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/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements. See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache license, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License. You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the license for the specific language governing permissions and
 * limitations under the license.
 */
package org.apache.logging.log4j.message;

import java.text.SimpleDateFormat;
import java.util.Arrays;
import java.util.Collection;
import java.util.Date;
import java.util.HashSet;
import java.util.Map;
import java.util.Set;

import org.apache.logging.log4j.util.StringBuilders;

/**
 * Supports parameter formatting as used in ParameterizedMessage and ReusableParameterizedMessage.
 */
final class ParameterFormatter {
    /**
     * Prefix for recursion.
     */
    static final String RECURSION_PREFIX = "[...";
    /**
     * Suffix for recursion.
     */
    static final String RECURSION_SUFFIX = "...]";

    /**
     * Prefix for errors.
     */
    static final String ERROR_PREFIX = "[!!!";
    /**
     * Separator for errors.
     */
    static final String ERROR_SEPARATOR = "=>";
    /**
     * Separator for error messages.
     */
    static final String ERROR_MSG_SEPARATOR = ":";
    /**
     * Suffix for errors.
     */
    static final String ERROR_SUFFIX = "!!!]";

    private static final char DELIM_START = '{';
    private static final char DELIM_STOP = '}';
    private static final char ESCAPE_CHAR = '\\';

    private static ThreadLocal threadLocalSimpleDateFormat = new ThreadLocal<>();

    private ParameterFormatter() {
    }

    /**
     * Counts the number of unescaped placeholders in the given messagePattern.
     *
     * @param messagePattern the message pattern to be analyzed.
     * @return the number of unescaped placeholders.
     */
    static int countArgumentPlaceholders(final String messagePattern) {
        if (messagePattern == null) {
            return 0;
        }
        final int length = messagePattern.length();
        int result = 0;
        boolean isEscaped = false;
        for (int i = 0; i < length - 1; i++) {
            final char curChar = messagePattern.charAt(i);
            if (curChar == ESCAPE_CHAR) {
                isEscaped = !isEscaped;
            } else if (curChar == DELIM_START) {
                if (!isEscaped && messagePattern.charAt(i + 1) == DELIM_STOP) {
                    result++;
                    i++;
                }
                isEscaped = false;
            } else {
                isEscaped = false;
            }
        }
        return result;
    }

    /**
     * Counts the number of unescaped placeholders in the given messagePattern.
     *
     * @param messagePattern the message pattern to be analyzed.
     * @return the number of unescaped placeholders.
     */
    static int countArgumentPlaceholders2(final String messagePattern, final int[] indices) {
        if (messagePattern == null) {
            return 0;
        }
        final int length = messagePattern.length();
        int result = 0;
        boolean isEscaped = false;
        for (int i = 0; i < length - 1; i++) {
            final char curChar = messagePattern.charAt(i);
            if (curChar == ESCAPE_CHAR) {
                isEscaped = !isEscaped;
                indices[0] = -1; // escaping means fast path is not available...
                result++;
            } else if (curChar == DELIM_START) {
                if (!isEscaped && messagePattern.charAt(i + 1) == DELIM_STOP) {
                    indices[result] = i;
                    result++;
                    i++;
                }
                isEscaped = false;
            } else {
                isEscaped = false;
            }
        }
        return result;
    }

    /**
     * Counts the number of unescaped placeholders in the given messagePattern.
     *
     * @param messagePattern the message pattern to be analyzed.
     * @return the number of unescaped placeholders.
     */
    static int countArgumentPlaceholders3(final char[] messagePattern, final int length, final int[] indices) {
        int result = 0;
        boolean isEscaped = false;
        for (int i = 0; i < length - 1; i++) {
            final char curChar = messagePattern[i];
            if (curChar == ESCAPE_CHAR) {
                isEscaped = !isEscaped;
            } else if (curChar == DELIM_START) {
                if (!isEscaped && messagePattern[i + 1] == DELIM_STOP) {
                    indices[result] = i;
                    result++;
                    i++;
                }
                isEscaped = false;
            } else {
                isEscaped = false;
            }
        }
        return result;
    }

    /**
     * Replace placeholders in the given messagePattern with arguments.
     *
     * @param messagePattern the message pattern containing placeholders.
     * @param arguments      the arguments to be used to replace placeholders.
     * @return the formatted message.
     */
    static String format(final String messagePattern, final Object[] arguments) {
        final StringBuilder result = new StringBuilder();
        final int argCount = arguments == null ? 0 : arguments.length;
        formatMessage(result, messagePattern, arguments, argCount);
        return result.toString();
    }

    /**
     * Replace placeholders in the given messagePattern with arguments.
     *
     * @param buffer the buffer to write the formatted message into
     * @param messagePattern the message pattern containing placeholders.
     * @param arguments      the arguments to be used to replace placeholders.
     */
    static void formatMessage2(final StringBuilder buffer, final String messagePattern,
            final Object[] arguments, final int argCount, final int[] indices) {
        if (messagePattern == null || arguments == null || argCount == 0) {
            buffer.append(messagePattern);
            return;
        }
        int previous = 0;
        for (int i = 0; i < argCount; i++) {
            buffer.append(messagePattern, previous, indices[i]);
            previous = indices[i] + 2;
            recursiveDeepToString(arguments[i], buffer, null);
        }
        buffer.append(messagePattern, previous, messagePattern.length());
    }

    /**
     * Replace placeholders in the given messagePattern with arguments.
     *
     * @param buffer the buffer to write the formatted message into
     * @param messagePattern the message pattern containing placeholders.
     * @param arguments      the arguments to be used to replace placeholders.
     */
    static void formatMessage3(final StringBuilder buffer, final char[] messagePattern, final int patternLength,
            final Object[] arguments, final int argCount, final int[] indices) {
        if (messagePattern == null) {
            return;
        }
        if (arguments == null || argCount == 0) {
            buffer.append(messagePattern);
            return;
        }
        int previous = 0;
        for (int i = 0; i < argCount; i++) {
            buffer.append(messagePattern, previous, indices[i]);
            previous = indices[i] + 2;
            recursiveDeepToString(arguments[i], buffer, null);
        }
        buffer.append(messagePattern, previous, patternLength);
    }

    /**
     * Replace placeholders in the given messagePattern with arguments.
     *
     * @param buffer the buffer to write the formatted message into
     * @param messagePattern the message pattern containing placeholders.
     * @param arguments      the arguments to be used to replace placeholders.
     */
    static void formatMessage(final StringBuilder buffer, final String messagePattern,
            final Object[] arguments, final int argCount) {
        if (messagePattern == null || arguments == null || argCount == 0) {
            buffer.append(messagePattern);
            return;
        }
        int escapeCounter = 0;
        int currentArgument = 0;
        int i = 0;
        final int len = messagePattern.length();
        for (; i < len - 1; i++) { // last char is excluded from the loop
            final char curChar = messagePattern.charAt(i);
            if (curChar == ESCAPE_CHAR) {
                escapeCounter++;
            } else {
                if (isDelimPair(curChar, messagePattern, i)) { // looks ahead one char
                    i++;

                    // write escaped escape chars
                    writeEscapedEscapeChars(escapeCounter, buffer);

                    if (isOdd(escapeCounter)) {
                        // i.e. escaped: write escaped escape chars
                        writeDelimPair(buffer);
                    } else {
                        // unescaped
                        writeArgOrDelimPair(arguments, argCount, currentArgument, buffer);
                        currentArgument++;
                    }
                } else {
                    handleLiteralChar(buffer, escapeCounter, curChar);
                }
                escapeCounter = 0;
            }
        }
        handleRemainingCharIfAny(messagePattern, len, buffer, escapeCounter, i);
    }

    /**
     * Returns {@code true} if the specified char and the char at {@code curCharIndex + 1} in the specified message
     * pattern together form a "{}" delimiter pair, returns {@code false} otherwise.
     */
    // Profiling showed this method is important to log4j performance. Modify with care!
    // 22 bytes (allows immediate JVM inlining: < 35 bytes) LOG4J2-1096
    private static boolean isDelimPair(final char curChar, final String messagePattern, final int curCharIndex) {
        return curChar == DELIM_START && messagePattern.charAt(curCharIndex + 1) == DELIM_STOP;
    }

    /**
     * Detects whether the message pattern has been fully processed or if an unprocessed character remains and processes
     * it if necessary, returning the resulting position in the result char array.
     */
    // Profiling showed this method is important to log4j performance. Modify with care!
    // 28 bytes (allows immediate JVM inlining: < 35 bytes) LOG4J2-1096
    private static void handleRemainingCharIfAny(final String messagePattern, final int len,
            final StringBuilder buffer, final int escapeCounter, final int i) {
        if (i == len - 1) {
            final char curChar = messagePattern.charAt(i);
            handleLastChar(buffer, escapeCounter, curChar);
        }
    }

    /**
     * Processes the last unprocessed character and returns the resulting position in the result char array.
     */
    // Profiling showed this method is important to log4j performance. Modify with care!
    // 28 bytes (allows immediate JVM inlining: < 35 bytes) LOG4J2-1096
    private static void handleLastChar(final StringBuilder buffer, final int escapeCounter, final char curChar) {
        if (curChar == ESCAPE_CHAR) {
            writeUnescapedEscapeChars(escapeCounter + 1, buffer);
        } else {
            handleLiteralChar(buffer, escapeCounter, curChar);
        }
    }

    /**
     * Processes a literal char (neither an '\' escape char nor a "{}" delimiter pair) and returns the resulting
     * position.
     */
    // Profiling showed this method is important to log4j performance. Modify with care!
    // 16 bytes (allows immediate JVM inlining: < 35 bytes) LOG4J2-1096
    private static void handleLiteralChar(final StringBuilder buffer, final int escapeCounter, final char curChar) {
        // any other char beside ESCAPE or DELIM_START/STOP-combo
        // write unescaped escape chars
        writeUnescapedEscapeChars(escapeCounter, buffer);
        buffer.append(curChar);
    }

    /**
     * Writes "{}" to the specified result array at the specified position and returns the resulting position.
     */
    // Profiling showed this method is important to log4j performance. Modify with care!
    // 18 bytes (allows immediate JVM inlining: < 35 bytes) LOG4J2-1096
    private static void writeDelimPair(final StringBuilder buffer) {
        buffer.append(DELIM_START);
        buffer.append(DELIM_STOP);
    }

    /**
     * Returns {@code true} if the specified parameter is odd.
     */
    // Profiling showed this method is important to log4j performance. Modify with care!
    // 11 bytes (allows immediate JVM inlining: < 35 bytes) LOG4J2-1096
    private static boolean isOdd(final int number) {
        return (number & 1) == 1;
    }

    /**
     * Writes a '\' char to the specified result array (starting at the specified position) for each pair of
     * '\' escape chars encountered in the message format and returns the resulting position.
     */
    // Profiling showed this method is important to log4j performance. Modify with care!
    // 11 bytes (allows immediate JVM inlining: < 35 bytes) LOG4J2-1096
    private static void writeEscapedEscapeChars(final int escapeCounter, final StringBuilder buffer) {
        final int escapedEscapes = escapeCounter >> 1; // divide by two
        writeUnescapedEscapeChars(escapedEscapes, buffer);
    }

    /**
     * Writes the specified number of '\' chars to the specified result array (starting at the specified position) and
     * returns the resulting position.
     */
    // Profiling showed this method is important to log4j performance. Modify with care!
    // 20 bytes (allows immediate JVM inlining: < 35 bytes) LOG4J2-1096
    private static void writeUnescapedEscapeChars(int escapeCounter, final StringBuilder buffer) {
        while (escapeCounter > 0) {
            buffer.append(ESCAPE_CHAR);
            escapeCounter--;
        }
    }

    /**
     * Appends the argument at the specified argument index (or, if no such argument exists, the "{}" delimiter pair) to
     * the specified result char array at the specified position and returns the resulting position.
     */
    // Profiling showed this method is important to log4j performance. Modify with care!
    // 25 bytes (allows immediate JVM inlining: < 35 bytes) LOG4J2-1096
    private static void writeArgOrDelimPair(final Object[] arguments, final int argCount, final int currentArgument,
            final StringBuilder buffer) {
        if (currentArgument < argCount) {
            recursiveDeepToString(arguments[currentArgument], buffer, null);
        } else {
            writeDelimPair(buffer);
        }
    }

    /**
     * This method performs a deep toString of the given Object.
     * Primitive arrays are converted using their respective Arrays.toString methods while
     * special handling is implemented for "container types", i.e. Object[], Map and Collection because those could
     * contain themselves.
     * 

* It should be noted that neither AbstractMap.toString() nor AbstractCollection.toString() implement such a * behavior. They only check if the container is directly contained in itself, but not if a contained container * contains the original one. Because of that, Arrays.toString(Object[]) isn't safe either. * Confusing? Just read the last paragraph again and check the respective toString() implementation. *

*

* This means, in effect, that logging would produce a usable output even if an ordinary System.out.println(o) * would produce a relatively hard-to-debug StackOverflowError. *

* @param o The object. * @return The String representation. */ static String deepToString(final Object o) { if (o == null) { return null; } // Check special types to avoid unnecessary StringBuilder usage if (o instanceof String) { return (String) o; } if (o instanceof Integer) { return Integer.toString((Integer) o); } if (o instanceof Long) { return Long.toString((Long) o); } if (o instanceof Double) { return Double.toString((Double) o); } if (o instanceof Boolean) { return Boolean.toString((Boolean) o); } if (o instanceof Character) { return Character.toString((Character) o); } if (o instanceof Short) { return Short.toString((Short) o); } if (o instanceof Float) { return Float.toString((Float) o); } if (o instanceof Byte) { return Byte.toString((Byte) o); } final StringBuilder str = new StringBuilder(); recursiveDeepToString(o, str, null); return str.toString(); } /** * This method performs a deep toString of the given Object. * Primitive arrays are converted using their respective Arrays.toString methods while * special handling is implemented for "container types", i.e. Object[], Map and Collection because those could * contain themselves. *

* dejaVu is used in case of those container types to prevent an endless recursion. *

*

* It should be noted that neither AbstractMap.toString() nor AbstractCollection.toString() implement such a * behavior. * They only check if the container is directly contained in itself, but not if a contained container contains the * original one. Because of that, Arrays.toString(Object[]) isn't safe either. * Confusing? Just read the last paragraph again and check the respective toString() implementation. *

*

* This means, in effect, that logging would produce a usable output even if an ordinary System.out.println(o) * would produce a relatively hard-to-debug StackOverflowError. *

* * @param o the Object to convert into a String * @param str the StringBuilder that o will be appended to * @param dejaVu a list of container identities that were already used. */ static void recursiveDeepToString(final Object o, final StringBuilder str, final Set dejaVu) { if (appendSpecialTypes(o, str)) { return; } if (isMaybeRecursive(o)) { appendPotentiallyRecursiveValue(o, str, dejaVu); } else { tryObjectToString(o, str); } } private static boolean appendSpecialTypes(final Object o, final StringBuilder str) { return StringBuilders.appendSpecificTypes(str, o) || appendDate(o, str); } private static boolean appendDate(final Object o, final StringBuilder str) { if (!(o instanceof Date)) { return false; } final Date date = (Date) o; final SimpleDateFormat format = getSimpleDateFormat(); str.append(format.format(date)); return true; } private static SimpleDateFormat getSimpleDateFormat() { SimpleDateFormat result = threadLocalSimpleDateFormat.get(); if (result == null) { result = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss.SSSZ"); threadLocalSimpleDateFormat.set(result); } return result; } /** * Returns {@code true} if the specified object is an array, a Map or a Collection. */ private static boolean isMaybeRecursive(final Object o) { return o.getClass().isArray() || o instanceof Map || o instanceof Collection; } private static void appendPotentiallyRecursiveValue(final Object o, final StringBuilder str, final Set dejaVu) { final Class oClass = o.getClass(); if (oClass.isArray()) { appendArray(o, str, dejaVu, oClass); } else if (o instanceof Map) { appendMap(o, str, dejaVu); } else if (o instanceof Collection) { appendCollection(o, str, dejaVu); } } private static void appendArray(final Object o, final StringBuilder str, Set dejaVu, final Class oClass) { if (oClass == byte[].class) { str.append(Arrays.toString((byte[]) o)); } else if (oClass == short[].class) { str.append(Arrays.toString((short[]) o)); } else if (oClass == int[].class) { str.append(Arrays.toString((int[]) o)); } else if (oClass == long[].class) { str.append(Arrays.toString((long[]) o)); } else if (oClass == float[].class) { str.append(Arrays.toString((float[]) o)); } else if (oClass == double[].class) { str.append(Arrays.toString((double[]) o)); } else if (oClass == boolean[].class) { str.append(Arrays.toString((boolean[]) o)); } else if (oClass == char[].class) { str.append(Arrays.toString((char[]) o)); } else { if (dejaVu == null) { dejaVu = new HashSet<>(); } // special handling of container Object[] final String id = identityToString(o); if (dejaVu.contains(id)) { str.append(RECURSION_PREFIX).append(id).append(RECURSION_SUFFIX); } else { dejaVu.add(id); final Object[] oArray = (Object[]) o; str.append('['); boolean first = true; for (final Object current : oArray) { if (first) { first = false; } else { str.append(", "); } recursiveDeepToString(current, str, new HashSet<>(dejaVu)); } str.append(']'); } //str.append(Arrays.deepToString((Object[]) o)); } } private static void appendMap(final Object o, final StringBuilder str, Set dejaVu) { // special handling of container Map if (dejaVu == null) { dejaVu = new HashSet<>(); } final String id = identityToString(o); if (dejaVu.contains(id)) { str.append(RECURSION_PREFIX).append(id).append(RECURSION_SUFFIX); } else { dejaVu.add(id); final Map oMap = (Map) o; str.append('{'); boolean isFirst = true; for (final Object o1 : oMap.entrySet()) { final Map.Entry current = (Map.Entry) o1; if (isFirst) { isFirst = false; } else { str.append(", "); } final Object key = current.getKey(); final Object value = current.getValue(); recursiveDeepToString(key, str, new HashSet<>(dejaVu)); str.append('='); recursiveDeepToString(value, str, new HashSet<>(dejaVu)); } str.append('}'); } } private static void appendCollection(final Object o, final StringBuilder str, Set dejaVu) { // special handling of container Collection if (dejaVu == null) { dejaVu = new HashSet<>(); } final String id = identityToString(o); if (dejaVu.contains(id)) { str.append(RECURSION_PREFIX).append(id).append(RECURSION_SUFFIX); } else { dejaVu.add(id); final Collection oCol = (Collection) o; str.append('['); boolean isFirst = true; for (final Object anOCol : oCol) { if (isFirst) { isFirst = false; } else { str.append(", "); } recursiveDeepToString(anOCol, str, new HashSet<>(dejaVu)); } str.append(']'); } } private static void tryObjectToString(final Object o, final StringBuilder str) { // it's just some other Object, we can only use toString(). try { str.append(o.toString()); } catch (final Throwable t) { handleErrorInObjectToString(o, str, t); } } private static void handleErrorInObjectToString(final Object o, final StringBuilder str, final Throwable t) { str.append(ERROR_PREFIX); str.append(identityToString(o)); str.append(ERROR_SEPARATOR); final String msg = t.getMessage(); final String className = t.getClass().getName(); str.append(className); if (!className.equals(msg)) { str.append(ERROR_MSG_SEPARATOR); str.append(msg); } str.append(ERROR_SUFFIX); } /** * This method returns the same as if Object.toString() would not have been * overridden in obj. *

* Note that this isn't 100% secure as collisions can always happen with hash codes. *

*

* Copied from Object.hashCode(): *

*
* As much as is reasonably practical, the hashCode method defined by * class {@code Object} does return distinct integers for distinct * objects. (This is typically implemented by converting the internal * address of the object into an integer, but this implementation * technique is not required by the Java™ programming language.) *
* * @param obj the Object that is to be converted into an identity string. * @return the identity string as also defined in Object.toString() */ static String identityToString(final Object obj) { if (obj == null) { return null; } return obj.getClass().getName() + '@' + Integer.toHexString(System.identityHashCode(obj)); } }




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