#ifndef _KPILOT_PILOT_H #define _KPILOT_PILOT_H /* KPilot ** ** Copyright (C) 1998-2001 by Dan Pilone ** Copyright (C) 2003-2004 Reinhold Kainhofer ** Copyright (C) 2003-2006 Adriaan de Groot ** */ /* ** This program is free software; you can redistribute it and/or modify ** it under the terms of the GNU Lesser General Public License as published by ** the Free Software Foundation; either version 2.1 of the License, or ** (at your option) any later version. ** ** This program is distributed in the hope that it will be useful, ** but WITHOUT ANY WARRANTY; without even the implied warranty of ** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ** GNU Lesser General Public License for more details. ** ** You should have received a copy of the GNU Lesser General Public License ** along with this program in a file called COPYING; if not, write to ** the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, ** MA 02110-1301, USA. */ /* ** Bug reports and questions can be sent to kde-pim@kde.org */ #include #include #include #include #include #include #include #include "pilotLinkVersion.h" /** @file * These are some base structures that reside on the * handheld device -- strings and binary data. */ class PilotDatabase; // A database class PilotRecord; // ... has records class PilotCategoryInfo; // ... and category information #define MIN(X, Y) ((X) < (Y) ? (X) : (Y)) /** * The Pilot namespace holds constants that are global for * the handheld data structures. Also tqcontains some global * functions that deal with pilot-link structures as well * as mapping user-visible strings from UTF8 (KDE side) to * the encoding used on the handheld. */ namespace Pilot { /** Maximum size of an AppInfo block, taken roughly from the pilot-link source. */ static const int MAX_APPINFO_SIZE=8192; /** Maximum number of categories the handheld has */ static const unsigned int CATEGORY_COUNT=16; /** Maximum size of a category label */ static const unsigned int CATEGORY_SIZE=16; /** Category number for unfiled records */ static const int Unfiled = 0; /** Maximum size (in bytes) of a record's data */ static const int MAX_RECORD_SIZE = 65535; typedef TQValueList RecordIDList; /** Static translation function that maps handheld native (8 bit, * usually latin1 but sometimes someting else) encoded data to * a Unicode string. Converts the @p len characters in @p c * to a Unicode string. */ TQString fromPilot( const char *c, int len ); /** Static translation function mapping a NUL-terminated * string from the handheld's encoding to UTF-8. * @param c the NUL-terminated string to decode * @return TQString (UTF-8) value of @p c * @note NUL-terminated strings are rare on the handheld. */ TQString fromPilot( const char *c ); /** Static translation function that maps a TQString onto the * native 8 bit encoding of the handheld. Writes the result into * the buffer @p buf which has size @p len. Returns the length * of the result. Zero-fills the buffer as needed. */ int toPilot( const TQString &s, char *buf, int len); int toPilot( const TQString &s, unsigned char *buf, int len); /** Static translation function that maps a TQString onto the * native 8 bit encoding of the handheld. * * @param s String to encode * @return Encoded string in a QCString */ TQCString toPilot( const TQString &s ); /** Create a codec for translating handheld native 8 bit to Unicode, * using the given codec @p name -- this will often be latin1, but * might be something else for, say, Russian-language Pilots. * If @p name is empty, use latin1. * * @return @c true on success, @c false otherwise */ bool setupPilotCodec(const TQString &name); /** Returns the name of the codec being used. */ TQString codecName(); /** For debugging, display category names for the given AppInfo * structure. Called by dump(). You must pass a valid reference. */ void dumpCategories(const struct CategoryAppInfo *info); /** Check that a given category number is valid. This * restricts the range of integers to [0..CATEGORY_COUNT-1] * (i.e. [0..15]) which is what the handheld supports. */ inline bool validCategory(int c) { if (c<0) { return false; } return ((unsigned int)cname[i][0] ) ) { /* * Seems to be important that we try to pass the real length here * to the codec. */ return fromPilot( info->name[i], MIN(strlen(info->name[i]),CATEGORY_SIZE) ); } else { return TQString::null; } } /** Returns a list of all the category names available on the * handheld. This list is neither ordered nor does it contain * all sixteen categories -- empty category names on the * handheld are skipped. */ inline TQStringList categoryNames(const struct CategoryAppInfo *info) { TQStringList l; if (!info) { return l; } for (unsigned int i=0; i=0 is a specific category based on the text-to- * category number mapping defined by the Pilot, * where 0 is always the 'unfiled' category. * @return -1 means unknown category selected when * @p unknownIsUnfiled is false. * @return 0 == Unfiled means unknown category selected when * @p unknownIsUnfiled is true. * */ int findCategory(const struct CategoryAppInfo *info, const TQString &name, bool unknownIsUnfiled); /** Search for the given category @p name in the list * of categories; returns the category number. If @p unknownIsUnfiled * is @c true, then map unknown categories to Unfiled. * If @p unknownIsUnfiled is @c false, insert a @em new * category into the structure and return the category * number of the new category. Return -1 if (and only if) * @p unknownIsUnfiled is false and the category structure * is already full. * * @return >=0 is a specific category based on the text-to- * category number mapping defined by the Pilot, * where 0 is always the 'unfiled' category. * @return 0 Unknown category and @p unknownIsUnfiled is @c true * @return -1 means unknown category selected when * @p unknownIsUnfiled is false and categories * are all full. * */ int insertCategory(struct CategoryAppInfo *info, const TQString &label, bool unknownIsUnfiled); /** The handheld also holds data about each database * in a DBInfo structure; check if the database described * by this structure is a resource database. */ static inline bool isResource(struct DBInfo *info) { return (info->flags & dlpDBFlagResource); } /** @section Binary blob handling * * For reading and writing binary blobs -- which has to happen to * pack data into the format that the handheld needs -- it is important * to remember that the handheld has only four data types (as far * as I can tell: byte, short (a 2 byte integer), long (a 4 byte integer) * and string (NUL terminated). The sizes of the types on the handheld * do not necessarily correspond to the sizes of the same-named types * on the desktop. This means that 'reading a long' from a binary * blob must always be 4 bytes -- not sizeof(long). * * The following templates help out in manipulating the blobs. * Instantiate them with the type @em name you need (char, short, long or * char *) and you get a ::size enum specifying the number of bytes * (where applicable) and ::append and ::read methods for appending * a value of the given type to a pi_buffer_t or reading one from * the buffer, respectively. * * The usage of ::read and ::append is straightforward: * * append(pi_buffer_t *b, TYPE_VALUE v) Appends the type value @p v to the * buffer @p b , extending the buffer as needed. * * TYPE_VALUE read(pi_buffer_t *b, unsigned int &offset) Read a value from * the buffer @p b at position @p offset and return it. The offset value * is increased by the number of bytes read from the buffer. * * To write a binary blob, a sequence of ::append calls constructs the * blob. To read the same blob, a sequence of ::read calls with the * @em same type parameters is sufficient. * * The calls may vary a little: the exact interface differs depending * on the needs of the type of data to be written to the blob. */ template struct dlp { } ; template<> struct dlp { enum { size = 1 }; static void append(pi_buffer_t *b, char v) { pi_buffer_append(b,&v,size); } /** * Returns next byte from buffer or 0 on error (0 is also a * valid return value, though). */ static char read(const pi_buffer_t *b, unsigned int &offset) { if (offset+size > b->used) { return 0; } char c = b->data[offset]; offset+=size; return c; } } ; template<> struct dlp { enum { size = 2 }; static void append(pi_buffer_t *b, short v) { char buf[size]; set_short(buf,v); pi_buffer_append(b,buf,size); } /** * Returns the next short (2 byte) value from the buffer, or * -1 on error (which is also a valid return value). */ static int read(const pi_buffer_t *b, unsigned int &offset) { if (offset+size > b->used) { return -1; } else { int r = get_short(b->data + offset); offset+=size; return r; } } /** * Overload to read from a data buffer instead of a real pi_buffer; * does no bounds checking. */ static int read(const unsigned char *b, unsigned int &offset) { int r = get_short(b+offset); offset+=size; return r; } } ; template<> struct dlp { enum { size = 4 }; static void append(pi_buffer_t *b, int v) { char buf[size]; set_long(buf,v); pi_buffer_append(b,buf,size); } /** * Returns the next long (4 byte) value from the buffer or * -1 on error (which is also a valid value). */ static int read(const pi_buffer_t *b, unsigned int &offset) { if (offset+size > b->used) { return -1; } else { int r = get_long(b->data + offset); offset+=size; return r; } } /** * Overload to read a long value from a data buffer; does * no bounds checking. */ static int read(const unsigned char *b, unsigned int &offset) { int r = get_long(b+offset); offset+=size; return r; } } ; template<> struct dlp { // No size enum, doesn't make sense // No append, use pi_buffer_append /** * Read a fixed-length string from the buffer @p b into data buffer * @p v which has size (including terminating NUL) of @p s. * Returns the number of bytes read (which will normally be @p s * but will be less than @p s on error). */ static int read(const pi_buffer_t *b, unsigned int &offset, unsigned char *v, size_t s) { if ( s+offset > b->used ) { s = b->allocated - offset; } memcpy(v, b->data + offset, s); offset+=s; return s; } /** Overload for signed char. */ inline static int read(const pi_buffer_t *b, unsigned int &offset, char *v, size_t s) { return read(b,offset,(unsigned char *)v,s); } } ; } #endif