/* dctrl-tools - Debian control file inspection tools Copyright © 2003, 2005, 2012 Antti-Juhani Kaijanaho 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #ifndef FSAF_H #define FSAF_H #include #include #include #include /* FAST (MOSTLY) SEQUENTIAL-ACCESS FILE LAYER */ struct fsaf_private { char *fname; int fd; char * buf; size_t buf_capacity; size_t buf_offset; size_t buf_size; size_t invalid_mark; size_t eof_mark; /* can be (size_t)(-1) if not reached yet */ }; typedef struct fsaf_private FSAF; /* Open a FSAF for the given fd. Only read access is supported for * now. The whole file is initially valid. */ FSAF * fsaf_fdopen(int fd, char const *fname); /* Close the given FSAF. This DOES NOT close the underlying fd. */ void fsaf_close(FSAF *); /* Return a pointer to a buffer containing len bytes from the FSAF * starting at offset. Note that if offset is below the invalid mark, * we return b = NULL. This is a CHEAP operation, if the full range * has already been accessed. The buffer may be invalidated by any * subsequent call to this function. */ struct fsaf_read_rv { char const * b; size_t len; }; static inline struct fsaf_read_rv fsaf_read(FSAF * fp, size_t offset, size_t len) { struct fsaf_read_rv rv; void fsaf_slurp(FSAF * fp, size_t len); /* Reading nothing - since offset can be bogus in this * situation, this could foul up our assumptions later, so * return already here. */ if (len == 0) { rv.b = ""; rv.len = 0; return rv; } /* Make sure we don't read past the EOF mark. */ if (offset + len > fp->eof_mark) len = fp->eof_mark - offset; /* Ensure that we have enough data in the buffer. */ assert(offset >= fp->buf_offset); if (offset - fp->buf_offset + len > fp->buf_size) { fsaf_slurp(fp, offset - fp->buf_offset + len - fp->buf_size); if (offset - fp->buf_offset + len > fp->buf_size) { len = fp->buf_size - (offset - fp->buf_offset); } } assert(offset - fp->buf_offset + len <= fp->buf_size); assert(offset + len <= fp->eof_mark); rv.b = fp->buf + (offset - fp->buf_offset); rv.len = len; return rv; } /* Behaves like fsaf_read except that the result is put in a malloc'd * zero-terminated buffer. NULL return value indicates either memory * allocation failure or that the read was below the invalid mark. */ static inline char * fsaf_getas(FSAF * fp, size_t offset, size_t len) { struct fsaf_read_rv r = fsaf_read(fp, offset, len); if (r.b == 0) return 0; char * rv = malloc(r.len+1); if (rv == 0) return 0; memcpy(rv, r.b, r.len); rv[r.len] = 0; return rv; } static inline int fsaf_getc(FSAF * fp, size_t offset) { if (offset >= fp->eof_mark) return -1; struct fsaf_read_rv r = fsaf_read(fp, offset, 1); if (offset >= fp->eof_mark) return -1; assert(r.len == 1); return (unsigned char)r.b[0]; } /* Invalidate all bytes in FSAF up to and excluding offset. */ void fsaf_invalidate(FSAF *, size_t offset); /* Return an upper bound for the end of file, either the smallest * offset beyond eof or (size_t)(-1). */ static inline size_t fsaf_eof(FSAF * fp) { return fp->eof_mark; } #endif /* FSAF_H */