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I read in text books that UNIX/Linux doesn't allows hard links to directories but soft links do. Is it because, when we have cycles and if we create hardlinks, and after some time we delete the original file, it will point to some garbage values?

If cycles were the sole reason behind not allowing hardlinks, then why softlinks are allowed to directories?

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Where should .. point to? Especially after removing the hard link to this directory, in the directory pointed to by ..? It needs to point somewhere. –  Thorbjørn Ravn Andersen Jun 24 '13 at 22:50
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3 Answers

up vote 58 down vote accepted

This is just a bad idea, as there is no way to tell the difference between a hard link and original name.

Allowing hard links to directories would break the directed acyclic graph structure of the filesystem, possibly creating directory loops and dangling directory subtrees, which would make fsck and any other file tree walkers error prone.

First, to understand this, let's talk about inodes. The data in the filesystem is held in blocks on the disk, and those blocks are collected together by an inode. You can think of the inode as THE file. Inodes lack filenames though. That's where links come in.

A link is just a pointer to an inode. A directory is an inode that holds links. Each filename in a directory is just a link to an inode. Opening a file in UNIX also creates a link, but it's a different type of link (it's not a named link).

A hard link is just an extra directory entry pointing to that inode. When you ls -l, the number after the permissions is the named link count. Most regular files will have one link. Creating a new hard link to a file will make both filenames point to the same inode. Note:

% ls -l test
ls: test: No such file or directory
% touch test
% ls -l test
-rw-r--r--  1 danny  staff  0 Oct 13 17:58 test
% ln test test2
% ls -l test*
-rw-r--r--  2 danny  staff  0 Oct 13 17:58 test
-rw-r--r--  2 danny  staff  0 Oct 13 17:58 test2
% touch test3
% ls -l test*
-rw-r--r--  2 danny  staff  0 Oct 13 17:58 test
-rw-r--r--  2 danny  staff  0 Oct 13 17:58 test2
-rw-r--r--  1 danny  staff  0 Oct 13 17:59 test3
            ^ this is the link count

Now, you can clearly see that there is no such think as a hard link. A hard link is the same as a regular name. In the above example, test or test2, which is the original file and which is the hard link? By the end, you cant really tell (ignoring timestamps) because both names point to the same contents, the same inode:

% ls -li test*  
14445750 -rw-r--r--  2 danny  staff  0 Oct 13 17:58 test
14445750 -rw-r--r--  2 danny  staff  0 Oct 13 17:58 test2
14445892 -rw-r--r--  1 danny  staff  0 Oct 13 17:59 test3

The -i flag to ls shows you inode numbers in the beginning of the line. Note how test and test2 have the same inode number.

Now, if you were allowed to do this for directories, two different directories in different points in the filesystem could point to the same thing. In fact, a subdir could point back to its grandparent, creating a loop.

Why is this loop a concern? Because when you are traversing, there is no way to detect you are looping (without keeping track of inode numbers as you traverse). Imagine you are writing the du command, which needs to recurse through subdirs to find out about disk usage. How would du know when it hit a loop? It is error prone and a lot of bookkeeping that du would have to do, just to pull off this simple task.

Symlinks are a whole different beast, in that they are a special type of "file" that many file filesystem APIs tend to automatically follow. Note, a symlink can point to an nonexistent destination, because they point by name, and not directly to an inode. That concept doesn't make sense with hard links, because the mere existance of a "hard link" means the file exists.

So why can du deal with symlinks easily and not hard links? We were able to see above that hard links are indistinguishable from normal directory entries. Symlinks however are special, detectable, and skippable! Du notices that the symlink is a symlink, and skips it completely!

% ls -l 
total 4
drwxr-xr-x  3 danny  staff  102 Oct 13 18:14 test1/
lrwxr-xr-x  1 danny  staff    5 Oct 13 18:13 test2@ -> test1
% du -ah
242M    ./test1/bigfile
242M    ./test1
4.0K    ./test2
242M    .
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Allowing hard links to directories would break the directed acyclic graph structure of the filesystem. Can you please explain more about the problem with cycles using hard links? Why is it ok with symlinks –  user3539 Oct 12 '11 at 1:13
They seem to have allowed it on Macs by adding cycle detection to the link() system call, and refusing to allow you to create a directory hard link if it would create a cycle. Seems to be a reasonable solution. –  psusi Oct 14 '11 at 20:08
@psusi mkdir -p a/b; nocheckln c a; mv c a/b; -- the nocheckln there is a theoretical ln that doesnt check for directory args, and just passes to link, and because no cycle is made, we are all good in creating 'c'. then we move 'c' into 'a/b', and a cycle is created from a/b/c -> a/ -- checking in link() is not good enough –  Danny Dulai Oct 15 '11 at 2:05
@DannyDulai, yea, I guess rename() needs to check as well... –  psusi Oct 17 '11 at 13:26
Upvoted for the effort, nice answer, fully explained, and easy to understand. –  2bc Mar 24 '12 at 12:48
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With the exception of mount points, each directory has one and only parent: ...

One way to do pwd is to check the device:inode for '.' and '..'. If they are the same, you have reached the root of the file system. Otherwise, find the name of the current directory in the parent, push that on a stack, and start comparing '../.' with '../..', then '../../.' with '../../..', etc. Once you've hit the root, start popping and printing the names from the stack. This algorithm relies on the fact that each directory has one and only one parent.

If hard links to directories were allowed, which one of the multiple parents should .. point to? That is one compelling reason why hardlinks to directories are not allowed.

Symlinks to directories don't cause that problem. If a program wants to, it could do an lstat() on each part of the pathname and detect when a symlink is encountered. The pwd algorithm will return the true absolute pathname for a target directory. The fact that there is a piece of text somewhere (the symlink) that points to the target directory is pretty much irrelevant. The existence of such a symlink does not create a loop in the graph.

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Not so sure about this. If we think of .. as being a sort of virtual hardlink to the parent, there is no technical reason that the target of the link can only have one other link to it. pwd would just have to use a different algorithm to resolve the path. –  Benubird Mar 5 at 9:44
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This is a good explanation. Regarding "Which one of the multiple parents should .. point to?" one solution would be for a process to maintain its full wd path, either as inodes or as a string. inodes would be more robust since names can be changed. At least in the olden days, there was an in-core inode for every open file that was incremented whenever a file was opened, decremented when closed. When it reached zero it and the storage it pointed to would be freed up. When the file was no longer open by anybody, it (The in-core copy) would be abandoned. This would maintain the path as valid if some other process moved a directory to another directory while the subdirectory was in the path of another process. Similar to how you can delete an open file but it is simply removed from the directory, but still open for any processes who have it open.

Hard-linking directories used to be freely allowed in Bell Labs UNIX, at least V6 and V7, Don't know about Berkeley or later. No flag required. Could you make loops? Yes, don't do that. It is very clear what you are doing if you make a loop. Nether should you practice knot tying around your neck while you are waiting for your turn to skydive out of a plane if you have the other end conveniently hung from a hook on the bulk-head.

What I hoped to do with it today was to hard-link lhome to home so that I could have /home/administ available whether or not /home was covered up with an automout over home, that automount having a symlink named administ to /lhome/administ. This enables me to have an administrative account that works regardless of the state of my primary home file system. This IS an experiment for linux, but I think learned at one time for the UCB based SunOS that automounts are done at the ascii string level. It is hard to see how they could be done otherwise as a layer on top of any arbitrary FS.

I read elsewhere that . and .. are not files any more in the directory either. I am sure that there are good reasons for all of this, and that much of what we enjoy (Such as being able to mount NTFS) is possible because of such things, but some of the elegance of UNIX was in the implementation. It is the benefits such as generality and malleability that this elegance provided that has enabled it to be so robust and to endure for four decades. As we loose the elegant implementations it will eventually become like Windows (I hope I am wrong!). Someone would then create a new OS which is based on elegant principles. Something to think about. Perhaps I am wrong, I am not (obviously) familiar with the current implementation. It is amazing though how applicable 30 year old understanding is to Linux... most of the time!

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