/* compress.c - compress filter * Copyright (C) 1998, 1999, 2000, 2001, 2002 Free Software Foundation, Inc. * * This file is part of GnuPG. * * GnuPG 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. * * GnuPG 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 program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA */ #include #include #include #include #include #include #include #include #ifdef __riscos__ # include "zlib-riscos.h" #endif #include "util.h" #include "memory.h" #include "packet.h" #include "filter.h" #include "main.h" #include "options.h" static void init_compress( compress_filter_context_t *zfx, z_stream *zs ) { int rc; int level; #ifdef __riscos__ static int zlib_initialized = 0; if (!zlib_initialized) zlib_initialized = riscos_load_module("ZLib", zlib_path, 1); #endif if( opt.compress >= 0 && opt.compress <= 9 ) level = opt.compress; else if( opt.compress == -1 ) level = Z_DEFAULT_COMPRESSION; else if( opt.compress == 10 ) /* remove this ! */ level = 0; else { log_error("invalid compression level; using default level\n"); level = Z_DEFAULT_COMPRESSION; } if( (rc = zfx->algo == 1? deflateInit2( zs, level, Z_DEFLATED, -13, 8, Z_DEFAULT_STRATEGY) : deflateInit( zs, level ) ) != Z_OK ) { log_fatal("zlib problem: %s\n", zs->msg? zs->msg : rc == Z_MEM_ERROR ? "out of core" : rc == Z_VERSION_ERROR ? "invalid lib version" : "unknown error" ); } zfx->outbufsize = 8192; zfx->outbuf = m_alloc( zfx->outbufsize ); } static int do_compress( compress_filter_context_t *zfx, z_stream *zs, int flush, IOBUF a ) { int zrc; unsigned n; do { #ifndef __riscos__ zs->next_out = zfx->outbuf; #else /* __riscos__ */ zs->next_out = (Bytef *) zfx->outbuf; #endif /* __riscos__ */ zs->avail_out = zfx->outbufsize; if( DBG_FILTER ) log_debug("enter deflate: avail_in=%u, avail_out=%u, flush=%d\n", (unsigned)zs->avail_in, (unsigned)zs->avail_out, flush ); zrc = deflate( zs, flush ); if( zrc == Z_STREAM_END && flush == Z_FINISH ) ; else if( zrc != Z_OK ) { if( zs->msg ) log_fatal("zlib deflate problem: %s\n", zs->msg ); else log_fatal("zlib deflate problem: rc=%d\n", zrc ); } n = zfx->outbufsize - zs->avail_out; if( DBG_FILTER ) log_debug("leave deflate: " "avail_in=%u, avail_out=%u, n=%u, zrc=%d\n", (unsigned)zs->avail_in, (unsigned)zs->avail_out, (unsigned)n, zrc ); if( iobuf_write( a, zfx->outbuf, n ) ) { log_debug("deflate: iobuf_write failed\n"); return G10ERR_WRITE_FILE; } } while( zs->avail_in || (flush == Z_FINISH && zrc != Z_STREAM_END) ); return 0; } static void init_uncompress( compress_filter_context_t *zfx, z_stream *zs ) { int rc; /**************** * PGP uses a windowsize of 13 bits. Using a negative value for * it forces zlib not to expect a zlib header. This is a * undocumented feature Peter Gutmann told me about. * * We must use 15 bits for the inflator because CryptoEx uses 15 * bits thus the output would get scrambled w/o error indication * if we would use 13 bits. For the uncompressing this does not * matter at all. */ if( (rc = zfx->algo == 1? inflateInit2( zs, -15) : inflateInit( zs )) != Z_OK ) { log_fatal("zlib problem: %s\n", zs->msg? zs->msg : rc == Z_MEM_ERROR ? "out of core" : rc == Z_VERSION_ERROR ? "invalid lib version" : "unknown error" ); } zfx->inbufsize = 2048; zfx->inbuf = m_alloc( zfx->inbufsize ); zs->avail_in = 0; } static int do_uncompress( compress_filter_context_t *zfx, z_stream *zs, IOBUF a, size_t *ret_len ) { int zrc; int rc=0; size_t n; int nread, count; int refill = !zs->avail_in; if( DBG_FILTER ) log_debug("begin inflate: avail_in=%u, avail_out=%u, inbuf=%u\n", (unsigned)zs->avail_in, (unsigned)zs->avail_out, (unsigned)zfx->inbufsize ); do { if( zs->avail_in < zfx->inbufsize && refill ) { n = zs->avail_in; if( !n ) #ifndef __riscos__ zs->next_in = zfx->inbuf; #else /* __riscos__ */ zs->next_in = (Bytef *) zfx->inbuf; #endif /* __riscos__ */ count = zfx->inbufsize - n; nread = iobuf_read( a, zfx->inbuf + n, count ); if( nread == -1 ) nread = 0; n += nread; /* If we use the undocumented feature to suppress * the zlib header, we have to give inflate an * extra dummy byte to read */ if( nread < count && zfx->algo == 1 ) { *(zfx->inbuf + n) = 0xFF; /* is it really needed ? */ zfx->algo1hack = 1; n++; } zs->avail_in = n; } refill = 1; if( DBG_FILTER ) log_debug("enter inflate: avail_in=%u, avail_out=%u\n", (unsigned)zs->avail_in, (unsigned)zs->avail_out); #ifdef Z_SYNC_FLUSH zrc = inflate( zs, Z_SYNC_FLUSH ); #else zrc = inflate( zs, Z_PARTIAL_FLUSH ); #endif if( DBG_FILTER ) log_debug("leave inflate: avail_in=%u, avail_out=%u, zrc=%d\n", (unsigned)zs->avail_in, (unsigned)zs->avail_out, zrc); if( zrc == Z_STREAM_END ) rc = -1; /* eof */ else if( zrc != Z_OK && zrc != Z_BUF_ERROR ) { if( zs->msg ) log_fatal("zlib inflate problem: %s\n", zs->msg ); else log_fatal("zlib inflate problem: rc=%d\n", zrc ); } } while( zs->avail_out && zrc != Z_STREAM_END && zrc != Z_BUF_ERROR ); *ret_len = zfx->outbufsize - zs->avail_out; if( DBG_FILTER ) log_debug("do_uncompress: returning %u bytes\n", (unsigned)*ret_len ); return rc; } int compress_filter( void *opaque, int control, IOBUF a, byte *buf, size_t *ret_len) { size_t size = *ret_len; compress_filter_context_t *zfx = opaque; z_stream *zs = zfx->opaque; int rc=0; if( control == IOBUFCTRL_UNDERFLOW ) { if( !zfx->status ) { zs = zfx->opaque = m_alloc_clear( sizeof *zs ); init_uncompress( zfx, zs ); zfx->status = 1; } #ifndef __riscos__ zs->next_out = buf; #else /* __riscos__ */ zs->next_out = (Bytef *) buf; #endif /* __riscos__ */ zs->avail_out = size; zfx->outbufsize = size; /* needed only for calculation */ rc = do_uncompress( zfx, zs, a, ret_len ); } else if( control == IOBUFCTRL_FLUSH ) { if( !zfx->status ) { PACKET pkt; PKT_compressed cd; if( !zfx->algo ) zfx->algo = DEFAULT_COMPRESS_ALGO; if( zfx->algo != 1 && zfx->algo != 2 ) BUG(); memset( &cd, 0, sizeof cd ); cd.len = 0; cd.algorithm = zfx->algo; init_packet( &pkt ); pkt.pkttype = PKT_COMPRESSED; pkt.pkt.compressed = &cd; if( build_packet( a, &pkt )) log_bug("build_packet(PKT_COMPRESSED) failed\n"); zs = zfx->opaque = m_alloc_clear( sizeof *zs ); init_compress( zfx, zs ); zfx->status = 2; } #ifndef __riscos__ zs->next_in = buf; #else /* __riscos__ */ zs->next_in = (Bytef *) buf; #endif /* __riscos__ */ zs->avail_in = size; rc = do_compress( zfx, zs, Z_NO_FLUSH, a ); } else if( control == IOBUFCTRL_FREE ) { if( zfx->status == 1 ) { inflateEnd(zs); m_free(zs); zfx->opaque = NULL; m_free(zfx->outbuf); zfx->outbuf = NULL; } else if( zfx->status == 2 ) { #ifndef __riscos__ zs->next_in = buf; #else /* __riscos__ */ zs->next_in = (Bytef *) buf; #endif /* __riscos__ */ zs->avail_in = 0; do_compress( zfx, zs, Z_FINISH, a ); deflateEnd(zs); m_free(zs); zfx->opaque = NULL; m_free(zfx->outbuf); zfx->outbuf = NULL; } if (zfx->release) zfx->release (zfx); } else if( control == IOBUFCTRL_DESC ) *(char**)buf = "compress_filter"; return rc; } static void release_context (compress_filter_context_t *ctx) { m_free (ctx); } /**************** * Handle a compressed packet */ int handle_compressed( void *procctx, PKT_compressed *cd, int (*callback)(IOBUF, void *), void *passthru ) { compress_filter_context_t *cfx; int rc; if( cd->algorithm < 1 || cd->algorithm > 2 ) return G10ERR_COMPR_ALGO; cfx = m_alloc_clear (sizeof *cfx); cfx->algo = cd->algorithm; cfx->release = release_context; iobuf_push_filter( cd->buf, compress_filter, cfx ); if( callback ) rc = callback(cd->buf, passthru ); else rc = proc_packets(procctx, cd->buf); cd->buf = NULL; return rc; }