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(Swift 3,4,5...) ECDSA Sign and VerifyDemonstrates how to create an ECDSA signature on the SHA256 hash of some data, and then verify.
func chilkatTest() { // This example assumes the Chilkat API to have been previously unlocked. // See Global Unlock Sample for sample code. // First load an ECDSA private key to be used for signing. let privKey = CkoPrivateKey()! var success: Bool = privKey.loadEncryptedPemFile("qa_data/ecc/secp256r1-key-pkcs8-secret.pem", password: "secret") if success == false { print("\(privKey.lastErrorText!)") return } // Sign the SHA256 hash of some data. let bd = CkoBinData()! success = bd.loadFile("qa_data/hamlet.xml") if success == false { print("Failed to load file to be hashed.") return } let crypt = CkoCrypt2()! crypt.hashAlgorithm = "sha256" crypt.encodingMode = "base64" var hashStr: String? = crypt.hashBdENC(bd) let ecdsa = CkoEcc()! let prng = CkoPrng()! // Returns ASN.1 signature as a base64 string. var sig: String? = ecdsa.signHashENC(hashStr, encoding: "base64", privkey: privKey, prng: prng) print("sig = \(sig!)") // The signature is in ASN.1 format (which may be described as the "encoded DSS signature"). // SEQUENCE (2 elem) // INTEGER (255 bit) 4849395540832462044300553275435608522154141569743642905628579547100940... // INTEGER (255 bit) 3680701124244788134409868118208591399799457104230118295614152238560005... // If you wish, you can get the r and s components of the signature like this: let asn = CkoAsn()! asn.loadEncoded(sig, encoding: "base64") let xml = CkoXml()! xml.load(asn.asnToXml()) print("\(xml.getXml()!)") // We now have this: // <?xml version="1.0" encoding="utf-8"?> // <sequence> // <int>6650D422D86BA4A228B5617604E59052591B9B2C32EF324C44D09EF67E5F0060</int> // <int>0CFD9F6AC85042FC70F672C141BA6B2A4CAFBB906C3D907BCCC1BED62B28326F</int> // </sequence> // Get the "r" and "s" as hex strings var r: String? = xml.getChildContent(byIndex: 0) var s: String? = xml.getChildContent(byIndex: 1) print("r = \(r!)") print("s = \(s!)") // -------------------------------------------------------------------- // Now verify against the hash of the original data. // Get the corresponding public key. let pubKey = CkoPublicKey()! success = pubKey.load(fromFile: "qa_data/ecc/secp256r1-pub.pem") if success == false { print("\(pubKey.lastErrorText!)") return } // We already have the SHA256 hash of the original data (hashStr) so no need to re-do it.. let ecc2 = CkoEcc()! var result: Int = ecc2.verifyHashENC(hashStr, encodedSig: sig, encoding: "base64", pubkey: pubKey).intValue if result != 1 { print("\(ecc2.lastErrorText!)") return } print("Verified!") // Note: If we have only r,s and wish to reconstruct the ASN.1 signature, we do it like this: let xml2 = CkoXml()! xml2.tag = "sequence" xml2.newChild2("int", content: r) xml2.newChild2("int", content: s) let asn2 = CkoAsn()! asn2.loadXml(xml2.getXml()) var encodedSig: String? = asn2.getEncodedDer("base64") print("encoded DSS signature: \(encodedSig!)") // You can go to https://lapo.it/asn1js/ and copy/paste the base64 encodedSig into the online tool, then press the "decode" button. // You will see the ASN.1 such as this: // SEQUENCE (2 elem) // INTEGER (255 bit) 4849395540832462044300553275435608522154141569743642905628579547100940... // INTEGER (255 bit) 3680701124244788134409868118208591399799457104230118295614152238560005... } |
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