In this assignment, you will be developing a working file system checker. A checker reads in a file system image and makes sure that it is consistent. When it isn't, the checker takes steps to repair the problems it sees; however, you won't be doing any repairs to keep this project a little simpler.
Some basic background about file system consistency is found here:
For those of you who are really interested, some research papers also make for a fun read:
- The Original FSCK Paper
- Our Work on a SQL-Based Checker
- Our Work on a Faster File System Checker and subsequent follow-up by McKusick on the BSD Implementation
For this project, you will use the xv6 file system image as the basic image
that you will be reading and checking. The file include/fs.h includes the
basic structures you need to understand, including the superblock, on disk
inode format (struct dinode), and directory entry format (struct dirent). The tool tools/mkfs.c will also be useful to look at, in order to
see how an empty file-system image is created.
Much of this project will be puzzling out the exact on-disk format xv6 uses
for its simple file system, and then writing checks to see if various parts of
that structure are consistent. Thus, reading through mkfs.c and the file
system code itself will help you understand how xv6 uses the bits in the image
to record persistent information.
Your checker should read through the file system image and determine the
consistency of a number of things, including the following. When a problem is
detected, print the error message (shown below) to standard error and
exit immediately with exit code 1 (i.e., call exit(1)).
-
Each inode is either unallocated or one of the valid types (
T_FILE,T_DIR,T_DEV). If not, printERROR: bad inode. -
For in-use inodes, each address that is used by inode is valid (points to a valid datablock address within the image). If the direct block is used and is invalid, print
ERROR: bad direct address in inode.; if the indirect block is in use and is invalid, printERROR: bad indirect address in inode. -
Root directory exists, its inode number is 1, and the parent of the root directory is itself. If not, print
ERROR: root directory does not exist. -
Each directory contains
.and..entries, and the.entry points to the directory itself. If not, printERROR: directory not properly formatted. -
For in-use inodes, each address in use is also marked in use in the bitmap. If not, print
ERROR: address used by inode but marked free in bitmap. -
For blocks marked in-use in bitmap, the block should actually be in-use in an inode or indirect block somewhere. If not, print
ERROR: bitmap marks block in use but it is not in use. -
For in-use inodes, each direct address in use is only used once. If not, print
ERROR: direct address used more than once. -
For in-use inodes, each indirect address in use is only used once. If not, print
ERROR: indirect address used more than once. -
For all inodes marked in use, each must be referred to in at least one directory. If not, print
ERROR: inode marked use but not found in a directory. -
For each inode number that is referred to in a valid directory, it is actually marked in use. If not, print
ERROR: inode referred to in directory but marked free. -
Reference counts (number of links) for regular files match the number of times file is referred to in directories (i.e., hard links work correctly). If not, print
ERROR: bad reference count for file. -
No extra links allowed for directories (each directory only appears in one other directory). If not, print
ERROR: directory appears more than once in file system.
Your checker program, called xcheck, must be invoked exactly as follows:
prompt> xcheck file_system_image
The image file is a file that contains the file system image. If no image file is provided, you should print the usage error shown below:
prompt> xcheck
Usage: xcheck <file_system_image>
This output must be printed to standard error and exit with the error code of 1.
If the file system image does not exist, you should print the error image not found. to standard error and exit with the error code of 1.
If the checker detects any one of the 12 errors above, it should print the specific error to standard error and exit with error code 1.
If the checker detects none of the problems listed above, it should exit with return code of 0 and not print anything.
It may be worth looking into using mmap() for the project. Like, seriously,
use mmap() to access the file-system image, it will make your life so much
better.
It should be very helpful to read Chapter 6 of the xv6 book here. Note that the version of xv6 we're using does not include the logging feature described in the book; you can safely ignore the parts that pertain to that.
Make sure to look at fs.img, which is a file system image created when you
make xv6 by the tool mkfs (found in the tools/ directory of xv6). The output
of this tool is the file fs.img and it is a consistent file-system image. The
tests, of course, will put inconsistencies into this image, but your tool
should work over a consistent image as well. Study mkfs and its output to
begin to make progress on this project.