// // Copyright (C) 2002 RealVNC Ltd. All Rights Reserved. // // This is free software; you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation; either version 2 of the License, or // (at your option) any later version. // // This software 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 General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this software; if not, write to the Free Software // Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, // USA. // // rdr::InStream marshalls data from a buffer stored in RDR (RFB Data // Representation). // #ifndef __RDR_INSTREAM_H__ #define __RDR_INSTREAM_H__ #include #include // for memcpy namespace rdr { class InStream { public: virtual ~InStream() {} // check() ensures there is buffer data for at least one item of size // itemSize bytes. Returns the number of items in the buffer (up to a // maximum of nItems). inline int check(int itemSize, int nItems=1) { if (ptr + itemSize * nItems > end) { if (ptr + itemSize > end) return overrun(itemSize, nItems); nItems = (end - ptr) / itemSize; } return nItems; } // readU/SN() methods read unsigned and signed N-bit integers. inline U8 readU8() { check(1); return *ptr++; } inline U16 readU16() { check(2); int b0 = *ptr++; int b1 = *ptr++; return b0 << 8 | b1; } inline U32 readU32() { check(4); int b0 = *ptr++; int b1 = *ptr++; int b2 = *ptr++; int b3 = *ptr++; return b0 << 24 | b1 << 16 | b2 << 8 | b3; } inline S8 readS8() { return (S8) readU8(); } inline S16 readS16() { return (S16)readU16(); } inline S32 readS32() { return (S32)readU32(); } // readString() reads a string - a U32 length followed by the data. // Returns a null-terminated string - the caller should delete[] it // afterwards. char* readString(); // maxStringLength protects against allocating a huge buffer. Set it // higher if you need longer strings. static U32 maxStringLength; inline void skip(int bytes) { while (bytes > 0) { int n = check(1, bytes); ptr += n; bytes -= n; } } // readBytes() reads an exact number of bytes. virtual void readBytes(void* data, int length) { U8* dataPtr = (U8*)data; U8* dataEnd = dataPtr + length; while (dataPtr < dataEnd) { int n = check(1, dataEnd - dataPtr); memcpy(dataPtr, ptr, n); ptr += n; dataPtr += n; } } // readOpaqueN() reads a quantity without byte-swapping. inline U8 readOpaque8() { return readU8(); } inline U16 readOpaque16() { check(2); U16 r; ((U8*)&r)[0] = *ptr++; ((U8*)&r)[1] = *ptr++; return r; } inline U32 readOpaque32() { check(4); U32 r; ((U8*)&r)[0] = *ptr++; ((U8*)&r)[1] = *ptr++; ((U8*)&r)[2] = *ptr++; ((U8*)&r)[3] = *ptr++; return r; } inline U32 readOpaque24A() { check(3); U32 r=0; ((U8*)&r)[0] = *ptr++; ((U8*)&r)[1] = *ptr++; ((U8*)&r)[2] = *ptr++; return r; } inline U32 readOpaque24B() { check(3); U32 r=0; ((U8*)&r)[1] = *ptr++; ((U8*)&r)[2] = *ptr++; ((U8*)&r)[3] = *ptr++; return r; } // pos() returns the position in the stream. virtual int pos() = 0; // getptr(), getend() and setptr() are "dirty" methods which allow you to // manipulate the buffer directly. This is useful for a stream which is a // wrapper around an underlying stream. inline const U8* getptr() const { return ptr; } inline const U8* getend() const { return end; } inline void setptr(const U8* p) { ptr = p; } private: // overrun() is implemented by a derived class to cope with buffer overrun. // It ensures there are at least itemSize bytes of buffer data. Returns // the number of items in the buffer (up to a maximum of nItems). itemSize // is supposed to be "small" (a few bytes). virtual int overrun(int itemSize, int nItems) = 0; protected: InStream() {} const U8* ptr; const U8* end; }; } #endif