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std.digest.hmac
This package implements the hash-based message authentication code (HMAC)
algorithm as defined in RFC2104. See also
the corresponding Wikipedia article.
License:
Source std/digest/hmac.d
Examples:
Template API HMAC implementation.
This implements an HMAC over the digest H. If H doesn't provide
information about the block size, it can be supplied explicitly using
the second overload.
This type conforms to std.digest.isDigest.
Compute HMAC over an input string
import std.ascii : LetterCase; import std.digest : toHexString; import std.digest.sha : SHA1; import std.string : representation; auto secret = "secret".representation; assert("The quick brown fox jumps over the lazy dog" .representation .hmac!SHA1(secret) .toHexString!(LetterCase.lower) == "198ea1ea04c435c1246b586a06d5cf11c3ffcda6");
- struct
HMAC
(H, size_t hashBlockSize) if (hashBlockSize % 8 == 0); - Overload of
HMAC
to be used if H doesn't provide information about its block size.- this(scope const(ubyte)[]
secret
); - Constructs the HMAC digest using the specified
secret
.Examples:import std.digest.hmac, std.digest.sha; import std.string : representation; auto hmac = HMAC!SHA1("My s3cR3T keY".representation); hmac.put("Hello, world".representation); static immutable expected = [ 130, 32, 235, 44, 208, 141, 150, 232, 211, 214, 162, 195, 188, 127, 52, 89, 100, 68, 90, 216]; writeln(hmac.finish()); // expected
- ref return HMAC!(H, blockSize)
start
(); - Reinitializes the digest, making it ready for reuse.
Note The constructor leaves the digest in an initialized state, so that this method only needs to be called if an unfinished digest is to be reused.
Returns:A reference to the digest for convenient chaining.Examples:import std.digest.hmac, std.digest.sha; import std.string : representation; string data1 = "Hello, world", data2 = "Hola mundo"; auto hmac = HMAC!SHA1("My s3cR3T keY".representation); hmac.put(data1.representation); hmac.start(); // reset digest hmac.put(data2.representation); // start over static immutable expected = [ 122, 151, 232, 240, 249, 80, 19, 178, 186, 77, 110, 23, 208, 52, 11, 88, 34, 151, 192, 255]; writeln(hmac.finish()); // expected
- ref return HMAC!(H, blockSize)
put
(in ubyte[]data
...); - Feeds a piece of
data
into the hash computation. This method allows the type to be used as an std.range.OutputRange.Returns:A reference to the digest for convenient chaining.Examples:import std.digest.hmac, std.digest.sha; import std.string : representation; string data1 = "Hello, world", data2 = "Hola mundo"; auto hmac = HMAC!SHA1("My s3cR3T keY".representation); hmac.put(data1.representation) .put(data2.representation); static immutable expected = [ 197, 57, 52, 3, 13, 194, 13, 36, 117, 228, 8, 11, 111, 51, 165, 3, 123, 31, 251, 113]; writeln(hmac.finish()); // expected
- DigestType!H
finish
(); - Resets the digest and returns the finished hash.Examples:
import std.digest.hmac, std.digest.sha; import std.string : representation; string data1 = "Hello, world", data2 = "Hola mundo"; auto hmac = HMAC!SHA1("My s3cR3T keY".representation); auto digest = hmac.put(data1.representation) .put(data2.representation) .finish(); static immutable expected = [ 197, 57, 52, 3, 13, 194, 13, 36, 117, 228, 8, 11, 111, 51, 165, 3, 123, 31, 251, 113]; writeln(digest); // expected
- template
hmac
(H) if (isDigest!H && hasBlockSize!H)
autohmac
(H, size_t blockSize)(scope const(ubyte)[]secret
)
if (isDigest!H); - Convenience constructor for HMAC.
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Ddoc on Tue Mar 13 17:32:31 2018