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SM3是中华人民共和国政府采用的一种密码散列函数标准,由国家密码管理局于2010年12月17日发布。主要用于报告文件数字签名及验证。
Python3代码如下:
from math import ceil ############################################################################## # # 国产SM3加密算法 # ############################################################################## IV = "7380166f 4914b2b9 172442d7 da8a0600 a96f30bc 163138aa e38dee4d b0fb0e4e" IV = int(IV.replace(" ", ""), 16) a = [] for i in range(0, 8): a.append(0) a[i] = (IV ((7 - i) * 32)) & 0xFFFFFFFF IV = a def out_hex(list1): for i in list1: print("%08x" % i) print("\n") def rotate_left(a, k): k = k % 32 return ((a << k) & 0xFFFFFFFF) | ((a & 0xFFFFFFFF) (32 - k)) T_j = [] for i in range(0, 16): T_j.append(0) T_j[i] = 0x79cc4519 for i in range(16, 64): T_j.append(0) T_j[i] = 0x7a879d8a def FF_j(X, Y, Z, j): if 0 <= j and j < 16: ret = X ^ Y ^ Z elif 16 <= j and j < 64: ret = (X & Y) | (X & Z) | (Y & Z) return ret def GG_j(X, Y, Z, j): if 0 <= j and j < 16: ret = X ^ Y ^ Z elif 16 <= j and j < 64: # ret = (X | Y) & ((2 ** 32 - 1 - X) | Z) ret = (X & Y) | ((~ X) & Z) return ret def P_0(X): return X ^ (rotate_left(X, 9)) ^ (rotate_left(X, 17)) def P_1(X): return X ^ (rotate_left(X, 15)) ^ (rotate_left(X, 23)) def CF(V_i, B_i): W = [] for i in range(16): weight = 0x1000000 data = 0 for k in range(i * 4, (i + 1) * 4): data = data + B_i[k] * weight weight = int(weight / 0x100) W.append(data) for j in range(16, 68): W.append(0) W[j] = P_1(W[j - 16] ^ W[j - 9] ^ (rotate_left(W[j - 3], 15))) ^ (rotate_left(W[j - 13], 7)) ^ W[j - 6] str1 = "%08x" % W[j] W_1 = [] for j in range(0, 64): W_1.append(0) W_1[j] = W[j] ^ W[j + 4] str1 = "%08x" % W_1[j] A, B, C, D, E, F, G, H = V_i """ print "00", out_hex([A, B, C, D, E, F, G, H]) """ for j in range(0, 64): SS1 = rotate_left(((rotate_left(A, 12)) + E + (rotate_left(T_j[j], j))) & 0xFFFFFFFF, 7) SS2 = SS1 ^ (rotate_left(A, 12)) TT1 = (FF_j(A, B, C, j) + D + SS2 + W_1[j]) & 0xFFFFFFFF TT2 = (GG_j(E, F, G, j) + H + SS1 + W[j]) & 0xFFFFFFFF D = C C = rotate_left(B, 9) B = A A = TT1 H = G G = rotate_left(F, 19) F = E E = P_0(TT2) A = A & 0xFFFFFFFF B = B & 0xFFFFFFFF C = C & 0xFFFFFFFF D = D & 0xFFFFFFFF E = E & 0xFFFFFFFF F = F & 0xFFFFFFFF G = G & 0xFFFFFFFF H = H & 0xFFFFFFFF V_i_1 = [] V_i_1.append(A ^ V_i[0]) V_i_1.append(B ^ V_i[1]) V_i_1.append(C ^ V_i[2]) V_i_1.append(D ^ V_i[3]) V_i_1.append(E ^ V_i[4]) V_i_1.append(F ^ V_i[5]) V_i_1.append(G ^ V_i[6]) V_i_1.append(H ^ V_i[7]) return V_i_1 def hash_msg(msg): # print(msg) len1 = len(msg) reserve1 = len1 % 64 msg.append(0x80) reserve1 = reserve1 + 1 # 56-64, add 64 byte range_end = 56 if reserve1 > range_end: range_end = range_end + 64 for i in range(reserve1, range_end): msg.append(0x00) bit_length = (len1) * 8 bit_length_str = [bit_length % 0x100] for i in range(7): bit_length = int(bit_length / 0x100) bit_length_str.append(bit_length % 0x100) for i in range(8): msg.append(bit_length_str[7 - i]) # print(msg) group_count = round(len(msg) / 64) B = [] for i in range(0, group_count): B.append(msg[i * 64:(i + 1) * 64]) V = [] V.append(IV) for i in range(0, group_count): V.append(CF(V[i], B[i])) y = V[i + 1] result = "" for i in y: result = '%s%08x' % (result, i) return result def str2byte(msg): # 字符串转换成byte数组 ml = len(msg) msg_byte = [] msg_bytearray = msg # 如果加密对象是字符串,则在此对msg做encode()编码即可,否则不编码 for i in range(ml): msg_byte.append(msg_bytearray[i]) return msg_byte def byte2str(msg): # byte数组转字符串 ml = len(msg) str1 = b"" for i in range(ml): str1 += b'%c' % msg[i] return str1.decode('utf-8') def hex2byte(msg): # 16进制字符串转换成byte数组 ml = len(msg) if ml % 2 != 0: msg = '0' + msg ml = int(len(msg) / 2) msg_byte = [] for i in range(ml): msg_byte.append(int(msg[i * 2:i * 2 + 2], 16)) return msg_byte def byte2hex(msg): # byte数组转换成16进制字符串 ml = len(msg) hexstr = "" for i in range(ml): hexstr = hexstr + ('%02x' % msg[i]) return hexstr def KDF(Z, klen): # Z为16进制表示的比特串(str),klen为密钥长度(单位byte) klen = int(klen) ct = 0x00000001 rcnt = ceil(klen / 32) Zin = hex2byte(Z) Ha = "" for i in range(int(rcnt)): msg = Zin + hex2byte('%08x' % ct) # print(msg) Ha = Ha + hash_msg(msg) # print(Ha) ct += 1 return Ha[0: klen * 2] def sm3_hash(msg, Hexstr=0): """ 封装方法,外部调用 :param msg: 二进制流(如若需要传入字符串,则把str2byte方法里msg做encode()编码一下,否则不编码) :param Hexstr: 0 :return: 64位SM3加密结果 """ if (Hexstr): msg_byte = hex2byte(msg) else: msg_byte = str2byte(msg) return hash_msg(msg_byte) if __name__ == '__main__': print(sm3_hash(b'SM3Test'))# 打印结果:901053b4681483b737dd2dd9f9a7f56805aa1b03337f8c1abb763a96776b8905
以上就是Python 实现国产SM3加密算法的示例代码的详细内容,更多关于Python 实现国产SM3加密算法的资料请关注其它相关文章!
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稳了!魔兽国服回归的3条重磅消息!官宣时间再确认!
昨天有一位朋友在大神群里分享,自己亚服账号被封号之后居然弹出了国服的封号信息对话框。
这里面让他访问的是一个国服的战网网址,com.cn和后面的zh都非常明白地表明这就是国服战网。
而他在复制这个网址并且进行登录之后,确实是网易的网址,也就是我们熟悉的停服之后国服发布的暴雪游戏产品运营到期开放退款的说明。这是一件比较奇怪的事情,因为以前都没有出现这样的情况,现在突然提示跳转到国服战网的网址,是不是说明了简体中文客户端已经开始进行更新了呢?
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