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Recently I was asked this during a job interview. I was honest and said I knew how a symbolic link behaves and how to create one, but do not understand the use of a hard link and how it differs from a symbolic one.

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about 'do not understand the use of a hard link', it can be used in build systems which do lot of copying of binaries. Creating hard link instead of actual copy speeds things up. MSBuild 4.0 supports this. –  Ankush Nov 15 '11 at 8:34
I find this link very useful to understand it. askubuntu.com/questions/108771/… –  kta Nov 10 '13 at 5:42

16 Answers 16

up vote 256 down vote accepted

Underneath the file system files are represented by inodes (or is it multiple inodes not sure)

A file in the file system is basically a link to an inode.
A hard link then just creates another file with a link to the same underlying inode.

When you delete a file it removes one link to the underlying inode. The inode is only deleted (or deletable/over-writable) when all links to the inode have been deleted.

A symbolic link is a link to another name in the file system.

Once a hard link has been made the link is to the inode. deleting renaming or moving the original file will not affect the hard link as it links to the underlying inode. Any changes to the data on the inode is reflected in all files that refer to that inode.

Note: Hard links are only valid within the same File System. Symbolic links can span file systems as they are simply the name of another file.

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I'm sure the i-nodes depend on the particular variant of the OS; however, I believe it is usually a single i-node. The i-node has info about the file and info about where the data is stored on disk. Large files will have indirect pointers to additional tables. –  terson Oct 9 '08 at 6:08
You might want to add the useful feature that symbolic links can cross filesystems, hard links cannot (they must refer to a file on the same filesystem). –  paxdiablo Oct 9 '08 at 6:48
There is a good visual explanation in an article on Linux Gazette –  Rodrigue May 5 '12 at 8:39
@zen: You can unmount/remount a file system any time it is not being used. For the root partition this is a bit tricky but it can be done (not recomended). To do it for the root it is usually best to boot of a rescuse CD first modify the mounts and re-boot. But you should ask this kind of question on super user. –  Loki Astari Feb 14 at 20:06
@zen: I don't like your DNS example as it adds too many other layers of indirection and depends how you interpret these layers. Personally I see all DNS as examples of soft links (if I change www.c.com from to it can still serve a file but it is not the same as the original file. A hard link is a link to the inode and thus explicitly the data. No matter what you do with the file the file always points at the same inode and thus the same data. –  Loki Astari Feb 14 at 20:06

Some nice intuition that might help, using any Linux(ish) console.

Create two files:

$ touch blah1; touch blah2

Enter some Data into them:

$ echo "Cat" > blah1
$ echo "Dog" > blah2

(Actually, I could have used echo in the first place, as it creates the files if they don't exist... but never mind that.)

And as expected:

$cat blah1; cat blah2

Let's create hard and soft links:

$ ln blah1 blah1-hard
$ ln -s blah2 blah2-soft

Let's see what just happened:

$ ls -l

blah2-soft -> blah2

Changing the name of blah1 does not matter:

$ mv blah1 blah1-new
$ cat blah1-hard

blah1-hard points to the inode, the contents, of the file - that wasn't changed.

$ mv blah2 blah2-new
$ ls blah2-soft
$ cat blah2-soft  
cat: blah2-soft: No such file or directory

The contents of the file could not be found because the soft link points to the name, that was changed, and not to the contents. Likewise, If blah1 is deleted, blah1-hard still holds the contents; if blah2 is deleted, blah2-soft is just a link to a non-existing file.

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does this imply that a "file" and a "hard link" are the same, both pointing to an inode? on deleting file or hard link, the contents still exist as long as one is still pointing to the inode right? –  DanFromGermany Jun 10 '13 at 14:10
@DanFromGermany Correct. The content is reachable as long as at least one hard link (i.e., file) is pointing at it. –  Adam Matan Jun 12 '13 at 10:00
And copying a file is creating a new inode, right? –  Bibhas Feb 8 '14 at 14:02
Great answer. I didn't get this until now. Thanks ! –  rm-vanda Mar 18 '14 at 14:30
example is always the best explanation :) –  Shuliyey Apr 13 at 0:50

Hard links are useful when the original file is getting moved around. For example, moving a file from /bin to /usr/bin or to /usr/local/bin. Any symlink to the file in /bin would be broken by this, but a hardlink, being a link directly to the inode for the file, wouldn't care.

Hard links may take less disk space as they only take up a directory entry, whereas a symlink needs its own inode to store the name it points to.

Hard links also take less time to resolve - symlinks can point to other symlinks that are in symlinked directories. And some of these could be on NFS or other high-latency file systems, and so could result in network traffic to resolve. Hard links, being always on the same file system, are always resolved in a single look-up, and never involve network latency (if it's a hardlink on an NFS filesystem, the NFS server would do the resolution, and it would be invisible to the client system). Sometimes this is important. Not for me, but I can imagine high-performance systems where this might be important.

I also think things like mmap(2) and even open(2) use the same functionality as hardlinks to keep a file's inode active so that even if the file gets unlink(2)ed, the inode remains to allow the process continued access, and only once the process closes it does the file really go away. This allows for much safer temporary files (if you can get the open and unlink to happen atomically, which there may be a POSIX API for that I'm not remembering, then you really have a safe temporary file) where you can read/write your data without anyone being able to access it. Well, that was true before /proc gave everyone the ability to look at your file descriptors, but that's another story.

Speaking of which, recovering a file that is open in process A, but unlinked on the file system revolves around using hardlinks to recreate the inode links so the file doesn't go away when the process which has it open closes it or goes away.

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Symbolic links link to a path name. This can be anywhere in a system's file tree, and doesn't even have to exist when the link is created. The target path can be relative or absolute.

Hard links are additional pointers to an inode, meaning they can exist only on the same volume as the target. Additional hard links to a file are indistinguishable from the "original" name used to reference a file.

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Also, when you remove the file you link to, a symbolic link gets broken, a hard link remains valid, because it "keeps" the file in the file system. –  njsf Oct 9 '08 at 4:16
I assume exit should be exist? –  Svish Nov 4 '09 at 9:05

Soft Link:

soft or symbolic is more of a short cut to the original file....if you delete the original the shortcut fails and if you only delete the short cut nothing happens to the original.

Soft link Syntax: ln -s file1 file2

Hard Link:

Hard link is more of a mirror copy or multiple paths to the same file. Do something to file1 and it appears in file 2. Deleting one still keeps the other ok.

The inode(or file) is only deleted when all the (hard)links or all the paths to the (same file)inode has been deleted.

Once a hard link has been made the link has the inode of the original file. Deleting renaming or moving the original file will not affect the hard link as it links to the underlying inode. Any changes to the data on the inode is reflected in all files that refer to that inode.

Hard Link syntax: ln file1 file2

Note: Symbolic links can span file systems as they are simply the name of another file. Whereas hard links are only valid within the same File System.

Symbolic links have some features hard links are missing:

  • Hard link point to the file content. while Soft link points to the file name.
  • while size of hard link is the size of the content while soft link is having the file name size.
  • Hard links share the same inode. Soft links do not.
  • Hard links can't cross file systems. Soft links do.
  • you know immediately where a symbolic link points to while with hard links, you need to explore the whole file system to find files sharing the same inode.
  • hard-links cannot point to directories.

Reason why hard-links can't cross file systems or partitions:

On a hard disk there are lots of sectors.

Say a file starts at inode (sector) 4001 and ends at 5000. The file is "/export/home/john/mail.doc"

Then: 1. A hard link to "mail.doc" which is named "hardLinkToMail" contains the value: "4001". 2. A soft link to "mail.doc" which is named "softLinkToMail" contains the value: "/export/home/john/mail.doc".

In 1) the hard link can only point to the same disk. It can not point to another drive. All drives has an inode of value "4001", how can the hard link distinguish between all discs? Which drive's "4001" is it?

In 2) the soft link contains a string. The string can point to another filesystem on another drive, because the full path is specified.

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"while size of hard link is the size of the content while soft link is having the file name size." Just to clarify, making another hard link does only affect the free space by a few bytes. –  Ingo Apr 16 at 9:24

I would point you to Wikipedia.

http://en.wikipedia.org/wiki/Symbolic_link http://en.wikipedia.org/wiki/Hard_link

Couple of points

  • Symlinks can cross filesystems but not hard links (most of the time)
  • Symlinks can point to directories
  • Hard links point to a file and enable you to refer to the same file with more than one name.
  • As long as there is at least one link, the data is still available.


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In theory (and in some cases even in practice) hard links can point to directories as well (in fact "." is a hard link to the current directory and ".." is a hard link to the parent directory). But they can be dangerous, so most UNIXes don't allow them (or require you to take special steps to take it). Apple uses them for their time machine implementation for example: earthlingsoft.net/ssp/blog/2008/03/x5_time_machine –  Joachim Sauer Oct 7 '09 at 14:02
You are pointing to a link to an article... does that make you a symbolic link? –  Ian Campbell May 2 '13 at 22:41

This link provides a good explanation of the relationship between file names, inodes, and file data with respect to hard and soft/symbolic links. It summaries most of the points made in the other answers.

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Thanks. I really appreciate the link. –  Nick Stinemates Apr 18 '09 at 18:49
Nice explanation in the link. –  user1071840 Jul 5 '13 at 2:16

As the saying goes, a picture is worth a thousand words. Here is how I visualize it:

enter image description here

Here is how we get to that picture:

  1. Create a name myfile.txt in the file system that points to a new inode (which contains the metadata for the file and points to the blocks of data that contain its contents, i.e. the text "Hello, World!":

    $ echo 'Hello, World!' > myfile.txt
  2. Create a hard link my-hard-link to the file myfile.txt, which means "create a file that should point to the same inode that myfile.txt points to":

    $ ln myfile.txt my-hard-link
  3. Create a soft link my-soft-link to the file myfile.txt, which means "create a file that should point to the file myfile.txt":

    $ ln -s myfile.txt my-soft-link

Look what will now happen if myfile.txt is deleted (or moved): my-hard-link still points to the same contents, and is thus unaffected, whereas my-soft-link now points to nothing. Other answers discuss the pros/cons of each.

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Why don't more people on StackOverflow know that "a picture is worth a thousand words"? It makes the world so much simpler! –  baerenfaenger Jul 14 at 20:39

Hard links are very useful when doing incremental backups. See rsnapshot, for example. The idea is to do copy using hard links:

  • copy backup number n to n + 1
  • copy backup n - 1 to n
  • ...
  • copy backup 0 to backup 1
  • update backup 0 with any changed files.

The new backup will not take up any extra space apart from any changes you've made, since all the incremental backups will point to the same set of inodes for files which haven't changed.

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I add on Nick's question: when are hard links useful or necessary? The only application that comes to my mind, in which symbolic links wouldn't do the job, is providing a copy of a system file in a chrooted environment.

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Distributed system w/ mount points in different places on different systems. Of course, this could be designed out of the system by being consistent. –  terson Oct 9 '08 at 6:13
I think @Tanktalus provided a great example. –  Nick Stinemates Oct 9 '08 at 6:18


  1. Read performance of hard links is better than symbolic links (micro-performance)
  2. Symbolic links can be copied, version-controlled, ..etc. In another words, they are an actual file. On the other end, a hard link is something at a slightly lower level and you will find that compared to symbolic links, there are less tools that provide means for working with the hard links as hard links and not as normal files
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Simply , Hard link : is just add new name to a file, that's mean , a file can have many name in the same time, all name are equal to each other, no one preferred, Hard link is not mean to copy the all contents of file and make new file is not that, it just create an alternative name to be known..

Symbolic link (symlink) : is a file pointer to another file, if the symbolic link points to an existing file which is later deleted, the symbolic link continues to point to the same file name even though the name no longer names any file.

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What you think of as an ordinary "file" is actually two separate things: The data of a file, and a directory entry. When you create a hard link for a file, you actually create a second directory entry which refers to the same data. Both directory entries have the exact same functionality; each one can be used to open the file to read it. So you don't really have "a file plus a hard link", you have "file data with two directory entries". What you think of as deleting a file actually deletes a directory entry, and when the last directory entry for the data is deleted, then the data itself is deleted as well. For ordinary files that have only one directory entry, deleting the directory entry will delete the data as always. (While a file is opened, the OS creates a temporary link to the file, so even when you delete all directory entries, the data stays but disappears as soon as you close the file).

As an example, create a file A.txt, a hard link B.txt, and delete A.txt. When you created A.txt, some data was created, and a directory entry A.txt. When you created the hard link, another directory entry B.txt was created, pointing to the exact same data. When you delete A.txt, you still have all the data and a single directory entry B.txt, exactly as if you had create a file B.txt in the first place.

A soft link is just an (almost) ordinary file, except that it doesn't contain data, but the path of another directory entry. If you delete the file that the soft link refers to, then the soft link will contain a path that doesn't point to a directory entry anymore; it is broken. If you delete the soft link, it's like deleting any other file, the file it points to is unaffected.

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A simple way to see the difference between a had link and a symbolic link is through a simple example. A hard link to a file will point to the place where the file is stored, or the inode of that file. A symbolic link will point to the actual file itself.

So if we have a file called "a" and create a hard link "b" and a symbolic link "c" which all refer to file "a" :

echo "111" > a
ln a b
ln -s a c

The output of "a", "b", and "c" will be :

cat a ---> 111
cat b ---> 111
cat c ---> 111

Now let's remove file "a" and see what happens to the output of "a", "b", and "c" :

rm a
cat a ---> No such file or directory
cat b ---> 111
cat c ---> No such file or directory

So what happened?

Because file "c" points to file "a" itself, if file "a" is deleted then file "c" will have nothing to point to, in fact it is also deleted.

However, file "b" points to the place of storage, or the inode, of file "a". So if file "a" is deleted then it will no longer point to the inode, but because file "b" does, the inode will continue to store whatever contents belonged to "a" until no more hard links point to it anymore.

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Adding to all the above answers, the difference in finding the hardlink and softlink file can be understood as below:- I have a file f6 in current directory and a directory named t2. File named f1 and ./t2/f2 are symbolic links to f6. File named f7 and ./t2/f8 are hard links of f6.

To find soft as well as hard link we can use:- $ find -L . -samefile f6 ./f1 ./f6 ./f7 ./t2/f2 ./t2/f8

To find only hardlink we can use:- $ find . -xdev -samefile f6 ./f6 ./f7 ./t2/f8

Since hardlink can be created on the same file system, so we can search all the hardlinks without -L option used (with -xdev option) in the same file-system/mount-point. It saves the unnecessary search into different mount points. So searching the hardlink is somewhat faster then searching the softlinks(Please rectify if I am wrong or not clear).

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Symbolic links give another name to a file, in a way similar to hard links. But a file can be deleted even if there are remaining symbolic links.

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