nil) {
_modificationDate = self.fileAttributes[NSFileModificationDate];
}
return _modificationDate;
}
- (NSDate *)creationDate {
if (_creationDate == nil) {
_creationDate = self.fileAttributes[NSFileCreationDate];
}
return _creationDate;
}
- (unsigned long long)fileSize {
if (_fileSize == 0) {
_fileSize = [self.fileAttributes[NSFileSize] unsignedLongLongValue];
}
return _fileSize;
}
- (NSTimeInterval)age {
return [[self creationDate] timeIntervalSinceNow] * -1.0;
}
- (NSString *)description {
return [@{ @"filePath": self.filePath ? : @"",
@"fileName": self.fileName ? : @"",
@"fileAttributes": self.fileAttributes ? : @"",
@"creationDate": self.creationDate ? : @"",
@"modificationDate": self.modificationDate ? : @"",
@"fileSize": @(self.fileSize),
@"age": @(self.age),
@"isArchived": @(self.isArchived) } description];
}
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#pragma mark Archiving
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
- (BOOL)isArchived {
#if TARGET_IPHONE_SIMULATOR
// Extended attributes don't work properly on the simulator.
// So we have to use a less attractive alternative.
// See full explanation in the header file.
return [self hasExtensionAttributeWithName:kDDXAttrArchivedName];
#else
return [self hasExtendedAttributeWithName:kDDXAttrArchivedName];
#endif
}
- (void)setIsArchived:(BOOL)flag {
#if TARGET_IPHONE_SIMULATOR
// Extended attributes don't work properly on the simulator.
// So we have to use a less attractive alternative.
// See full explanation in the header file.
if (flag) {
[self addExtensionAttributeWithName:kDDXAttrArchivedName];
} else {
[self removeExtensionAttributeWithName:kDDXAttrArchivedName];
}
#else
if (flag) {
[self addExtendedAttributeWithName:kDDXAttrArchivedName];
} else {
[self removeExtendedAttributeWithName:kDDXAttrArchivedName];
}
#endif
}
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#pragma mark Changes
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
- (void)reset {
_fileName = nil;
_fileAttributes = nil;
_creationDate = nil;
_modificationDate = nil;
}
- (void)renameFile:(NSString *)newFileName {
// This method is only used on the iPhone simulator, where normal extended attributes are broken.
// See full explanation in the header file.
if (![newFileName isEqualToString:[self fileName]]) {
NSString *fileDir = [filePath stringByDeletingLastPathComponent];
NSString *newFilePath = [fileDir stringByAppendingPathComponent:newFileName];
NSLogVerbose(@"DDLogFileInfo: Renaming file: '%@' -> '%@'", self.fileName, newFileName);
NSError *error = nil;
if ([[NSFileManager defaultManager] fileExistsAtPath:newFilePath] &&
![[NSFileManager defaultManager] removeItemAtPath:newFilePath error:&error]) {
NSLogError(@"DDLogFileInfo: Error deleting archive (%@): %@", self.fileName, error);
}
if (![[NSFileManager defaultManager] moveItemAtPath:filePath toPath:newFilePath error:&error]) {
NSLogError(@"DDLogFileInfo: Error renaming file (%@): %@", self.fileName, error);
}
filePath = newFilePath;
[self reset];
}
}
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#pragma mark Attribute Management
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#if TARGET_IPHONE_SIMULATOR
// Extended attributes don't work properly on the simulator.
// So we have to use a less attractive alternative.
// See full explanation in the header file.
- (BOOL)hasExtensionAttributeWithName:(NSString *)attrName {
// This method is only used on the iPhone simulator, where normal extended attributes are broken.
// See full explanation in the header file.
// Split the file name into components. File name may have various format, but generally
// structure is same:
//
// <name part>.<extension part> and <name part>.archived.<extension part>
// or
// <name part> and <name part>.archived
//
// So we want to search for the attrName in the components (ignoring the first array index).
NSArray *components = [[self fileName] componentsSeparatedByString:@"."];
// Watch out for file names without an extension
for (NSUInteger i = 1; i < components.count; i++) {
NSString *attr = components[i];
if ([attrName isEqualToString:attr]) {
return YES;
}
}
return NO;
}
- (void)addExtensionAttributeWithName:(NSString *)attrName {
// This method is only used on the iPhone simulator, where normal extended attributes are broken.
// See full explanation in the header file.
if ([attrName length] == 0) {
return;
}
// Example:
// attrName = "archived"
//
// "mylog.txt" -> "mylog.archived.txt"
// "mylog" -> "mylog.archived"
NSArray *components = [[self fileName] componentsSeparatedByString:@"."];
NSUInteger count = [components count];
NSUInteger estimatedNewLength = [[self fileName] length] + [attrName length] + 1;
NSMutableString *newFileName = [NSMutableString stringWithCapacity:estimatedNewLength];
if (count > 0) {
[newFileName appendString:components.firstObject];
}
NSString *lastExt = @"";
NSUInteger i;
for (i = 1; i < count; i++) {
NSString *attr = components[i];
if ([attr length] == 0) {
continue;
}
if ([attrName isEqualToString:attr]) {
// Extension attribute already exists in file name
return;
}
if ([lastExt length] > 0) {
[newFileName appendFormat:@".%@", lastExt];
}
lastExt = attr;
}
[newFileName appendFormat:@".%@", attrName];
if ([lastExt length] > 0) {
[newFileName appendFormat:@".%@", lastExt];
}
[self renameFile:newFileName];
}
- (void)removeExtensionAttributeWithName:(NSString *)attrName {
// This method is only used on the iPhone simulator, where normal extended attributes are broken.
// See full explanation in the header file.
if ([attrName length] == 0) {
return;
}
// Example:
// attrName = "archived"
//
// "mylog.archived.txt" -> "mylog.txt"
// "mylog.archived" -> "mylog"
NSArray *components = [[self fileName] componentsSeparatedByString:@"."];
NSUInteger count = [components count];
NSUInteger estimatedNewLength = [[self fileName] length];
NSMutableString *newFileName = [NSMutableString stringWithCapacity:estimatedNewLength];
if (count > 0) {
[newFileName appendString:components.firstObject];
}
BOOL found = NO;
NSUInteger i;
for (i = 1; i < count; i++) {
NSString *attr = components[i];
if ([attrName isEqualToString:attr]) {
found = YES;
} else {
[newFileName appendFormat:@".%@", attr];
}
}
if (found) {
[self renameFile:newFileName];
}
}
#else /* if TARGET_IPHONE_SIMULATOR */
- (BOOL)hasExtendedAttributeWithName:(NSString *)attrName {
const char *path = [filePath UTF8String];
const char *name = [attrName UTF8String];
ssize_t result = getxattr(path, name, NULL, 0, 0, 0);
return (result >= 0);
}
- (void)addExtendedAttributeWithName:(NSString *)attrName {
const char *path = [filePath UTF8String];
const char *name = [attrName UTF8String];
int result = setxattr(path, name, NULL, 0, 0, 0);
if (result < 0) {
NSLogError(@"DDLogFileInfo: setxattr(%@, %@): error = %s",
attrName,
filePath,
strerror(errno));
}
}
- (void)removeExtendedAttributeWithName:(NSString *)attrName {
const char *path = [filePath UTF8String];
const char *name = [attrName UTF8String];
int result = removexattr(path, name, 0);
if (result < 0 && errno != ENOATTR) {
NSLogError(@"DDLogFileInfo: removexattr(%@, %@): error = %s",
attrName,
self.fileName,
strerror(errno));
}
}
#endif /* if TARGET_IPHONE_SIMULATOR */
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#pragma mark Comparisons
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
- (BOOL)isEqual:(id)object {
if ([object isKindOfClass:[self class]]) {
DDLogFileInfo *another = (DDLogFileInfo *)object;
return [filePath isEqualToString:[another filePath]];
}
return NO;
}
-(NSUInteger)hash {
return [filePath hash];
}
- (NSComparisonResult)reverseCompareByCreationDate:(DDLogFileInfo *)another {
NSDate *us = [self creationDate];
NSDate *them = [another creationDate];
NSComparisonResult result = [us compare:them];
if (result == NSOrderedAscending) {
return NSOrderedDescending;
}
if (result == NSOrderedDescending) {
return NSOrderedAscending;
}
return NSOrderedSame;
}
- (NSComparisonResult)reverseCompareByModificationDate:(DDLogFileInfo *)another {
NSDate *us = [self modificationDate];
NSDate *them = [another modificationDate];
NSComparisonResult result = [us compare:them];
if (result == NSOrderedAscending) {
return NSOrderedDescending;
}
if (result == NSOrderedDescending) {
return NSOrderedAscending;
}
return NSOrderedSame;
}
@end
#if TARGET_OS_IPHONE
/**
* When creating log file on iOS we're setting NSFileProtectionKey attribute to NSFileProtectionCompleteUnlessOpen.
*
* But in case if app is able to launch from background we need to have an ability to open log file any time we
* want (even if device is locked). Thats why that attribute have to be changed to
* NSFileProtectionCompleteUntilFirstUserAuthentication.
*/
BOOL doesAppRunInBackground() {
BOOL answer = NO;
NSArray *backgroundModes = [[NSBundle mainBundle] objectForInfoDictionaryKey:@"UIBackgroundModes"];
for (NSString *mode in backgroundModes) {
if (mode.length > 0) {
answer = YES;
break;
}
}
return answer;
}
#endif