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I'm reading Linux Device Driver programming 3rd edition and I've been trying to get a grasp of openfiles vs inodes. From what the book says , "a file structure in the kernel is considered to be an open file." The book also says ,"an inode structure is used internally in the kernel to represent files. Therefor it is different from a file structure which is used to represent an open file." That statement in itself is totally confusing to me since a file and an open file is the same thing in my mind. I don't even understand what they mean by an open file in this context. I'm totally confused, what is an open file? What is an inode? And what is the difference?

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3 Answers 3

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ext2+, NTFS, and other filesystems have a master table of files on the drive, and directories are just a special kind of file full of records that point to entries in the file table. (This setup allows for hard links, as well as "temporary files" that aren't visible via the directory structure.) An "inode" is Linux's (and probably other *nixes') term for those master file table entries.

An inode doesn't track the current position within the file or the current mode (open for reading, writing, both...?), though. It only contains info that helps the OS find the contents of the file on disk and keep people who shouldn't be messing with it from doing so. You need a different structure to track that info. That'd likely be the "open file" structure you're seeing.

Apparently, the "file" structure also has a structure inside of it full of pointers to functions for stuff you can do with the file. This would be in order to support Unix's "everything is a file" philosophy and let you read and write to, say, a socket the same way you would to a regular file, as well as to provide a way to abstract away the filesystem-specific code from the code that'd work for everything (which makes supporting multiple filesystem types a lot easier).

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An inode is basically the data sitting in one of more files (it's actually an index into a table of some sort with which you can locate that data).

A file, on the other hand, is a directory entry that points to the inode.

This is how UNIX-like operating systems implement hard links, the ability for two files to be "equivalent", so that changing one will change the other. Since inodes are unique per file system, you can have more than one file referencing the same data (as long as it's on the same file system, of course).

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Ohh k, ya I think I remember reading something like that but it didn't sit with me well the first time. I think I get it a little bit better. The actual data that I care about is the inode and the file is just some pointer that refers to that data. There could be many pointers to that inode. Thanks, that clear things up! –  Mr.Student Mar 4 '12 at 5:47

An inode is on-disk metadata that represents a file. It contains the file's permission bits, the creation/modification/access timestamps, the actual file type, size of the file, etc...

A "open file" is simply a bit of memory in your process. Generally it's an array entry, which the filehandle you get from fopen() calls is the specific array key of. That array entry will contain (among other things) the current location of the cursor in the file where you'd be reading/write data from using the fwrite/fread calls.

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fopen()... surely you mean open()? –  Dietrich Epp Mar 4 '12 at 5:50
So you're saying that the inode simply describes the data or file we are talking about? The open file points to the data itself? I'm I correct? –  Mr.Student Mar 4 '12 at 5:52
No. the open file points to an in-process data structure. Stuff that represents how your app is dealing with the file. How the file was opened, where you're looking inside the file, etc... –  Marc B Mar 4 '12 at 5:55
@MarcB: If I call open, I don't get an in-process data structure, I get a data structure in the kernel. Or are you counting kernel memory as part of the process? –  Dietrich Epp Mar 4 '12 at 6:11
What you get from open is an index to an array that libc/glibc has created somewhere, which contains the open file data. It's in-process, but generally not something your own code has to worry about. Each process gets its own "open files" array. This array is also where the 'max open files' limits come from. Once you've opened enough files to occupy the entire array, you can't open anymore as there's no spare array entries to use, and no way to expand/extend the array dynamically. –  Marc B Mar 4 '12 at 6:14

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