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I'm writing a gui to do perform a glorified 'dd'.

I could just subprocess to 'dd' but I thought I might as well use python's open()/read()/write() if I can as it'll let me display progress much more easily.

Prompted by this link here I have:

input = open('filename.img', 'rb')
output = open("/dev/sdc", 'wb')
while True:
    buffer =
    if buffer:

...however it is horribly slow. Or at least far slower than dd. (around 4-5x slower)

I had a play and noticed altering the number of bytes 'buffered' had a huge affect on the speed of completion. Raising it to 2048 for example seems to half the time taken. Perhaps going OT for SO here but I guess the flash has an optimum number of bytes to be written at once? Could anyone suggest how I discover this?

The image & card are 1Gb so I would very much like to return to the ~5 minutes dd took if possible. I appreciate that in all likelihood I won't match it.

Rather than trial and error, would anyone be able to suggest a way to optimise the above code and reasoning as to why it works? Especially what value for for example?

One restriction: python 2.4.3 on linux (centos5) (please don't hurt me)

share|improve this question

Speed depending on buffer size is unrelated to the specific characteristics of compact flash, but inherent to all I/O with (relatively) slow devices, even to all kinds of system calls. You should make the buffer size as large as possible without exhausting memory - 2MiB should be enough for a Flash drive.

You should use the time and strace utilities to determine why your program is slower. If time shows a large user/real (large meaning greater than 0.1), you can optimize your Python interpreter - cpython 2.4 is pretty slow, and you're creating new objects all the time instead of writing into a preallocated buffer. If there is a significant difference in sys timings, analyze the syscalls made by both programs (with strace) and try to emit the ones dd does.

Also note that you must call fsync (or execute the sync program) afterwards to measure the real time it took writing the file to disk (or open the output file with O_DIRECT). Otherwise, the operating system will let your program exit and just keep all the written data in buffers that are then continually written out to the actual disk. To test that you're doing it right, remove the disk immediately after your program is finished. Note that the speed difference can be staggering. This effect is less noticeable if your disk(CF card) is way larger than the available physical memory.

share|improve this answer
Thanks for this, it makes perfect sense. Yep I found out rather quickly I was being silly limiting myself to K's (suggested by the link) rather than M's. Hoping you can re-read my own edited answer. – PriceChild Jul 6 '11 at 15:20
Yep as said in comments to my answer I'll try a sync. I have previously been pulling the card out as soon as I've seen it finish, wondering if this was the cause but had it verify as ok. Might need to double check the verification! – PriceChild Jul 6 '11 at 15:52

So with a little help, I've removed the 'buffer' bit completely and added an os.fsync().

import os

input = open('filename.img', 'rb')
output = open("/dev/sdc", 'wb')
share|improve this answer
This program just copies the first 1024 bytes. If you match it against dd bs=1024 count=1, you'll see that dd will probably not take 5 minutes for the same task. – phihag Jul 6 '11 at 15:09
Whoops yes!! My paste here was actually a typo. My actual code does what is now reflected in the edit. Again, md5sums are ok, the flash card performs its purpose perfectly (/ of an embedded system) I just can't believe it takes 5 seconds to burn it... – PriceChild Jul 6 '11 at 15:16
Using read without an argument reads the entire file into memory. This prevents the program for working with Larger-than-4GiB files on 32bit architectures and make it extremely slow for large disk images otherwise, so it's not a good idea. I think we've both overlooked one critical aspect: When close returns, the data may not be on the physical disk due to OS buffering. The speedups gained by this can be huge (100x is not unheard of; you seem to be experiencing a speedup in that vicinity). I updated my answer to add a paragraph explaining how to avoid this miscalculation. – phihag Jul 6 '11 at 15:47
Good point, I'll pop a sync in tomorrow and see how it goes. I had noticed python not writing everything to a file until I called file.close() but had assumed that sync'd it until now. The images are 1Gb. – PriceChild Jul 6 '11 at 15:50
You still have the Python buffer, only implicitely (it's not a named variable anymore, but you still need to allocate the memory). Also, note that you can simply use the sync function from <unistd.h>. However, note that sync waits for all filesystem operations. You probably want to use fsync(only wait for operations on your file) instead. – phihag Jul 7 '11 at 10:53

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