/* Copyright (C) Andrew Tridgell 1996 Copyright (C) Paul Mackerras 1996 This program 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 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 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., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include "rsync.h" extern int verbose; extern int dry_run; extern int relative_paths; extern int preserve_links; extern int am_root; extern int preserve_devices; extern int preserve_hard_links; extern int update_only; extern int whole_file; extern int block_size; extern int csum_length; extern int ignore_times; extern int io_timeout; extern int remote_version; extern int always_checksum; /* choose whether to skip a particular file */ static int skip_file(char *fname, struct file_struct *file, STRUCT_STAT *st) { if (st->st_size != file->length) { return 0; } /* if always checksum is set then we use the checksum instead of the file time to determine whether to sync */ if (always_checksum && S_ISREG(st->st_mode)) { char sum[MD4_SUM_LENGTH]; file_checksum(fname,sum,st->st_size); return (memcmp(sum,file->sum,csum_length) == 0); } if (ignore_times) { return 0; } return (st->st_mtime == file->modtime); } /* use a larger block size for really big files */ static int adapt_block_size(struct file_struct *file, int bsize) { int ret; if (bsize != BLOCK_SIZE) return bsize; ret = file->length / (10000); /* rough heuristic */ ret = ret & ~15; /* multiple of 16 */ if (ret < bsize) ret = bsize; if (ret > CHUNK_SIZE/2) ret = CHUNK_SIZE/2; return ret; } /* send a sums struct down a fd */ static void send_sums(struct sum_struct *s,int f_out) { int i; /* tell the other guy how many we are going to be doing and how many bytes there are in the last chunk */ write_int(f_out,s?s->count:0); write_int(f_out,s?s->n:block_size); write_int(f_out,s?s->remainder:0); if (s) for (i=0;icount;i++) { write_int(f_out,s->sums[i].sum1); write_buf(f_out,s->sums[i].sum2,csum_length); } } /* generate a stream of signatures/checksums that describe a buffer generate approximately one checksum every n bytes */ static struct sum_struct *generate_sums(struct map_struct *buf,OFF_T len,int n) { int i; struct sum_struct *s; int count; int block_len = n; int remainder = (len%block_len); OFF_T offset = 0; count = (len+(block_len-1))/block_len; s = (struct sum_struct *)malloc(sizeof(*s)); if (!s) out_of_memory("generate_sums"); s->count = count; s->remainder = remainder; s->n = n; s->flength = len; if (count==0) { s->sums = NULL; return s; } if (verbose > 3) rprintf(FINFO,"count=%d rem=%d n=%d flength=%d\n", s->count,s->remainder,s->n,(int)s->flength); s->sums = (struct sum_buf *)malloc(sizeof(s->sums[0])*s->count); if (!s->sums) out_of_memory("generate_sums"); for (i=0;isums[i].sum1 = get_checksum1(map,n1); get_checksum2(map,n1,s->sums[i].sum2); s->sums[i].offset = offset; s->sums[i].len = n1; s->sums[i].i = i; if (verbose > 3) rprintf(FINFO,"chunk[%d] offset=%d len=%d sum1=%08x\n", i,(int)s->sums[i].offset,s->sums[i].len,s->sums[i].sum1); len -= n1; offset += n1; } return s; } void recv_generator(char *fname,struct file_list *flist,int i,int f_out) { int fd; STRUCT_STAT st; struct map_struct *buf; struct sum_struct *s; int statret; struct file_struct *file = flist->files[i]; if (verbose > 2) rprintf(FINFO,"recv_generator(%s,%d)\n",fname,i); statret = link_stat(fname,&st); if (S_ISDIR(file->mode)) { if (dry_run) return; if (statret == 0 && !S_ISDIR(st.st_mode)) { if (do_unlink(fname) != 0) { rprintf(FERROR,"unlink %s : %s\n",fname,strerror(errno)); return; } statret = -1; } if (statret != 0 && do_mkdir(fname,file->mode) != 0 && errno != EEXIST) { if (!(relative_paths && errno==ENOENT && create_directory_path(fname)==0 && do_mkdir(fname,file->mode)==0)) { rprintf(FERROR,"mkdir %s : %s (2)\n", fname,strerror(errno)); } } if (set_perms(fname,file,NULL,0) && verbose) rprintf(FINFO,"%s/\n",fname); return; } if (preserve_links && S_ISLNK(file->mode)) { #if SUPPORT_LINKS char lnk[MAXPATHLEN]; int l; extern int safe_symlinks; if (safe_symlinks && unsafe_symlink(file->link, fname)) { if (verbose) { rprintf(FINFO,"ignoring unsafe symlink %s -> %s\n", fname,file->link); } return; } if (statret == 0) { l = readlink(fname,lnk,MAXPATHLEN-1); if (l > 0) { lnk[l] = 0; if (strcmp(lnk,file->link) == 0) { set_perms(fname,file,&st,1); return; } } } delete_file(fname); if (do_symlink(file->link,fname) != 0) { rprintf(FERROR,"link %s -> %s : %s\n", fname,file->link,strerror(errno)); } else { set_perms(fname,file,NULL,0); if (verbose) { rprintf(FINFO,"%s -> %s\n", fname,file->link); } } #endif return; } #ifdef HAVE_MKNOD if (am_root && preserve_devices && IS_DEVICE(file->mode)) { if (statret != 0 || st.st_mode != file->mode || st.st_rdev != file->rdev) { delete_file(fname); if (verbose > 2) rprintf(FINFO,"mknod(%s,0%o,0x%x)\n", fname,(int)file->mode,(int)file->rdev); if (do_mknod(fname,file->mode,file->rdev) != 0) { rprintf(FERROR,"mknod %s : %s\n",fname,strerror(errno)); } else { set_perms(fname,file,NULL,0); if (verbose) rprintf(FINFO,"%s\n",fname); } } else { set_perms(fname,file,&st,1); } return; } #endif if (preserve_hard_links && check_hard_link(file)) { if (verbose > 1) rprintf(FINFO,"%s is a hard link\n",f_name(file)); return; } if (!S_ISREG(file->mode)) { rprintf(FINFO,"skipping non-regular file %s\n",fname); return; } if (statret == -1) { if (errno == ENOENT) { write_int(f_out,i); if (!dry_run) send_sums(NULL,f_out); } else { if (verbose > 1) rprintf(FERROR,"recv_generator failed to open %s\n",fname); } return; } if (!S_ISREG(st.st_mode)) { if (delete_file(fname) != 0) { return; } /* now pretend the file didn't exist */ write_int(f_out,i); if (!dry_run) send_sums(NULL,f_out); return; } if (update_only && st.st_mtime > file->modtime) { if (verbose > 1) rprintf(FINFO,"%s is newer\n",fname); return; } if (skip_file(fname, file, &st)) { set_perms(fname,file,&st,1); return; } if (dry_run) { write_int(f_out,i); return; } if (whole_file) { write_int(f_out,i); send_sums(NULL,f_out); return; } /* open the file */ fd = open(fname,O_RDONLY); if (fd == -1) { rprintf(FERROR,"failed to open %s : %s\n",fname,strerror(errno)); rprintf(FERROR,"skipping %s\n",fname); return; } if (st.st_size > 0) { buf = map_file(fd,st.st_size); } else { buf = NULL; } if (verbose > 3) rprintf(FINFO,"gen mapped %s of size %d\n",fname,(int)st.st_size); s = generate_sums(buf,st.st_size,adapt_block_size(file, block_size)); if (verbose > 2) rprintf(FINFO,"sending sums for %d\n",i); write_int(f_out,i); send_sums(s,f_out); close(fd); if (buf) unmap_file(buf); free_sums(s); } void generate_files(int f,struct file_list *flist,char *local_name,int f_recv) { int i; int phase=0; if (verbose > 2) rprintf(FINFO,"generator starting pid=%d count=%d\n", (int)getpid(),flist->count); for (i = 0; i < flist->count; i++) { struct file_struct *file = flist->files[i]; mode_t saved_mode = file->mode; if (!file->basename) continue; /* we need to ensure that any directories we create have writeable permissions initially so that we can create the files within them. This is then fixed after the files are transferred */ if (!am_root && S_ISDIR(file->mode)) { file->mode |= S_IWUSR; /* user write */ } recv_generator(local_name?local_name:f_name(file), flist,i,f); file->mode = saved_mode; } phase++; csum_length = SUM_LENGTH; ignore_times=1; if (verbose > 2) rprintf(FINFO,"generate_files phase=%d\n",phase); write_int(f,-1); /* we expect to just sit around now, so don't exit on a timeout. If we really get a timeout then the other process should exit */ io_timeout = 0; if (remote_version >= 13) { /* in newer versions of the protocol the files can cycle through the system more than once to catch initial checksum errors */ for (i=read_int(f_recv); i != -1; i=read_int(f_recv)) { struct file_struct *file = flist->files[i]; recv_generator(local_name?local_name:f_name(file), flist,i,f); } phase++; if (verbose > 2) rprintf(FINFO,"generate_files phase=%d\n",phase); write_int(f,-1); } }