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mirror of synced 2024-11-24 06:50:16 +01:00

Sign/Verify Operations for ECDSA

also an Operation for ECDSA signature conversion,
as there could be multiple formats of the signature
This commit is contained in:
CPlusSharp 2021-11-13 01:46:31 +01:00
parent 7a2c9ddbc4
commit 8f182e4a9b
6 changed files with 727 additions and 0 deletions

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@ -180,6 +180,9 @@
"RSA Encrypt",
"RSA Decrypt",
"Generate ECDSA Key Pair",
"ECDSA Signature Conversion",
"ECDSA Sign",
"ECDSA Verify",
"Parse SSH Host Key",
"Parse CSR"
]

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@ -0,0 +1,100 @@
/**
* @author cplussharp
* @copyright Crown Copyright 2021
* @license Apache-2.0
*/
import Operation from "../Operation.mjs";
import OperationError from "../errors/OperationError.mjs";
import r from "jsrsasign";
/**
* ECDSA Sign operation
*/
class ECDSASign extends Operation {
/**
* ECDSASign constructor
*/
constructor() {
super();
this.name = "ECDSA Sign";
this.module = "Ciphers";
this.description = "Sign a plaintext message with a PEM encoded EC key.";
this.infoURL = "https://wikipedia.org/wiki/Elliptic_Curve_Digital_Signature_Algorithm";
this.inputType = "string";
this.outputType = "string";
this.args = [
{
name: "ECDSA Private Key (PEM)",
type: "text",
value: "-----BEGIN EC PRIVATE KEY-----"
},
{
name: "Message Digest Algorithm",
type: "option",
value: [
"SHA-256",
"SHA-384",
"SHA-512",
"SHA-1",
"MD5"
]
},
{
name: "Output Format",
type: "option",
value: [
"ASN.1 HEX",
"Concat HEX",
"JSON"
]
}
];
}
/**
* @param {string} input
* @param {Object[]} args
* @returns {string}
*/
run(input, args) {
const [keyPem, mdAlgo, outputFormat] = args;
if (keyPem.replace("-----BEGIN EC PRIVATE KEY-----", "").length === 0) {
throw new OperationError("Please enter a private key.");
}
const internalAlgorithmName = mdAlgo.replace("-", "") + "withECDSA";
const sig = new r.KJUR.crypto.Signature({ alg: internalAlgorithmName });
const key = r.KEYUTIL.getKey(keyPem);
if (key.type !== "EC") {
throw new OperationError("Provided key is not an EC key.");
}
if (!key.isPrivate) {
throw new OperationError("Provided key is not a private key.");
}
sig.init(key);
const signatureASN1Hex = sig.signString(input);
let result;
switch (outputFormat) {
case "ASN.1 HEX":
result = signatureASN1Hex;
break;
case "Concat HEX":
result = r.KJUR.crypto.ECDSA.asn1SigToConcatSig(signatureASN1Hex);
break;
case "JSON": {
const signatureRS = r.KJUR.crypto.ECDSA.parseSigHexInHexRS(signatureASN1Hex);
result = JSON.stringify(signatureRS);
break;
}
}
return result;
}
}
export default ECDSASign;

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@ -0,0 +1,106 @@
/**
* @author cplussharp
* @copyright Crown Copyright 2021
* @license Apache-2.0
*/
import Operation from "../Operation.mjs";
import r from "jsrsasign";
/**
* ECDSA Sign operation
*/
class ECDSASignatureConversion extends Operation {
/**
* ECDSASignatureConversion constructor
*/
constructor() {
super();
this.name = "ECDSA Signature Conversion";
this.module = "Ciphers";
this.description = "Convert an ECDSA signature between hex, asn1 and json.";
this.infoURL = "https://wikipedia.org/wiki/Elliptic_Curve_Digital_Signature_Algorithm";
this.inputType = "string";
this.outputType = "string";
this.args = [
{
name: "Input Format",
type: "option",
value: [
"Auto",
"ASN.1 HEX",
"Concat HEX",
"JSON"
]
},
{
name: "Output Format",
type: "option",
value: [
"ASN.1 HEX",
"Concat HEX",
"JSON"
]
}
];
}
/**
* @param {string} input
* @param {Object[]} args
* @returns {string}
*/
run(input, args) {
let inputFormat = args[0];
const outputFormat = args[1];
// detect input format
if (inputFormat === "Auto") {
if (input.substr(0, 2) === "30" && r.ASN1HEX.isASN1HEX(input)) {
inputFormat = "ASN.1 HEX";
} else if (input.indexOf("{") !== -1) {
inputFormat = "JSON";
} else {
inputFormat = "Concat HEX";
}
}
// convert input to ASN.1 hex
let signatureASN1Hex;
switch (inputFormat) {
case "ASN.1 HEX":
signatureASN1Hex = input;
break;
case "Concat HEX":
signatureASN1Hex = r.KJUR.crypto.ECDSA.concatSigToASN1Sig(input);
break;
case "JSON": {
const inputJson = JSON.parse(input);
signatureASN1Hex = r.KJUR.crypto.ECDSA.hexRSSigToASN1Sig(inputJson.r, inputJson.s);
break;
}
}
// convert ASN.1 hex to output format
let result;
switch (outputFormat) {
case "ASN.1 HEX":
result = signatureASN1Hex;
break;
case "Concat HEX":
result = r.KJUR.crypto.ECDSA.asn1SigToConcatSig(signatureASN1Hex);
break;
case "JSON": {
const signatureRS = r.KJUR.crypto.ECDSA.parseSigHexInHexRS(signatureASN1Hex);
result = JSON.stringify(signatureRS);
break;
}
}
return result;
}
}
export default ECDSASignatureConversion;

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@ -0,0 +1,120 @@
/**
* @author cplussharp
* @copyright Crown Copyright 2021
* @license Apache-2.0
*/
import Operation from "../Operation.mjs";
import OperationError from "../errors/OperationError.mjs";
import r from "jsrsasign";
/**
* ECDSA Verify operation
*/
class ECDSAVerify extends Operation {
/**
* ECDSAVerify constructor
*/
constructor() {
super();
this.name = "ECDSA Verify";
this.module = "Ciphers";
this.description = "Verify a message against a signature and a public PEM encoded EC key.";
this.infoURL = "https://wikipedia.org/wiki/Elliptic_Curve_Digital_Signature_Algorithm";
this.inputType = "string";
this.outputType = "string";
this.args = [
{
name: "Input Format",
type: "option",
value: [
"Auto",
"ASN.1 HEX",
"Concat HEX",
"JSON"
]
},
{
name: "Message Digest Algorithm",
type: "option",
value: [
"SHA-256",
"SHA-384",
"SHA-512",
"SHA-1",
"MD5"
]
},
{
name: "ECDSA Public Key (PEM)",
type: "text",
value: "-----BEGIN PUBLIC KEY-----"
},
{
name: "Message",
type: "text",
value: ""
}
];
}
/**
* @param {string} input
* @param {Object[]} args
* @returns {string}
*/
run(input, args) {
let inputFormat = args[0];
const [, mdAlgo, keyPem, msg] = args;
if (keyPem.replace("-----BEGIN PUBLIC KEY-----", "").length === 0) {
throw new OperationError("Please enter a public key.");
}
// detect input format
if (inputFormat === "Auto") {
if (input.substr(0, 2) === "30" && r.ASN1HEX.isASN1HEX(input)) {
inputFormat = "ASN.1 HEX";
} else if (input.indexOf("{") !== -1) {
inputFormat = "JSON";
} else {
inputFormat = "Concat HEX";
}
}
// convert to ASN.1 signature
let signatureASN1Hex;
switch (inputFormat) {
case "ASN.1 HEX":
signatureASN1Hex = input;
break;
case "Concat HEX":
signatureASN1Hex = r.KJUR.crypto.ECDSA.concatSigToASN1Sig(input);
break;
case "JSON": {
const inputJson = JSON.parse(input);
signatureASN1Hex = r.KJUR.crypto.ECDSA.hexRSSigToASN1Sig(inputJson.r, inputJson.s);
break;
}
}
// verify signature
const internalAlgorithmName = mdAlgo.replace("-", "") + "withECDSA";
const sig = new r.KJUR.crypto.Signature({ alg: internalAlgorithmName });
const key = r.KEYUTIL.getKey(keyPem);
if (key.type !== "EC") {
throw new OperationError("Provided key is not an EC key.");
}
if (!key.isPublic) {
throw new OperationError("Provided key is not a public key.");
}
sig.init(key);
sig.updateString(msg);
const result = sig.verify(signatureASN1Hex);
return result ? "Verified OK" : "Verification Failure";
}
}
export default ECDSAVerify;

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@ -59,6 +59,7 @@ import "./tests/Crypt.mjs";
import "./tests/CSV.mjs";
import "./tests/DateTime.mjs";
import "./tests/DefangIP.mjs";
import "./tests/ECDSA.mjs";
import "./tests/ELFInfo.mjs";
import "./tests/Enigma.mjs";
import "./tests/ExtractEmailAddresses.mjs";

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@ -0,0 +1,397 @@
/**
* ECDSA tests.
*
* @author cplussharp
* @copyright Crown Copyright 2021
* @license Apache-2.0
*/
import TestRegister from "../../lib/TestRegister.mjs";
import { ASCII_TEXT } from "../../samples/Ciphers.mjs";
const P256 = {
// openssl ecparam -name prime256v1 -genkey -noout -out p256.priv.key
privateKeyPkcs1: `-----BEGIN EC PRIVATE KEY-----
MHcCAQEEINtTjwUkgfAiSwqgcGAXWyE0ueIW6n2k395dmQZ3vGr4oAoGCCqGSM49
AwEHoUQDQgAEDUc8A0EDNKoCYIPWMHz1yUzqE5mJgusgcAE8H6810fkJ8ZmTNiCC
a6sLgR2vD1VNh2diirWgKPH4PVMKav5e6Q==
-----END EC PRIVATE KEY-----`,
privateKeyPkcs8: `-----BEGIN PRIVATE KEY-----
MIGHAgEAMBMGByqGSM49AgEGCCqGSM49AwEHBG0wawIBAQQg21OPBSSB8CJLCqBw
YBdbITS54hbqfaTf3l2ZBne8avihRANCAAQNRzwDQQM0qgJgg9YwfPXJTOoTmYmC
6yBwATwfrzXR+QnxmZM2IIJrqwuBHa8PVU2HZ2KKtaAo8fg9Uwpq/l7p
-----END PRIVATE KEY-----`,
// openssl ec -in p256.priv.key -pubout -out p256.pub.key
publicKey: `-----BEGIN PUBLIC KEY-----
MFkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDQgAEDUc8A0EDNKoCYIPWMHz1yUzqE5mJ
gusgcAE8H6810fkJ8ZmTNiCCa6sLgR2vD1VNh2diirWgKPH4PVMKav5e6Q==
-----END PUBLIC KEY-----`,
signature: {
sha256: {
asn1: "3046022100e06905608a2fa7dbda9e284c2a7959dfb68fb527a5f003b2d7975ff135145127022100b6baa253793334f8b93ea1dd622bc600124d8090babd807efe3f77b8b324388d",
concat: "e06905608a2fa7dbda9e284c2a7959dfb68fb527a5f003b2d7975ff135145127b6baa253793334f8b93ea1dd622bc600124d8090babd807efe3f77b8b324388d",
json: `{"r":"00e06905608a2fa7dbda9e284c2a7959dfb68fb527a5f003b2d7975ff135145127","s":"00b6baa253793334f8b93ea1dd622bc600124d8090babd807efe3f77b8b324388d"}`
}
}
};
// openssl pkcs8 -topk8 -in p256.priv.key -out p256.enc-priv.key -v2 des3 -v2prf hmacWithSHA1 -passout pass:Test1234
/* const PEM_PRIV_P256_ENCRYPTED_PASS = "Test1234";
const PEM_PRIV_P256_ENCRYPTED = `-----BEGIN ENCRYPTED PRIVATE KEY-----
MIHsMFcGCSqGSIb3DQEFDTBKMCkGCSqGSIb3DQEFDDAcBAg+4ckqI9Q9ZAICCAAw
DAYIKoZIhvcNAgkFADAdBglghkgBZQMEASoEEOnMUW15Hn/ub0OcCCj9lksEgZCk
kxaK4d430lZHovcA4ZeKTt94QcfjnIHRk65aZt93l17l52pv6n/srs3aRo/n5RV+
wZ5sTLF0925ZQWJB5cIhzc8KQIvguGCX1znLQJJaRHyYOUXIN77AKEfALKAinBit
25paDnbXAqGn1CR3UwFWUZZW+c3UEhWhmpghQpS1tIl0KI6IAvnrGIdw2kKIouo=
-----END ENCRYPTED PRIVATE KEY-----`;*/
const P384 = {
privateKeyPkcs8: `-----BEGIN PRIVATE KEY-----
MIG2AgEAMBAGByqGSM49AgEGBSuBBAAiBIGeMIGbAgEBBDAYo22xn2kZjN8MInom
NDsgD/zhpUwnCYch634jUgO59fN9m2lR5ekaI1XABHz39rihZANiAAQwXoCsPOLv
Nn2STUs/hpL41CQveSL3WUmJ4QdtD7UFCl1mBO6ME0xSUgIQTUNkHt5k9CpOq3x9
r+LG5+GcisoLn7R54R+bRoGp/p1ZBeuBXoCgthvs+RFoT3OewUmA8oQ=
-----END PRIVATE KEY-----`,
publicKey: `-----BEGIN PUBLIC KEY-----
MHYwEAYHKoZIzj0CAQYFK4EEACIDYgAEMF6ArDzi7zZ9kk1LP4aS+NQkL3ki91lJ
ieEHbQ+1BQpdZgTujBNMUlICEE1DZB7eZPQqTqt8fa/ixufhnIrKC5+0eeEfm0aB
qf6dWQXrgV6AoLYb7PkRaE9znsFJgPKE
-----END PUBLIC KEY-----`
};
const P521 = {
privateKeyPkcs8: `-----BEGIN PRIVATE KEY-----
MIHuAgEAMBAGByqGSM49AgEGBSuBBAAjBIHWMIHTAgEBBEIAifBaJDqNwOtKgThc
FU34GzPQ73ubOQg9dnighpVGwA3b/KwCifimCNKDmKnXJaE04mEcxg8yzcFKausF
5I8o206hgYkDgYYABAGwpkwrBBlZOdx4u9mxqYxJvtzAHaFFAzl21WQVbAjyrqXe
nFPMkhbFpEEWr1ualPYKQkHe14AX33iU3fQ9MlBkgAAripsPbiKggAaog74cUERo
qbrUFZwMbptGgovpE6pU93h7A1wb3Vtw9DZQCgiNbwzMbdsft+p2RJ8iSxWEC6Gd
mw==
-----END PRIVATE KEY-----`,
publicKey: `-----BEGIN PUBLIC KEY-----
MIGbMBAGByqGSM49AgEGBSuBBAAjA4GGAAQBsKZMKwQZWTnceLvZsamMSb7cwB2h
RQM5dtVkFWwI8q6l3pxTzJIWxaRBFq9bmpT2CkJB3teAF994lN30PTJQZIAAK4qb
D24ioIAGqIO+HFBEaKm61BWcDG6bRoKL6ROqVPd4ewNcG91bcPQ2UAoIjW8MzG3b
H7fqdkSfIksVhAuhnZs=
-----END PUBLIC KEY-----`
};
const PEM_PPRIV_RSA512 = `-----BEGIN RSA PRIVATE KEY-----
MIIBOQIBAAJBAPKr0Dp6YdItzOfk6a7ma7L4BF4LnelMYKtboGLrk6ihtqFPZFRL
NcJi68Hvnt8stMrP50t6jqwWQ2EjMdkj6fsCAwEAAQJAOJUpM0lv36MAQR3WAwsF
F7DOy+LnigteCvaNWiNVxZ6jByB5Qb7sall/Qlu9sFI0ZwrlVcKS0kldee7JTYlL
WQIhAP3UKEfOtpTgT1tYmdhaqjxqMfxBom0Ri+rt9ajlzs6vAiEA9L85B8/Gnb7p
6Af7/wpmafL277OV4X4xBfzMR+TUzHUCIBq+VLQkInaTH6lXL3ZtLwyIf9W9MJjf
RWeuRLjT5bM/AiBF7Kw6kx5Hy1fAtydEApCoDIaIjWJw/kC7WTJ0B+jUUQIgV6dw
NSyj0feakeD890gmId+lvl/w/3oUXiczqvl/N9o=
-----END RSA PRIVATE KEY-----`;
const PEM_PUB_RSA512 = `-----BEGIN PUBLIC KEY-----
MFwwDQYJKoZIhvcNAQEBBQADSwAwSAJBAPKr0Dp6YdItzOfk6a7ma7L4BF4LnelM
YKtboGLrk6ihtqFPZFRLNcJi68Hvnt8stMrP50t6jqwWQ2EjMdkj6fsCAwEAAQ==
-----END PUBLIC KEY-----`;
TestRegister.addTests([
{
name: "ECDSA Sign/Verify: P-256 with MD5",
input: ASCII_TEXT,
expectedOutput: "Verified OK",
recipeConfig: [
{
"op": "ECDSA Sign",
"args": [P256.privateKeyPkcs1, "MD5", "ASN.1 HEX"]
},
{
"op": "ECDSA Verify",
"args": ["ASN.1 HEX", "MD5", P256.publicKey, ASCII_TEXT]
}
]
},
{
name: "ECDSA Sign/Verify: P-256 with SHA1",
input: ASCII_TEXT,
expectedOutput: "Verified OK",
recipeConfig: [
{
"op": "ECDSA Sign",
"args": [P256.privateKeyPkcs1, "SHA-1", "ASN.1 HEX"]
},
{
"op": "ECDSA Verify",
"args": ["ASN.1 HEX", "SHA-1", P256.publicKey, ASCII_TEXT]
}
]
},
{
name: "ECDSA Sign/Verify: P-256 with SHA256",
input: ASCII_TEXT,
expectedOutput: "Verified OK",
recipeConfig: [
{
"op": "ECDSA Sign",
"args": [P256.privateKeyPkcs1, "SHA-256", "ASN.1 HEX"]
},
{
"op": "ECDSA Verify",
"args": ["ASN.1 HEX", "SHA-256", P256.publicKey, ASCII_TEXT]
}
]
},
{
name: "ECDSA Sign/Verify: P-256 with SHA384",
input: ASCII_TEXT,
expectedOutput: "Verified OK",
recipeConfig: [
{
"op": "ECDSA Sign",
"args": [P256.privateKeyPkcs1, "SHA-384", "ASN.1 HEX"]
},
{
"op": "ECDSA Verify",
"args": ["ASN.1 HEX", "SHA-384", P256.publicKey, ASCII_TEXT]
}
]
},
{
name: "ECDSA Sign/Verify: P-256 with SHA512",
input: ASCII_TEXT,
expectedOutput: "Verified OK",
recipeConfig: [
{
"op": "ECDSA Sign",
"args": [P256.privateKeyPkcs1, "SHA-512", "ASN.1 HEX"]
},
{
"op": "ECDSA Verify",
"args": ["ASN.1 HEX", "SHA-512", P256.publicKey, ASCII_TEXT]
}
]
},
{
name: "ECDSA Sign/Verify:: Using a private key in PKCS#8 format works",
input: ASCII_TEXT,
expectedOutput: "Verified OK",
recipeConfig: [
{
"op": "ECDSA Sign",
"args": [P256.privateKeyPkcs8, "SHA-256", "ASN.1 HEX"]
},
{
"op": "ECDSA Verify",
"args": ["ASN.1 HEX", "SHA-256", P256.publicKey, ASCII_TEXT]
}
]
},
{
name: "ECDSA Sign/Verify: P-384 with SHA384",
input: ASCII_TEXT,
expectedOutput: "Verified OK",
recipeConfig: [
{
"op": "ECDSA Sign",
"args": [P384.privateKeyPkcs8, "SHA-384", "ASN.1 HEX"]
},
{
"op": "ECDSA Verify",
"args": ["ASN.1 HEX", "SHA-384", P384.publicKey, ASCII_TEXT]
}
]
},
{
name: "ECDSA Sign/Verify: P-521 with SHA512",
input: ASCII_TEXT,
expectedOutput: "Verified OK",
recipeConfig: [
{
"op": "ECDSA Sign",
"args": [P521.privateKeyPkcs8, "SHA-512", "ASN.1 HEX"]
},
{
"op": "ECDSA Verify",
"args": ["ASN.1 HEX", "SHA-512", P521.publicKey, ASCII_TEXT]
}
]
},
// ECDSA Sign
{
name: "ECDSA Sign: Using public key fails",
input: ASCII_TEXT,
expectedOutput: "Provided key is not a private key.",
recipeConfig: [
{
"op": "ECDSA Sign",
"args": [P256.publicKey, "SHA-256", "ASN.1 HEX"]
}
]
},
{
name: "ECDSA Sign: Using an RSA key fails",
input: ASCII_TEXT,
expectedOutput: "Provided key is not an EC key.",
recipeConfig: [
{
"op": "ECDSA Sign",
"args": [PEM_PPRIV_RSA512, "SHA-256", "ASN.1 HEX"]
}
]
},
// ECDSA Verify
{
name: "ECDSA Verify: P-256 with SHA256 (ASN.1 signature)",
input: P256.signature.sha256.asn1,
expectedOutput: "Verified OK",
recipeConfig: [
{
"op": "ECDSA Verify",
"args": ["Auto", "SHA-256", P256.publicKey, ASCII_TEXT]
}
]
},
{
name: "ECDSA Verify: P-256 with SHA256 (Concat signature)",
input: P256.signature.sha256.concat,
expectedOutput: "Verified OK",
recipeConfig: [
{
"op": "ECDSA Verify",
"args": ["Auto", "SHA-256", P256.publicKey, ASCII_TEXT]
}
]
},
{
name: "ECDSA Verify: P-256 with SHA256 (JSON signature)",
input: P256.signature.sha256.json,
expectedOutput: "Verified OK",
recipeConfig: [
{
"op": "ECDSA Verify",
"args": ["Auto", "SHA-256", P256.publicKey, ASCII_TEXT]
}
]
},
{
name: "ECDSA Verify: Using private key fails",
input: P256.signature.sha256.asn1,
expectedOutput: "Provided key is not a public key.",
recipeConfig: [
{
"op": "ECDSA Verify",
"args": ["ASN.1 HEX", "SHA-256", P256.privateKeyPkcs1, ASCII_TEXT]
}
]
},
{
name: "ECDSA Verify: Using an RSA key fails",
input: P256.signature.sha256.asn1,
expectedOutput: "Provided key is not an EC key.",
recipeConfig: [
{
"op": "ECDSA Verify",
"args": ["ASN.1 HEX", "SHA-256", PEM_PUB_RSA512, ASCII_TEXT]
}
]
},
// ECDSA Signatur Conversion
{
name: "ECDSA Signature Conversion: ASN.1 To ASN.1",
input: P256.signature.sha256.asn1,
expectedOutput: P256.signature.sha256.asn1,
recipeConfig: [
{
"op": "ECDSA Signature Conversion",
"args": ["Auto", "ASN.1 HEX"]
}
]
},
{
name: "ECDSA Signature Conversion: ASN.1 To Concat",
input: P256.signature.sha256.asn1,
expectedOutput: P256.signature.sha256.concat,
recipeConfig: [
{
"op": "ECDSA Signature Conversion",
"args": ["Auto", "Concat HEX"]
}
]
},
{
name: "ECDSA Signature Conversion: ASN.1 To JSON",
input: P256.signature.sha256.asn1,
expectedOutput: P256.signature.sha256.json,
recipeConfig: [
{
"op": "ECDSA Signature Conversion",
"args": ["Auto", "JSON"]
}
]
},
{
name: "ECDSA Signature Conversion: Concat To ASN.1",
input: P256.signature.sha256.concat,
expectedOutput: P256.signature.sha256.asn1,
recipeConfig: [
{
"op": "ECDSA Signature Conversion",
"args": ["Auto", "ASN.1 HEX"]
}
]
},
{
name: "ECDSA Signature Conversion: Concat To Concat",
input: P256.signature.sha256.concat,
expectedOutput: P256.signature.sha256.concat,
recipeConfig: [
{
"op": "ECDSA Signature Conversion",
"args": ["Auto", "Concat HEX"]
}
]
},
{
name: "ECDSA Signature Conversion: Concat To JSON",
input: P256.signature.sha256.concat,
expectedOutput: P256.signature.sha256.json,
recipeConfig: [
{
"op": "ECDSA Signature Conversion",
"args": ["Auto", "JSON"]
}
]
},
{
name: "ECDSA Signature Conversion: JSON To ASN.1",
input: P256.signature.sha256.json,
expectedOutput: P256.signature.sha256.asn1,
recipeConfig: [
{
"op": "ECDSA Signature Conversion",
"args": ["Auto", "ASN.1 HEX"]
}
]
},
{
name: "ECDSA Signature Conversion: JSON To Concat",
input: P256.signature.sha256.json,
expectedOutput: P256.signature.sha256.concat,
recipeConfig: [
{
"op": "ECDSA Signature Conversion",
"args": ["Auto", "Concat HEX"]
}
]
},
{
name: "ECDSA Signature Conversion: JSON To JSON",
input: P256.signature.sha256.json,
expectedOutput: P256.signature.sha256.json,
recipeConfig: [
{
"op": "ECDSA Signature Conversion",
"args": ["Auto", "JSON"]
}
]
}
]);