mariadb/newbrt/bread.c

/* Buffered read. */

#ident "$Id$"
#ident "Copyright (c) 2007, 2008, 2009 Tokutek Inc.  All rights reserved."
#ident "The technology is licensed by the Massachusetts Institute of Technology, Rutgers State University of New Jersey, and the Research Foundation of State University of New York at Stony Brook under United States of America Serial No. 11/760379 and to the patents and/or patent applications resulting from it."

#include "includes.h"

struct bread {
    int64_t fileoff;        // The byte before this offset is the next byte we will read (since we are reading backward)
    int fd;
    int bufoff;             // The current offset in the buf.   The next byte we will read is buf[bufoff-1] (assuming that bufoff>0).
    char *buf;              // A buffer with at least bufoff bytes in it.
};

BREAD create_bread_from_fd_initialize_at(int fd) {
    BREAD XMALLOC(result);
    int r = toku_os_get_file_size(fd, &result->fileoff); 
    assert(r==0);
    result->fd=fd;
    result->bufoff=0;
    result->buf = 0;
    return result;
}

int close_bread_without_closing_fd(BREAD br) {
    toku_free(br->buf);
    toku_free(br);
    return 0;
}


ssize_t bread_backwards(BREAD br, void *vbuf, size_t nbytes) {
    char *buf=vbuf;
    ssize_t result=0;
    const int i4 = sizeof(u_int32_t);
    while (nbytes > 0) {
	// read whatever we can out of the buffer.
	if (br->bufoff>0) {
	    size_t to_copy = ((size_t)br->bufoff >= nbytes) ? nbytes : (size_t)br->bufoff;
	    memcpy(buf+nbytes-to_copy, &br->buf[br->bufoff-to_copy], to_copy);
	    nbytes             -= to_copy;
	    result             += to_copy;
	    br->bufoff         -= to_copy;
	}
	if (nbytes>0) {
	    assert(br->bufoff==0);
	    u_int32_t compressed_length_n, uncompressed_length_n;
	    assert(br->fileoff>=i4); // there better be the three lengths plus the compressed data.
	    { ssize_t r = pread(br->fd, &compressed_length_n,   i4, br->fileoff-  i4); assert(r==i4); }
	    u_int32_t compressed_length = toku_dtoh32(compressed_length_n);
	    assert(br->fileoff >= compressed_length + 3*i4);
	    { ssize_t r = pread(br->fd, &uncompressed_length_n, i4, br->fileoff-2*i4); assert(r==i4); }
	    u_int32_t uncompressed_length = toku_dtoh32(uncompressed_length_n);
	    char *XMALLOC_N(compressed_length, zbuf);
	    {
		ssize_t r = pread(br->fd, zbuf,               compressed_length, br->fileoff- compressed_length -2*i4);
		assert(r==(ssize_t)compressed_length);
	    }
	    {
		u_int32_t compressed_length_n_again;
		ssize_t r = pread(br->fd, &compressed_length_n_again,   i4, br->fileoff-compressed_length-3*i4); assert(r==i4);
		assert(compressed_length_n_again == compressed_length_n);
	    }
	    uLongf destlen = uncompressed_length;
	    XREALLOC_N(uncompressed_length, br->buf);
	    uncompress((Bytef*)br->buf, &destlen, (Bytef*)zbuf, compressed_length);
	    assert(destlen==uncompressed_length);
	    toku_free(zbuf);
	    
	    br->bufoff = uncompressed_length;
	    br->fileoff -= (compressed_length + 3*i4);
	}
    }
    return result;
}

int bread_has_more(BREAD br) {
    return (br->fileoff>0) || (br->bufoff>0);
}