SHA
Usage is very straightforward:
julia> using SHA julia> bytes2hex(sha256("test")) "9f86d081884c7d659a2feaa0c55ad015a3bf4f1b2b0b822cd15d6c15b0f00a08"
Each exported function (at the time of this writing, SHA-1, SHA-2 224, 256, 384 and 512, and SHA-3 224, 256, 384 and 512 functions are implemented) takes in either an Array{UInt8}
, a ByteString
or an IO
object. This makes it trivial to checksum a file:
shell> cat /tmp/test.txt test julia> using SHA julia> open("/tmp/test.txt") do f sha2_256(f) end 32-element Array{UInt8,1}: 0x9f 0x86 0xd0 0x81 0x88 0x4c 0x7d 0x65 ⋮ 0x5d 0x6c 0x15 0xb0 0xf0 0x0a 0x08
Note the lack of a newline at the end of /tmp/text.txt
. Julia automatically inserts a newline before the julia>
prompt.
Due to the colloquial usage of sha256
to refer to sha2_256
, convenience functions are provided, mapping shaxxx()
function calls to sha2_xxx()
. For SHA-3, no such colloquialisms exist and the user must use the full sha3_xxx()
names.
shaxxx()
takes AbstractString
and array-like objects (NTuple
and Array
) with elements of type UInt8
.
Note that, at the time of this writing, the SHA3 code is not optimized, and as such is roughly an order of magnitude slower than SHA2.
© 2009–2019 Jeff Bezanson, Stefan Karpinski, Viral B. Shah, and other contributors
Licensed under the MIT License.
https://docs.julialang.org/en/v1.2.0/stdlib/SHA/