/* * This file Copyright (C) Mnemosyne LLC * * This file is licensed by the GPL version 2. Works owned by the * Transmission project are granted a special exemption to clause 2(b) * so that the bulk of its code can remain under the MIT license. * This exemption does not extend to derived works not owned by * the Transmission project. * * $Id$ */ #ifndef TR_UTILS_H #define TR_UTILS_H 1 #include #include /* size_t */ #include /* time_t */ #ifdef __cplusplus extern "C" { #endif /*** **** ***/ /** * @addtogroup utils Utilities * @{ */ #ifndef FALSE #define FALSE 0 #endif #ifndef TRUE #define TRUE 1 #endif #ifndef UNUSED #ifdef __GNUC__ #define UNUSED __attribute__ ( ( unused ) ) #else #define UNUSED #endif #endif #ifndef TR_GNUC_PRINTF #ifdef __GNUC__ #define TR_GNUC_PRINTF( fmt, args ) __attribute__ ( ( format ( printf, fmt, args ) ) ) #else #define TR_GNUC_PRINTF( fmt, args ) #endif #endif #ifndef TR_GNUC_NONNULL #ifdef __GNUC__ #define TR_GNUC_NONNULL( ... ) __attribute__((nonnull (__VA_ARGS__))) #else #define TR_GNUC_NONNULL( ... ) #endif #endif #ifndef TR_GNUC_NULL_TERMINATED #if __GNUC__ > 4 || ( __GNUC__ == 4 && __GNUC_MINOR__ >= 3 ) #define TR_GNUC_NULL_TERMINATED __attribute__ ( ( __sentinel__ ) ) #define TR_GNUC_HOT __attribute ( ( hot ) ) #else #define TR_GNUC_NULL_TERMINATED #define TR_GNUC_HOT #endif #endif #if __GNUC__ > 2 || ( __GNUC__ == 2 && __GNUC_MINOR__ >= 96 ) #define TR_GNUC_PURE __attribute__ ( ( __pure__ ) ) #define TR_GNUC_MALLOC __attribute__ ( ( __malloc__ ) ) #else #define TR_GNUC_PURE #define TR_GNUC_MALLOC #endif /*** **** ***/ const char * tr_strip_positional_args( const char * fmt ); #if !defined( _ ) #if defined( HAVE_LIBINTL_H ) && !defined( SYS_DARWIN ) #include #define _( a ) gettext ( a ) #else #define _( a ) ( a ) #endif #endif /* #define DISABLE_GETTEXT */ #ifndef DISABLE_GETTEXT #if defined(WIN32) || defined(TR_LIGHTWEIGHT) #define DISABLE_GETTEXT #endif #endif #ifdef DISABLE_GETTEXT #undef _ #define _( a ) tr_strip_positional_args( a ) #endif /**** ***** ****/ #define TR_MAX_MSG_LOG 10000 extern tr_msg_level __tr_message_level; static inline tr_msg_level tr_getMessageLevel( void ) { return __tr_message_level; } static inline tr_bool tr_msgLoggingIsActive( tr_msg_level level ) { return tr_getMessageLevel() >= level; } void tr_msg( const char * file, int line, tr_msg_level level, const char * torrent, const char * fmt, ... ) TR_GNUC_PRINTF( 5, 6 ); #define tr_nerr( n, ... ) \ do { \ if( tr_msgLoggingIsActive( TR_MSG_ERR ) ) \ tr_msg( __FILE__, __LINE__, TR_MSG_ERR, n, __VA_ARGS__ ); \ } while( 0 ) #define tr_ninf( n, ... ) \ do { \ if( tr_msgLoggingIsActive( TR_MSG_INF) ) \ tr_msg( __FILE__, __LINE__, TR_MSG_INF, n, __VA_ARGS__ ); \ } while( 0 ) #define tr_ndbg( n, ... ) \ do { \ if( tr_msgLoggingIsActive( TR_MSG_DBG) ) \ tr_msg( __FILE__, __LINE__, TR_MSG_DBG, n, __VA_ARGS__ ); \ } while( 0 ) #define tr_torerr( tor, ... ) \ do { \ if( tr_msgLoggingIsActive( TR_MSG_ERR ) ) \ tr_msg( __FILE__, __LINE__, TR_MSG_ERR, tor->info.name, __VA_ARGS__ ); \ } while( 0 ) #define tr_torinf( tor, ... ) \ do { \ if( tr_msgLoggingIsActive( TR_MSG_INF ) ) \ tr_msg( __FILE__, __LINE__, TR_MSG_INF, tor->info.name, __VA_ARGS__ ); \ } while( 0 ) #define tr_tordbg( tor, ... ) \ do { \ if( tr_msgLoggingIsActive( TR_MSG_DBG ) ) \ tr_msg( __FILE__, __LINE__, TR_MSG_DBG, tor->info.name, __VA_ARGS__ ); \ } while( 0 ) #define tr_err( ... ) \ do { \ if( tr_msgLoggingIsActive( TR_MSG_ERR ) ) \ tr_msg( __FILE__, __LINE__, TR_MSG_ERR, NULL, __VA_ARGS__ ); \ } while( 0 ) #define tr_inf( ... ) \ do { \ if( tr_msgLoggingIsActive( TR_MSG_INF ) ) \ tr_msg( __FILE__, __LINE__, TR_MSG_INF, NULL, __VA_ARGS__ ); \ } while( 0 ) #define tr_dbg( ... ) \ do { \ if( tr_msgLoggingIsActive( TR_MSG_DBG ) ) \ tr_msg( __FILE__, __LINE__, TR_MSG_DBG, NULL, __VA_ARGS__ ); \ } while( 0 ) void* tr_getLog( void ); /** @brief return true if deep logging has been enabled by the user; false otherwise */ tr_bool tr_deepLoggingIsActive( void ); void tr_deepLog( const char * file, int line, const char * name, const char * fmt, ... ) TR_GNUC_PRINTF( 4, 5 ) TR_GNUC_NONNULL(1,4); /** @brief set the buffer with the current time formatted for deep logging. */ char* tr_getLogTimeStr( char * buf, int buflen ) TR_GNUC_NONNULL(1); /** * @brief Rich Salz's classic implementation of shell-style pattern matching for ?, \, [], and * characters. * @return 1 if the pattern matches, 0 if it doesn't, or -1 if an error occured */ int tr_wildmat( const char * text, const char * pattern ) TR_GNUC_NONNULL(1,2); /** @brief Portability wrapper for basename() that uses the system implementation if available */ char* tr_basename( const char * path ) TR_GNUC_MALLOC; /** @brief Portability wrapper for dirname() that uses the system implementation if available */ char* tr_dirname( const char * path ) TR_GNUC_MALLOC; /** * @brief Portability wrapper for mkdir() * * A portability wrapper around mkdir(). * On WIN32, the `permissions' argument is unused. * * @return zero on success, or -1 if an error occurred * (in which case errno is set appropriately). */ int tr_mkdir( const char * path, int permissions ) TR_GNUC_NONNULL(1); /** * Like mkdir, but makes parent directories as needed. * * @return zero on success, or -1 if an error occurred * (in which case errno is set appropriately). */ int tr_mkdirp( const char * path, int permissions ) TR_GNUC_NONNULL(1); /** * @brief Loads a file and returns its contents. * On failure, NULL is returned and errno is set. */ uint8_t* tr_loadFile( const char * filename, size_t * size ) TR_GNUC_MALLOC TR_GNUC_NONNULL(1); /** @brief build a filename from a series of elements using the platform's correct directory separator. */ char* tr_buildPath( const char * first_element, ... ) TR_GNUC_NULL_TERMINATED TR_GNUC_MALLOC; struct event; /** * @brief Convenience wrapper around timer_add() to have a timer wake up in a number of seconds and microseconds * @param timer * @param seconds * @param microseconds */ void tr_timerAdd( struct event * timer, int seconds, int microseconds ) TR_GNUC_NONNULL(1); /** * @brief Convenience wrapper around timer_add() to have a timer wake up in a number of milliseconds * @param timer * @param milliseconds */ void tr_timerAddMsec( struct event * timer, int milliseconds ) TR_GNUC_NONNULL(1); /** @brief return the current date in milliseconds */ uint64_t tr_time_msec( void ); /** @brief sleep the specified number of milliseconds */ void tr_wait_msec( long int delay_milliseconds ); /** * @brief make a copy of 'str' whose non-utf8 content has been corrected or stripped * @return a newly-allocated string that must be freed with tr_free() * @param str the string to make a clean copy of * @param len the length of the string to copy. If -1, the entire string is used. */ char* tr_utf8clean( const char * str, int len ) TR_GNUC_MALLOC; /*** **** ***/ /* Sometimes the system defines MAX/MIN, sometimes not. In the latter case, define those here since we will use them */ #ifndef MAX #define MAX( a, b ) ( ( a ) > ( b ) ? ( a ) : ( b ) ) #endif #ifndef MIN #define MIN( a, b ) ( ( a ) > ( b ) ? ( b ) : ( a ) ) #endif /*** **** ***/ /** @brief Portability wrapper around malloc() in which `0' is a safe argument */ void* tr_malloc( size_t size ); /** @brief Portability wrapper around calloc() in which `0' is a safe argument */ void* tr_malloc0( size_t size ); /** @brief Portability wrapper around free() in which `NULL' is a safe argument */ void tr_free( void * p ); /** * @brief make a newly-allocated copy of a chunk of memory * @param src the memory to copy * @param byteCount the number of bytes to copy * @return a newly-allocated copy of `src' that can be freed with tr_free() */ void* tr_memdup( const void * src, size_t byteCount ); #define tr_new( struct_type, n_structs ) \ ( (struct_type *) tr_malloc ( sizeof ( struct_type ) * ( ( size_t) ( n_structs ) ) ) ) #define tr_new0( struct_type, n_structs ) \ ( (struct_type *) tr_malloc0 ( sizeof ( struct_type ) * ( ( size_t) ( n_structs ) ) ) ) #define tr_renew( struct_type, mem, n_structs ) \ ( (struct_type *) realloc ( ( mem ), sizeof ( struct_type ) * ( ( size_t) ( n_structs ) ) ) ) void* tr_valloc( size_t bufLen ); /** * @brief make a newly-allocated copy of a substring * @param in is a void* so that callers can pass in both signed & unsigned without a cast * @param len length of the substring to copy. if a length less than zero is passed in, strlen( len ) is used * @return a newly-allocated copy of `in' that can be freed with tr_free() */ char* tr_strndup( const void * in, int len ) TR_GNUC_MALLOC; /** * @brief make a newly-allocated copy of a string * @param in is a void* so that callers can pass in both signed & unsigned without a cast * @return a newly-allocated copy of `in' that can be freed with tr_free() */ char* tr_strdup( const void * in ); /** * @brief like strcmp() but gracefully handles NULL strings */ int tr_strcmp0( const char * str1, const char * str2 ); struct evbuffer; char* evbuffer_free_to_str( struct evbuffer * buf ); /** @brief similar to bsearch() but returns the index of the lower bound */ int tr_lowerBound( const void * key, const void * base, size_t nmemb, size_t size, int (* compar)(const void* key, const void* arrayMember), tr_bool * exact_match ) TR_GNUC_HOT TR_GNUC_NONNULL(1,5,6); /** * @brief sprintf() a string into a newly-allocated buffer large enough to hold it * @return a newly-allocated string that can be freed with tr_free() */ char* tr_strdup_printf( const char * fmt, ... ) TR_GNUC_PRINTF( 1, 2 ) TR_GNUC_MALLOC; /** * @brief Translate a block of bytes into base64 * @return a newly-allocated string that can be freed with tr_free() */ char* tr_base64_encode( const void * input, int inlen, int * outlen ) TR_GNUC_MALLOC; /** * @brief Translate a block of bytes from base64 into raw form * @return a newly-allocated string that can be freed with tr_free() */ char* tr_base64_decode( const void * input, int inlen, int * outlen ) TR_GNUC_MALLOC; /** @brief Portability wrapper for strlcpy() that uses the system implementation if available */ size_t tr_strlcpy( char * dst, const void * src, size_t siz ); /** @brief Portability wrapper for snprintf() that uses the system implementation if available */ int tr_snprintf( char * buf, size_t buflen, const char * fmt, ... ) TR_GNUC_PRINTF( 3, 4 ) TR_GNUC_NONNULL(1,3); /** @brief Convenience wrapper around strerorr() guaranteed to not return NULL @param errno */ const char* tr_strerror( int ); /** @brief strips leading and trailing whitspace from a string @return the stripped string */ char* tr_strstrip( char * str ); /** @brief Returns true if the string ends with the specified case-insensitive suffix */ tr_bool tr_str_has_suffix( const char *str, const char *suffix ); /** @brief Portability wrapper for memmem() that uses the system implementation if available */ const char* tr_memmem( const char * haystack, size_t haystack_len, const char * needle, size_t needle_len ); /** @brief Portability wrapper for strsep() that uses the system implementation if available */ char* tr_strsep( char ** str, const char * delim ); /*** **** ***/ typedef void ( tr_set_func )( void * element, void * userData ); /** * @brief find the differences and commonalities in two sorted sets * @param a the first set * @param aCount the number of elements in the set 'a' * @param b the second set * @param bCount the number of elements in the set 'b' * @param compare the sorting method for both sets * @param elementSize the sizeof the element in the two sorted sets * @param in_a called for items in set 'a' but not set 'b' * @param in_b called for items in set 'b' but not set 'a' * @param in_both called for items that are in both sets * @param userData user data passed along to in_a, in_b, and in_both */ void tr_set_compare( const void * a, size_t aCount, const void * b, size_t bCount, int compare( const void * a, const void * b ), size_t elementSize, tr_set_func in_a_cb, tr_set_func in_b_cb, tr_set_func in_both_cb, void * userData ); int compareInt( const void * va, const void * vb ); void tr_sha1_to_hex( char * out, const uint8_t * sha1 ) TR_GNUC_NONNULL(1,2); void tr_hex_to_sha1( uint8_t * out, const char * hex ) TR_GNUC_NONNULL(1,2); /** @brief convenience function to determine if an address is an IP address (IPv4 or IPv6) */ tr_bool tr_addressIsIP( const char * address ); /** @brief return TRUE if the url is a http or https url that Transmission understands */ tr_bool tr_urlIsValidTracker( const char * url ) TR_GNUC_NONNULL(1); /** @brief return TRUE if the url is a [ http, https, ftp, ftps ] url that Transmission understands */ tr_bool tr_urlIsValid( const char * url, int url_len ) TR_GNUC_NONNULL(1); /** @brief parse a URL into its component parts @return zero on success or an error number if an error occurred */ int tr_urlParse( const char * url, int url_len, char ** setme_scheme, char ** setme_host, int * setme_port, char ** setme_path ) TR_GNUC_NONNULL(1); /** @brief return TR_RATIO_NA, TR_RATIO_INF, or a number in [0..1] @return TR_RATIO_NA, TR_RATIO_INF, or a number in [0..1] */ double tr_getRatio( uint64_t numerator, uint64_t denominator ); /** * @brief Given a string like "1-4" or "1-4,6,9,14-51", this returns a * newly-allocated array of all the integers in the set. * @return a newly-allocated array of integers that must be freed with tr_free(), * or NULL if a fragment of the string can't be parsed. * * For example, "5-8" will return [ 5, 6, 7, 8 ] and setmeCount will be 4. */ int* tr_parseNumberRange( const char * str, int str_len, int * setmeCount ) TR_GNUC_MALLOC TR_GNUC_NONNULL(1); /** * @brief truncate a double value at a given number of decimal places. * * this can be used to prevent a printf() call from rounding up: * call with the decimal_places argument equal to the number of * decimal places in the printf()'s precision: * * - printf("%.2f%%", 99.999 ) ==> "100.00%" * * - printf("%.2f%%", tr_truncd(99.999, 2)) ==> "99.99%" * ^ ^ * | These should match | * +------------------------+ */ double tr_truncd( double x, int decimal_places ); /* return a percent formatted string of either x.xx, xx.x or xxx */ char* tr_strpercent( char * buf, double x, size_t buflen ); /** * @param buf the buffer to write the string to * @param buflef buf's size * @param ratio the ratio to convert to a string * @param the string represntation of "infinity" */ char* tr_strratio( char * buf, size_t buflen, double ratio, const char * infinity ) TR_GNUC_NONNULL(1,4); /* return a truncated double as a string */ char* tr_strtruncd( char * buf, double x, int precision, size_t buflen ); /** @brief Portability wrapper for localtime_r() that uses the system implementation if available */ struct tm * tr_localtime_r( const time_t *_clock, struct tm *_result ); /** * @brief move a file * @return 0 on success; otherwise, return -1 and set errno */ int tr_moveFile( const char * oldpath, const char * newpath, tr_bool * renamed ) TR_GNUC_NONNULL(1,2); /** @brief Test to see if the two filenames point to the same file. */ tr_bool tr_is_same_file( const char * filename1, const char * filename2 ); /** @brief convenience function to remove an item from an array */ void tr_removeElementFromArray( void * array, unsigned int index_to_remove, size_t sizeof_element, size_t nmemb ); /*** **** ***/ /** @brief Private libtransmission variable that's visible only for inlining in tr_time() */ extern time_t __tr_current_time; /** * @brief very inexpensive form of time(NULL) * @return the current epoch time in seconds * * This function returns a second counter that is updated once per second. * If something blocks the libtransmission thread for more than a second, * that counter may be thrown off, so this function is not guaranteed * to always be accurate. However, it is *much* faster when 100% accuracy * isn't needed */ static inline time_t tr_time( void ) { return __tr_current_time; } /** @brief Private libtransmission function to update tr_time()'s counter */ static inline void tr_timeUpdate( time_t now ) { __tr_current_time = now; } /** @brief Portability wrapper for realpath() that uses the system implementation if available */ char* tr_realpath( const char *path, char * resolved_path ); /** @brief Portability wrapper for htonll() that uses the system implementation if available */ uint64_t tr_htonll( uint64_t ); /** @brief Portability wrapper for htonll() that uses the system implementation if available */ uint64_t tr_ntohll( uint64_t ); /*** **** ***/ /* example: tr_formatter_size_init( 1024, _("KiB"), _("MiB"), _("GiB"), _("TiB") ); */ void tr_formatter_size_init( unsigned int kilo, const char * kb, const char * mb, const char * gb, const char * tb ); void tr_formatter_speed_init( unsigned int kilo, const char * kb, const char * mb, const char * gb, const char * tb ); void tr_formatter_mem_init( unsigned int kilo, const char * kb, const char * mb, const char * gb, const char * tb ); extern unsigned int tr_speed_K; extern unsigned int tr_mem_K; extern unsigned int tr_size_K; /* format a speed from KBps into a user-readable string. */ char* tr_formatter_speed_KBps( char * buf, double KBps, size_t buflen ); /* format a memory size from bytes into a user-readable string. */ char* tr_formatter_mem_B( char * buf, int64_t bytes, size_t buflen ); /* format a memory size from MB into a user-readable string. */ static inline char* tr_formatter_mem_MB( char * buf, double MBps, size_t buflen ) { return tr_formatter_mem_B( buf, MBps * tr_mem_K * tr_mem_K, buflen ); } /* format a file size from bytes into a user-readable string. */ char* tr_formatter_size_B( char * buf, int64_t bytes, size_t buflen ); void tr_formatter_get_units( struct tr_benc * dict ); /*** **** ***/ #ifdef __cplusplus } #endif /** @} */ #endif