// NeL - MMORPG Framework // Copyright (C) 2010 Winch Gate Property Limited // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as // published by the Free Software Foundation, either version 3 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 Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . #include "stdmisc.h" #include "nel/misc/bit_mem_stream.h" #include "nel/misc/bit_set.h" #ifdef LOG_ALL_TRAFFIC #include "nel/misc/command.h" #endif using namespace std; namespace NLMISC { #ifdef LOG_ALL_TRAFFIC bool VerboseAllTraffic = false; #endif const char * SerialTypeToCStr [ TBMSSerialInfo::NbSerialTypes ] = { "Bool ", "Ui32N", "Ui64N", "Float", "Btfld", "Buffr" }; /* * Constructor */ CBitMemStream::CBitMemStream( bool inputStream, uint32 defaultcapacity ) : CMemStream( inputStream, false, defaultcapacity ), _FreeBits( 0 ) { resetBufPos(); } /* * Copy constructor */ CBitMemStream::CBitMemStream( const CBitMemStream& other ) : CMemStream( other ), _FreeBits( other._FreeBits ), _DbgInfo( other._DbgInfo ) { } /* * Exchange */ void CBitMemStream::swap(CBitMemStream &other) { CMemStream::swap(other); std::swap(_FreeBits, other._FreeBits); _DbgInfo.swap(other._DbgInfo); } /* * Serialize a buffer */ void CBitMemStream::serialBuffer( uint8 *buf, uint len ) { _DbgInfo.addSerial( getPosInBit(), len*8, TBMSSerialInfo::Buffer ); uint i; uint32 v; if ( isReading() ) { for ( i=0; i!=len; ++i ) { internalSerial( v, 8 ); buf[i] = (uint8)v; } } else { for ( i=0; i!=len; ++i ) { v = (uint32)buf[i]; internalSerial( v, 8 ); } } } /* * Serialize one bit */ void CBitMemStream::serialBit( bool& bit ) { _DbgInfo.addSerial( getPosInBit(), 1, TBMSSerialInfo::B ); uint32 ubit=0; if ( isReading() ) { internalSerial( ubit, 1 ); bit = ( ubit!=0 ); } else { ubit = bit; internalSerial( ubit, 1 ); } } //sint32 CBitMemStream::getPosInBit () #ifdef LOG_ALL_TRAFFIC void CBitMemStream::_serialAndLog( const char *argstr, uint32& value, uint nbits ) { _DbgInfo.setSymbolOfNextSerialEvent( argstr ); sint32 bitpos = getPosInBit(); serial( value, nbits ); if ( VerboseAllTraffic ) nldebug( "TRAFFIC/%p/%s: %s: %u bits at bitpos %d (%u)", this, isReading()?"I":"O", argstr, nbits, bitpos, value ); } void CBitMemStream::_serialAndLog( const char *argstr, uint64& value, uint nbits ) { _DbgInfo.setSymbolOfNextSerialEvent( argstr ); sint32 bitpos = getPosInBit(); serial( value, nbits ); if ( VerboseAllTraffic ) nldebug( "TRAFFIC/%p/%s: %s: %u bits at bitpos %d (%u)", this, isReading()?"I":"O", argstr, nbits, bitpos, value ); } void CBitMemStream::_serialBitAndLog( const char *argstr, bool& bit ) { _DbgInfo.setSymbolOfNextSerialEvent( argstr ); sint32 bitpos = getPosInBit(); serialBit( bit ); if ( VerboseAllTraffic ) nldebug( "TRAFFIC/%p/%s: %s: 1 bit at bitpos %d (%hu)", this, isReading()?"I":"O", argstr, bitpos, (uint16)bit ); } NLMISC_CATEGORISED_COMMAND(nel, verboseAllTraffic, "Verbose the all-traffic logs", "" ) { if(args.size()>1) return false; if(args.size()==1) { if(args[0]==string("on")||args[0]==string("ON")||args[0]==string("true")||args[0]==string("TRUE")||args[0]==string("1")) VerboseAllTraffic=true; else if(args[0]==string("off")||args[0]==string("OFF")||args[0]==string("false")||args[0]==string("FALSE")||args[0]==string("0")) VerboseAllTraffic=false; } nlinfo("BMS: verboseAllTraffic is %s",VerboseAllTraffic?"ON":"OFF"); return true; } #endif /* * Serialize only the nbits lower bits of value */ void CBitMemStream::internalSerial( uint32& value, uint nbits, bool resetvalue ) { if ( nbits == 0 ) return; if ( nbits > 32 ) throw EMemStream (string("trying to serial ")+NLMISC::toString(nbits)+string(" bits")); if ( isReading() ) { const uint8 *buffer = _Buffer.getBuffer().getPtr(); // Check that we don't read more than there is to read uint32 pib = getPosInBit(); uint32 len = ((uint32)lengthR()); if ( pib + nbits > len * 8 ) { //displayStream( "Stream Overflow" ); throw EStreamOverflow( "CBitMemStream overflow: Read past %u bytes", len ); } if ( resetvalue ) { value = 0; } // Clear high-order bits after _FreeBits uint8 v = *(buffer + _Buffer.Pos) & ((1 << _FreeBits) - 1); if ( nbits > _FreeBits ) { //nldebug( "Reading byte %u from %u free bits (%u remaining bits)", lengthS(), _FreeBits, nbits ); value |= (v << (nbits-_FreeBits)); // ++_BufPos; ++_Buffer.Pos; uint readbits = _FreeBits; //displayByteBits( *_BufPos, 8, readbits-1, false ); _FreeBits = 8; internalSerial( value, nbits - readbits, false ); // read without resetting value } else { //nlinfo( "Reading last byte %u from %u free bits (%u remaining bits)", lengthS(), _FreeBits, nbits ); //displayByteBits( *_BufPos, 8, _FreeBits-1, false ); value |= (v >> (_FreeBits-nbits)); //displayByteBits( *_BufPos, 8, _FreeBits-1, false ); _FreeBits -= nbits; if ( _FreeBits == 0 ) { _FreeBits = 8; // ++_BufPos; ++_Buffer.Pos; } } } else { uint8 *buffer = _Buffer.getBufferWrite().getPtr(); // Clear high-order bits after nbits //displayDwordBits( value, 32, nbits-1, false ); //uint32 mask = (-1 >> (32-nbits)); // does not work uint32 v; if ( nbits != 32 ) // arg of shl/sal/shr/sal ranges from 0 to 31 { uint32 mask = (1 << nbits) - 1; v = value & mask; } else { v = value; } #ifdef NL_DEBUG // Check that the current byte is prepared nlassert( ! ((_FreeBits == 8) && (*(buffer+_Buffer.Pos) != 0)) ); #endif // Set if ( nbits > _FreeBits ) { // Longer than the room in the current byte //nldebug( "Writing byte %u into %u free bits (%u remaining bits)", lengthS(), _FreeBits, nbits ); //displayDwordBits( value, 32, nbits-1, false ); // *_BufPos |= (v >> (nbits - _FreeBits)); *(buffer+_Buffer.Pos) |= (v >> (nbits - _FreeBits)); uint filledbits = _FreeBits; //displayByteBits( *_BufPos, 8, filledbits-1, false ); prepareNextByte(); internalSerial( v, nbits - filledbits ); } else { // Shorter or equal //nldebug( "Writing last byte %u into %u free bits (%u remaining bits)", lengthS(), _FreeBits, nbits ); //displayByteBits( *_BufPos, 8, 7, false ); // *_BufPos |= (v << (_FreeBits-nbits)); *(buffer+_Buffer.Pos) |= (v << (_FreeBits-nbits)); //displayByteBits( *_BufPos, 8, _FreeBits-1, false ); _FreeBits -= nbits; if ( _FreeBits == 0 ) { prepareNextByte(); } } } } /* * Same as CMemStream::reserve() */ sint32 CBitMemStream::reserve( uint byteLen ) { sint32 p = getPos(); reserveBits( byteLen * 8 ); return p; } /* * In a output bit stream, serialize nbits bits (no matter their value). * Works even if the number of bits to add is larger than 64. See also poke() and pokeBits(). */ void CBitMemStream::reserveBits( uint nbits ) { #ifdef LOG_ALL_TRAFFIC if ( VerboseAllTraffic ) nldebug( "TRAFFIC/%p/%s: Reserving %u bits at bitpos %d", this, isReading()?"I":"O", nbits, getPosInBit() ); #endif uint32 v = 0; while ( nbits > 32 ) { serial( v, 32 ); nbits -= 32; } if ( nbits != 0 ) serial( v, nbits ); } /* * Helper for poke(), to write a value inside an output stream (works because reserveBits sets to 0) */ void CBitMemStream::serialPoke( uint32 value, uint nbits ) { uint32 v; if ( nbits != 32 ) // arg of shl/sal/shr/sal ranges from 0 to 31 { uint32 mask = (1 << nbits) - 1; v = value & mask; } else { v = value; } uint8 *buffer = _Buffer.getBufferWrite().getPtr(); // Set if ( nbits > _FreeBits ) { // Longer than the room in the current byte //nldebug( "Writing byte %u into %u free bits (%u remaining bits)", lengthS(), _FreeBits, nbits ); //displayDwordBits( value, 32, nbits-1, false ); // *_BufPos |= (v >> (nbits - _FreeBits)); *(buffer + _Buffer.Pos) |= (v >> (nbits - _FreeBits)); uint filledbits = _FreeBits; //displayByteBits( *_BufPos, 8, filledbits-1, false ); pointNextByte(); // do not set next byte to 0! // nlassert( _BufPos < _Buffer.getPtr() + _Buffer.size() ); nlassert( _Buffer.Pos < _Buffer.getBuffer().size() ); serialPoke( v, nbits - filledbits ); } else { // Shorter or equal //nldebug( "Writing last byte %u into %u free bits (%u remaining bits)", lengthS(), _FreeBits, nbits ); //displayByteBits( *_BufPos, 8, 7, false ); // *_BufPos |= (v << (_FreeBits-nbits)); *(buffer + _Buffer.Pos) |= (v << (_FreeBits-nbits)); //displayByteBits( *_BufPos, 8, _FreeBits-1, false ); _FreeBits -= nbits; if ( _FreeBits == 0 ) { pointNextByte(); // do not set next byte to 0! // nlassert( _BufPos < _Buffer.getPtr() + _Buffer.size() ); nlassert( _Buffer.Pos < _Buffer.getBuffer().size() ); } } } /* * Rewrite the nbbits lowest bits of a value at the specified position bitpos of the current output bit stream. * * Preconditions: * - bitpos+nbbits <= the current length in bit of the stream. * - The bits poked must have been reserved by reserve() (i.e. set to 0) */ void CBitMemStream::poke( uint32 value, uint bitpos, uint nbits ) { #ifdef NL_DEBUG nlassert( (nbits <= 32) && (nbits != 0) ); nlassert( ! isReading() ); nlassert( bitpos+nbits <= (uint)getPosInBit() ); #endif // Save the current pointers of the stream, and make them point to the required position uint savedFreeBits = _FreeBits; uint bytepos = bitpos >> 3; _FreeBits = 8 - (bitpos - (bytepos << 3)); // uint8 *savedBufPos = _BufPos; uint32 savedBufPos = _Buffer.Pos; // _BufPos = _Buffer.getPtr() + bytepos; _Buffer.Pos = bytepos; // Serial _DbgInfo.addPoke( bitpos, nbits, TBMSSerialInfo::U ); serialPoke( value, nbits ); // Restore the current pointers _FreeBits = savedFreeBits; // _BufPos = savedBufPos; _Buffer.Pos = savedBufPos; } /* Rewrite the bitfield at the specified position bitpos of the current output bit stream. * The size of the bitfield is *not* written into stream (unlike serialCont()). * Precondition: bitpos+bitfield.size() <= the current length in bit of the stream. See also reserveBits(). */ void CBitMemStream::pokeBits( const CBitSet& bitfield, uint bitpos ) { #ifdef NL_DEBUG nlassert( ! isReading() ); nlassert( bitpos+bitfield.size() <= (uint)getPosInBit() ); #endif // Save the current pointers of the stream, and make them point to the required position uint savedFreeBits = _FreeBits; uint bytepos = bitpos >> 3; _FreeBits = 8 - (bitpos - (bytepos << 3)); // uint8 *savedBufPos = _BufPos; uint32 savedBufPos = _Buffer.Pos; // _BufPos = _Buffer.getPtr() + bytepos; _Buffer.Pos = bytepos; // Serial _DbgInfo.addPoke( bitpos, bitfield.size(), TBMSSerialInfo::BF ); const vector& uintVec = bitfield.getVector(); if ( ! uintVec.empty() ) { uint len = bitfield.size(); uint i = 0; while ( len > 32 ) { serialPoke( uintVec[i], 32 ); len -= 32; ++i; } if ( len != 0 ) serialPoke( uintVec[i], len ); } // Restore the current pointers _FreeBits = savedFreeBits; // _BufPos = savedBufPos; _Buffer.Pos = savedBufPos; } /* * Read bitfield.size() bits from the input stream to fill the bitfield. * It means you have to know the size and to resize the bitfield yourself. */ void CBitMemStream::readBits( NLMISC::CBitSet& bitfield ) { #ifdef NL_DEBUG nlassert( isReading() ); #endif uint len = bitfield.size(); if ( len != 0 ) { #ifdef LOG_ALL_TRAFFIC if ( VerboseAllTraffic ) nldebug( "TRAFFIC/%p/%s: Reading %u bits bitfield at bitpos %d", this, isReading()?"I":"O", len, getPosInBit() ); #endif uint i = 0; uint32 v; while ( len > 32 ) { serial( v, 32 ); //nldebug( "Bitfield: Read %u at %d", v, _BufPos-_Buffer.getPtr()-4 ); bitfield.setUint( v, i ); len -= 32; ++i; } serial( v, len ); //nldebug( "Bitfield: Read %u at %d", v, _BufPos-_Buffer.getPtr()-4 ); bitfield.setUint( v, i ); } } /* * Serial float */ void CBitMemStream::serial(float &b) { _DbgInfo.addSerial( getPosInBit(), sizeof(b)*8, TBMSSerialInfo::F ); uint32 uf=0; if ( isReading() ) { internalSerial( uf, sizeof(b)*8 ); b = *(float*)&uf; } else { uf = *(uint32*)&b; internalSerial( uf, sizeof(b)*8 ); } } /* * Serial string */ void CBitMemStream::serial(std::string &b) { #ifdef LOG_ALL_TRAFFIC sint32 bitpos = getPosInBit(); #endif uint32 len=0; // Serialize length if ( isReading() ) { serial( len ); if (len > length()-(uint32)getPos()) throw NLMISC::EInvalidDataStream( "BMS: Trying to read a string of %u bytes, past stream size", len ); b.resize( len ); } else { len = b.size(); if (len>1000000) throw NLMISC::EInvalidDataStream( "BMS: Trying to write a string of %u bytes", len ); serial( len ); } // Serialize buffer if ( len != 0 ) { serialBuffer( (uint8*)(&*b.begin()), len ); } #ifdef LOG_ALL_TRAFFIC if ( VerboseAllTraffic ) nldebug( "TRAFFIC/%p/%s: String (size 32+%u*8 bits) at bitpos %d", this, isReading()?"I":"O", len, bitpos ); #endif } /* * Serial string */ inline void CBitMemStream::serial(ucstring &b) { #ifdef LOG_ALL_TRAFFIC sint32 bitpos = getPosInBit(); #endif if ( _StringMode ) { uint32 len=0; // Read/Write the length. if(isReading()) { serial(len); if (len > (uint32)(sint32(length())-sint32(getPos()))) throw NLMISC::EInvalidDataStream( "BMS: Trying to read an ucstring of %u bytes, past stream size", len ); b.resize(len); } else { len= b.size(); if (len>1000000) throw NLMISC::EInvalidDataStream( "BMS: Trying to write an ucstring of %u bytes", len ); serial(len); } // Read/Write the string. for(uint i=0;i!=len;++i) serialBuffer( (uint8*)&b[i], sizeof(b[i]) ); char sep = SEPARATOR; serialBuffer( (uint8*)&sep, 1 ); } else { IStream::serial( b ); } #ifdef LOG_ALL_TRAFFIC if ( VerboseAllTraffic ) nldebug( "TRAFFIC/%p/%s: Ucstring at bitpos %d", this, isReading()?"I":"O", bitpos ); #endif } /* * Append the contents of a bitmemstream at the end of our bitmemstream */ void CBitMemStream::append( const CBitMemStream& newBits ) { nlassert ( !isReading() ); serialBuffer( const_cast(newBits.buffer()), newBits.getPos() ); uint nbRemainingBits = 8 - newBits._FreeBits; _DbgInfo.addSerial( getPosInBit(), nbRemainingBits, TBMSSerialInfo::Buffer ); uint32 lastByte = (uint32)(*(newBits.buffer() + newBits.getPos())) >> newBits._FreeBits; internalSerial( lastByte, nbRemainingBits ); } /* * Serial bitmemstream */ void CBitMemStream::serialMemStream(CBitMemStream &b) { #ifdef LOG_ALL_TRAFFIC sint32 bitpos = getPosInBit(); #endif uint32 len=0; // Serialize length if ( isReading() ) { // fill b with data from this serial (len); if (len > length()-getPos()) throw NLMISC::EInvalidDataStream( "BMS: Trying to read a BMS of %u bytes, past stream size", len ); serialBuffer (b.bufferToFill (len), len); b.resetBufPos (); } else { // fill this with data from b len = b.length(); // Accept to write a big sized BMS serial( len ); serialBuffer( (uint8*) b.buffer (), len ); } #ifdef LOG_ALL_TRAFFIC if ( VerboseAllTraffic ) nldebug( "TRAFFIC/%p/%s: Sub-bitmemstream (size 32+%u*8 bits) at bitpos %d", this, isReading()?"I":"O", len, bitpos ); #endif } /* * Specialisation of serialCont() for vector */ void CBitMemStream::serialCont(std::vector &cont) { #ifdef LOG_ALL_TRAFFIC sint32 bitpos = getPosInBit(); #endif sint32 len=0; if(isReading()) { serial(len); if (len/8 > (sint32)(length()-getPos())) { throw NLMISC::EInvalidDataStream( "BMS: Trying to read a vec of %u bytes, past stream size", len/8 ); } // special version for vector: adjust good size. contReset(cont); cont.reserve(len); for(sint i=0;i::iterator it= cont.begin(); for(sint i=0;i beginpos ) { displayByteBits( *(msg.buffer()+endpos), 8, 0, false, log ); } } /* * Returns the stream as a string with 0 and 1. */ void CBitMemStream::displayStream( const char *title, CLog *log ) { // nlassert( (_BufPos >= _Buffer.getPtr()) && (_BufPos <= _Buffer.getPtr() + _Buffer.size()) ); nlassert( _Buffer.Pos <= _Buffer.getBuffer().size() ); // Display title and information string s = (isReading()?string("I"):string("O")) + string("BMS ") + string(title) + ": "; string sLegend; // if ( _BufPos == _Buffer.getPtr() ) if ( _Buffer.Pos == 0 ) { log->displayNL( (s + "Empty").c_str() ); return; } // s += NLMISC::toString( "BitPos=%d Pos=%u FreeBits=%u Size=%u ", getPosInBit(), (uint32)(_BufPos-_Buffer.getPtr()), _FreeBits, _Buffer.size() ); s += NLMISC::toString( "BitPos=%d Pos=%u FreeBits=%u Size=%u ", getPosInBit(), _Buffer.Pos, _FreeBits, _Buffer.getBuffer().size() ); log->displayNL( s.c_str() ); s.clear(); // Display bitstream (output: until _BufPos/_FreeBits; input: whole buffer) _DbgInfo.beginEventBrowsing(); sint32 eventId; uint32 bitpos = 0; const uint8 *p; // uint8 *endPos = isReading() ? (_Buffer.getPtr() + _Buffer.size()) : (_BufPos+1); const uint8 *endPos = isReading() ? (_Buffer.getBuffer().getPtr() + _Buffer.getBuffer().size()) : (_Buffer.getBuffer().getPtr() + _Buffer.Pos+1); // for ( p=_Buffer.getPtr(); p!=endPos; ++p ) for ( p=_Buffer.getBuffer().getPtr(); p!=endPos; ++p ) { sint i; for ( i=7; i!=-1; --i ) { //bitpos = (p-_Buffer.getPtr())*8 + (7-i); if ( bitpos == (uint32)getPosInBit() ) s += "

"; // display the current position s += _DbgInfo.getEventIdAtBitPos( bitpos, &eventId ); s += ( ((*p) >> i) & 1 ) ? '1' : '0'; sLegend += _DbgInfo.getEventLegendAtBitPos( *this, eventId ); ++bitpos; } s += ' '; // a blank char between each byte if ( bitpos % 64 == 0 ) // limit to 8 bytes per line { log->displayRawNL( s.c_str() ); s.clear(); } } if ( bitpos % 64 != 0 ) log->displayRawNL( s.c_str() ); _DbgInfo.endEventBrowsing(); // Display legend string::size_type lineStart = 0; string::size_type crp = sLegend.find( '\n', lineStart ); while ( crp != string::npos ) { log->displayRawNL( sLegend.substr( lineStart, crp-lineStart ).c_str() ); lineStart = crp + 1; crp = sLegend.find( '\n', lineStart ); } // sLegend ends with a '\n' } /* * Return a string showing the serial item */ std::string CBitMemStream::getSerialItem( const TBMSSerialInfo& serialItem ) { // Save the current pointers of the stream, and make them point to the required position uint savedFreeBits = _FreeBits; uint bytepos = serialItem.BitPos >> 3; _FreeBits = 8 - (serialItem.BitPos - (bytepos << 3)); // uint8 *savedBufPos = _BufPos; uint32 savedBufPos = _Buffer.Pos; // _BufPos = _Buffer.getPtr() + bytepos; _Buffer.Pos = bytepos; bool wasOutput = false;; if ( ! isReading() ) { setInOut( true ); // lighter than invert() wasOutput = true; } // Read and format string string s; if ( getPosInBit() + serialItem.BitSize > lengthR() * 8 ) { s = ""; } else { switch ( serialItem.Type ) { case TBMSSerialInfo::B: { bool b; serialBit( b ); s = NLMISC::toString( "%s", b?"TRUE":"FALSE" ); break; } case TBMSSerialInfo::U: // no distinction with signed int! { uint32 u; serial( u, serialItem.BitSize ); s = NLMISC::toString( "%u", u ); break; } case TBMSSerialInfo::U64: // no distinction with signed int64! { uint64 u; serial( u, serialItem.BitSize ); s = NLMISC::toString( "%"NL_I64"u", u ); break; } case TBMSSerialInfo::F: // what about double? { float f; serial( f ); s = NLMISC::toString( "%g", f ); break; } case TBMSSerialInfo::BF: { CBitSet bs; bs.resize( serialItem.BitSize ); readBits( bs ); s = bs.toString(); break; } case TBMSSerialInfo::Buffer: { uint32 len = serialItem.BitSize / 8; s.resize( len + 2 ); if ( len != 0 ) { serialBuffer( &((uint8&)(s[1])), len ); string::size_type p; for ( p=1; p!=len+1; ++p ) { if ( ! isalnum(s[p]) ) s[p] = '?'; // remove end-of-c_string } } s[0] = '['; s[len+1] = ']'; break; } default: break; } } // Restore the current pointers if ( wasOutput ) { setInOut( false ); } _FreeBits = savedFreeBits; // _BufPos = savedBufPos; _Buffer.Pos = savedBufPos; return s; } } // NLMISC