MD5(1) | General Commands Manual | MD5(1) |
md5
, sha1
,
sha224
, sha256
,
sha384
, sha512
,
md5sum
, sha1sum
,
sha224sum
, sha256sum
,
sha384sum
, sha512sum
— calculate a message-digest fingerprint (checksum)
for a file
md5 |
[-pqrtx ] [-c
string] [-s
string] [file ...] |
md5sum |
[-bctwz ] [--binary ]
[--check ] [--help ]
[--ignore-missing ]
[--quiet ] [--status ]
[--strict ] [--tag ]
[--text ] [--version ]
[--warn ] [--zero ]
[file ...]
(All other hashes have the same options and usage.) |
shasum |
[-0bchqstUvw ] [--01 ]
[-a | --algorithm
alg] [--binary ]
[--check ] [--help ]
[--ignore-missing ]
[--quiet ] [--status ]
[--strict ] [--tag ]
[--text ] [--UNIVERSAL ]
[--version ] [--warn ]
[file ...] |
The md5
, sha1
,
sha224
, sha256
,
sha384
, and sha512
utilities
take as input a message of arbitrary length and produce as output a
“fingerprint” or “message digest” of the
input.
The md5sum
,
sha1sum
, sha224sum
,
sha256sum
, sha384sum
, and
sha512sum
utilities do the same, but with
command-line options and an output format that match those of their similary
named GNU utilities.
In all cases, each file listed on the command line is processed separately. If no files are listed on the command line, or a file name is given as -, input is taken from stdin instead.
It is conjectured that it is computationally infeasible to produce two messages having the same message digest, or to produce any message having a given prespecified target message digest. The SHA-224, SHA-256, SHA-384, and SHA-512 algorithms are intended for digital signature applications, where a large file must be “compressed” in a secure manner before being encrypted with a private (secret) key under a public-key cryptosystem such as RSA.
The MD5 and SHA-1 algorithms have been proven to be vulnerable to practical collision attacks and should not be relied upon to produce unique outputs, nor should they be used as part of a cryptographic signature scheme. As of 2017-03-02, there is no publicly known method to reverse either algorithm, i.e., to find an input that produces a specific output.
It is recommended that all new applications use SHA-512 instead of one of the other hash functions.
The following options are available in BSD mode, i.e. when the program is invoked with a name that does not end in “sum”:
-c
string,
--check=
string-q
or --quiet
option, the
calculated digest is printed in addition to the exit status being set.
(Note that this option is not yet useful if multiple files are
specified.)-p
,
--passthrough
-q
,
--quiet
-r
or --reverse
option.-r
,
--reverse
-ptx
options.-s
string,
--string=
string-t
,
--time-trial
-sum
versions,
this is a nop for compatibility with coreutils.-x
,
--self-test
The following options are available in GNU mode, i.e. when the program is invoked with a name that ends in “sum”:
-b
,
--binary
-c
,
--check
--quiet
option can be used to quiesce the
output unless there are mismatched entries in the digest.--help
--ignore-missing
--quiet
--status
--strict
--tag
-t
,
--text
--version
-w
,
--warn
-z
,
--zero
The md5
, sha1
,
sha224
, sha256
,
sha384
, and sha512
utilities
exit 0 on success, 1 if at least one of the input files could not be read,
and 2 if at least one file does not have the same hash as the
-c
option.
The md5sum
,
sha1sum
, sha224sum
,
sha256sum
, sha384sum
, and
sha512sum
utilities exit 0 on success and 1 if at
least one of the input files could not be read or, when verifying checksums,
does not have the expected checksum.
Calculate the MD5 checksum of the string “Hello”.
$ md5 -s Hello MD5 ("Hello") = 8b1a9953c4611296a827abf8c47804d7
Same as above, but note the absence of the newline character in the input string:
$ echo -n Hello | md5 8b1a9953c4611296a827abf8c47804d7
Calculate the checksum of multiple files reversing the output:
$ md5 -r /boot/loader.conf /etc/rc.conf ada5f60f23af88ff95b8091d6d67bef6 /boot/loader.conf d80bf36c332dc0fdc479366ec3fa44cd /etc/rc.conf
This is almost but not quite identical to the output from GNU mode:
$ md5sum /boot/loader.conf /etc/rc.conf ada5f60f23af88ff95b8091d6d67bef6 /boot/loader.conf d80bf36c332dc0fdc479366ec3fa44cd /etc/rc.conf
Note the two spaces between hash and file name. If binary mode is requested, they are instead separated by a space and an asterisk:
$ md5sum -b /boot/loader.conf /etc/rc.conf ada5f60f23af88ff95b8091d6d67bef6 */boot/loader.conf d80bf36c332dc0fdc479366ec3fa44cd */etc/rc.conf
Write the digest for /boot/loader.conf in a file named digest. Then calculate the checksum again and validate it against the checksum string extracted from the digest file:
$ md5 /boot/loader.conf > digest && md5 -c $(cut -f2 -d= digest) /boot/loader.conf MD5 (/boot/loader.conf) = ada5f60f23af88ff95b8091d6d67bef6
Same as above but comparing the digest against an invalid string (“randomstring”), which results in a failure.
$ md5 -c randomstring /boot/loader.conf MD5 (/boot/loader.conf) = ada5f60f23af88ff95b8091d6d67bef6 [ Failed ]
In GNU mode, the -c
option does not
compare against a hash string passed as parameter. Instead, it expects a
digest file, as created under the name digest for
/boot/loader.conf in the example above.
$ md5 -c digest /boot/loader.conf /boot/loader.conf: OK
The digest file may contain any number of lines in the format generated in either BSD or GNU mode. If a hash value does not match the file, “FAILED” is printed instead of “OK”.
cksum(1), md5(3), sha(3), sha256(3), sha384(3), sha512(3)
R. Rivest, The MD5 Message-Digest Algorithm, RFC1321.
J. Burrows, The Secure Hash Standard, FIPS PUB 180-2.
D. Eastlake and P. Jones, US Secure Hash Algorithm 1, RFC 3174.
Secure Hash Standard (SHS): https://www.nist.gov/publications/secure-hash-standard-shs
This utility was originally derived from a program which was placed in the public domain for free general use by RSA Data Security.
Support for SHA-1 was added by Oliver Eikemeier <eik@FreeBSD.org>.
Support for SHA-2 was added by Colin Percival <cperciva@FreeBSD.org> and Allan Jude <allanjude@FreeBSD.org>.
Compatibility with GNU coreutils was added by Warner Losh <imp@FreeBSD.org> and much expanded by Dag-Erling Smørgrav <des@FreeBSD.org>.
February 13, 2024 | macOS 15.2 |