LCOV - code coverage report
Current view: top level - src/protocol1 - rs_buf.c (source / functions) Hit Total Coverage
Test: burp-coverage-clean.info Lines: 100 155 64.5 %
Date: 2016-03-31 Functions: 6 11 54.5 %

          Line data    Source code
       1             : /*= -*- c-basic-offset: 4; indent-tabs-mode: nil; -*-
       2             :  *
       3             :  * librsync -- the library for network deltas
       4             :  * $Id: buf.c,v 1.22 2003/12/16 00:10:55 abo Exp $
       5             :  * 
       6             :  * Copyright (C) 2000, 2001 by Martin Pool <mbp@samba.org>
       7             :  * 
       8             :  * This program is free software; you can redistribute it and/or
       9             :  * modify it under the terms of the GNU Lesser General Public License
      10             :  * as published by the Free Software Foundation; either version 2.1 of
      11             :  * the License, or (at your option) any later version.
      12             :  * 
      13             :  * This program is distributed in the hope that it will be useful, but
      14             :  * WITHOUT ANY WARRANTY; without even the implied warranty of
      15             :  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
      16             :  * Lesser General Public License for more details.
      17             :  * 
      18             :  * You should have received a copy of the GNU Lesser General Public
      19             :  * License along with this program; if not, write to the Free Software
      20             :  * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
      21             :  */
      22             : 
      23             :                               /*
      24             :                                | Pick a window, Jimmy, you're leaving.
      25             :                                |   -- Martin Schwenke, regularly
      26             :                                */
      27             : 
      28             : 
      29             : /*
      30             :  * buf.c -- Buffers that map between stdio file streams and librsync
      31             :  * streams.  As the stream consumes input and produces output, it is
      32             :  * refilled from appropriate input and output FILEs.  A dynamically
      33             :  * allocated buffer of configurable size is used as an intermediary.
      34             :  */
      35             : 
      36             : #include "../burp.h"
      37             : #include "rs_buf.h"
      38             : #include "../cmd.h"
      39             : #include "../alloc.h"
      40             : #include "../asfd.h"
      41             : #include "../async.h"
      42             : #include "../handy.h"
      43             : #include "../iobuf.h"
      44             : #include "../log.h"
      45             : 
      46             : /* use fseeko instead of fseek for long file support if we have it */
      47             : #ifdef HAVE_FSEEKO
      48             : #define fseek fseeko
      49             : #endif
      50             : 
      51          24 : rs_filebuf_t *rs_filebuf_new(BFILE *bfd,
      52             :         struct fzp *fzp,
      53             :         struct asfd *asfd,
      54             :         size_t buf_len,
      55             :         size_t data_len)
      56             : {
      57          24 :         rs_filebuf_t *pf=NULL;
      58          24 :         if(!(pf=(struct rs_filebuf *)calloc_w(1,
      59          24 :                 sizeof(struct rs_filebuf), __func__))
      60          24 :           || !(pf->buf=(char *)calloc_w(1, buf_len, __func__)))
      61             :                 goto error;
      62          23 :         pf->buf_len=buf_len;
      63          23 :         pf->fzp=fzp;
      64          23 :         pf->bfd=bfd;
      65          23 :         pf->bytes=0;
      66          23 :         pf->data_len=data_len;
      67          23 :         if(data_len>0)
      68           9 :                 pf->do_known_byte_count=1;
      69             :         else
      70          14 :                 pf->do_known_byte_count=0;
      71          23 :         if(!MD5_Init(&(pf->md5)))
      72             :         {
      73           0 :                 logp("MD5_Init() failed\n");
      74           0 :                 goto error;
      75             :         }
      76          23 :         pf->asfd=asfd;
      77          23 :         return pf;
      78             : error:
      79           1 :         rs_filebuf_free(&pf);
      80           1 :         return NULL;
      81             : }
      82             : 
      83      118050 : void rs_filebuf_free(rs_filebuf_t **fb) 
      84             : {
      85      236100 :         if(!fb || !*fb) return;
      86          23 :         free_w(&((*fb)->buf));
      87          23 :         free_v((void **)fb);
      88             : }
      89             : 
      90             : /*
      91             :  * If the stream has no more data available, read some from F into
      92             :  * BUF, and let the stream use that.  On return, SEEN_EOF is true if
      93             :  * the end of file has passed into the stream.
      94             :  */
      95          14 : rs_result rs_infilebuf_fill(rs_job_t *job, rs_buffers_t *buf, void *opaque)
      96             : {
      97          14 :         int len=0;
      98          14 :         rs_filebuf_t *fb=(rs_filebuf_t *) opaque;
      99             : 
     100             :         //logp("rs_infilebuf_fill\n");
     101             : 
     102             :         /* This is only allowed if either the buf has no input buffer
     103             :          * yet, or that buffer could possibly be BUF. */
     104          14 :         if(buf->next_in)
     105             :         {
     106             :                 //logp("infilebuf avail_in %d buf_len %d\n",
     107             :                 //      buf->avail_in, fb->buf_len);
     108           5 :                 if(buf->avail_in > fb->buf_len)
     109             :                 {
     110             :                         logp("buf->avail_in > fb->buf_len (%lu > %lu) in %s\n",
     111             :                                 (unsigned long)buf->avail_in,
     112           1 :                                 (unsigned long)fb->buf_len, __func__);
     113           1 :                         return RS_IO_ERROR;
     114             :                 }
     115           4 :                 if(buf->next_in < fb->buf)
     116             :                 {
     117           1 :                         logp("buf->next_in < fb->buf in %s\n", __func__);
     118           1 :                         return RS_IO_ERROR;
     119             :                 }
     120           3 :                 if(buf->next_in > fb->buf + fb->buf_len)
     121             :                 {
     122             :                         logp("buf->next_in > fb->buf + fb->buf_len in %s\n",
     123           1 :                                 __func__);
     124           1 :                         return RS_IO_ERROR;
     125             :                 }
     126             :         }
     127             :         else
     128             :         {
     129           9 :                 if(buf->avail_in)
     130             :                 {
     131             :                         logp("buf->avail_in is %lu in %s\n",
     132           1 :                                 (unsigned long)buf->avail_in, __func__);
     133           1 :                         return RS_IO_ERROR;
     134             :                 }
     135             :         }
     136             : 
     137          10 :         if(buf->eof_in)
     138             :                 return RS_DONE;
     139             : 
     140           9 :         if(buf->avail_in)
     141             :                 /* Still some data remaining.  Perhaps we should read
     142             :                    anyhow? */
     143             :                 return RS_DONE;
     144             : 
     145           9 :         if(fb->asfd)
     146             :         {
     147             :                 static struct iobuf *rbuf=NULL;
     148           4 :                 rbuf=fb->asfd->rbuf;
     149             : 
     150           4 :                 switch(rbuf->cmd)
     151             :                 {
     152             :                         case CMD_APPEND:
     153           2 :                                 memcpy(fb->buf, rbuf->buf, rbuf->len);
     154           2 :                                 len=rbuf->len;
     155             :                                 break;
     156             :                         case CMD_END_FILE:
     157           2 :                                 buf->eof_in=1;
     158           2 :                                 return RS_DONE;
     159             :                         default:
     160           0 :                                 iobuf_log_unexpected(rbuf, __func__);
     161           0 :                                 return RS_IO_ERROR;
     162             :                 }
     163             :         }
     164           5 :         else if(fb->bfd)
     165             :         {
     166           2 :                 if(fb->do_known_byte_count)
     167             :                 {
     168           0 :                         if(fb->data_len>0)
     169             :                         {
     170             :                                 len=fb->bfd->read(fb->bfd, fb->buf,
     171           0 :                                         min(fb->buf_len, fb->data_len));
     172           0 :                                 fb->data_len-=len;
     173             :                         }
     174             :                         else
     175             :                         {
     176             :                                 // We have already read as much data as the VSS
     177             :                                 // header told us to, so set len=0 in order to
     178             :                                 // finish up.
     179             :                                 len=0;
     180             :                         }
     181             :                 }
     182             :                 else
     183           2 :                         len=fb->bfd->read(fb->bfd, fb->buf, fb->buf_len);
     184           2 :                 if(len==0)
     185             :                 {
     186             :                         //logp("bread: eof\n");
     187           2 :                         buf->eof_in=1;
     188           2 :                         return RS_DONE;
     189             :                 }
     190           0 :                 else if(len<0)
     191             :                 {
     192           0 :                         logp("rs_infilebuf_fill: error in bread\n");
     193           0 :                         return RS_IO_ERROR;
     194             :                 }
     195             :                 //logp("bread: ok: %d\n", len);
     196           0 :                 fb->bytes+=len;
     197           0 :                 if(!MD5_Update(&(fb->md5), fb->buf, len))
     198             :                 {
     199           0 :                         logp("rs_infilebuf_fill: MD5_Update() failed\n");
     200           0 :                         return RS_IO_ERROR;
     201             :                 }
     202             :         }
     203           3 :         else if(fb->fzp)
     204             :         {
     205           2 :                 if((len=fzp_read(fb->fzp, fb->buf, fb->buf_len))<=0)
     206             :                 {
     207             :                         // This will happen if file size is a multiple of
     208             :                         // input block len.
     209           2 :                         if(fzp_eof(fb->fzp))
     210             :                         {
     211           2 :                                 buf->eof_in=1;
     212           2 :                                 return RS_DONE;
     213             :                         }
     214             :                         else
     215             :                         {
     216           0 :                                 logp("rs_infilebuf_fill: got return %d when trying to read\n", len);
     217           0 :                                 return RS_IO_ERROR;
     218             :                         }
     219             :                 }
     220           0 :                 fb->bytes+=len;
     221           0 :                 if(!MD5_Update(&(fb->md5), fb->buf, len))
     222             :                 {
     223           0 :                         logp("rs_infilebuf_fill: MD5_Update() failed\n");
     224           0 :                         return RS_IO_ERROR;
     225             :                 }
     226             :         }
     227             : 
     228           3 :         buf->avail_in = len;
     229           3 :         buf->next_in = fb->buf;
     230             : 
     231           3 :         return RS_DONE;
     232             : }
     233             : 
     234             : /*
     235             :  * The buf is already using BUF for an output buffer, and probably
     236             :  * contains some buffered output now.  Write this out to F, and reset
     237             :  * the buffer cursor.
     238             :  */
     239          15 : rs_result rs_outfilebuf_drain(rs_job_t *job, rs_buffers_t *buf, void *opaque)
     240             : {
     241          15 :         rs_filebuf_t *fb=(rs_filebuf_t *)opaque;
     242             :         size_t wlen;
     243             : 
     244             :         //logp("in rs_outfilebuf_drain\n");
     245             : 
     246             :         /* This is only allowed if either the buf has no output buffer
     247             :          * yet, or that buffer could possibly be BUF. */
     248          15 :         if(!buf->next_out)
     249             :         {
     250           6 :                 if(buf->avail_out)
     251             :                 {
     252             :                         logp("buf->avail_out is %lu in %s\n",
     253           1 :                                 (unsigned long)buf->avail_out, __func__);
     254           1 :                         return RS_IO_ERROR;
     255             :                 }
     256           5 :                 buf->next_out = fb->buf;
     257           5 :                 buf->avail_out = fb->buf_len;
     258           5 :                 return RS_DONE;
     259             :         }
     260             : 
     261           9 :         if(buf->avail_out > fb->buf_len)
     262             :         {
     263             :                 logp("buf->avail_out > fb->buf_len (%lu > %lu) in %s\n",
     264             :                         (unsigned long)buf->avail_out,
     265           1 :                         (unsigned long)fb->buf_len, __func__);
     266           1 :                 return RS_IO_ERROR;
     267             :         }
     268           8 :         if(buf->next_out < fb->buf)
     269             :         {
     270             :                 logp("buf->next_out < fb->buf (%p < %p) in %s\n",
     271           1 :                         buf->next_out, fb->buf, __func__);
     272           1 :                 return RS_IO_ERROR;
     273             :         }
     274           7 :         if(buf->next_out > fb->buf + fb->buf_len)
     275             :         {
     276             :                 logp("buf->next_out > fb->buf + fb->buf_len in %s\n",
     277           1 :                         __func__);
     278           1 :                 return RS_IO_ERROR;
     279             :         }
     280             : 
     281           6 :         if((wlen=buf->next_out-fb->buf)>0)
     282             :         {
     283             :                 //logp("wlen: %d\n", wlen);
     284           6 :                 if(fb->asfd)
     285             :                 {
     286           6 :                         size_t w=wlen;
     287             :                         struct iobuf wbuf;
     288           6 :                         iobuf_set(&wbuf, CMD_APPEND, fb->buf, wlen);
     289           6 :                         switch(fb->asfd->append_all_to_write_buffer(
     290             :                                 fb->asfd, &wbuf))
     291             :                         {
     292             :                                 case APPEND_OK: break;
     293           0 :                                 case APPEND_BLOCKED: return RS_BLOCKED;
     294             :                                 case APPEND_ERROR:
     295           0 :                                 default: return RS_IO_ERROR;
     296             :                         }
     297           6 :                         fb->bytes+=w;
     298             :                 }
     299             :                 else
     300             :                 {
     301           0 :                         size_t result=0;
     302           0 :                         result=fzp_write(fb->fzp, fb->buf, wlen);
     303           0 :                         if(wlen!=result)
     304             :                         {
     305             :                                 logp("error draining buf to file: %s",
     306           0 :                                                 strerror(errno));
     307           0 :                                 return RS_IO_ERROR;
     308             :                         }
     309             :                 }
     310             :         }
     311             : 
     312           6 :         buf->next_out = fb->buf;
     313           6 :         buf->avail_out = fb->buf_len;
     314             : 
     315           6 :         return RS_DONE;
     316             : }
     317             : 
     318          14 : static rs_result rs_async_drive(rs_job_t *job, rs_buffers_t *rsbuf,
     319             :         rs_driven_cb in_cb, void *in_opaque,
     320             :         rs_driven_cb out_cb, void *out_opaque)
     321             : {
     322             :         rs_result result;
     323             :         rs_result iores;
     324             : 
     325          14 :         if(!rsbuf->eof_in && in_cb)
     326             :         {
     327           8 :                 iores=in_cb(job, rsbuf, in_opaque);
     328           8 :                 if(iores!=RS_DONE) return iores;
     329             :         }
     330             : 
     331          14 :         result=rs_job_iter(job, rsbuf);
     332          14 :         if(result!=RS_DONE && result!=RS_BLOCKED)
     333             :                 return result;
     334             : 
     335          14 :         if(out_cb)
     336             :         {
     337          10 :                 iores=(out_cb)(job, rsbuf, out_opaque);
     338          10 :                 if(iores!=RS_DONE) return iores;
     339             :         }
     340             : 
     341          14 :         return result;
     342             : }
     343             : 
     344          14 : rs_result rs_async(rs_job_t *job, rs_buffers_t *rsbuf,
     345             :         rs_filebuf_t *infb, rs_filebuf_t *outfb)
     346             : {
     347             :         return rs_async_drive(job, rsbuf,
     348             :                 infb ? rs_infilebuf_fill : NULL, infb,
     349          14 :                 outfb ? rs_outfilebuf_drain : NULL, outfb);
     350             : }
     351             : 
     352           0 : static rs_result rs_whole_gzrun(
     353             :         rs_job_t *job, struct fzp *in_file, struct fzp *out_file)
     354             : {
     355             :         rs_buffers_t buf;
     356             :         rs_result result;
     357           0 :         rs_filebuf_t *in_fb=NULL;
     358           0 :         rs_filebuf_t *out_fb=NULL;
     359             : 
     360           0 :         if(in_file)
     361             :                 in_fb=rs_filebuf_new(NULL,
     362           0 :                         in_file, NULL, ASYNC_BUF_LEN, -1);
     363           0 :         if(out_file)
     364             :                 out_fb=rs_filebuf_new(NULL,
     365           0 :                         out_file, NULL, ASYNC_BUF_LEN, -1);
     366             : 
     367             :         result=rs_job_drive(job, &buf,
     368             :                 in_fb ? rs_infilebuf_fill : NULL, in_fb,
     369           0 :                 out_fb ? rs_outfilebuf_drain : NULL, out_fb);
     370             : 
     371           0 :         rs_filebuf_free(&in_fb);
     372           0 :         rs_filebuf_free(&out_fb);
     373           0 :         return result;
     374             : }
     375             : 
     376           0 : rs_result rs_patch_gzfile(struct fzp *basis_file,
     377             :         struct fzp *delta_file, struct fzp *new_file)
     378             : {
     379             :         rs_job_t *job;
     380             :         rs_result r;
     381             : 
     382             :         // FIX THIS: Seems wrong to just pick out basis_file->fp.
     383             :         // Should probably pass a fp into rs_patch_gzfile.
     384             :         // Or, much better would be to investigate whether basis_file always
     385             :         // needs to be a FILE *. If I copy rs_file_copy_cb from librsync, and
     386             :         // rewrite it to use a struct fzp, maybe the callers to rs_patch_gzfile
     387             :         // do not need to mess around inflating files when they do not have
     388             :         // to.
     389           0 :         job=rs_patch_begin(rs_file_copy_cb, basis_file->fp);
     390           0 :         r=rs_whole_gzrun(job, delta_file, new_file);
     391           0 :         rs_job_free(job);
     392             : 
     393           0 :         return r;
     394             : }
     395             : 
     396           0 : rs_result rs_sig_gzfile(struct fzp *old_file, struct fzp *sig_file,
     397             :         size_t new_block_len, size_t strong_len,
     398             :         struct conf **confs)
     399             : {
     400             :         rs_job_t *job;
     401             :         rs_result r;
     402             :         job=
     403             :                 rs_sig_begin(new_block_len, strong_len
     404             : #ifndef RS_DEFAULT_STRONG_LEN
     405             :                         , rshash_to_magic_number(
     406             :                                 get_e_rshash(confs[OPT_RSHASH]))
     407             : #endif
     408           0 :                 );
     409             : 
     410           0 :         r=rs_whole_gzrun(job, old_file, sig_file);
     411           0 :         rs_job_free(job);
     412             : 
     413           0 :         return r;
     414             : }
     415             : 
     416           0 : rs_result rs_delta_gzfile(rs_signature_t *sig, struct fzp *new_file,
     417             :         struct fzp *delta_file)
     418             : {
     419             :         rs_job_t *job;
     420             :         rs_result r;
     421             : 
     422           0 :         job=rs_delta_begin(sig);
     423           0 :         r=rs_whole_gzrun(job, new_file, delta_file);
     424           0 :         rs_job_free(job);
     425             : 
     426           0 :         return r;
     427             : }
     428             : 
     429             : #ifndef RS_DEFAULT_STRONG_LEN
     430             : rs_magic_number rshash_to_magic_number(enum rshash r)
     431             : {
     432             :         switch(r)
     433             :         {
     434             :                 case RSHASH_BLAKE2: return RS_BLAKE2_SIG_MAGIC;
     435             :                 default: return RS_MD4_SIG_MAGIC;
     436             :         }
     437             : }
     438             : #endif
     439             : 
     440           0 : rs_result rs_loadsig_fzp(struct fzp *fzp,
     441             :         rs_signature_t **sig, rs_stats_t *stats)
     442             : {
     443           0 :         return rs_loadsig_file(fzp->fp, sig, stats);
     444             : }

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