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Files uploaded to Amazon S3 that are smaller than 5GB have an ETag that is simply the MD5 hash of the file, which makes it easy to check if your local files are the same as what you put on S3.

But if your file is larger than 5GB, then Amazon computes the ETag differently.

For example, I did a multipart upload of a 5970150664 byte file in 380 parts. Now S3 shows it to have an ETag of 6bcf86bed8807b8e78f0fc6e0a53079d-380. My local file has an md5 hash of 702242d3703818ddefe6bf7da2bed757. I think the number after the dash is the number of parts in the multipart upload.

I also suspect that the new ETag (before the dash) is still an MD5 hash, but with some meta data included along the way from the multipart upload somehow.

Does anyone know how to compute the Etag using the same algorithm as Amazon S3?

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2  
Just to clarify, the issue isn't that the ETag algorithm somehow changes if the file is over 5GB. The ETag algorithm is different for non-multipart uploads and for multipart uploads. You'd run into the same problem trying to calculate the ETag of a 6MB file if it were uploaded using one 5MB part and one 1MB part. MD5 is used for non-multipart uploads, which are capped at 5GB. The algorithm in my answer is used for multipart uploads, which are capped at 5GB per part. –  Emerson Farrugia Jan 7 '14 at 18:47

5 Answers 5

up vote 13 down vote accepted

Just verified one. Hats off to Amazon for making it simple enough to be guessable.

Say you uploaded a 14MB file and your part size is 5MB, e.g. the default part size for Cyberduck. Calculate 3 MD5 checksums corresponding to each part, i.e. the checksum of the first 5MB, the second 5MB, and the last 4MB. Then take the checksum of their concatenation. Since MD5 checksums are hex representations of binary data, just make sure you take the MD5 of the decoded binary concatenation, not of the ASCII or UTF-8 encoded concatenation. When that's done, add a hyphen and the number of parts to get the ETag.

Here are the commands to do it on Mac OS X from the console:

$ dd bs=1m count=5 skip=0 if=someFile | md5 >>checksums.txt
5+0 records in
5+0 records out
5242880 bytes transferred in 0.019611 secs (267345449 bytes/sec)
$ dd bs=1m count=5 skip=5 if=someFile | md5 >>checksums.txt
5+0 records in
5+0 records out
5242880 bytes transferred in 0.019182 secs (273323380 bytes/sec)
$ dd bs=1m count=5 skip=10 if=someFile | md5 >>checksums.txt
2+1 records in
2+1 records out
2599812 bytes transferred in 0.011112 secs (233964895 bytes/sec)

At this point all the checksums are in checksums.txt. To concatenate them and decode the hex and get the MD5 checksum of the lot, just use

$ xxd -r -p checksums.txt | md5

And now append "-3" to get the ETag, since there were 3 parts.

It's worth noting that md5 on Mac OS X just writes out the checksum, but md5sum on Linux also outputs the filename. You'll need to strip that, but I'm sure there's some option to only output the checksums. You don't need to worry about whitespace cause xxd will ignore it.

Update: I was told about an implementation of this at https://github.com/Teachnova/s3md5, which doesn't work on OS X. Here's a Gist I wrote with a working script for OS X.

Update: The default part size for Cyberduck is now 10MB. The option to mess with this is documented here.

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interesting finding, hoping that amazon will not change it since it's undocumented feature –  sanyi Nov 11 '13 at 10:52
    
Good point. According to the HTTP spec, the ETag is completely up to their discretion, the only guarantee is that they can't return the same ETag for a changed resource. I'm guessing there's not much advantage to changing the algorithm though. –  Emerson Farrugia Nov 11 '13 at 11:12
    
Is there a way to compute the "part size" out of the etag? –  DavidG Aug 5 '14 at 22:59
    
"Compute" no, "guess" maybe. If the ETag ends in "-4", you know that there are four parts, but that last part can have a size as small as 1 byte up to the part size. So dividing the file size by the number of parts gives you an estimate, but when the number of parts is small, e.g. -2, it gets harder to guess. If you have multiple files that were uploaded using the same part size, you could also look for adjacent part counts, e.g. -4 and -5 and narrow down what the part size can be, e.g. 1.9MB at -2 and 2.1MB at -3 means the part size is 2MB plus or minus 100KB. –  Emerson Farrugia Aug 6 '14 at 8:45
    
Can you help me translate this in python? –  kk1957 Oct 23 '14 at 23:16

Not sure if it can help:

We're currently doing an ugly (but so far useful) hack to fix those wrong ETags in multipart uploaded files, which consists on applying a change to the file in the bucket; that triggers a md5 recalculation from Amazon that changes the ETag to matches with the actual md5 signature.

In our case:

File: bucket/Foo.mpg.gpg

  1. ETag obtained: "3f92dffef0a11d175e60fb8b958b4e6e-2"
  2. Do something with the file (rename it, add a meta-data like a fake header, among others)
  3. Etag obtained: "c1d903ca1bb6dc68778ef21e74cc15b0"

We don't know the algorithm, but since we can "fix" the ETag we don't need to worry about it either.

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1  
Awesome find! thanks! –  d33pika Dec 4 '13 at 3:32
1  
It does not work on file larger than 5GB though :( Do you have a workaround for that? –  d33pika Dec 4 '13 at 3:37

No,

Till now there is not solution to match normal file ETag and Multipart file ETag and MD5 of local file.

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Same algorithm, java version:

/**
 * Generate checksum for object came from multipart upload</p>
 * </p>
 * AWS S3 spec: Entity tag that identifies the newly created object's data. Objects with different object data will have different entity tags. The entity tag is an opaque string. The entity tag may or may not be an MD5 digest of the object data. If the entity tag is not an MD5 digest of the object data, it will contain one or more nonhexadecimal characters and/or will consist of less than 32 or more than 32 hexadecimal digits.</p> 
 * Algorithm follows AWS S3 implementation: https://github.com/Teachnova/s3md5</p>
 */
private static String calculateChecksumForMultipartUpload(List<String> md5s) {      
    StringBuilder stringBuilder = new StringBuilder();
    for (String md5:md5s) {
        stringBuilder.append(md5);
    }

    String hex = stringBuilder.toString();
    byte raw[] = BaseEncoding.base16().decode(hex.toUpperCase());
    Hasher hasher = Hashing.md5().newHasher();
    hasher.putBytes(raw);
    String digest = hasher.hash().toString();

    return digest + "-" + md5s.size();
}
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For what its worth I was able to verify that its not the md5sum of the last chunk uploaded with the number of parts appended as I was suspecting.

dd if=/dev/zero of=10mbfile.tst bs=1k count=10240

def upload(self):
    bucket = s3_conn.get_bucket('bucket_name')
    sfp = open('10mbfile.tst', 'r')
    mpu = bucket.initiate_multipart_upload('t')
    mpu.upload_part_from_file(sfp, part_num=1, size=1024 * 1024 * 5)
    mpu.upload_part_from_file(sfp, part_num=2, size=1024 * 1024 * 5)
    sfp.close()
    mpu.complete_upload()

def md5sum():
    import hashlib
    sfp = open('10mbfile.tst', 'r')
    sfp.seek(1024 * 1024 * 5)
    contents = sfp.read()
    md5 = hashlib.md5()
    md5.update(contents)
    print(md5.hexdigest())

The etag is

a7d414b9133d6483d9a1c4e04e856e3b-2

whereas the md5sum is

5f363e0e58a95f06cbe9bbc662c5dfb6

so, so much for that.

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