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//
//  ========================================================================
//  Copyright (c) 1995-2018 Mort Bay Consulting Pty. Ltd.
//  ------------------------------------------------------------------------
//  All rights reserved. This program and the accompanying materials
//  are made available under the terms of the Eclipse Public License v1.0
//  and Apache License v2.0 which accompanies this distribution.
//
//      The Eclipse Public License is available at
//      http://www.eclipse.org/legal/epl-v10.html
//
//      The Apache License v2.0 is available at
//      http://www.opensource.org/licenses/apache2.0.php
//
//  You may elect to redistribute this code under either of these licenses.
//  ========================================================================
//

package org.eclipse.jetty.util;

import java.io.UnsupportedEncodingException;
import java.nio.charset.StandardCharsets;
import java.util.ArrayList;
import java.util.List;

import org.eclipse.jetty.util.log.Log;
import org.eclipse.jetty.util.log.Logger;

/** Fast String Utilities.
 *
 * These string utilities provide both convenience methods and
 * performance improvements over most standard library versions. The
 * main aim of the optimizations is to avoid object creation unless
 * absolutely required.
 *
 * 
 */
public class StringUtil
{
    private static final Logger LOG = Log.getLogger(StringUtil.class);
    
    
    private final static Trie CHARSETS= new ArrayTrie<>(256);
    
    public static final String ALL_INTERFACES="0.0.0.0";
    public static final String CRLF="\015\012";
    
    /** @deprecated use {@link System#lineSeparator()} instead */
    @Deprecated
    public static final String __LINE_SEPARATOR = System.lineSeparator();
       
    public static final String __ISO_8859_1="iso-8859-1";
    public final static String __UTF8="utf-8";
    public final static String __UTF16="utf-16";
    
    static
    {
        CHARSETS.put("utf-8",__UTF8);
        CHARSETS.put("utf8",__UTF8);
        CHARSETS.put("utf-16",__UTF16);
        CHARSETS.put("utf16",__UTF16);
        CHARSETS.put("iso-8859-1",__ISO_8859_1);
        CHARSETS.put("iso_8859_1",__ISO_8859_1);
    }
    
    /* ------------------------------------------------------------ */
    /** Convert alternate charset names (eg utf8) to normalized
     * name (eg UTF-8).
     * @param s the charset to normalize
     * @return the normalized charset (or null if normalized version not found)
     */
    public static String normalizeCharset(String s)
    {
        String n=CHARSETS.get(s);
        return (n==null)?s:n;
    }
    
    /* ------------------------------------------------------------ */
    /** Convert alternate charset names (eg utf8) to normalized
     * name (eg UTF-8).
     * @param s the charset to normalize
     * @param offset the offset in the charset
     * @param length the length of the charset in the input param
     * @return the normalized charset (or null if not found)
     */
    public static String normalizeCharset(String s,int offset,int length)
    {
        String n=CHARSETS.get(s,offset,length);       
        return (n==null)?s.substring(offset,offset+length):n;
    }
    

    /* ------------------------------------------------------------ */
    public static final char[] lowercases = {
          '\000','\001','\002','\003','\004','\005','\006','\007',
          '\010','\011','\012','\013','\014','\015','\016','\017',
          '\020','\021','\022','\023','\024','\025','\026','\027',
          '\030','\031','\032','\033','\034','\035','\036','\037',
          '\040','\041','\042','\043','\044','\045','\046','\047',
          '\050','\051','\052','\053','\054','\055','\056','\057',
          '\060','\061','\062','\063','\064','\065','\066','\067',
          '\070','\071','\072','\073','\074','\075','\076','\077',
          '\100','\141','\142','\143','\144','\145','\146','\147',
          '\150','\151','\152','\153','\154','\155','\156','\157',
          '\160','\161','\162','\163','\164','\165','\166','\167',
          '\170','\171','\172','\133','\134','\135','\136','\137',
          '\140','\141','\142','\143','\144','\145','\146','\147',
          '\150','\151','\152','\153','\154','\155','\156','\157',
          '\160','\161','\162','\163','\164','\165','\166','\167',
          '\170','\171','\172','\173','\174','\175','\176','\177' };

    /* ------------------------------------------------------------ */
    /**
     * fast lower case conversion. Only works on ascii (not unicode)
     * @param s the string to convert
     * @return a lower case version of s
     */
    public static String asciiToLowerCase(String s)
    {
        if (s == null)
            return null;
        
        char[] c = null;
        int i=s.length();

        // look for first conversion
        while (i-->0)
        {
            char c1=s.charAt(i);
            if (c1<=127)
            {
                char c2=lowercases[c1];
                if (c1!=c2)
                {
                    c=s.toCharArray();
                    c[i]=c2;
                    break;
                }
            }
        }

        while (i-->0)
        {
            if(c[i]<=127)
                c[i] = lowercases[c[i]];
        }
        
        return c==null?s:new String(c);
    }


    /* ------------------------------------------------------------ */
    public static boolean startsWithIgnoreCase(String s,String w)
    {
        if (w==null)
            return true;
        
        if (s==null || s.length()0;)
        {
            char c1=s.charAt(--sl);
            char c2=w.charAt(i);
            if (c1!=c2)
            {
                if (c1<=127)
                    c1=lowercases[c1];
                if (c2<=127)
                    c2=lowercases[c2];
                if (c1!=c2)
                    return false;
            }
        }
        return true;
    }
    
    /* ------------------------------------------------------------ */
    /**
     * returns the next index of a character from the chars string
     * @param s the input string to search
     * @param chars the chars to look for
     * @return the index of the character in the input stream found.
     */
    public static int indexFrom(String s,String chars)
    {
        for (int i=0;i=0)
              return i;
        return -1;
    }
    
    /* ------------------------------------------------------------ */
    /**
     * replace substrings within string.
     * @param s the input string
     * @param sub the string to look for
     * @param with the string to replace with
     * @return the now replaced string
     */
    public static String replace(String s, String sub, String with)
    {
        int c=0;
        int i=s.indexOf(sub,c);
        if (i == -1)
            return s;
    
        StringBuilder buf = new StringBuilder(s.length()+with.length());

        do
        {
            buf.append(s.substring(c,i));
            buf.append(with);
            c=i+sub.length();
        } while ((i=s.indexOf(sub,c))!=-1);

        if (c=s.length())
                    break;
                buf.append(s.charAt(i));
            }
        }
    }

    
    /* ------------------------------------------------------------ */
    /**
     * append hex digit
     * @param buf the buffer to append to
     * @param b the byte to append
     * @param base the base of the hex output (almost always 16).
     * 
     */
    public static void append(StringBuilder buf,byte b,int base)
    {
        int bi=0xff&b;
        int c='0'+(bi/base)%base;
        if (c>'9')
            c= 'a'+(c-'0'-10);
        buf.append((char)c);
        c='0'+bi%base;
        if (c>'9')
            c= 'a'+(c-'0'-10);
        buf.append((char)c);
    }

    /* ------------------------------------------------------------ */
    /**
     * Append 2 digits (zero padded) to the StringBuffer
     * 
     * @param buf the buffer to append to
     * @param i the value to append
     */
    public static void append2digits(StringBuffer buf,int i)
    {
        if (i<100)
        {
            buf.append((char)(i/10+'0'));
            buf.append((char)(i%10+'0'));
        }
    }
    
    /* ------------------------------------------------------------ */
    /**
     * Append 2 digits (zero padded) to the StringBuilder
     * 
     * @param buf the buffer to append to
     * @param i the value to append
     */
    public static void append2digits(StringBuilder buf,int i)
    {
        if (i<100)
        {
            buf.append((char)(i/10+'0'));
            buf.append((char)(i%10+'0'));
        }
    }
    
    /* ------------------------------------------------------------ */
    /** Return a non null string.
     * @param s String
     * @return The string passed in or empty string if it is null. 
     */
    public static String nonNull(String s)
    {
        if (s==null)
            return "";
        return s;
    }
    
    /* ------------------------------------------------------------ */
    public static boolean equals(String s,char[] buf, int offset, int length)
    {
        if (s.length()!=length)
            return false;
        for (int i=0;i
     * This will return a result on the first occurrence of a control character, regardless if
     * there are more than one.
     * 

*

* Note: uses codepoint version of {@link Character#isISOControl(int)} to support Unicode better. *

* *
     *   indexOfControlChars(null)      == -1
     *   indexOfControlChars("")        == -1
     *   indexOfControlChars("\r\n")    == 0
     *   indexOfControlChars("\t")      == 0
     *   indexOfControlChars("   ")     == -1
     *   indexOfControlChars("a")       == -1
     *   indexOfControlChars(".")       == -1
     *   indexOfControlChars(";\n")     == 1
     *   indexOfControlChars("abc\f")   == 3
     *   indexOfControlChars("z\010")   == 1
     *   indexOfControlChars(":\u001c") == 1
     * 
* * @param str * the string to test. * @return the index of first control character in string, -1 if no control characters encountered */ public static int indexOfControlChars(String str) { if (str == null) { return -1; } int len = str.length(); for (int i = 0; i < len; i++) { if (Character.isISOControl(str.codePointAt(i))) { // found a control character, we can stop searching now return i; } } // no control characters return -1; } /* ------------------------------------------------------------ */ /** * Test if a string is null or only has whitespace characters in it. *

* Note: uses codepoint version of {@link Character#isWhitespace(int)} to support Unicode better. * *

     *   isBlank(null)   == true
     *   isBlank("")     == true
     *   isBlank("\r\n") == true
     *   isBlank("\t")   == true
     *   isBlank("   ")  == true
     *   isBlank("a")    == false
     *   isBlank(".")    == false
     *   isBlank(";\n")  == false
     * 
* * @param str * the string to test. * @return true if string is null or only whitespace characters, false if non-whitespace characters encountered. */ public static boolean isBlank(String str) { if (str == null) { return true; } int len = str.length(); for (int i = 0; i < len; i++) { if (!Character.isWhitespace(str.codePointAt(i))) { // found a non-whitespace, we can stop searching now return false; } } // only whitespace return true; } /* ------------------------------------------------------------ */ /** * Test if a string is not null and contains at least 1 non-whitespace characters in it. *

* Note: uses codepoint version of {@link Character#isWhitespace(int)} to support Unicode better. * *

     *   isNotBlank(null)   == false
     *   isNotBlank("")     == false
     *   isNotBlank("\r\n") == false
     *   isNotBlank("\t")   == false
     *   isNotBlank("   ")  == false
     *   isNotBlank("a")    == true
     *   isNotBlank(".")    == true
     *   isNotBlank(";\n")  == true
     * 
* * @param str * the string to test. * @return true if string is not null and has at least 1 non-whitespace character, false if null or all-whitespace characters. */ public static boolean isNotBlank(String str) { if (str == null) { return false; } int len = str.length(); for (int i = 0; i < len; i++) { if (!Character.isWhitespace(str.codePointAt(i))) { // found a non-whitespace, we can stop searching now return true; } } // only whitespace return false; } /* ------------------------------------------------------------ */ public static boolean isUTF8(String charset) { return __UTF8.equalsIgnoreCase(charset)||__UTF8.equalsIgnoreCase(normalizeCharset(charset)); } /* ------------------------------------------------------------ */ public static String printable(String name) { if (name==null) return null; StringBuilder buf = new StringBuilder(name.length()); for (int i=0;i' ' && c<0x7f) buf.append(c); else { buf.append("0x"); TypeUtil.toHex(b[i],buf); } } return buf.toString(); } public static byte[] getBytes(String s) { return s.getBytes(StandardCharsets.ISO_8859_1); } public static byte[] getUtf8Bytes(String s) { return s.getBytes(StandardCharsets.UTF_8); } public static byte[] getBytes(String s,String charset) { try { return s.getBytes(charset); } catch(Exception e) { LOG.warn(e); return s.getBytes(); } } /** * Converts a binary SID to a string SID * * http://en.wikipedia.org/wiki/Security_Identifier * * S-1-IdentifierAuthority-SubAuthority1-SubAuthority2-...-SubAuthorityn * @param sidBytes the SID bytes to build from * @return the string SID */ @Deprecated public static String sidBytesToString(byte[] sidBytes) { StringBuilder sidString = new StringBuilder(); // Identify this as a SID sidString.append("S-"); // Add SID revision level (expect 1 but may change someday) sidString.append(Byte.toString(sidBytes[0])).append('-'); StringBuilder tmpBuilder = new StringBuilder(); // crunch the six bytes of issuing authority value for (int i = 2; i <= 7; ++i) { tmpBuilder.append(Integer.toHexString(sidBytes[i] & 0xFF)); } sidString.append(Long.parseLong(tmpBuilder.toString(), 16)); // '-' is in the subauth loop // the number of subAuthorities we need to attach int subAuthorityCount = sidBytes[1]; // attach each of the subAuthorities for (int i = 0; i < subAuthorityCount; ++i) { int offset = i * 4; tmpBuilder.setLength(0); // these need to be zero padded hex and little endian tmpBuilder.append(String.format("%02X%02X%02X%02X", (sidBytes[11 + offset] & 0xFF), (sidBytes[10 + offset] & 0xFF), (sidBytes[9 + offset] & 0xFF), (sidBytes[8 + offset] & 0xFF))); sidString.append('-').append(Long.parseLong(tmpBuilder.toString(), 16)); } return sidString.toString(); } /** * Converts a string SID to a binary SID * * http://en.wikipedia.org/wiki/Security_Identifier * * S-1-IdentifierAuthority-SubAuthority1-SubAuthority2-...-SubAuthorityn * @param sidString the string SID * @return the binary SID */ @Deprecated public static byte[] sidStringToBytes( String sidString ) { String[] sidTokens = sidString.split("-"); int subAuthorityCount = sidTokens.length - 3; // S-Rev-IdAuth- int byteCount = 0; byte[] sidBytes = new byte[1 + 1 + 6 + (4 * subAuthorityCount)]; // the revision byte sidBytes[byteCount++] = (byte)Integer.parseInt(sidTokens[1]); // the # of sub authorities byte sidBytes[byteCount++] = (byte)subAuthorityCount; // the certAuthority String hexStr = Long.toHexString(Long.parseLong(sidTokens[2])); while( hexStr.length() < 12) // pad to 12 characters { hexStr = "0" + hexStr; } // place the certAuthority 6 bytes for ( int i = 0 ; i < hexStr.length(); i = i + 2) { sidBytes[byteCount++] = (byte)Integer.parseInt(hexStr.substring(i, i + 2),16); } for ( int i = 3; i < sidTokens.length ; ++i) { hexStr = Long.toHexString(Long.parseLong(sidTokens[i])); while( hexStr.length() < 8) // pad to 8 characters { hexStr = "0" + hexStr; } // place the inverted sub authorities, 4 bytes each for ( int j = hexStr.length(); j > 0; j = j - 2) { sidBytes[byteCount++] = (byte)Integer.parseInt(hexStr.substring(j-2, j),16); } } return sidBytes; } /** * Convert String to an integer. Parses up to the first non-numeric character. If no number is found an IllegalArgumentException is thrown * * @param string A String containing an integer. * @param from The index to start parsing from * @return an int */ public static int toInt(String string,int from) { int val = 0; boolean started = false; boolean minus = false; for (int i = from; i < string.length(); i++) { char b = string.charAt(i); if (b <= ' ') { if (started) break; } else if (b >= '0' && b <= '9') { val = val * 10 + (b - '0'); started = true; } else if (b == '-' && !started) { minus = true; } else break; } if (started) return minus?(-val):val; throw new NumberFormatException(string); } /** * Convert String to an long. Parses up to the first non-numeric character. If no number is found an IllegalArgumentException is thrown * * @param string * A String containing an integer. * @return an int */ public static long toLong(String string) { long val = 0; boolean started = false; boolean minus = false; for (int i = 0; i < string.length(); i++) { char b = string.charAt(i); if (b <= ' ') { if (started) break; } else if (b >= '0' && b <= '9') { val = val * 10L + (b - '0'); started = true; } else if (b == '-' && !started) { minus = true; } else break; } if (started) return minus?(-val):val; throw new NumberFormatException(string); } /** * Truncate a string to a max size. * * @param str the string to possibly truncate * @param maxSize the maximum size of the string * @return the truncated string. if str param is null, then the returned string will also be null. */ public static String truncate(String str, int maxSize) { if (str == null) { return null; } if (str.length() <= maxSize) { return str; } return str.substring(0,maxSize); } /** * Parse the string representation of a list using {@link #csvSplit(List,String,int,int)} * @param s The string to parse, expected to be enclosed as '[...]' * @return An array of parsed values. */ public static String[] arrayFromString(String s) { if (s==null) return new String[]{}; if (!s.startsWith("[") || !s.endsWith("]")) throw new IllegalArgumentException(); if (s.length()==2) return new String[]{}; return csvSplit(s,1,s.length()-2); } /** * Parse a CSV string using {@link #csvSplit(List,String, int, int)} * @param s The string to parse * @return An array of parsed values. */ public static String[] csvSplit(String s) { if (s==null) return null; return csvSplit(s,0,s.length()); } /** * Parse a CSV string using {@link #csvSplit(List,String, int, int)} * @param s The string to parse * @param off The offset into the string to start parsing * @param len The len in characters to parse * @return An array of parsed values. */ public static String[] csvSplit(String s, int off,int len) { if (s==null) return null; if (off<0 || len<0 || off>s.length()) throw new IllegalArgumentException(); List list = new ArrayList<>(); csvSplit(list,s,off,len); return list.toArray(new String[list.size()]); } enum CsvSplitState { PRE_DATA, QUOTE, SLOSH, DATA, WHITE, POST_DATA }; /** Split a quoted comma separated string to a list *

Handle rfc4180-like * CSV strings, with the exceptions:

    *
  • quoted values may contain double quotes escaped with back-slash *
  • Non-quoted values are trimmed of leading trailing white space *
  • trailing commas are ignored *
  • double commas result in a empty string value *
* @param list The Collection to split to (or null to get a new list) * @param s The string to parse * @param off The offset into the string to start parsing * @param len The len in characters to parse * @return list containing the parsed list values */ public static List csvSplit(List list,String s, int off,int len) { if (list==null) list=new ArrayList<>(); CsvSplitState state = CsvSplitState.PRE_DATA; StringBuilder out = new StringBuilder(); int last=-1; while (len>0) { char ch = s.charAt(off++); len--; switch(state) { case PRE_DATA: if (Character.isWhitespace(ch)) continue; if ('"'==ch) { state=CsvSplitState.QUOTE; continue; } if (','==ch) { list.add(""); continue; } state=CsvSplitState.DATA; out.append(ch); continue; case DATA: if (Character.isWhitespace(ch)) { last=out.length(); out.append(ch); state=CsvSplitState.WHITE; continue; } if (','==ch) { list.add(out.toString()); out.setLength(0); state=CsvSplitState.PRE_DATA; continue; } out.append(ch); continue; case WHITE: if (Character.isWhitespace(ch)) { out.append(ch); continue; } if (','==ch) { out.setLength(last); list.add(out.toString()); out.setLength(0); state=CsvSplitState.PRE_DATA; continue; } state=CsvSplitState.DATA; out.append(ch); last=-1; continue; case QUOTE: if ('\\'==ch) { state=CsvSplitState.SLOSH; continue; } if ('"'==ch) { list.add(out.toString()); out.setLength(0); state=CsvSplitState.POST_DATA; continue; } out.append(ch); continue; case SLOSH: out.append(ch); state=CsvSplitState.QUOTE; continue; case POST_DATA: if (','==ch) { state=CsvSplitState.PRE_DATA; continue; } continue; } } switch(state) { case PRE_DATA: case POST_DATA: break; case DATA: case QUOTE: case SLOSH: list.add(out.toString()); break; case WHITE: out.setLength(last); list.add(out.toString()); break; } return list; } public static String sanitizeXmlString(String html) { if (html==null) return null; int i=0; // Are there any characters that need sanitizing? loop: for (;i' : case '\'': case '"': break loop; default: if (Character.isISOControl(c) && !Character.isWhitespace(c)) break loop; } } // No characters need sanitizing, so return original string if (i==html.length()) return html; // Create builder with OK content so far StringBuilder out = new StringBuilder(html.length()*4/3); out.append(html,0,i); // sanitize remaining content for (;i' : out.append(">"); break; case '\'': out.append("'"); break; case '"': out.append("""); break; default: if (Character.isISOControl(c) && !Character.isWhitespace(c)) out.append('?'); else out.append(c); } } return out.toString(); } /* ------------------------------------------------------------ */ /** The String value of an Object *

This method calls {@link String#valueOf(Object)} unless the object is null, * in which case null is returned

* @param object The object * @return String value or null */ public static String valueOf(Object object) { return object==null?null:String.valueOf(object); } }




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