C#Base64简单加密与解密
2021/12/10 22:20:22
本文主要是介绍C#Base64简单加密与解密,对大家解决编程问题具有一定的参考价值,需要的程序猿们随着小编来一起学习吧!
Base64属于简单加密算法的一种。类似于凯撒密码【它是一种替换加密的技术】
Base64字符串由65个字符组成,
大写字母A~Z,
小写字母a~z,
数字0~9,以及三个特殊字符+、/、=
【=“等号”用于补充字符,使Base64字符串长度变成4的倍数】
规则
考虑到初始源字符串可能是任何文本编码的【中文GBK,Unicode,ASCII等】,因此Base64字符串加密只处理字节数组【字节数组通过encoding.GetBytes(string src)获得】。
Base64编码字符串的长度一定是4的倍数。
Base64要求把每三个8Bit的字节转换为四个6Bit的字节(3*8 = 4*6 = 24),然后把6Bit再添两位高位0,组成四个8Bit的字节,因此每个Base64字节的十进制范围为0~63。也就是说,转换后的字符串理论上将要比原来的长1/3。
字节数组的长度应该是3的倍数,如果这个条件不能满足的话,具体的解决办法是这样的:原文剩余的字节根据编码规则继续单独转(1变2,2变3;不够的位数用0补全),再用=号补满4个字节。这就是为什么有些Base64编码会以一个或两个等号结束的原因,但等号最多只有两个。因为一个原字节至少会变成两个目标字节,所以余数任何情况下都只可能是0,1,2这三个数中的一个。如果余数是0的话,就表示原文字节数正好是3的倍数(最理想的情况)。如果是1的话,转成2个Base64编码字符,为了让Base64编码是4的倍数,就要补2个等号;同理,如果是2的话,就要补1个等号。
6Bit数字【0~63】映射Base64字符表如下
索引 | 对应字符 | 索引 | 对应字符 | 索引 | 对应字符 | 索引 | 对应字符 |
0 | A | 17 | R | 34 | i | 51 | z |
1 | B | 18 | S | 35 | j | 52 | 0 |
2 | C | 19 | T | 36 | k | 53 | 1 |
3 | D | 20 | U | 37 | l | 54 | 2 |
4 | E | 21 | V | 38 | m | 55 | 3 |
5 | F | 22 | W | 39 | n | 56 | 4 |
6 | G | 23 | X | 40 | o | 57 | 5 |
7 | H | 24 | Y | 41 | p | 58 | 6 |
8 | I | 25 | Z | 42 | q | 59 | 7 |
9 | J | 26 | a | 43 | r | 60 | 8 |
10 | K | 27 | b | 44 | s | 61 | 9 |
11 | L | 28 | c | 45 | t | 62 | + |
12 | M | 29 | d | 46 | u | 63 | / |
13 | N | 30 | e | 47 | v | ||
14 | O | 31 | f | 48 | w | ||
15 | P | 32 | g | 49 | x | ||
16 | Q | 33 | h | 50 | y |
测试Base64源程序
新建WinForm应用程序Base64EncoderDemo,重命名默认的 Form1为FormBase64Encoder,
窗体FormBase64Encoder设计如图:
FormBase64Encoder.cs主要代码如下
(忽略设计器自动生成的代码):
using System; using System.Collections.Generic; using System.ComponentModel; using System.Data; using System.Drawing; using System.Linq; using System.Text; using System.Threading.Tasks; using System.Windows.Forms; namespace Base64EncoderDemo { public partial class FormBase64Encoder : Form { public FormBase64Encoder() { InitializeComponent(); //参考Convert微软源程序 //https://referencesource.microsoft.com/#mscorlib/system/convert.cs,fc990bd1275d43d6 } private void FormBase64Encoder_Load(object sender, EventArgs e) { rtxtMessage.ReadOnly = true; //编码格式 cboEncoding.Items.AddRange(new string[] { "ASCII", "Unicode", "UTF-8", "GBK" }); cboEncoding.SelectedIndex = 0; } private void btnClear_Click(object sender, EventArgs e) { rtxtSourceString.Clear(); rtxtBase64String.Clear(); rtxtMessage.Clear(); } /// <summary> /// 显示提示消息 /// </summary> /// <param name="content"></param> private void DisplayMessage(string content) { if (rtxtMessage.TextLength >= 20480) { rtxtMessage.Clear(); } rtxtMessage.AppendText($"{DateTime.Now.ToString("yyyy-MM-dd HH:mm:ss.fff")} -> {content}\n"); rtxtMessage.ScrollToCaret(); } private void btnConvertBase64_Click(object sender, EventArgs e) { rtxtBase64String.Clear(); if (rtxtSourceString.Text.Trim().Length == 0) { rtxtSourceString.Focus(); DisplayMessage("源字符串不能为空"); return; } try { Encoding encoding = Encoding.GetEncoding(cboEncoding.Text); byte[] buffer = encoding.GetBytes(rtxtSourceString.Text.Trim()); rtxtBase64String.Text = Convert.ToBase64String(buffer, Base64FormattingOptions.None); DisplayMessage($"转换成功,Base64字符串【{rtxtBase64String.Text}】"); } catch (Exception ex) { DisplayMessage($"转换为Base64时出错:【{ex.Message}】"); } } private void btnRestore_Click(object sender, EventArgs e) { rtxtSourceString.Clear(); if (rtxtBase64String.Text.Trim().Length == 0) { rtxtBase64String.Focus(); DisplayMessage("Base64字符串不能为空"); return; } try { Encoding encoding = Encoding.GetEncoding(cboEncoding.Text); byte[] buffer = Convert.FromBase64String(rtxtBase64String.Text); rtxtSourceString.Text = encoding.GetString(buffer); DisplayMessage($"还原成功,源字符串【{rtxtSourceString.Text}】"); } catch (Exception ex) { DisplayMessage($"还原字符串时出错:【{ex.Message}】"); } } } }
程序运行如图:
参考微软源代码:Reference Source
public static unsafe String ToBase64String(byte[] inArray, int offset, int length, Base64FormattingOptions options) { //Do data verfication if (inArray==null) throw new ArgumentNullException("inArray"); if (length<0) throw new ArgumentOutOfRangeException("length", Environment.GetResourceString("ArgumentOutOfRange_Index")); if (offset<0) throw new ArgumentOutOfRangeException("offset", Environment.GetResourceString("ArgumentOutOfRange_GenericPositive")); if (options < Base64FormattingOptions.None || options > Base64FormattingOptions.InsertLineBreaks) throw new ArgumentException(Environment.GetResourceString("Arg_EnumIllegalVal", (int)options)); Contract.Ensures(Contract.Result<string>() != null); Contract.EndContractBlock(); int inArrayLength; int stringLength; inArrayLength = inArray.Length; if (offset > (inArrayLength - length)) throw new ArgumentOutOfRangeException("offset", Environment.GetResourceString("ArgumentOutOfRange_OffsetLength")); if (inArrayLength == 0) return String.Empty; bool insertLineBreaks = (options == Base64FormattingOptions.InsertLineBreaks); //Create the new string. This is the maximally required length. stringLength = ToBase64_CalculateAndValidateOutputLength(length, insertLineBreaks); string returnString = string.FastAllocateString(stringLength); fixed (char* outChars = returnString){ fixed (byte* inData = inArray) { int j = ConvertToBase64Array(outChars,inData,offset,length, insertLineBreaks); BCLDebug.Assert(returnString.Length == j, "returnString.Length == j"); return returnString; } } }
Base64处理字节数组逻辑函数
internal static readonly char[] base64Table = {'A','B','C','D','E','F','G','H','I','J','K','L','M','N','O', 'P','Q','R','S','T','U','V','W','X','Y','Z','a','b','c','d', 'e','f','g','h','i','j','k','l','m','n','o','p','q','r','s', 't','u','v','w','x','y','z','0','1','2','3','4','5','6','7', '8','9','+','/','=' }; private const Int32 base64LineBreakPosition = 76;
[System.Security.SecurityCritical] // auto-generated private static unsafe int ConvertToBase64Array(char* outChars, byte* inData, int offset, int length, bool insertLineBreaks) { int lengthmod3 = length%3; int calcLength = offset + (length - lengthmod3); int j=0; int charcount = 0; //Convert three bytes at a time to base64 notation. This will consume 4 chars. int i; // get a pointer to the base64Table to avoid unnecessary range checking fixed(char* base64 = base64Table) { for (i=offset; i<calcLength; i+=3) { if (insertLineBreaks) { if (charcount == base64LineBreakPosition) { outChars[j++] = '\r'; outChars[j++] = '\n'; charcount = 0; } charcount += 4; } outChars[j] = base64[(inData[i]&0xfc)>>2]; outChars[j+1] = base64[((inData[i]&0x03)<<4) | ((inData[i+1]&0xf0)>>4)]; outChars[j+2] = base64[((inData[i+1]&0x0f)<<2) | ((inData[i+2]&0xc0)>>6)]; outChars[j+3] = base64[(inData[i+2]&0x3f)]; j += 4; } //Where we left off before i = calcLength; if (insertLineBreaks && (lengthmod3 !=0) && (charcount == base64LineBreakPosition)) { outChars[j++] = '\r'; outChars[j++] = '\n'; } switch(lengthmod3) { case 2: //One character padding needed outChars[j] = base64[(inData[i]&0xfc)>>2]; outChars[j+1] = base64[((inData[i]&0x03)<<4)|((inData[i+1]&0xf0)>>4)]; outChars[j+2] = base64[(inData[i+1]&0x0f)<<2]; outChars[j+3] = base64[64]; //Pad j+=4; break; case 1: // Two character padding needed outChars[j] = base64[(inData[i]&0xfc)>>2]; outChars[j+1] = base64[(inData[i]&0x03)<<4]; outChars[j+2] = base64[64]; //Pad outChars[j+3] = base64[64]; //Pad j+=4; break; } } return j; } private static int ToBase64_CalculateAndValidateOutputLength(int inputLength, bool insertLineBreaks) { long outlen = ((long)inputLength) / 3 * 4; // the base length - we want integer division here. outlen += ((inputLength % 3) != 0) ? 4 : 0; // at most 4 more chars for the remainder if (outlen == 0) return 0; if (insertLineBreaks) { long newLines = outlen / base64LineBreakPosition; if ((outlen % base64LineBreakPosition) == 0) { --newLines; } outlen += newLines * 2; // the number of line break chars we'll add, "\r\n" } // If we overflow an int then we cannot allocate enough // memory to output the value so throw if (outlen > int.MaxValue) throw new OutOfMemoryException(); return (int)outlen; }
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