Update tools.go

tools.go

@@ -2,9 +2,9 @@ package main
 
 import (
 	"bytes"
+	"encoding/base64"
 	"encoding/json"
 	"fmt"
-	"net/url"
 	"regexp"
 	"strings"
 )
@@ -152,32 +152,22 @@ func generateHTTPRequest(input string) (string, error) {
 	// 构建 Header
 	var headerLines []string
 	for key, values := range req.Header {
+		if strings.ToLower(key) == "content-length" {
+			continue // 跳过 Content-Length
+		}
 		if len(values) > 0 {
 			// 将多个值用逗号分隔
 			headerLines = append(headerLines, fmt.Sprintf("%s: %s", key, strings.Join(values, ",")))
 		}
 	}
 
-	// 特殊处理 Origin 和 Referer
-	if val, ok := req.Header["Origin"]; ok && len(val) > 0 {
-		origin := val[0]
-		parsedOrigin, err := url.Parse(origin)
-		if err == nil {
-			headerLines = append(headerLines, fmt.Sprintf("Origin: %s", parsedOrigin.String()))
-		}
+	decodedBytes, err := base64.StdEncoding.DecodeString(req.Body)
+	if err != nil {
+		fmt.Println("解码错误:", err)
 	}
-
-	if val, ok := req.Header["Referer"]; ok && len(val) > 0 {
-		referer := val[0]
-		parsedReferer, err := url.Parse(referer)
-		if err == nil {
-			headerLines = append(headerLines, fmt.Sprintf("Referer: %s", parsedReferer.String()))
-		}
-	}
-
 	// 如果 Body 不为空，计算 Content-Length
-	if req.Body != "" {
-		contentLength := len(req.Body)
+	if string(decodedBytes) != "" {
+		contentLength := len(string(decodedBytes))
 		headerLines = append(headerLines, fmt.Sprintf("Content-Length: %d", contentLength))
 	}
 
@@ -188,9 +178,72 @@ func generateHTTPRequest(input string) (string, error) {
 		buffer.WriteString(line + "\n")
 	}
 	if req.Body != "" {
-		buffer.WriteString("\n" + req.Body)
+		buffer.WriteString("\n" + string(decodedBytes))
 	} else {
 		buffer.WriteString("\n\n")
 	}
 	return buffer.String(), nil
 }
+
+// Levenshtein 计算两个字符串的Levenshtein距离
+func Levenshtein(a, b string) int {
+	lenA := len(a)
+	lenB := len(b)
+	if lenA == 0 {
+		return lenB
+	}
+	if lenB == 0 {
+		return lenA
+	}
+
+	// 创建距离矩阵
+	dist := make([][]int, lenA+1)
+	for i := range dist {
+		dist[i] = make([]int, lenB+1)
+		dist[i][0] = i
+	}
+	for j := 0; j <= lenB; j++ {
+		dist[0][j] = j
+	}
+
+	// 填充距离矩阵
+	for i := 1; i <= lenA; i++ {
+		for j := 1; j <= lenB; j++ {
+			cost := 1
+			if a[i-1] == b[j-1] {
+				cost = 0
+			}
+			dist[i][j] = min(
+				dist[i-1][j]+1,      // 删除
+				dist[i][j-1]+1,      // 插入
+				dist[i-1][j-1]+cost, // 替换
+			)
+		}
+	}
+
+	return dist[lenA][lenB]
+}
+
+// min 返回三个整数中的最小值
+func min(a, b, c int) int {
+	if a < b {
+		if a < c {
+			return a
+		}
+		return c
+	}
+	if b < c {
+		return b
+	}
+	return c
+}
+
+// StringSimilarity 计算两个字符串的相似度 (0-1之间)
+func StringSimilarity(a, b string) float64 {
+	distance := Levenshtein(a, b)
+	maxLength := len(a)
+	if len(b) > maxLength {
+		maxLength = len(b)
+	}
+	return 1.0 - float64(distance)/float64(maxLength)
+}