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vdr/tools.h
Klaus Schmidinger b9b9ace9a8 Version 1.5.3 
- Fixed some spelling errors in 'newplugin' (thanks to Ville Skyttä).
- Fixed a busy loop in fast forward if the next video data file is missing
  (thanks to Reinhard Nissl).
- Fixed handling frequencies in NitFilter::Process() (thanks to Anssi Hannula).
- Fixed a race condition with signal handlers at program exit (thanks to Udo
  Richter).
- Non-primary devices in Transfer mode are now also used for recording (thanks
  to Anssi Hannula).
- Fixed handling ChannelUp/Down keys if there is currently a replay running
  (thanks to Marco Schlüßler).
- The new SVDRP command REMO can be used to turn VDR's remote control off and
  on in case other programs need to be controlled (based on patches from Krzysztof
  Parma and Helmut Auer).
- Increased the maximum number of CA system ids to cope with the AlphaCrypt
  CAM's version 3.11 firmware.
- Fixed getting the code setting from the locale (thanks to Matthias Schwarzott).
- Implemented support for Freetype fonts (based on a patch from Alexander Riedel).
  The font names and sizes can be adjusted in the "Setup/OSD" menu.
  Note that VDR now requires freetype fonts to be installed in
  /usr/share/fonts/truetype.
- If the OSD device in use has at least 8bpp bitmap depth and this is also
  used by the current skin, Freetype fonts are displayed "anti-aliased".
  The new setup parameter "OSD/Anti-alias" can be used to turn this off.
- The new function cOsd::SetAntiAliasGranularity() can be used to help the OSD
  in managing the available color palette entries when doing anti-aliasing.
  Skins that use 8bpp bitmaps can call this function with the maximum number
  of colors used, and the maximum number of color combinations. The OSD will
  then evenly split the available palette entries between the various colors
  combinations, so that fonts can be "anti-aliased". By default a total of
  10 colors and 10 combinations is assumed.
- The pixel fonts have been completely removed from the VDR source.
- VDR is now "UTF-8 aware". It handles strings according to the character
  encoding used on the user's system. All internationalization strings and
  incoming SI data are converted to the system encoding.
- Plugins that handle strings need to be aware that on systems with UTF-8
  encoding a "character symbol" may consist of more than a single byte in
  memory. The functions and macros named Utf8...() can be used to handle
  strings without needing to care about the underlying character encoding
  (see tools.h for details).
- Even though the weekdays of repeating timers are presented to the user as UTF-8
  characters in the OSD, the timers.conf file and the SVDRP timer commands still
  use single byte characters ("MTWTFSS") to make sure this information is handled
  correctly between systems with different character encodings.
- Added a missing i18n string for "CAM" in the Turkish OSD texts.
- Improved editing strings that are too long to fit into the editable area.
- Changes to the OSD settings in the "Setup/OSD" menu now immediately take effect
  when the "Ok" key is pressed.
2007-06-10 18:00:00 +02:00

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/*
* tools.h: Various tools
*
* See the main source file 'vdr.c' for copyright information and
* how to reach the author.
*
* $Id: tools.h 1.98 2007/06/10 08:46:23 kls Exp $
*/
#ifndef __TOOLS_H
#define __TOOLS_H
#include <dirent.h>
#include <errno.h>
#include <fcntl.h>
#include <iconv.h>
#include <poll.h>
#include <stddef.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <syslog.h>
#include <sys/stat.h>
#include <sys/types.h>
typedef unsigned char uchar;
extern int SysLogLevel;
#define esyslog(a...) void( (SysLogLevel > 0) ? syslog_with_tid(LOG_ERR, a) : void() )
#define isyslog(a...) void( (SysLogLevel > 1) ? syslog_with_tid(LOG_INFO, a) : void() )
#define dsyslog(a...) void( (SysLogLevel > 2) ? syslog_with_tid(LOG_DEBUG, a) : void() )
#define LOG_ERROR esyslog("ERROR (%s,%d): %m", __FILE__, __LINE__)
#define LOG_ERROR_STR(s) esyslog("ERROR: %s: %m", s)
#define SECSINDAY 86400
#define KILOBYTE(n) ((n) * 1024)
#define MEGABYTE(n) ((n) * 1024 * 1024)
#define MALLOC(type, size) (type *)malloc(sizeof(type) * (size))
#define DELETENULL(p) (delete (p), p = NULL)
#define CHECK(s) { if ((s) < 0) LOG_ERROR; } // used for 'ioctl()' calls
#define FATALERRNO (errno && errno != EAGAIN && errno != EINTR)
#ifndef __STL_CONFIG_H // in case some plugin needs to use the STL
template<class T> inline T min(T a, T b) { return a <= b ? a : b; }
template<class T> inline T max(T a, T b) { return a >= b ? a : b; }
template<class T> inline int sgn(T a) { return a < 0 ? -1 : a > 0 ? 1 : 0; }
template<class T> inline void swap(T &a, T &b) { T t = a; a = b; b = t; }
#endif
void syslog_with_tid(int priority, const char *format, ...) __attribute__ ((format (printf, 2, 3)));
#define BCDCHARTOINT(x) (10 * ((x & 0xF0) >> 4) + (x & 0xF))
int BCD2INT(int x);
// Unfortunately there are no platform independent macros for unaligned
// access. so we do it this way:
template<class T> inline T get_unaligned(T *p)
{
struct s { T v; } __attribute__((packed));
return ((s *)p)->v;
}
template<class T> inline void put_unaligned(unsigned int v, T* p)
{
struct s { T v; } __attribute__((packed));
((s *)p)->v = v;
}
// When handling strings that might contain UTF-8 characters, it may be necessary
// to process a "symbol" that consists of several actual character bytes. The
// following functions allow transparently accessing a "char *" string without
// having to worry about what character set is actually used.
int Utf8CharLen(const char *s);
///< Returns the number of character bytes at the beginning of the given
///< string that form a UTF-8 symbol.
uint Utf8CharGet(const char *s, int Length = 0);
///< Returns the UTF-8 symbol at the beginning of the given string.
///< Length can be given from a previous call to Utf8CharLen() to avoid calculating
///< it again. If no Length is given, Utf8CharLen() will be called.
int Utf8CharSet(uint c, char *s = NULL);
///< Converts the given UTF-8 symbol to a sequence of character bytes and copies
///< them to the given string. Returns the number of bytes written. If no string
///< is given, only the number of bytes is returned and nothing is copied.
int Utf8SymChars(const char *s, int Symbols);
///< Returns the number of character bytes at the beginning of the given
///< string that form at most the given number of UTF-8 Symbols.
int Utf8ToArray(const char *s, uint *a, int Size);
///< Converts the given character bytes (including the terminating 0) into an
///< array of UTF-8 symbols of the given Size. Returns the number of symbols
///< in the array (without the terminating 0).
int Utf8FromArray(const uint *a, char *s, int Size, int Max = -1);
///< Converts the given array of UTF-8 symbols (including the terminating 0)
///< into a sequence of character bytes of at most Size length. Returns the
///< number of character bytes written (without the terminating 0).
///< If Max is given, only that many symbols will be converted.
///< The resulting string is always zero-terminated if Size is big enough.
// When allocating buffer space, make sure we reserve enough space to hold
// a string in UTF-8 representation:
#define Utf8BufSize(s) ((s) * 4)
// The following macros automatically use the correct versions of the character
// class functions:
#define Utf8to(conv, c) (cCharSetConv::SystemCharacterTable() ? to##conv(c) : tow##conv(c))
#define Utf8is(ccls, c) (cCharSetConv::SystemCharacterTable() ? is##ccls(c) : isw##ccls(c))
class cCharSetConv {
private:
iconv_t cd;
char *result;
size_t length;
static char *systemCharacterTable;
public:
cCharSetConv(const char *FromCode = NULL, const char *ToCode = NULL);
///< Sets up a character set converter to convert from FromCode to ToCode.
///< If FromCode is NULL, the previously set systemCharacterTable is used.
///< If ToCode is NULL, "UTF-8" is used.
~cCharSetConv();
const char *Convert(const char *From, char *To = NULL, size_t ToLength = 0);
///< Converts the given Text from FromCode to ToCode (as set in the cosntructor).
///< If To is given, it is used to copy at most ToLength bytes of the result
///< (including the terminating 0) into that buffer. If To is not given,
///< the result is copied into a dynamically allocated buffer and is valid as
///< long as this object lives, or until the next call to Convert(). The
///< return value always points to the result if the conversion was successful
///< (even if a fixed size To buffer was given and the result didn't fit into
///< it). If the string could not be converted, the result points to the
///< original From string.
static const char *SystemCharacterTable(void) { return systemCharacterTable; }
static void SetSystemCharacterTable(const char *CharacterTable);
};
class cString {
private:
char *s;
public:
cString(const char *S = NULL, bool TakePointer = false);
cString(const cString &String);
virtual ~cString();
operator const char * () const { return s; } // for use in (const char *) context
const char * operator*() const { return s; } // for use in (const void *) context (printf() etc.)
cString &operator=(const cString &String);
static cString sprintf(const char *fmt, ...) __attribute__ ((format (printf, 1, 2)));
};
ssize_t safe_read(int filedes, void *buffer, size_t size);
ssize_t safe_write(int filedes, const void *buffer, size_t size);
void writechar(int filedes, char c);
int WriteAllOrNothing(int fd, const uchar *Data, int Length, int TimeoutMs = 0, int RetryMs = 0);
///< Writes either all Data to the given file descriptor, or nothing at all.
///< If TimeoutMs is greater than 0, it will only retry for that long, otherwise
///< it will retry forever. RetryMs defines the time between two retries.
char *strcpyrealloc(char *dest, const char *src);
char *strn0cpy(char *dest, const char *src, size_t n);
char *strreplace(char *s, char c1, char c2);
char *strreplace(char *s, const char *s1, const char *s2); ///< re-allocates 's' and deletes the original string if necessary!
char *skipspace(const char *s);
char *stripspace(char *s);
char *compactspace(char *s);
cString strescape(const char *s, const char *chars);
bool startswith(const char *s, const char *p);
bool endswith(const char *s, const char *p);
bool isempty(const char *s);
int numdigits(int n);
bool isnumber(const char *s);
cString itoa(int n);
cString AddDirectory(const char *DirName, const char *FileName);
int FreeDiskSpaceMB(const char *Directory, int *UsedMB = NULL);
bool DirectoryOk(const char *DirName, bool LogErrors = false);
bool MakeDirs(const char *FileName, bool IsDirectory = false);
bool RemoveFileOrDir(const char *FileName, bool FollowSymlinks = false);
bool RemoveEmptyDirectories(const char *DirName, bool RemoveThis = false);
int DirSizeMB(const char *DirName); ///< returns the total size of the files in the given directory, or -1 in case of an error
char *ReadLink(const char *FileName); ///< returns a new string allocated on the heap, which the caller must delete (or NULL in case of an error)
bool SpinUpDisk(const char *FileName);
void TouchFile(const char *FileName);
time_t LastModifiedTime(const char *FileName);
cString WeekDayName(int WeekDay);
cString WeekDayName(time_t t);
cString DayDateTime(time_t t = 0);
cString TimeToString(time_t t);
cString DateString(time_t t);
cString TimeString(time_t t);
uchar *RgbToJpeg(uchar *Mem, int Width, int Height, int &Size, int Quality = 100);
///< Converts the given Memory to a JPEG image and returns a pointer
///< to the resulting image. Mem must point to a data block of exactly
///< (Width * Height) triplets of RGB image data bytes. Upon return, Size
///< will hold the number of bytes of the resulting JPEG data.
///< Quality can be in the range 0..100 and controls the quality of the
///< resulting image, where 100 is "best". The caller takes ownership of
///< the result and has to delete it once it is no longer needed.
///< The result may be NULL in case of an error.
class cBase64Encoder {
private:
const uchar *data;
int length;
int maxResult;
int i;
char *result;
static const char *b64;
public:
cBase64Encoder(const uchar *Data, int Length, int MaxResult = 64);
///< Sets up a new base 64 encoder for the given Data, with the given Length.
///< Data will not be copied and must be valid as long as NextLine() will be
///< called. MaxResult defines the maximum number of characters in any
///< result line. The resulting lines may be shorter than MaxResult in case
///< its value is not a multiple of 4.
~cBase64Encoder();
const char *NextLine(void);
///< Returns the next line of encoded data (terminated by '\0'), or NULL if
///< there is no more encoded data. The caller must call NextLine() and process
///< each returned line until NULL is returned, in order to get the entire
///< data encoded. The returned data is only valid until the next time NextLine()
///< is called, or until the object is destroyed.
};
class cTimeMs {
private:
uint64_t begin;
public:
cTimeMs(int Ms = 0);
///< Creates a timer with ms resolution and an initial timeout of Ms.
static uint64_t Now(void);
void Set(int Ms = 0);
bool TimedOut(void);
uint64_t Elapsed(void);
};
class cReadLine {
private:
size_t size;
char *buffer;
public:
cReadLine(void);
~cReadLine();
char *Read(FILE *f);
};
class cPoller {
private:
enum { MaxPollFiles = 16 };
pollfd pfd[MaxPollFiles];
int numFileHandles;
public:
cPoller(int FileHandle = -1, bool Out = false);
bool Add(int FileHandle, bool Out);
bool Poll(int TimeoutMs = 0);
};
class cReadDir {
private:
DIR *directory;
struct dirent *result;
union { // according to "The GNU C Library Reference Manual"
struct dirent d;
char b[offsetof(struct dirent, d_name) + NAME_MAX + 1];
} u;
public:
cReadDir(const char *Directory);
~cReadDir();
bool Ok(void) { return directory != NULL; }
struct dirent *Next(void);
};
class cFile {
private:
static bool files[];
static int maxFiles;
int f;
public:
cFile(void);
~cFile();
operator int () { return f; }
bool Open(const char *FileName, int Flags, mode_t Mode = DEFFILEMODE);
bool Open(int FileDes);
void Close(void);
bool IsOpen(void) { return f >= 0; }
bool Ready(bool Wait = true);
static bool AnyFileReady(int FileDes = -1, int TimeoutMs = 1000);
static bool FileReady(int FileDes, int TimeoutMs = 1000);
static bool FileReadyForWriting(int FileDes, int TimeoutMs = 1000);
};
class cSafeFile {
private:
FILE *f;
char *fileName;
char *tempName;
public:
cSafeFile(const char *FileName);
~cSafeFile();
operator FILE* () { return f; }
bool Open(void);
bool Close(void);
};
/// cUnbufferedFile is used for large files that are mainly written or read
/// in a streaming manner, and thus should not be cached.
class cUnbufferedFile {
private:
int fd;
off_t curpos;
off_t cachedstart;
off_t cachedend;
off_t begin;
off_t lastpos;
off_t ahead;
size_t readahead;
size_t written;
size_t totwritten;
int FadviseDrop(off_t Offset, off_t Len);
public:
cUnbufferedFile(void);
~cUnbufferedFile();
int Open(const char *FileName, int Flags, mode_t Mode = DEFFILEMODE);
int Close(void);
void SetReadAhead(size_t ra);
off_t Seek(off_t Offset, int Whence);
ssize_t Read(void *Data, size_t Size);
ssize_t Write(const void *Data, size_t Size);
static cUnbufferedFile *Create(const char *FileName, int Flags, mode_t Mode = DEFFILEMODE);
};
class cLockFile {
private:
char *fileName;
int f;
public:
cLockFile(const char *Directory);
~cLockFile();
bool Lock(int WaitSeconds = 0);
void Unlock(void);
};
class cListObject {
private:
cListObject *prev, *next;
public:
cListObject(void);
virtual ~cListObject();
virtual int Compare(const cListObject &ListObject) const { return 0; }
///< Must return 0 if this object is equal to ListObject, a positive value
///< if it is "greater", and a negative value if it is "smaller".
void Append(cListObject *Object);
void Insert(cListObject *Object);
void Unlink(void);
int Index(void) const;
cListObject *Prev(void) const { return prev; }
cListObject *Next(void) const { return next; }
};
class cListBase {
protected:
cListObject *objects, *lastObject;
cListBase(void);
int count;
public:
virtual ~cListBase();
void Add(cListObject *Object, cListObject *After = NULL);
void Ins(cListObject *Object, cListObject *Before = NULL);
void Del(cListObject *Object, bool DeleteObject = true);
virtual void Move(int From, int To);
void Move(cListObject *From, cListObject *To);
virtual void Clear(void);
cListObject *Get(int Index) const;
int Count(void) const { return count; }
void Sort(void);
};
template<class T> class cList : public cListBase {
public:
T *Get(int Index) const { return (T *)cListBase::Get(Index); }
T *First(void) const { return (T *)objects; }
T *Last(void) const { return (T *)lastObject; }
T *Prev(const T *object) const { return (T *)object->cListObject::Prev(); } // need to call cListObject's members to
T *Next(const T *object) const { return (T *)object->cListObject::Next(); } // avoid ambiguities in case of a "list of lists"
};
template<class T> class cVector {
private:
mutable int allocated;
mutable int size;
mutable T *data;
void Realloc(int NewAllocated) const { data = (T *)realloc(data, (allocated = NewAllocated) * sizeof(T)); }
public:
cVector(int Allocated = 10)
{
allocated = 0;
size = 0;
data = NULL;
Realloc(Allocated);
}
virtual ~cVector() { free(data); }
T& At(int Index) const
{
if (Index >= size)
Realloc(size = Index + 1);
return data[Index];
}
const T& operator[](int Index) const
{
return At(Index);
}
T& operator[](int Index)
{
return At(Index);
}
int Size(void) const { return size; }
virtual void Append(T Data)
{
if (size >= allocated)
Realloc(allocated * 4 / 2); // increase size by 50%
data[size++] = Data;
}
void Sort(__compar_fn_t Compare)
{
qsort(data, size, sizeof(T), Compare);
}
};
inline int CompareStrings(const void *a, const void *b)
{
return strcmp(*(const char **)a, *(const char **)b);
}
class cFileNameList : public cVector<char *> {
public:
cFileNameList(const char *Directory = NULL);
virtual ~cFileNameList();
bool Load(const char *Directory);
int Find(const char *FileName);
};
class cHashObject : public cListObject {
friend class cHashBase;
private:
unsigned int id;
cListObject *object;
public:
cHashObject(cListObject *Object, unsigned int Id) { object = Object; id = Id; }
cListObject *Object(void) { return object; }
};
class cHashBase {
private:
cList<cHashObject> **hashTable;
int size;
unsigned int hashfn(unsigned int Id) const { return Id % size; }
protected:
cHashBase(int Size);
public:
virtual ~cHashBase();
void Add(cListObject *Object, unsigned int Id);
void Del(cListObject *Object, unsigned int Id);
void Clear(void);
cListObject *Get(unsigned int Id) const;
cList<cHashObject> *GetList(unsigned int Id) const;
};
#define HASHSIZE 512
template<class T> class cHash : public cHashBase {
public:
cHash(int Size = HASHSIZE) : cHashBase(Size) {}
T *Get(unsigned int Id) const { return (T *)cHashBase::Get(Id); }
};
#endif //__TOOLS_H
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