ligo/vendors/ocaml-tweetnacl/test/test.ml
Vincent Bernardoff e1d1292c09 Crypto: drop libsodium
We now use simpler OCaml bindings much easier to review.
2018-02-07 11:16:39 +01:00

191 lines
5.5 KiB
OCaml

open Tweetnacl
let msg = "Voulez-vous coucher avec moi, ce soir ?" |> Cstruct.of_string
let msglen = Cstruct.len msg
let sha512 () =
let resp = `Hex "7941f442d956f124d77ee1d1f0ba3db100751090462cdce4aed5fcd240529097bc666bf9c424becde760910df652c7aefec50b02d7f6efe666f79e5242fb755b" in
let digest = Hash.sha512 msg in
assert (resp = (Hex.of_cstruct digest))
let keypair () =
let seed = Rand.gen 32 in
let pk, sk = Sign.keypair ~seed () in
let pk', sk' = Sign.keypair ~seed () in
assert (Sign.equal pk pk') ;
assert (Sign.equal sk sk')
let sign () =
let pk, sk = Sign.keypair () in
let signed_msg = Sign.sign ~key:sk msg in
match Sign.verify ~key:pk signed_msg with
| None -> failwith "Impossible to verify"
| Some verified_msg ->
assert (Hex.of_cstruct msg =
Hex.of_cstruct (Cstruct.sub verified_msg Sign.bytes msglen))
let sign_detached () =
let pk, sk = Sign.keypair () in
let signature = Sign.detached ~key:sk msg in
match Sign.verify_detached ~key:pk ~signature msg with
| false -> failwith "Impossible to verify"
| true -> ()
let sign_extended () =
let pk, sk = Sign.keypair () in
let ek = Sign.extended sk in
let signed_msg = Sign.sign_extended ~key:ek msg in
match Sign.verify ~key:pk signed_msg with
| None -> failwith "Impossible to verify"
| Some verified_msg ->
assert (Hex.of_cstruct msg =
Hex.of_cstruct (Cstruct.sub verified_msg Sign.bytes msglen))
let sign_extended_detached () =
let pk, sk = Sign.keypair () in
let ek = Sign.extended sk in
let signature = Sign.detached_extended ~key:ek msg in
match Sign.verify_detached ~key:pk ~signature msg with
| false -> failwith "Impossible to verify"
| true -> ()
let public () =
let pk, sk = Sign.keypair () in
let pk' = Sign.to_cstruct pk in
let ek = Sign.extended sk in
let ppk = Sign.(public pk |> to_cstruct) in
let psk = Sign.(public sk |> to_cstruct) in
let pek = Sign.(public ek |> to_cstruct) in
assert (Cstruct.equal pk' ppk) ;
assert (Cstruct.equal pk' psk) ;
assert (Cstruct.equal pk' pek)
let base () =
let pk, sk = Sign.keypair () in
let ek = Sign.(extended sk |> to_cstruct) in
let z = Z.of_bits Cstruct.(sub ek 0 32 |> to_string) in
let pk' = Sign.base z in
assert (Sign.equal pk pk')
let comm () =
let pk1, _ = Sign.keypair () in
let pk2, _ = Sign.keypair () in
let pk3 = Sign.add pk1 pk2 in
let pk3' = Sign.add pk2 pk1 in
assert (Sign.equal pk3 pk3')
let assoc () =
let pk1, _ = Sign.keypair () in
let pk2, _ = Sign.keypair () in
let pk3, _ = Sign.keypair () in
let sum12 = Sign.add pk1 pk2 in
let sum23 = Sign.add pk2 pk3 in
let a = Sign.add sum12 pk3 in
let b = Sign.add pk1 sum23 in
assert (Sign.equal a b)
let arith () =
let pk, _sk = Sign.keypair () in
let pk2 = Sign.mult pk (Z.of_int 3) in
let pk2' = Sign.(add (add pk pk) pk) in
assert (Sign.equal pk2 pk2')
let arith2 () =
let a = Sign.base (Z.of_int 3) in
let b = Sign.mult a (Z.of_int 2) in
let b' = Sign.base (Z.of_int 6) in
assert (Sign.equal b b')
let hash = [
"sha512", `Quick, sha512 ;
]
let secretbox () =
let open Secretbox in
let key = genkey () in
let nonce = Nonce.gen () in
let cmsg = box ~key ~nonce ~msg in
assert (Cstruct.len cmsg = msglen + boxzerobytes) ;
begin match box_open ~key ~nonce ~cmsg with
| None -> assert false
| Some msg' -> assert Cstruct.(equal msg msg')
end
let secretbox_noalloc () =
let open Secretbox in
let buflen = msglen + zerobytes in
let buf = Cstruct.create buflen in
Cstruct.blit msg 0 buf zerobytes msglen ;
let key = genkey () in
let nonce = Nonce.gen () in
box_noalloc ~key ~nonce ~msg:buf ;
let res = box_open_noalloc ~key ~nonce ~cmsg:buf in
assert res ;
assert Cstruct.(equal msg (sub buf zerobytes msglen))
let secretbox = [
"secretbox", `Quick, secretbox ;
"secretbox_noalloc", `Quick, secretbox_noalloc ;
]
let box () =
let open Box in
let pk, sk = keypair () in
let ck = combine pk sk in
let nonce = Nonce.gen () in
let cmsg = box ~pk ~sk ~nonce ~msg in
assert (Cstruct.len cmsg = msglen + boxzerobytes) ;
begin match box_open ~pk ~sk ~nonce ~cmsg with
| None -> assert false
| Some msg' -> assert Cstruct.(equal msg msg')
end ;
let cmsg = box_combined ~k:ck ~nonce ~msg in
begin match box_open_combined ~k:ck ~nonce ~cmsg with
| None -> assert false
| Some msg' -> assert Cstruct.(equal msg msg')
end
let box_noalloc () =
let open Box in
let buflen = msglen + zerobytes in
let buf = Cstruct.create buflen in
Cstruct.blit msg 0 buf zerobytes msglen ;
let pk, sk = keypair () in
let ck = combine pk sk in
let nonce = Nonce.gen () in
box_noalloc ~pk ~sk ~nonce ~msg:buf ;
let res = box_open_noalloc ~pk ~sk ~nonce ~cmsg:buf in
assert res ;
assert Cstruct.(equal msg (sub buf zerobytes msglen)) ;
box_combined_noalloc ~k:ck ~nonce ~msg:buf ;
let res = box_open_combined_noalloc ~k:ck ~nonce ~cmsg:buf in
assert res ;
assert Cstruct.(equal msg (sub buf zerobytes msglen))
let box = [
"box", `Quick, box ;
"box_noalloc", `Quick, box_noalloc ;
]
let sign = [
"keypair", `Quick, keypair ;
"sign", `Quick, sign ;
"sign_detached", `Quick, sign_detached ;
"sign_extended", `Quick, sign_extended ;
"sign_extended_detached", `Quick, sign_extended_detached ;
"public", `Quick, public ;
"base", `Quick, base ;
"comm", `Quick, comm ;
"assoc", `Quick, assoc ;
"arith", `Quick, arith ;
"arith2", `Quick, arith2 ;
]
let () =
Alcotest.run "tweetnacl" [
"hash", hash ;
"secretbox", secretbox ;
"box", box ;
"sign", sign ;
]