SM9-签名
Posted Pam
tags:
篇首语:本文由小常识网(cha138.com)小编为大家整理,主要介绍了SM9-签名相关的知识,希望对你有一定的参考价值。
算法过程
代码实现
///************************************************************************ // File name: SM9_sv.c // Version: SM9_sv_V1.0 // Date: Dec 15,2016 // Description: implementation of SM9 signature algorithm and verification algorithm // all operations based on BN curve line function // Function List: // 1.bytes128_to_ecn2 //convert 128 bytes into ecn2 // 2.zzn12_ElementPrint //print all element of struct zzn12 // 3.ecn2_Bytes128_Print //print 128 bytes of ecn2 // 4.LinkCharZzn12 //link two different types(unsigned char and zzn12)to one(unsigned char) // 5.Test_Point //test if the given point is on SM9 curve // 6.Test_Range //test if the big x belong to the range[1,N-1] // 7.SM9_Init //initiate SM9 curve // 8.SM9_H1 //function H1 in SM9 standard 5.4.2.2 // 9.SM9_H2 //function H2 in SM9 standard 5.4.2.3 // 10.SM9_GenerateSignKey //generate signed private and public key // 11.SM9_Sign //SM9 signature algorithm // 12.SM9_Verify //SM9 verification // 13.SM9_SelfCheck() //SM9 slef-check // // Notes: // This SM9 implementation source code can be used for academic, non-profit making or non-commercial use only. // This SM9 implementation is created on MIRACL. SM9 implementation source code provider does not provide MIRACL library, MIRACL license or any permission to use MIRACL library. Any commercial use of MIRACL requires a license which may be obtained from Shamus Software Ltd. //**************************************************************************/ #include "SM9_sv.h" #include "kdf.h" /**************************************************************** Function: bytes128_to_ecn2 Description: convert 128 bytes into ecn2 Calls: MIRACL functions Called By: SM9_Init Input: Ppubs[] Output: ecn2 *res Return: FALSE: execution error TRUE: execute correctly Others: ****************************************************************/ BOOL bytes128_to_ecn2(unsigned char Ppubs[], ecn2 *res) { zzn2 x, y; big a, b; ecn2 r; r.x.a = mirvar(0); r.x.b = mirvar(0); r.y.a = mirvar(0); r.y.b = mirvar(0); r.z.a = mirvar(0); r.z.b = mirvar(0); r.marker = MR_EPOINT_INFINITY; x.a = mirvar(0); x.b = mirvar(0); y.a = mirvar(0); y.b = mirvar(0); a = mirvar(0); b = mirvar(0); bytes_to_big(BNLEN, Ppubs, b); bytes_to_big(BNLEN, Ppubs + BNLEN, a); zzn2_from_bigs(a, b, &x); bytes_to_big(BNLEN, Ppubs + BNLEN * 2, b); bytes_to_big(BNLEN, Ppubs + BNLEN * 3, a); zzn2_from_bigs(a, b, &y); return ecn2_set(&x, &y, res); } /**************************************************************** Function: zzn12_ElementPrint Description: print all element of struct zzn12 Calls: MIRACL functions Called By: SM9_Sign,SM9_Verify Input: zzn12 x Output: NULL Return: NULL Others: ****************************************************************/ void zzn12_ElementPrint(zzn12 x) { big tmp; tmp = mirvar(0); redc(x.c.b.b, tmp); cotnum(tmp, stdout); redc(x.c.b.a, tmp); cotnum(tmp, stdout); redc(x.c.a.b, tmp); cotnum(tmp, stdout); redc(x.c.a.a, tmp); cotnum(tmp, stdout); redc(x.b.b.b, tmp); cotnum(tmp, stdout); redc(x.b.b.a, tmp); cotnum(tmp, stdout); redc(x.b.a.b, tmp); cotnum(tmp, stdout); redc(x.b.a.a, tmp); cotnum(tmp, stdout); redc(x.a.b.b, tmp); cotnum(tmp, stdout); redc(x.a.b.a, tmp); cotnum(tmp, stdout); redc(x.a.a.b, tmp); cotnum(tmp, stdout); redc(x.a.a.a, tmp); cotnum(tmp, stdout); } /**************************************************************** Function: ecn2_Bytes128_Print Description: print 128 bytes of ecn2 Calls: MIRACL functions Called By: SM9_Sign,SM9_Verify Input: ecn2 x Output: NULL Return: NULL Others: ****************************************************************/ void ecn2_Bytes128_Print(ecn2 x) { big tmp; tmp = mirvar(0); redc(x.x.b, tmp); cotnum(tmp, stdout); redc(x.x.a, tmp); cotnum(tmp, stdout); redc(x.y.b, tmp); cotnum(tmp, stdout); redc(x.y.a, tmp); cotnum(tmp, stdout); } /**************************************************************** Function: LinkCharZzn12 Description: link two different types(unsigned char and zzn12)to one(unsigned char) Calls: MIRACL functions Called By: SM9_Sign,SM9_Verify Input: message: len: length of message w: zzn12 element Output: Z: the characters array stored message and w Zlen: length of Z Return: NULL Others: ****************************************************************/ void LinkCharZzn12(unsigned char *message, int len, zzn12 w, unsigned char *Z, int Zlen) { big tmp; tmp = mirvar(0); memcpy(Z, message, len); redc(w.c.b.b, tmp); big_to_bytes(BNLEN, tmp, Z + len, 1); redc(w.c.b.a, tmp); big_to_bytes(BNLEN, tmp, Z + len + BNLEN, 1); redc(w.c.a.b, tmp); big_to_bytes(BNLEN, tmp, Z + len + BNLEN * 2, 1); redc(w.c.a.a, tmp); big_to_bytes(BNLEN, tmp, Z + len + BNLEN * 3, 1); redc(w.b.b.b, tmp); big_to_bytes(BNLEN, tmp, Z + len + BNLEN * 4, 1); redc(w.b.b.a, tmp); big_to_bytes(BNLEN, tmp, Z + len + BNLEN * 5, 1); redc(w.b.a.b, tmp); big_to_bytes(BNLEN, tmp, Z + len + BNLEN * 6, 1); redc(w.b.a.a, tmp); big_to_bytes(BNLEN, tmp, Z + len + BNLEN * 7, 1); redc(w.a.b.b, tmp); big_to_bytes(BNLEN, tmp, Z + len + BNLEN * 8, 1); redc(w.a.b.a, tmp); big_to_bytes(BNLEN, tmp, Z + len + BNLEN * 9, 1); redc(w.a.a.b, tmp); big_to_bytes(BNLEN, tmp, Z + len + BNLEN * 10, 1); redc(w.a.a.a, tmp); big_to_bytes(BNLEN, tmp, Z + len + BNLEN * 11, 1); } /**************************************************************** Function: Test_Point Description: test if the given point is on SM9 curve Calls: Called By: SM9_Verify Input: point Output: null Return: 0: success 1: not a valid point on curve Others: ****************************************************************/ int Test_Point(epoint* point) { big x, y, x_3, tmp; epoint *buf; x = mirvar(0); y = mirvar(0); x_3 = mirvar(0); tmp = mirvar(0); buf = epoint_init(); //test if y^2=x^3+b epoint_get(point, x, y); power(x, 3, para_q, x_3); //x_3=x^3 mod p multiply(x, para_a, x); divide(x, para_q, tmp); add(x_3, x, x); //x=x^3+ax+b add(x, para_b, x); divide(x, para_q, tmp); //x=x^3+ax+b mod p power(y, 2, para_q, y); //y=y^2 mod p if (mr_compare(x, y) != 0) return 1; //test infinity ecurve_mult(N, point, buf); if (point_at_infinity(buf) == FALSE) return 1; return 0; } /**************************************************************** Function: Test_Range Description: test if the big x belong to the range[1,n-1] Calls: Called By: SM9_Verify Input: big x ///a miracl data type Output: null Return: 0: success 1: x==n,fail Others: ****************************************************************/ int Test_Range(big x) { big one, decr_n; one = mirvar(0); decr_n = mirvar(0); convert(1, one); decr(N, 1, decr_n); if ((mr_compare(x, one) < 0) | (mr_compare(x, decr_n)>0)) return 1; return 0; } /**************************************************************** Function: SM9_Init Description: Initiate SM9 curve Calls: MIRACL functions Called By: SM9_SelfCheck Input: null Output: null Return: 0: success; 7: base point P1 error 8: base point P2 error Others: ****************************************************************/ int SM9_Init() { big P1_x, P1_y; mip = mirsys(1000, 16);; mip->IOBASE = 16; para_q = mirvar(0); N = mirvar(0); P1_x = mirvar(0); P1_y = mirvar(0); para_a = mirvar(0); para_b = mirvar(0); para_t = mirvar(0); X.a = mirvar(0); X.b = mirvar(0); P2.x.a = mirvar(0); P2.x.b = mirvar(0); P2.y.a = mirvar(0); P2.y.b = mirvar(0); P2.z.a = mirvar(0); P2.z.b = mirvar(0); P2.marker = MR_EPOINT_INFINITY; P1 = epoint_init(); bytes_to_big(BNLEN, SM9_q, para_q); bytes_to_big(BNLEN, SM9_P1x, P1_x); bytes_to_big(BNLEN, SM9_P1y, P1_y); bytes_to_big(BNLEN, SM9_a, para_a); bytes_to_big(BNLEN, SM9_b, para_b); bytes_to_big(BNLEN, SM9_N, N); bytes_to_big(BNLEN, SM9_t, para_t); mip->TWIST = MR_SEXTIC_M; ecurve_init(para_a, para_b, para_q, MR_PROJECTIVE); //Initialises GF(q) elliptic curve //MR_PROJECTIVE specifying projective coordinates if (!epoint_set(P1_x, P1_y, 0, P1)) return SM9_G1BASEPOINT_SET_ERR; if (!(bytes128_to_ecn2(SM9_P2, &P2))) return SM9_G2BASEPOINT_SET_ERR; set_frobenius_constant(&X); return 0; } /**************************************************************** Function: SM9_H1 Description: function H1 in SM9 standard 5.4.2.2 Calls: MIRACL functions,SM3_KDF Called By: SM9_Verify Input: Z: Zlen:the length of Z n:Frobniues constant X Output: h1=H1(Z,Zlen) Return: 0: success; 1: asking for memory error Others: ****************************************************************/ int SM9_H1(unsigned char Z[], int Zlen, big n, big h1) { int hlen, i, ZHlen; big hh, i256, tmp, n1; unsigned char *ZH = NULL, *ha = NULL; hh = mirvar(0); i256 = mirvar(0); tmp = mirvar(0); n1 = mirvar(0); convert(1, i256); ZHlen = Zlen + 1; hlen = (int)ceil((5.0*logb2(n)) / 32.0); decr(n, 1, n1); ZH = (char *)malloc(sizeof(char)*(ZHlen + 1)); if (ZH == NULL) return SM9_ASK_MEMORY_ERR; memcpy(ZH + 1, Z, Zlen); ZH[0] = 0x01; ha = (char *)malloc(sizeof(char)*(hlen + 1)); if (ha == NULL) return SM9_ASK_MEMORY_ERR; SM3_KDF(ZH, ZHlen, hlen, ha); for (i = hlen - 1; i >= 0; i--)//key[从大到小] { premult(i256, ha[i], tmp); add(hh, tmp, hh); premult(i256, 256, i256); divide(i256, n1, tmp); divide(hh, n1, tmp); } incr(hh, 1, h1); free(ZH); free(ha); return 0; } /**************************************************************** Function: SM9_H2 Description: function H2 in SM9 standard 5.4.2.3 Calls: MIRACL functions,SM3_KDF Called By: SM9_Sign,SM9_Verify Input: Z: Zlen:the length of Z n:Frobniues constant X Output: h2=H2(Z,Zlen) Return: 0: success; 1: asking for memory error Others: ****************************************************************/ int SM9_H2(unsigned char Z[], int Zlen, big n, big h2) { int hlen, ZHlen, i; big hh, i256, tmp, n1; unsigned char *ZH = NULL, *ha = NULL; hh = mirvar(0); i256 = mirvar(0); tmp = mirvar(0); n1 = mirvar(0); convert(1, i256); ZHlen = Zlen + 1; hlen = (int)ceil((5.0*logb2(n)) / 32.0); decr(n, 1, n1); ZH = (char *)malloc(sizeof(char)*(ZHlen + 1)); if (ZH == NULL) return SM9_ASK_MEMORY_ERR; memcpy(ZH + 1, Z, Zlen); ZH[0] = 0x02; ha = (char *)malloc(sizeof(char)*(hlen + 1)); if (ha == NULL) return SM9_ASK_MEMORY_ERR; SM3_KDF(ZH, ZHlen, hlen, ha); for (i = hlen - 1; i >= 0; i--)//key[从大到小] { premult(i256, ha[i], tmp); add(hh, tmp, hh); premult(i256, 256, i256); divide(i256, n1, tmp); divide(hh, n1, tmp); } incr(hh, 1, h2); free(ZH); free(ha); return 0; } /**************************************************************** Function: SM9_GenerateSignKey Description: Generate Signed key Calls: MIRACL functions,SM9_H1,xgcd,ecn2_Bytes128_Print Called By: SM9_SelfCheck Input: hid:0x01 ID:identification IDlen:the length of ID ks:master private key used to generate signature public key and private key Output: Ppub:signature public key dSA: signature private key Return: 0: success; 1: asking for memory error Others: ****************************************************************/ int SM9_GenerateSignKey(unsigned char hid[], unsigned char *ID, int IDlen, big ks, unsigned char Ppubs[], unsigned char dsa[]) { big h1, t1, t2, rem, xdSA, ydSA, tmp; unsigned char *Z = NULL; int Zlen = IDlen + 1, buf; ecn2 Ppub; epoint *dSA; h1 = mirvar(0); t1 = mirvar(0); t2 = mirvar(0); rem = mirvar(0); tmp = mirvar(0); xdSA = mirvar(0); ydSA = mirvar(0); dSA = epoint_init(); Ppub.x.a = mirvar(0); Ppub.x.b = mirvar(0); Ppub.y.a = mirvar(0); Ppub.y.b = mirvar(0); Ppub.z.a = mirvar(0); Ppub.z.b = mirvar(0); Ppub.marker = MR_EPOINT_INFINITY; Z = (char *)malloc(sizeof(char)*(Zlen + 1)); memcpy(Z, ID, IDlen); memcpy(Z + IDlen, hid, 1); buf = SM9_H1(Z, Zlen, N, h1); if (buf != 0) return buf; add(h1, ks, t1);//t1=H1(IDA||hid,N)+ks xgcd(t1, N, t1, t1, t1);//t1=t1(-1) multiply(ks, t1, t2); divide(t2, N, rem);//t2=ks*t1(-1) //dSA=[t2]P1 ecurve_mult(t2, P1, dSA); //Ppub=[ks]P2 ecn2_copy(&P2, &Ppub); ecn2_mul(ks, &Ppub); printf("\\n*********************私钥(xdA, ydA)为:*********************\\n"); epoint_get(dSA, xdSA, ydSA); cotnum(xdSA, stdout); cotnum(ydSA, stdout); printf("\\n**********************公钥 Ppubs=[ks]P2为:*************************\\n"); ecn2_Bytes128_Print(Ppub); epoint_get(dSA, xdSA, ydSA); big_to_bytes(BNLEN, xdSA, dsa, 1); big_to_bytes(BNLEN, ydSA, dsa + BNLEN, 1); redc(Ppub.x.b, tmp); big_to_bytes(BNLEN, tmp, Ppubs, 1); redc(Ppub.x.a, tmp); big_to_bytes(BNLEN, tmp, Ppubs + BNLEN, 1); redc(Ppub.y.b, tmp); big_to_bytes(BNLEN, tmp, Ppubs + BNLEN * 2, 1); redc(Ppub.y.a, tmp); big_to_bytes(BNLEN, tmp, Ppubs + BNLEN * 3, 1); free(Z); return 0; } /**************************************************************** Function: SM9_Sign Description: SM9 signature algorithm Calls: MIRACL functions,zzn12_init(),ecap(),member(),zzn12_ElementPrint(), zzn12_pow(),LinkCharZzn12(),SM9_H2() Called By: SM9_SelfCheck() Input: hid:0x01 IDA //identification of userA message //the message to be signed len //the length of message rand //a random number K lies in [1,N-1] dSA //signature private key Ppubs //signature public key Output: H,S //signature result Return: 0: success 1: asking for memory error 4: element is out of order q 5: R-ate calculation error 9: parameter L error Others: ****************************************************************/ int SM9_Sign(unsigned char hid[], unsigned char *IDA, unsigned char *message, int len, unsigned char rand[], unsigned char dsa[], unsigned char Ppub[], unsigned char H[], unsigned char S[]) { big h1, r, h, l, xdSA, ydSA; big xS, yS, tmp, zero; zzn12 g, w; epoint *s, *dSA; ecn2 Ppubs; int Zlen, buf; unsigned char *Z = NULL; //initiate h1 = mirvar(0); r = mirvar(0); h = mirvar(0); l = mirvar(0); tmp = mirvar(0); zero = mirvar(0); xS = mirvar(0); yS = mirvar(0); xdSA = mirvar(0); ydSA = mirvar(0); s = epoint_init(); dSA = epoint_init(); Ppubs.x.a = mirvar(0); Ppubs.x.b = mirvar(0); Ppubs.y.a = mirvar(0); Ppubs.y.b = mirvar(0); Ppubs.z.a = mirvar(0); Ppubs.z.b = mirvar(0); Ppubs.marker = MR_EPOINT_INFINITY; zzn12_init(&g); zzn12_init(&w); bytes_to_big(BNLEN, rand, r); bytes_to_big(BNLEN, dsa, xdSA); bytes_to_big(BNLEN, dsa + BNLEN, ydSA); epoint_set(xdSA, ydSA, 0, dSA); bytes128_to_ecn2(Ppub, &Ppubs); //Step1:g = e(P1, Ppub-s) if (!ecap(Ppubs, P1, para_t, X, &g)) return SM9_MY_ECAP_12A_ERR; //test if a ZZn12 element is of order q if (!member(g, para_t, X)) return SM9_MEMBER_ERR; printf("\\n***********************g=e(P1,Ppubs):****************************\\n"); zzn12_ElementPrint(g); //Step2:calculate w=g(r) printf("\\n***********************随机数 r:********************************\\n"); cotnum(r, stdout); w = zzn12_pow(g, r); printf("\\n***************************w=gr:**********************************\\n"); zzn12_ElementPrint(w); //Step3:calculate h=H2(M||w,N) Zlen = len + 32 * 12; Z = (char *)malloc(sizeof(char)*(Zlen + 1)); if (Z == NULL) return SM9_ASK_MEMORY_ERR; LinkCharZzn12(message, len, w, Z, Zlen); buf = SM9_H2(Z, Zlen, N, h); if (buf != 0) return buf; printf("\\n****************************h:*************************************\\n"); cotnum(h, stdout); //Step4:l=(r-h)mod N subtract(r, h, l); divide(l, N, tmp); while (mr_compare(l, zero)<0) add(l, N, l); if (mr_compare(l, zero) == 0) return SM9_L_error; printf("\\n**************************l=(r-h)mod N:****************************\\n"); cotnum(l, stdout); //Step5:S=[l]dSA=(xS,yS) ecurve_mult(l, dSA, s); epoint_get(s, xS, yS); printf("\\n**************************S=[l]dSA=(xS,yS):*************************\\n"); cotnum(xS, stdout); cotnum(yS, stdout); big_to_bytes(32, h, H, 1); big_to_bytes(32, xS, S, 1); big_to_bytes(32, yS, S + 32, 1); free(Z); return 0; } /**************************************************************** Function: SM9_Verify Description: SM9 signature verification algorithm Calls: MIRACL functions,zzn12_init(),Test_Range(),Test_Point(), ecap(),member(),zzn12_ElementPrint(),SM9_H1(),SM9_H2() Called By: SM9_SelfCheck() Input: H,S //signature result used to be verified hid //identification IDA //identification of userA message //the message to be signed len //the length of message Ppubs //signature public key Output: NULL Return: 0: success 1: asking for memory error 2: H is not in the range[1,N-1] 6: S is not on the SM9 curve 4: element is out of order q 5: R-ate calculation error 3: h2!=h,comparison error Others: ****************************************************************/ int SM9_Verify(unsigned char H[], unsigned char S[], unsigned char hid[], unsigned char *IDA, unsigned char *message, int len, unsigned char Ppub[]) { big h, xS, yS, h1, h2; epoint *S1; zzn12 g, t, u, w; ecn2 P, Ppubs; int Zlen1, Zlen2, buf; unsigned char * Z1 = NULL, *Z2 = NULL; h = mirvar(0); h1 = mirvar(0); h2 = mirvar(0); xS = mirvar(0); yS = mirvar(0); P.x.a = mirvar(0); P.x.b = mirvar(0); P.y.a = mirvar(0); P.y.b = mirvar(0); P.z.a = mirvar(0); P.z.b = mirvar(0); P.marker = MR_EPOINT_INFINITY; Ppubs.x.a = mirvar(0); Ppubs.x.b = mirvar(0); Ppubs.y.a = mirvar(0); Ppubs.y.b = mirvar(0); Ppubs.z.a = mirvar(0); Ppubs.z.b = mirvar(0); Ppubs.marker = MR_EPOINT_INFINITY; S1 = epoint_init(); zzn12_init(&g), zzn12_init(&t); zzn12_init(&u); zzn12_init(&w); bytes_to_big(BNLEN, H, h); bytes_to_big(BNLEN, S, xS); bytes_to_big(BNLEN, S + BNLEN, yS); bytes128_to_ecn2(Ppub, &Ppubs); //Step 1:test if h in the rangge [1,N-1] if (Test_Range(h)) return SM9_H_OUTRANGE; //Step 2:test if S is on G1 epoint_set(xS, yS, 0, S1); if (Test_Point(S1)) return SM9_S_NOT_VALID_G1; //Step3:g = e(P1, Ppub-s) if (!ecap(Ppubs, P1, para_t, X, &g)) return SM9_MY_ECAP_12A_ERR; //test if a ZZn12 element is of order q if (!member(g, para_t, X)) return SM9_MEMBER_ERR; printf("\\n***********************g=e(P1,Ppubs):****************************\\n"); zzn12_ElementPrint(g); //Step4:calculate t=g(h) t = zzn12_pow(g, h); printf("\\n***************************w=gh:**********************************\\n"); zzn12_ElementPrint(t); //Step5:calculate h1=H1(IDA||hid,N) Zlen1 = strlen(IDA) + 1; Z1 = (char *)malloc(sizeof(char)*(Zlen1 + 1)); if (Z1 == NULL) return SM9_ASK_MEMORY_ERR; memcpy(Z1, IDA, strlen(IDA)); memcpy(Z1 + strlen(IDA), hid, 1); buf = SM9_H1(Z1, Zlen1, N, h1); if (buf != 0) return buf; printf("\\n****************************h1:**********************************\\n"); cotnum(h1, stdout); //Step6:P=[h1]P2+Ppubs ecn2_copy(&P2, &P); ecn2_mul(h1, &P); ecn2_add(&Ppubs, &P); //Step7:u=e(S1,P) if (!ecap(P, S1, para_t, X, &u)) return SM9_MY_ECAP_12A_ERR; //test if a ZZn12 element is of order q if (!member(u, para_t, X)) return SM9_MEMBER_ERR; printf("\\n************************** u=e(S1,P):*****************************\\n"); zzn12_ElementPrint(u); //Step8:w=u*t zzn12_mul(u, t, &w); printf("\\n************************* w=u*t: **********************************\\n"); zzn12_ElementPrint(w); //Step9:h2=H2(M||w,N) Zlen2 = len + 32 * 12; Z2 = (char *)malloc(sizeof(char)*(Zlen2 + 1)); if (Z2 == NULL) return SM9_ASK_MEMORY_ERR; LinkCharZzn12(message, len, w, Z2, Zlen2); buf = SM9_H2(Z2, Zlen2, N, h2); if (buf != 0) return buf; printf("\\n**************************** h2:***********************************\\n"); cotnum(h2, stdout); free(Z1); free(Z2); printf("\\n签名验证结果:\\n"); if (mr_compare(h2, h) != 0) { printf("h 不等于 h2,验证失败!\\n"); return SM9_DATA_MEMCMP_ERR; } else printf("h 等于 h2,验证成功!\\n\\n"); return 0; } /**************************************************************** Function: SM9_SelfCheck Description: SM9 self check Calls: MIRACL functions,SM9_Init(),SM9_GenerateSignKey(), SM9_Sign,SM9_Verify Called By: Input: 要签名的字符串 Output: Return: 0: self-check success 1: asking for memory error 2: H is not in the range[1,N-1] 3: h2!=h,comparison error 4: element is out of order q 5: R-ate calculation error 6: S is not on the SM9 curve 7: base point P1 error 8: base point P2 error 9: parameter L error A: public key generated error B: private key generated error C: signature result error Others: ****************************************************************/ int SM9_SelfCheck(unsigned char *message) { //the master private key unsigned char dA[32] = { 0x00,0x01,0x30,0xE7,0x84,0x59,0xD7,0x85,0x45,0xCB,0x54,0xC5,0x87,0xE0,0x2C,0xF4, 0x80,0xCE,0x0B,0x66,0x34,0x0F,0x31,0x9F,0x34,0x8A,0x1D,0x5B,0x1F,0x2D,0xC5,0xF4 }; unsigned char rand[32] = { 0x00,0x03,0x3C,0x86,0x16,0xB0,0x67,0x04,0x81,0x32,0x03,0xDF,0xD0,0x09,0x65,0x02, 0x2E,0xD1,0x59,0x75,0xC6,0x62,0x33,0x7A,0xED,0x64,0x88,0x35,0xDC,0x4B,0x1C,0xBE }; unsigned char h[32], S[64];// Signature unsigned char Ppub[128], dSA[64]; //提前算好的对于预设签名字符串“Chinese IBS standard”的签名值 //作用:签名后会验证h和std_h,S和std_S,若得到的签名值与这两个算好的不同,则说明签名出错 unsigned char std_h[32] = { 0x82,0x3C,0x4B,0x21,0xE4,0xBD,0x2D,0xFE,0x1E,0xD9,0x2C,0x60,0x66,0x53,0xE9,0x96, 0x66,0x85,0x63,0x15,0x2F,0xC3,0x3F,0x55,0xD7,0xBF,0xBB,0x9B,0xD9,0x70,0x5A,0xDB }; unsigned char std_S[64] = { 0x73,0xBF,0x96,0x92,0x3C,0xE5,0x8B,0x6A,0xD0,0xE1,0x3E,0x96,0x43,0xA4,0x06,0xD8, 0xEB,0x98,0x41,0x7C,0x50,0xEF,0x1B,0x29,0xCE,0xF9,0xAD,0xB4,0x8B,0x6D,0x59,0x8C, 0x85,0x67,0x12,0xF1,0xC2,0xE0,0x96,0x8A,0xB7,0x76,0x9F,0x42,0xA9,0x95,0x86,0xAE, 0xD1,0x39,0xD5,0xB8,0xB3,0xE1,0x58,0x91,0x82,0x7C,0xC2,0xAC,0xED,0x9B,0xAA,0x05 }; unsigned char std_Ppub[128] = { 0x9F,0x64,0x08,0x0B,0x30,0x84,0xF7,0x33,0xE4,0x8A,0xFF,0x4B,0x41,0xB5,0x65,0x01, 0x1C,0xE0,0x71,0x1C,0x5E,0x39,0x2C,0xFB,0x0A,0xB1,0xB6,0x79,0x1B,0x94,0xC4,0x08, 0x29,0xDB,0xA1,0x16,0x15,0x2D,0x1F,0x78,0x6C,0xE8,0x43,0xED,0x24,0xA3,0xB5,0x73, 0x41,0x4D,0x21,0x77,0x38,0x6A,0x92,0xDD,0x8F,0x14,0xD6,0x56,0x96,0xEA,0x5E,0x32, 0x69,0x85,0x09,0x38,0xAB,0xEA,0x01,0x12,0xB5,0x73,0x29,0xF4,0x47,0xE3,0xA0,0xCB, 0xAD,0x3E,0x2F,0xDB,0x1A,0x77,0xF3,0x35,0xE8,0x9E,0x14,0x08,0xD0,0xEF,0x1C,0x25, 0x41,0xE0,0x0A,0x53,0xDD,0xA5,0x32,0xDA,0x1A,0x7C,0xE0,0x27,0xB7,0xA4,0x6F,0x74, 0x10,0x06,0xE8,0x5F,0x5C,0xDF,0xF0,0x73,0x0E,0x75,0xC0,0x5F,0xB4,0xE3,0x21,0x6D }; unsigned char std_dSA[64] = { 0xA5,0x70,0x2F,0x05,0xCF,0x13,0x15,0x30,0x5E,0x2D,0x6E,0xB6,0x4B,0x0D,0xEB,0x92, 0x3D,0xB1,0xA0,0xBC,0xF0,0xCA,0xFF,0x90,0x52,0x3A,0xC8,0x75,0x4A,0xA6,0x98,0x20, 0x78,0x55,0x9A,0x84,0x44,0x11,0xF9,0x82,0x5C,0x10,0x9F,0x5E,0xE3,0xF5,0x2D,0x72, 0x0D,0xD0,0x17,0x85,0x39,0x2A,0x72,0x7B,0xB1,0x55,0x69,0x52,0xB2,0xB0,0x13,0xD3 }; unsigned char hid[] = { 0x01 }; unsigned char *IDA = "Alice"; //unsigned char *message = "Chinese IBS standard";//the message to be signed //unsigned char *message = "SM9 Identity-based cryptographic algorithms"; int mlen = strlen(message), tmp;//the length of message big ks; printf("ID号为:%s\\n",IDA); printf("消息为:%s\\n", message); tmp = SM9_Init(); if (tmp != 0) return tmp; ks = mirvar(0); bytes_to_big(32, dA, ks); printf("\\n***********************SM9 密钥生成***************************\\n"); tmp = SM9_GenerateSignKey(hid, IDA, strlen(IDA), ks, Ppub, dSA); if (tmp != 0) return tmp; if (memcmp(Ppub, std_Ppub, 128) != 0) return SM9_GEPUB_ERR; if (memcmp(dSA, std_dSA, 64) != 0) return SM9_GEPRI_ERR; printf("\\n**********************SM9签名***************************\\n"); tmp = SM9_Sign(hid, IDA, message, mlen, rand, dSA, Ppub, h, S); if (tmp != 0) return tmp; //此两句为验证签名值与预设字符串“Chinese IBS standard”得到的签名值是否相同 //若从外界输入签名字符串或文件,则注释掉即可 /* if (memcmp(h, std_h, 32) != 0) return SM9_SIGN_ERR; if (memcmp(S, std_S, 64) != 0) //为何消息一改动,此处就会返回SM9_SIGN_ERR? return SM9_SIGN_ERR; */ printf("\\n*******************SM9签名验证*************************\\n"); tmp=SM9_Verify(h, S, hid, IDA, message, mlen, Ppub); if (tmp != 0) return tmp; return 0; }
全部代码见github
参考
1、国标—SM9-签名
2、密码学-基础理论与应用(李子臣著)
3、商用密码检测中心-源码下载
以上是关于SM9-签名的主要内容,如果未能解决你的问题,请参考以下文章