196

I have used hashlib (which replaces md5 in Python 2.6/3.0) and it worked fine if I opened a file and put its content in hashlib.md5() function.

The problem is with very big files that their sizes could exceed RAM size.

How to get the MD5 hash of a file without loading the whole file to memory?

1
  • 22
    I would rephrase: "How to get the MD5 has of a file without loading the whole file to memory?" – XTL Feb 24 '12 at 12:29

13 Answers 13

166

Break the file into 8192-byte chunks (or some other multiple of 128 bytes) and feed them to MD5 consecutively using update().

This takes advantage of the fact that MD5 has 128-byte digest blocks (8192 is 128×64). Since you're not reading the entire file into memory, this won't use much more than 8192 bytes of memory.

In Python 3.8+ you can do

import hashlib
with open("your_filename.txt", "rb") as f:
    file_hash = hashlib.md5()
    while chunk := f.read(8192):
        file_hash.update(chunk)
print(file_hash.digest())
print(file_hash.hexdigest())  # to get a printable str instead of bytes
6
  • 83
    You can just as effectively use a block size of any multiple of 128 (say 8192, 32768, etc.) and that will be much faster than reading 128 bytes at a time. – jmanning2k Jul 15 '09 at 15:09
  • 41
    Thanks jmanning2k for this important note, a test on 184MB file takes (0m9.230s, 0m2.547s, 0m2.429s) using (128, 8192, 32768), I will use 8192 as the higher value gives non-noticeable affect. – JustRegisterMe Jul 17 '09 at 19:33
  • If you can, you should use hashlib.blake2b instead of md5. Unlike MD5, BLAKE2 is secure, and it's even faster. – Boris Nov 22 '19 at 11:59
  • 3
    @Boris, you can't actually say that BLAKE2 is secure. All you can say is that it hasn't been broken yet. – vy32 Apr 8 '20 at 14:57
  • @vy32 you can't say it's definitely going to be broken either. We'll see in 100 years, but it's at least better than MD5 which is definitely insecure. – Boris Apr 8 '20 at 15:50
223

You need to read the file in chunks of suitable size:

def md5_for_file(f, block_size=2**20):
    md5 = hashlib.md5()
    while True:
        data = f.read(block_size)
        if not data:
            break
        md5.update(data)
    return md5.digest()

NOTE: Make sure you open your file with the 'rb' to the open - otherwise you will get the wrong result.

So to do the whole lot in one method - use something like:

def generate_file_md5(rootdir, filename, blocksize=2**20):
    m = hashlib.md5()
    with open( os.path.join(rootdir, filename) , "rb" ) as f:
        while True:
            buf = f.read(blocksize)
            if not buf:
                break
            m.update( buf )
    return m.hexdigest()

The update above was based on the comments provided by Frerich Raabe - and I tested this and found it to be correct on my Python 2.7.2 windows installation

I cross-checked the results using the 'jacksum' tool.

jacksum -a md5 <filename>

http://www.jonelo.de/java/jacksum/

7
  • 29
    What's important to notice is that the file which is passed to this function must be opened in binary mode, i.e. by passing rb to the open function. – Frerich Raabe Jul 21 '11 at 13:02
  • 11
    This is a simple addition, but using hexdigest instead of digest will produce a hexadecimal hash that "looks" like most examples of hashes. – tchaymore Oct 16 '11 at 2:26
  • Shouldn't it be if len(data) < block_size: break? – Erik Kaplun Nov 2 '12 at 10:35
  • 2
    Erik, no, why would it be? The goal is to feed all bytes to MD5, until the end of the file. Getting a partial block does not mean all the bytes should not be fed to the checksum. – user25148 Nov 2 '12 at 20:12
  • 2
    @user2084795 open always opens a fresh file handle with the position set to the start of the file, (unless you open a file for append). – Steve Barnes Jul 5 '17 at 9:15
113

Below I've incorporated suggestion from comments. Thank you al!

python < 3.7

import hashlib

def checksum(filename, hash_factory=hashlib.md5, chunk_num_blocks=128):
    h = hash_factory()
    with open(filename,'rb') as f: 
        for chunk in iter(lambda: f.read(chunk_num_blocks*h.block_size), b''): 
            h.update(chunk)
    return h.digest()

python 3.8 and above

import hashlib

def checksum(filename, hash_factory=hashlib.md5, chunk_num_blocks=128):
    h = hash_factory()
    with open(filename,'rb') as f: 
        while chunk := f.read(chunk_num_blocks*h.block_size): 
            h.update(chunk)
    return h.digest()

original post

if you care about more pythonic (no 'while True') way of reading the file check this code:

import hashlib

def checksum_md5(filename):
    md5 = hashlib.md5()
    with open(filename,'rb') as f: 
        for chunk in iter(lambda: f.read(8192), b''): 
            md5.update(chunk)
    return md5.digest()

Note that the iter() func needs an empty byte string for the returned iterator to halt at EOF, since read() returns b'' (not just '').

9
  • 18
    Better still, use something like 128*md5.block_size instead of 8192. – mrkj Jan 6 '11 at 22:51
  • 1
    mrkj: I think it's more important to pick your read block size based on your disk and then to ensure that it's a multiple of md5.block_size. – Harvey Apr 12 '13 at 14:10
  • 6
    the b'' syntax was new to me. Explained here. – cod3monk3y Feb 18 '14 at 5:19
  • 1
    @ThorSummoner: Not really, but from my working finding optimum block sizes for flash memory, I'd suggest just picking a number like 32k or something easily divisible by 4, 8, or 16k. For example, if your block size is 8k, reading 32k will be 4 reads at the correct block size. If it's 16, then 2. But in each case, we're good because we happen to be reading an integer multiple number of blocks. – Harvey Mar 16 '15 at 14:21
  • 1
    "while True" is quite pythonic. – Jürgen A. Erhard Dec 16 '15 at 9:07
52

Here's my version of @Piotr Czapla's method:

def md5sum(filename):
    md5 = hashlib.md5()
    with open(filename, 'rb') as f:
        for chunk in iter(lambda: f.read(128 * md5.block_size), b''):
            md5.update(chunk)
    return md5.hexdigest()
0
30

Using multiple comment/answers in this thread, here is my solution :

import hashlib
def md5_for_file(path, block_size=256*128, hr=False):
    '''
    Block size directly depends on the block size of your filesystem
    to avoid performances issues
    Here I have blocks of 4096 octets (Default NTFS)
    '''
    md5 = hashlib.md5()
    with open(path,'rb') as f: 
        for chunk in iter(lambda: f.read(block_size), b''): 
             md5.update(chunk)
    if hr:
        return md5.hexdigest()
    return md5.digest()
  • This is "pythonic"
  • This is a function
  • It avoids implicit values: always prefer explicit ones.
  • It allows (very important) performances optimizations

And finally,

- This has been built by a community, thanks all for your advices/ideas.

5
  • 3
    One suggestion: make your md5 object an optional parameter of the function to allow alternate hashing functions, such as sha256 to easily replace MD5. I'll propose this as an edit, as well. – Hawkwing Aug 15 '13 at 19:41
  • 1
    also: digest is not human-readable. hexdigest() allows a more understandable, commonly recogonizable output as well as easier exchange of the hash – Hawkwing Aug 15 '13 at 19:51
  • Others hash formats are out of the scope of the question, but the suggestion is relevant for a more generic function. I added a "human readable" option according to your 2nd suggestion. – Bastien Semene Aug 27 '13 at 8:17
  • Can you elaborate on how 'hr' is functioning here? – EnemyBagJones Mar 23 '18 at 18:19
  • @EnemyBagJones 'hr' stands for human readable. It returns a string of 32 char length hexadecimal digits: docs.python.org/2/library/md5.html#md5.md5.hexdigest – Bastien Semene Mar 27 '18 at 9:46
9

A Python 2/3 portable solution

To calculate a checksum (md5, sha1, etc.), you must open the file in binary mode, because you'll sum bytes values:

To be py27/py3 portable, you ought to use the io packages, like this:

import hashlib
import io


def md5sum(src):
    md5 = hashlib.md5()
    with io.open(src, mode="rb") as fd:
        content = fd.read()
        md5.update(content)
    return md5

If your files are big, you may prefer to read the file by chunks to avoid storing the whole file content in memory:

def md5sum(src, length=io.DEFAULT_BUFFER_SIZE):
    md5 = hashlib.md5()
    with io.open(src, mode="rb") as fd:
        for chunk in iter(lambda: fd.read(length), b''):
            md5.update(chunk)
    return md5

The trick here is to use the iter() function with a sentinel (the empty string).

The iterator created in this case will call o [the lambda function] with no arguments for each call to its next() method; if the value returned is equal to sentinel, StopIteration will be raised, otherwise the value will be returned.

If your files are really big, you may also need to display progress information. You can do that by calling a callback function which prints or logs the amount of calculated bytes:

def md5sum(src, callback, length=io.DEFAULT_BUFFER_SIZE):
    calculated = 0
    md5 = hashlib.md5()
    with io.open(src, mode="rb") as fd:
        for chunk in iter(lambda: fd.read(length), b''):
            md5.update(chunk)
            calculated += len(chunk)
            callback(calculated)
    return md5
4

A remix of Bastien Semene code that take Hawkwing comment about generic hashing function into consideration...

def hash_for_file(path, algorithm=hashlib.algorithms[0], block_size=256*128, human_readable=True):
    """
    Block size directly depends on the block size of your filesystem
    to avoid performances issues
    Here I have blocks of 4096 octets (Default NTFS)

    Linux Ext4 block size
    sudo tune2fs -l /dev/sda5 | grep -i 'block size'
    > Block size:               4096

    Input:
        path: a path
        algorithm: an algorithm in hashlib.algorithms
                   ATM: ('md5', 'sha1', 'sha224', 'sha256', 'sha384', 'sha512')
        block_size: a multiple of 128 corresponding to the block size of your filesystem
        human_readable: switch between digest() or hexdigest() output, default hexdigest()
    Output:
        hash
    """
    if algorithm not in hashlib.algorithms:
        raise NameError('The algorithm "{algorithm}" you specified is '
                        'not a member of "hashlib.algorithms"'.format(algorithm=algorithm))

    hash_algo = hashlib.new(algorithm)  # According to hashlib documentation using new()
                                        # will be slower then calling using named
                                        # constructors, ex.: hashlib.md5()
    with open(path, 'rb') as f:
        for chunk in iter(lambda: f.read(block_size), b''):
             hash_algo.update(chunk)
    if human_readable:
        file_hash = hash_algo.hexdigest()
    else:
        file_hash = hash_algo.digest()
    return file_hash
0

u can't get it's md5 without read full content. but u can use update function to read the files content block by block.
m.update(a); m.update(b) is equivalent to m.update(a+b)

0
0

I think the following code is more pythonic:

from hashlib import md5

def get_md5(fname):
    m = md5()
    with open(fname, 'rb') as fp:
        for chunk in fp:
            m.update(chunk)
    return m.hexdigest()
0

I don't like loops. Based on @Nathan Feger:

md5 = hashlib.md5()
with open(filename, 'rb') as f:
    functools.reduce(lambda _, c: md5.update(c), iter(lambda: f.read(md5.block_size * 128), b''), None)
md5.hexdigest()
2
  • What possible reason is there to replace a simple and clear loop with a functools.reduce abberation containing multiple lambdas? I'm not sure if there's any convention on programming this hasn't broken. – Naltharial May 14 '19 at 16:44
  • My main problem was that hashlibs API doesn't really play well with the rest of Python. For example let's take shutil.copyfileobj which closely fails to work. My next idea was fold (aka reduce) which folds iterables together into single objects. Like e.g. a hash. hashlib doesn't provide operators which makes this a bit cumbersome. Nevertheless were folding an iterables here. – Sebastian Wagner May 14 '19 at 18:46
-1

Implementation of accepted answer for Django:

import hashlib
from django.db import models


class MyModel(models.Model):
    file = models.FileField()  # any field based on django.core.files.File

    def get_hash(self):
        hash = hashlib.md5()
        for chunk in self.file.chunks(chunk_size=8192):
            hash.update(chunk)
        return hash.hexdigest()
-3
import hashlib,re
opened = open('/home/parrot/pass.txt','r')
opened = open.readlines()
for i in opened:
    strip1 = i.strip('\n')
    hash_object = hashlib.md5(strip1.encode())
    hash2 = hash_object.hexdigest()
    print hash2
2
  • 1
    please, format the code in the answer, and read this section before giving answers: stackoverflow.com/help/how-to-answer – Farside Jul 17 '16 at 21:53
  • 1
    This will not work correctly as it is reading the file in text mode line by line then messing with it and printing the md5 of each stripped, encoded, line! – Steve Barnes Jul 5 '17 at 9:18
-4

I'm not sure that there isn't a bit too much fussing around here. I recently had problems with md5 and files stored as blobs on MySQL so I experimented with various file sizes and the straightforward Python approach, viz:

FileHash=hashlib.md5(FileData).hexdigest()

I could detect no noticeable performance difference with a range of file sizes 2Kb to 20Mb and therefore no need to 'chunk' the hashing. Anyway, if Linux has to go to disk, it will probably do it at least as well as the average programmer's ability to keep it from doing so. As it happened, the problem was nothing to do with md5. If you're using MySQL, don't forget the md5() and sha1() functions already there.

1
  • 2
    This is not answering the question and 20 MB is hardly considered a very big file that may not fit into RAM as discussed here. – Chris May 4 '15 at 12:03

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