/* * Copyright 1995, 1996 Perforce Software. All rights reserved. * * This file is part of Perforce - the FAST SCM System. */ # include <stdhdrs.h> # include <strbuf.h> # include <error.h> # include <debug.h> # include <vararray.h> # include <strarray.h> # include <sha1.h> # include <filesys.h> # include <msgos.h> # include "zlib.h" # include "zlinflater.h" ZLibInflater::ZLibInflater( FileSys *f, int bsize ) { this->f = f; workBuf = new StrFixed( bsize ); workEnd = workP = workBuf->Text(); zinitDone = 0; zstrm = new z_stream; } ZLibInflater::~ZLibInflater() { delete workBuf; if( zinitDone ) inflateEnd( (z_stream *)zstrm ); delete (z_stream *)zstrm; } void ZLibInflater::GetLine( StrBuf *buf, int &eof, Error *e ) { buf->Clear(); for( ;; ) { unsigned char p = GetChar( eof, e ); if( e->Test() || eof ) break; if( p == '\n' ) { buf->Terminate(); break; } buf->Extend( p ); } } int ZLibInflater::Read( unsigned char *buf, int cnt, int &eof, Error *e ) { unsigned char *bp = buf; while( cnt-- > 0 ) { *bp++ = GetChar( eof, e ); if( eof || e->Test() ) break; } return bp - buf; } ZLInflater::ZLInflater( FileSys *f, offL_t, Error *e ) : ZLibInflater( f, 4096 ) { filbuf = new StrFixed( 4096 ); unzbuf = new StrFixed( 65536 ); unzP = unzbuf->Text(); unzAvail = 0; } ZLInflater::~ZLInflater() { delete filbuf; delete unzbuf; } void ZLInflater::Seek( offL_t pos, Error *e ) { z_streamp zls = (z_streamp)zstrm; if( zinitDone ) inflateEnd( (z_stream *)zstrm ); zls->zalloc = Z_NULL; zls->zfree = Z_NULL; zls->opaque = Z_NULL; zls->avail_in = 0; zls->next_in = Z_NULL; zret = inflateInit( zls ); if( zret != Z_OK ) { e->Set( MsgOs::ZlibInflateInit ) << f->Name() << StrNum( zret ); return; } zinitDone = 1; f->Seek( pos, e ); } unsigned char ZLInflater::GetChar2( int &eof, Error *e ) { eof = 0; if( workP >= workEnd ) { int workLen = Fill( workBuf->Text(), workBuf->Length(), e ); if( e->Test() ) return '\0'; if( !workLen ) { eof = 1; return '\0'; } workP = workBuf->Text(); workEnd = workP + workLen; } return (unsigned char)(*workP++); } int ZLInflater::ReadResults( char *buf, int len, Error *e ) { int result = len < unzAvail ? len : unzAvail; memcpy( buf, unzP, result ); unzAvail -= result; if( unzAvail > 0 ) unzP += result; else unzP = unzbuf->Text(); return result; } int ZLInflater::Fill( char *buf, int len, Error *e ) { if( unzAvail ) return ReadResults( buf, len, e ); if( zret == Z_STREAM_END ) return 0; z_streamp zls = (z_streamp)zstrm; do { if( zls->avail_in == 0 ) { zls->next_in = (z_Bytef *)filbuf->Text(); zls->avail_in = f->Read( filbuf->Text(), filbuf->Length(), e ); if( e->Test() ) return - 1; if( zls->avail_in == 0 ) { e->Set( MsgOs::ZlibInflateEOF ) << f->Name(); return -1; } } do { zls->avail_out = unzbuf->Length(); zls->next_out = (z_Bytef *)unzbuf->Text(); zret = inflate( zls, Z_NO_FLUSH ); if( zret != Z_OK && zret != Z_STREAM_END ) { e->Set( MsgOs::ZlibInflate ) << f->Name() << StrNum( zret ); return -1; } unzAvail = unzbuf->Length() - zls->avail_out; unzP = unzbuf->Text(); return ReadResults( buf, len, e ); } while( zls->avail_out == 0 ); } while( zret != Z_STREAM_END ); // NOT-REACHED return -1; } /*************************************************************************/ ZLDeflater::ZLDeflater( const StrPtr *fName ) { opened = 0; f = FileSys::Create( FST_BINARY ); f->Set( *fName ); zstrm = 0; zinitDone = 0; workBuf = new StrFixed( 65536 ); } ZLDeflater::~ZLDeflater() { delete workBuf; delete f; if( zinitDone ) deflateEnd( (z_stream *)zstrm ); delete (z_stream *)zstrm; } void ZLDeflater::Write( const char *buf, int l, Error *e ) { if( !opened ) { Open( e ); if( e->Test() ) return; } z_stream *zls = (z_stream *)zstrm; zls->avail_in = l; zls->next_in = (z_Bytef *)buf; int done = 0; while( ! done ) { zret = deflate( zls, Z_NO_FLUSH ); done = zls->avail_in == 0; if( workBuf->Length() == zls->avail_out ) break; f->Write( workBuf->Text(), workBuf->Length() - zls->avail_out, e ); if( e->Test() ) return; zls->avail_out = workBuf->Length(); zls->next_out = (z_Bytef *)workBuf->Text(); } } void ZLDeflater::Open( Error *e ) { opened = 1; zstrm = new z_stream; z_stream *zls = (z_stream *)zstrm; zls->zalloc = Z_NULL; zls->zfree = Z_NULL; zls->opaque = Z_NULL; zret = deflateInit( zls, Z_DEFAULT_COMPRESSION ); if( zret != Z_OK ) { e->Set( MsgOs::ZlibDeflateInit ) << f->Name() << StrNum( zret ); return; } zinitDone = 1; f->MkDir( e ); if( e->Test() ) return; f->Open( FOM_WRITE, e ); if( e->Test() ) return; zls->avail_out = workBuf->Length(); zls->next_out = (z_Bytef *)workBuf->Text(); } void ZLDeflater::Close( Error *e ) { z_stream *zls = (z_stream *)zstrm; zls->avail_in = 0; zls->next_in = Z_NULL; int done = 0; while( ! done ) { zret = deflate( zls, Z_FINISH ); done = zls->avail_out != 0; if( workBuf->Length() == zls->avail_out ) break; f->Write( workBuf->Text(), workBuf->Length() - zls->avail_out, e ); if( e->Test() ) return; zls->avail_out = workBuf->Length(); zls->next_out = (z_Bytef *)workBuf->Text(); } deflateEnd( zls ); zinitDone = 0; } /************************************************************************* * ZLFDeflater: very similar to ZLDeflater, but uses a caller-provided * * FileSys object, which we neither open nor close, just * * write to. * *************************************************************************/ ZLFDeflater::ZLFDeflater( FileSys *f, Sha1Digester *digester ) { this->f = f; this->digester = digester; zstrm = 0; zinitDone = 0; workBuf = new StrFixed( 65536 ); } ZLFDeflater::~ZLFDeflater() { delete workBuf; if( zinitDone ) deflateEnd( (z_stream *)zstrm ); delete (z_stream *)zstrm; } void ZLFDeflater::Write( const char *buf, int l, Error *e ) { z_stream *zls = (z_stream *)zstrm; zls->avail_in = l; zls->next_in = (z_Bytef *)buf; int done = 0; while( ! done ) { zret = deflate( zls, Z_NO_FLUSH ); done = zls->avail_in == 0; StrRef block( workBuf->Text(), workBuf->Length() - zls->avail_out ); if( !block.Length() ) break; if( digester ) digester->Update( block ); f->Write( block, e ); if( e->Test() ) return; zls->avail_out = workBuf->Length(); zls->next_out = (z_Bytef *)workBuf->Text(); } } void ZLFDeflater::Start( Error *e ) { zstrm = new z_stream; z_stream *zls = (z_stream *)zstrm; zls->zalloc = Z_NULL; zls->zfree = Z_NULL; zls->opaque = Z_NULL; zret = deflateInit( zls, Z_DEFAULT_COMPRESSION ); if( zret != Z_OK ) { e->Set( MsgOs::ZlibDeflateInit ) << f->Name() << StrNum( zret ); return; } zinitDone = 1; zls->avail_out = workBuf->Length(); zls->next_out = (z_Bytef *)workBuf->Text(); } void ZLFDeflater::Finish( Error *e ) { z_stream *zls = (z_stream *)zstrm; zls->avail_in = 0; zls->next_in = Z_NULL; int done = 0; while( ! done ) { zret = deflate( zls, Z_FINISH ); done = zls->avail_out != 0; StrRef block( workBuf->Text(), workBuf->Length() - zls->avail_out ); if( !block.Length() ) break; if( digester ) digester->Update( block ); f->Write( block, e ); if( e->Test() ) return; zls->avail_out = workBuf->Length(); zls->next_out = (z_Bytef *)workBuf->Text(); } deflateEnd( zls ); zinitDone = 0; }