I have a file that is very large (>500GB) that I want to prepend with a relatively small header (<20KB). Doing commands such as:

cat header bigfile > tmp
mv tmp bigfile

or similar commands (e.g., with sed) are very slow.

What is the fastest method of writing a header to the beginning of an existing large file? I am looking for a solution that can run under CentOS 7.2. It is okay to install packages from CentOS install or updates repo, EPEL, or RPMForge.

It would be great if some method exists that doesn't involve relocating or copying the large amount of data in the bigfile. That is, I'm hoping for a solution that can operate in fixed time for a given header file regardless of the size of the bigfile. If that is too much to ask for, then I'm just asking for the fastest method.

Compiling a helper tool (as in C/C++) or using a scripting language is perfectly acceptable.

closed as too broad by Kaz, Borodin, kamal pal, alexander.polomodov, Bhargav Rao Jun 17 '16 at 21:30

Please edit the question to limit it to a specific problem with enough detail to identify an adequate answer. Avoid asking multiple distinct questions at once. See the How to Ask page for help clarifying this question. If this question can be reworded to fit the rules in the help center, please edit the question.

  • Standard file systems treat files as linked lists of (blocks of) bytes, meaning that other than appending to a file, editing one requires rewriting the entire thing. – chepner Jun 17 '16 at 13:08
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    Another possibility is to write a "catenating file system" (perhaps as a FUSE module): a file system whose files are virtually composed as catenations of other files. Then to insert a header, we simply reconfigure a catenated file to include that header. – Kaz Jun 17 '16 at 13:37
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    Can one resize the file, use the C++ memmove, and then lseek to the beginning and write the header? I don't know how to make the question more specific than qualifying it to CentOS 7.2 and saying what I want to accomplish. This question has been asked elsewhere with fewer qualifications. I'm specifically interested in performance as measured by time to complete the operation. – Steve Amerige Jun 17 '16 at 13:41
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    Possible option: Keep the lines in the files "backwards", so that the first one you want to read is last in the file. To prepend a line, you just need to append it to the file. Use File::ReadBackwards to read the file in the correct order. – ikegami Jun 17 '16 at 14:29
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    @Borodin Also, I must say that I didn't get the point of suggesting to "write" a custom filesystem or move the project to a "platform" that supports this or that, ignoring the clear restriction to CentOS 7.2 and the practical nature of the question. These discussions are cool but do not seem to address the problem at hand. I certainly don't see how mmap and memmove were going to help at all. If this were a systemic problem it would clearly be better to write those files differently to start with. – zdim Jun 19 '16 at 0:03

Is this something that needs to be done once, to "fix" a design oversight perhaps? Or is it something that you need to do on a regular basis, for instance to add summary data (for instance, the number of data records) to the beginning of the file?

If you need to do it just once then your best option is just to accept that a mistake has been made and take the consequences of the retro-fix. As long as you make your destination drive different from the source drive you should be able to fix up a 500GB file within about two hours. So after a week of batch processes running after hours you could have upgraded perhaps thirty or forty files

If this is a standard requirement for all such files, and you think you can apply the change only when the file is complete -- some sort of summary information perhaps -- then you should reserve the space at the beginning of each file and leave it empty. Then it is a simple matter of seeking into the header region and overwriting it with the real data once it can be supplied

As has been explained, standard file systems require the whole of a file to be copied in order to add something at the beginning

If your 500GB file is on a standard hard disk, which will allow data to be read at around 100MB per second, then reading the whole file will take 5,120 seconds, or roughly 1 hour 30 minutes

As long as you arrange for the destination to be a separate drive from the source, your can mostly write the new file in parallel with the read, so it shouldn't take much longer than that. But there's no way to speed it up other than that, I'm afraid


If you were not bound to CentOS 7.2, your problem could be solved (with some reservations1) by fallocate, which provides the needed functionality for the ext4 filesystem starting from Linux 4.2 and and for the XFS filesystem since Linux 4.1:

int fallocate(int fd, int mode, off_t offset, off_t len);

This is a nonportable, Linux-specific system call. For the portable, POSIX.1-specified method of ensuring that space is allocated for a file, see posix_fallocate(3).

fallocate() allows the caller to directly manipulate the allocated disk space for the file referred to by fd for the byte range starting at offset and continuing for len bytes.

The mode argument determines the operation to be performed on the given range. Details of the supported operations are given in the subsections below.


Increasing file space

Specifying the FALLOC_FL_INSERT_RANGE flag (available since Linux 4.1) in mode increases the file space by inserting a hole within the file size without overwriting any existing data. The hole will start at offset and continue for len bytes. When inserting the hole inside file, the contents of the file starting at offset will be shifted upward (i.e., to a higher file offset) by len bytes. Inserting a hole inside a file increases the file size by len bytes.


FALLOC_FL_INSERT_RANGE requires filesystem support. Filesystems that support this operation include XFS (since Linux 4.1) and ext4 (since Linux 4.2).

1 fallocate allows prepending data to the file only at multiples of the filesystem block size. So it will solve your problem only if it's acceptable for you to pad the extra space with whitespace, comments, etc.

Without a support for fallocate()+FALLOC_FL_INSERT_RANGE the best you can do is

  1. Increase the file (so that it has its final size);
  2. mmap() the file;
  3. memmove() the data;
  4. Fill the header data in the beginning.
  • No matter how you read and write the file, it still has to be read into memory in its entirety and written out again; it makes no difference whether you use memcopy and memmove or readline and print. In fact this way will be much slower because you will be reading and writing on the same disk drive, whereas a print may be directed to a different hardware device. Even the use of fallocate with FALLOC_FL_INSERT_RANGE will take a couple of hours to allocate a few hundred bytes at the start of a 500GB file, because the data still has to be moved somehow. – Borodin Jun 17 '16 at 15:53
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    @Borodin File systems like ext4 use tree structures with pointers for allocating files (this is of course a big simplification). It is possible to insert blocks at the front without moving all the later blocks. – Kaz Jun 17 '16 at 19:58
  • Please explain why you're suggesting mmap and memmove, and why you think it's a better solution than readline and print in Perl – Borodin Jun 17 '16 at 21:25
  • @Borodin, ...well, the obvious answer to that question is that line-level operations are extra overhead even with buffering on top. Not that I'm convinced that mmap() + memmove() is the right thing, but I am convinced that readline + print is suboptimal; I don't see any reason to work at less than page-size chunks. – Charles Duffy Feb 6 '17 at 17:50
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    (heck, if you wanted to reduce the amount of temporary space, you could almost work backwards, allocating a sparse target file, reading large chunks from the end of the source to the destination and then truncating after successful fdatasync(); lots of various optimizations possible when one works with lower-level primitives). – Charles Duffy Feb 6 '17 at 17:52

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