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(C) ECDSA Sign Data and Get Raw R and S ValuesDemonstrates getting the raw R and S value of an ECDSA signature.
#include <C_CkCrypt2.h> #include <C_CkPrivateKey.h> #include <C_CkPrng.h> #include <C_CkEcc.h> #include <C_CkAsn.h> #include <C_CkXml.h> #include <C_CkBinData.h> void ChilkatSample(void) { HCkCrypt2 crypt; const char *hash1; HCkPrivateKey privKey; BOOL success; HCkPrng prng; HCkEcc ecdsa; const char *ecdsaSigBase64; HCkAsn asn; HCkXml xml; HCkBinData bd; const char *r; const char *s; // This example requires the Chilkat API to have been previously unlocked. // See Global Unlock Sample for sample code. // To create an ECDSA signature, the data first needs to be hashed. Then the hash // is signed. crypt = CkCrypt2_Create(); CkCrypt2_putHashAlgorithm(crypt,"SHA256"); CkCrypt2_putCharset(crypt,"utf-8"); CkCrypt2_putEncodingMode(crypt,"base64"); // Hash a string. hash1 = CkCrypt2_hashStringENC(crypt,"The quick brown fox jumps over the lazy dog"); printf("hash1 = %s\n",hash1); // ----------------------------------------------------------- // An ECDSA private key is used for signing. The public key is for signature verification. // Load our ECC private key. // Our private key file contains this: // // -----BEGIN PRIVATE KEY----- // MIGHAgEAMBMGByqGSM49AgEGCCqGSM49AwEHBG0wawIBAQQg3J8q/24D1sEKGdP9 // 72MGYElLGpw/a56Y3t6pfON3uhShRANCAATlSmoizyhAwoYZAOuFBATl07/1RR54 // a1Dzfm16grxJe666AGKR+bSs24hk7TEpaeCTvT8YOOM3l+xKFg7zq6Q9 // -----END PRIVATE KEY----- privKey = CkPrivateKey_Create(); success = CkPrivateKey_LoadPemFile(privKey,"qa_data/ecc/secp256r1-key-pkcs8.pem"); if (success != TRUE) { printf("%s\n",CkPrivateKey_lastErrorText(privKey)); CkCrypt2_Dispose(crypt); CkPrivateKey_Dispose(privKey); return; } // Sign the hash.. prng = CkPrng_Create(); ecdsa = CkEcc_Create(); ecdsaSigBase64 = CkEcc_signHashENC(ecdsa,hash1,"base64",privKey,prng); if (CkEcc_getLastMethodSuccess(ecdsa) != TRUE) { printf("%s\n",CkEcc_lastErrorText(ecdsa)); CkCrypt2_Dispose(crypt); CkPrivateKey_Dispose(privKey); CkPrng_Dispose(prng); CkEcc_Dispose(ecdsa); return; } // The ECDSA signature is ASN.1 that contains a sequence of 2 large integers (r and s) // For example: // SEQUENCE (2 elem) // INTEGER (255 bit) 792134D9B4AD82D5431ED03835A88E2596EB35E5B13054BD9B05A0069281ACC9 // INTEGER (255 bit) 481E758CC1E3CBF825537EC3D9A2CA627E5FAD1137BBEA65DF38658DCB0A9ED5 printf("Base64 ECDSA signature = %s\n",ecdsaSigBase64); // If the raw R and S values are needed, here's how to get them: asn = CkAsn_Create(); success = CkAsn_LoadEncoded(asn,ecdsaSigBase64,"base64"); if (success == FALSE) { printf("%s\n",CkAsn_lastErrorText(asn)); CkCrypt2_Dispose(crypt); CkPrivateKey_Dispose(privKey); CkPrng_Dispose(prng); CkEcc_Dispose(ecdsa); CkAsn_Dispose(asn); return; } // The R and X will be in hexidecimal in the XML. xml = CkXml_Create(); CkXml_LoadXml(xml,CkAsn_asnToXml(asn)); printf("%s\n",CkXml_getXml(xml)); // The XML looks like this: // <sequence> // <int>792134D9B4AD82D5431ED03835A88E2596EB35E5B13054BD9B05A0069281ACC9</int> // <int>481E758CC1E3CBF825537EC3D9A2CA627E5FAD1137BBEA65DF38658DCB0A9ED5</int> // </sequence> // Copy raw R and S hex values into a Chilkat BinData object. bd = CkBinData_Create(); r = CkXml_getChildContent(xml,"int[0]"); s = CkXml_getChildContent(xml,"int[1]"); CkBinData_AppendEncoded(bd,r,"hex"); CkBinData_AppendEncoded(bd,s,"hex"); printf("Number of bytes in bd: %d\n",CkBinData_getNumBytes(bd)); CkCrypt2_Dispose(crypt); CkPrivateKey_Dispose(privKey); CkPrng_Dispose(prng); CkEcc_Dispose(ecdsa); CkAsn_Dispose(asn); CkXml_Dispose(xml); CkBinData_Dispose(bd); } |
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