/* * File IO utilities used in rsync. * * Copyright (C) 1998 Andrew Tridgell * Copyright (C) 2002 Martin Pool * Copyright (C) 2004-2023 Wayne Davison * * 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 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 General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, visit the http://fsf.org website. */ #include "rsync.h" #include "inums.h" #ifndef ENODATA #define ENODATA EAGAIN #endif /* We want all reads to be aligned on 1K boundaries. */ #define ALIGN_BOUNDARY 1024 /* How far past the boundary is an offset? */ #define ALIGNED_OVERSHOOT(oft) ((oft) & (ALIGN_BOUNDARY-1)) /* Round up a length to the next boundary */ #define ALIGNED_LENGTH(len) ((((len) - 1) | (ALIGN_BOUNDARY-1)) + 1) extern int sparse_files; OFF_T preallocated_len = 0; static OFF_T sparse_seek = 0; static OFF_T sparse_past_write = 0; int sparse_end(int f, OFF_T size, int updating_basis_or_equiv) { int ret = 0; if (updating_basis_or_equiv) { if (sparse_seek && do_punch_hole(f, sparse_past_write, sparse_seek) < 0) ret = -1; #ifdef HAVE_FTRUNCATE /* A compilation formality -- in-place requires ftruncate() */ else /* Just in case the original file was longer */ ret = do_ftruncate(f, size); #endif } else if (sparse_seek) { #ifdef HAVE_FTRUNCATE ret = do_ftruncate(f, size); #else if (do_lseek(f, sparse_seek-1, SEEK_CUR) != size-1) ret = -1; else { do { ret = write(f, "", 1); } while (ret < 0 && errno == EINTR); ret = ret <= 0 ? -1 : 0; } #endif } sparse_past_write = sparse_seek = 0; return ret; } /* Note that the offset is just the caller letting us know where * the current file position is in the file. The use_seek arg tells * us that we should seek over matching data instead of writing it. */ static int write_sparse(int f, int use_seek, OFF_T offset, const char *buf, int len) { int l1 = 0, l2 = 0; int ret; for (l1 = 0; l1 < len && buf[l1] == 0; l1++) {} for (l2 = 0; l2 < len-l1 && buf[len-(l2+1)] == 0; l2++) {} sparse_seek += l1; if (l1 == len) return len; if (sparse_seek) { if (sparse_past_write >= preallocated_len) { if (do_lseek(f, sparse_seek, SEEK_CUR) < 0) return -1; } else if (do_punch_hole(f, sparse_past_write, sparse_seek) < 0) { sparse_seek = 0; return -1; } } sparse_seek = l2; sparse_past_write = offset + len - l2; if (use_seek) { /* The in-place data already matches. */ if (do_lseek(f, len - (l1+l2), SEEK_CUR) < 0) return -1; return len; } while ((ret = write(f, buf + l1, len - (l1+l2))) <= 0) { if (ret < 0 && errno == EINTR) continue; sparse_seek = 0; return ret; } if (ret != (int)(len - (l1+l2))) { sparse_seek = 0; return l1+ret; } return len; } static char *wf_writeBuf; static size_t wf_writeBufSize; static size_t wf_writeBufCnt; int flush_write_file(int f) { int ret = 0; char *bp = wf_writeBuf; while (wf_writeBufCnt > 0) { if ((ret = write(f, bp, wf_writeBufCnt)) < 0) { if (errno == EINTR) continue; return ret; } wf_writeBufCnt -= ret; bp += ret; } return ret; } /* write_file does not allow incomplete writes. It loops internally * until len bytes are written or errno is set. Note that use_seek and * offset are only used in sparse processing (see write_sparse()). */ int write_file(int f, int use_seek, OFF_T offset, const char *buf, int len) { int ret = 0; while (len > 0) { int r1; if (sparse_files > 0) { int len1 = MIN(len, SPARSE_WRITE_SIZE); r1 = write_sparse(f, use_seek, offset, buf, len1); offset += r1; } else { if (!wf_writeBuf) { wf_writeBufSize = WRITE_SIZE * 8; wf_writeBufCnt = 0; wf_writeBuf = new_array(char, wf_writeBufSize); } r1 = (int)MIN((size_t)len, wf_writeBufSize - wf_writeBufCnt); if (r1) { memcpy(wf_writeBuf + wf_writeBufCnt, buf, r1); wf_writeBufCnt += r1; } if (wf_writeBufCnt == wf_writeBufSize) { if (flush_write_file(f) < 0) return -1; if (!r1 && len) continue; } } if (r1 <= 0) { if (ret > 0) return ret; return r1; } len -= r1; buf += r1; ret += r1; } return ret; } /* An in-place update found identical data at an identical location. We either * just seek past it, or (for an in-place sparse update), we give the data to * the sparse processor with the use_seek flag set. */ int skip_matched(int fd, OFF_T offset, const char *buf, int len) { OFF_T pos; if (sparse_files > 0) { if (write_file(fd, 1, offset, buf, len) != len) return -1; return 0; } if (flush_write_file(fd) < 0) return -1; if ((pos = do_lseek(fd, len, SEEK_CUR)) != offset + len) { rsyserr(FERROR_XFER, errno, "lseek returned %s, not %s", big_num(pos), big_num(offset)); return -1; } return 0; } /* This provides functionality somewhat similar to mmap() but using read(). * It gives sliding window access to a file. mmap() is not used because of * the possibility of another program (such as a mailer) truncating the * file thus giving us a SIGBUS. */ struct map_struct *map_file(int fd, OFF_T len, int32 read_size, int32 blk_size) { struct map_struct *map; map = new0(struct map_struct); if (blk_size && (read_size % blk_size)) read_size += blk_size - (read_size % blk_size); map->fd = fd; map->file_size = len; map->def_window_size = ALIGNED_LENGTH(read_size); return map; } /* slide the read window in the file */ char *map_ptr(struct map_struct *map, OFF_T offset, int32 len) { OFF_T window_start, read_start; int32 window_size, read_size, read_offset, align_fudge; if (len == 0) return NULL; if (len < 0) { rprintf(FERROR, "invalid len passed to map_ptr: %ld\n", (long)len); exit_cleanup(RERR_FILEIO); } /* in most cases the region will already be available */ if (offset >= map->p_offset && offset+len <= map->p_offset+map->p_len) return map->p + (offset - map->p_offset); /* nope, we are going to have to do a read. Work out our desired window */ align_fudge = (int32)ALIGNED_OVERSHOOT(offset); window_start = offset - align_fudge; window_size = map->def_window_size; if (window_start + window_size > map->file_size) window_size = (int32)(map->file_size - window_start); if (window_size < len + align_fudge) window_size = ALIGNED_LENGTH(len + align_fudge); /* make sure we have allocated enough memory for the window */ if (window_size > map->p_size) { map->p = realloc_array(map->p, char, window_size); map->p_size = window_size; } /* Now try to avoid re-reading any bytes by reusing any bytes from the previous buffer. */ if (window_start >= map->p_offset && window_start < map->p_offset + map->p_len && window_start + window_size >= map->p_offset + map->p_len) { read_start = map->p_offset + map->p_len; read_offset = (int32)(read_start - window_start); read_size = window_size - read_offset; memmove(map->p, map->p + (map->p_len - read_offset), read_offset); } else { read_start = window_start; read_size = window_size; read_offset = 0; } if (read_size <= 0) { rprintf(FERROR, "invalid read_size of %ld in map_ptr\n", (long)read_size); exit_cleanup(RERR_FILEIO); } if (map->p_fd_offset != read_start) { OFF_T ret = do_lseek(map->fd, read_start, SEEK_SET); if (ret != read_start) { rsyserr(FERROR, errno, "lseek returned %s, not %s", big_num(ret), big_num(read_start)); exit_cleanup(RERR_FILEIO); } map->p_fd_offset = read_start; } map->p_offset = window_start; map->p_len = window_size; while (read_size > 0) { int32 nread = read(map->fd, map->p + read_offset, read_size); if (nread <= 0) { if (!map->status) map->status = nread ? errno : ENODATA; /* The best we can do is zero the buffer -- the file * has changed mid transfer! */ memset(map->p + read_offset, 0, read_size); break; } map->p_fd_offset += nread; read_offset += nread; read_size -= nread; } return map->p + align_fudge; } int unmap_file(struct map_struct *map) { int ret; if (map->p) { free(map->p); map->p = NULL; } ret = map->status; #if 0 /* I don't think we really need this. */ force_memzero(map, sizeof map[0]); #endif free(map); return ret; }