/* * Copyright (C) 2006 The Android Open Source Project * * Licensed 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 android.util; import android.annotation.IntDef; import android.annotation.NonNull; import android.annotation.Nullable; import android.annotation.UnsupportedAppUsage; import android.os.DeadSystemException; import com.android.internal.os.RuntimeInit; import com.android.internal.util.FastPrintWriter; import com.android.internal.util.LineBreakBufferedWriter; import java.io.PrintWriter; import java.io.StringWriter; import java.io.Writer; import java.lang.annotation.Retention; import java.lang.annotation.RetentionPolicy; import java.net.UnknownHostException; /** * API for sending log output. * *

Generally, you should use the {@link #v Log.v()}, {@link #d Log.d()}, * {@link #i Log.i()}, {@link #w Log.w()}, and {@link #e Log.e()} methods to write logs. * You can then view the logs in logcat. * *

The order in terms of verbosity, from least to most is * ERROR, WARN, INFO, DEBUG, VERBOSE. Verbose should never be compiled * into an application except during development. Debug logs are compiled * in but stripped at runtime. Error, warning and info logs are always kept. * *

Tip: A good convention is to declare a TAG constant * in your class: * *

private static final String TAG = "MyActivity";
* * and use that in subsequent calls to the log methods. *

* *

Tip: Don't forget that when you make a call like *

Log.v(TAG, "index=" + i);
* that when you're building the string to pass into Log.d, the compiler uses a * StringBuilder and at least three allocations occur: the StringBuilder * itself, the buffer, and the String object. Realistically, there is also * another buffer allocation and copy, and even more pressure on the gc. * That means that if your log message is filtered out, you might be doing * significant work and incurring significant overhead. */ public final class Log { /** @hide */ @IntDef({ASSERT, ERROR, WARN, INFO, DEBUG, VERBOSE}) @Retention(RetentionPolicy.SOURCE) public @interface Level {} /** * Priority constant for the println method; use Log.v. */ public static final int VERBOSE = 2; /** * Priority constant for the println method; use Log.d. */ public static final int DEBUG = 3; /** * Priority constant for the println method; use Log.i. */ public static final int INFO = 4; /** * Priority constant for the println method; use Log.w. */ public static final int WARN = 5; /** * Priority constant for the println method; use Log.e. */ public static final int ERROR = 6; /** * Priority constant for the println method. */ public static final int ASSERT = 7; /** * Exception class used to capture a stack trace in {@link #wtf}. * @hide */ public static class TerribleFailure extends Exception { TerribleFailure(String msg, Throwable cause) { super(msg, cause); } } /** * Interface to handle terrible failures from {@link #wtf}. * * @hide */ public interface TerribleFailureHandler { void onTerribleFailure(String tag, TerribleFailure what, boolean system); } private static TerribleFailureHandler sWtfHandler = new TerribleFailureHandler() { public void onTerribleFailure(String tag, TerribleFailure what, boolean system) { RuntimeInit.wtf(tag, what, system); } }; private Log() { } /** * Send a {@link #VERBOSE} log message. * @param tag Used to identify the source of a log message. It usually identifies * the class or activity where the log call occurs. * @param msg The message you would like logged. */ public static int v(@Nullable String tag, @NonNull String msg) { return println_native(LOG_ID_MAIN, VERBOSE, tag, msg); } /** * Send a {@link #VERBOSE} log message and log the exception. * @param tag Used to identify the source of a log message. It usually identifies * the class or activity where the log call occurs. * @param msg The message you would like logged. * @param tr An exception to log */ public static int v(@Nullable String tag, @Nullable String msg, @Nullable Throwable tr) { return printlns(LOG_ID_MAIN, VERBOSE, tag, msg, tr); } /** * Send a {@link #DEBUG} log message. * @param tag Used to identify the source of a log message. It usually identifies * the class or activity where the log call occurs. * @param msg The message you would like logged. */ public static int d(@Nullable String tag, @NonNull String msg) { return println_native(LOG_ID_MAIN, DEBUG, tag, msg); } /** * Send a {@link #DEBUG} log message and log the exception. * @param tag Used to identify the source of a log message. It usually identifies * the class or activity where the log call occurs. * @param msg The message you would like logged. * @param tr An exception to log */ public static int d(@Nullable String tag, @Nullable String msg, @Nullable Throwable tr) { return printlns(LOG_ID_MAIN, DEBUG, tag, msg, tr); } /** * Send an {@link #INFO} log message. * @param tag Used to identify the source of a log message. It usually identifies * the class or activity where the log call occurs. * @param msg The message you would like logged. */ public static int i(@Nullable String tag, @NonNull String msg) { return println_native(LOG_ID_MAIN, INFO, tag, msg); } /** * Send a {@link #INFO} log message and log the exception. * @param tag Used to identify the source of a log message. It usually identifies * the class or activity where the log call occurs. * @param msg The message you would like logged. * @param tr An exception to log */ public static int i(@Nullable String tag, @Nullable String msg, @Nullable Throwable tr) { return printlns(LOG_ID_MAIN, INFO, tag, msg, tr); } /** * Send a {@link #WARN} log message. * @param tag Used to identify the source of a log message. It usually identifies * the class or activity where the log call occurs. * @param msg The message you would like logged. */ public static int w(@Nullable String tag, @NonNull String msg) { return println_native(LOG_ID_MAIN, WARN, tag, msg); } /** * Send a {@link #WARN} log message and log the exception. * @param tag Used to identify the source of a log message. It usually identifies * the class or activity where the log call occurs. * @param msg The message you would like logged. * @param tr An exception to log */ public static int w(@Nullable String tag, @Nullable String msg, @Nullable Throwable tr) { return printlns(LOG_ID_MAIN, WARN, tag, msg, tr); } /** * Checks to see whether or not a log for the specified tag is loggable at the specified level. * * The default level of any tag is set to INFO. This means that any level above and including * INFO will be logged. Before you make any calls to a logging method you should check to see * if your tag should be logged. You can change the default level by setting a system property: * 'setprop log.tag.<YOUR_LOG_TAG> <LEVEL>' * Where level is either VERBOSE, DEBUG, INFO, WARN, ERROR, or ASSERT. * You can also create a local.prop file that with the following in it: * 'log.tag.<YOUR_LOG_TAG>=<LEVEL>' * and place that in /data/local.prop. * * @param tag The tag to check. * @param level The level to check. * @return Whether or not that this is allowed to be logged. * @throws IllegalArgumentException is thrown if the tag.length() > 23 * for Nougat (7.0) releases (API <= 23) and prior, there is no * tag limit of concern after this API level. */ public static native boolean isLoggable(@Nullable String tag, @Level int level); /** * Send a {@link #WARN} log message and log the exception. * @param tag Used to identify the source of a log message. It usually identifies * the class or activity where the log call occurs. * @param tr An exception to log */ public static int w(@Nullable String tag, @Nullable Throwable tr) { return printlns(LOG_ID_MAIN, WARN, tag, "", tr); } /** * Send an {@link #ERROR} log message. * @param tag Used to identify the source of a log message. It usually identifies * the class or activity where the log call occurs. * @param msg The message you would like logged. */ public static int e(@Nullable String tag, @NonNull String msg) { return println_native(LOG_ID_MAIN, ERROR, tag, msg); } /** * Send a {@link #ERROR} log message and log the exception. * @param tag Used to identify the source of a log message. It usually identifies * the class or activity where the log call occurs. * @param msg The message you would like logged. * @param tr An exception to log */ public static int e(@Nullable String tag, @Nullable String msg, @Nullable Throwable tr) { return printlns(LOG_ID_MAIN, ERROR, tag, msg, tr); } /** * What a Terrible Failure: Report a condition that should never happen. * The error will always be logged at level ASSERT with the call stack. * Depending on system configuration, a report may be added to the * {@link android.os.DropBoxManager} and/or the process may be terminated * immediately with an error dialog. * @param tag Used to identify the source of a log message. * @param msg The message you would like logged. */ public static int wtf(@Nullable String tag, @Nullable String msg) { return wtf(LOG_ID_MAIN, tag, msg, null, false, false); } /** * Like {@link #wtf(String, String)}, but also writes to the log the full * call stack. * @hide */ public static int wtfStack(@Nullable String tag, @Nullable String msg) { return wtf(LOG_ID_MAIN, tag, msg, null, true, false); } /** * What a Terrible Failure: Report an exception that should never happen. * Similar to {@link #wtf(String, String)}, with an exception to log. * @param tag Used to identify the source of a log message. * @param tr An exception to log. */ public static int wtf(@Nullable String tag, @NonNull Throwable tr) { return wtf(LOG_ID_MAIN, tag, tr.getMessage(), tr, false, false); } /** * What a Terrible Failure: Report an exception that should never happen. * Similar to {@link #wtf(String, Throwable)}, with a message as well. * @param tag Used to identify the source of a log message. * @param msg The message you would like logged. * @param tr An exception to log. May be null. */ public static int wtf(@Nullable String tag, @Nullable String msg, @Nullable Throwable tr) { return wtf(LOG_ID_MAIN, tag, msg, tr, false, false); } @UnsupportedAppUsage static int wtf(int logId, @Nullable String tag, @Nullable String msg, @Nullable Throwable tr, boolean localStack, boolean system) { TerribleFailure what = new TerribleFailure(msg, tr); // Only mark this as ERROR, do not use ASSERT since that should be // reserved for cases where the system is guaranteed to abort. // The onTerribleFailure call does not always cause a crash. int bytes = printlns(logId, ERROR, tag, msg, localStack ? what : tr); sWtfHandler.onTerribleFailure(tag, what, system); return bytes; } static void wtfQuiet(int logId, @Nullable String tag, @Nullable String msg, boolean system) { TerribleFailure what = new TerribleFailure(msg, null); sWtfHandler.onTerribleFailure(tag, what, system); } /** * Sets the terrible failure handler, for testing. * * @return the old handler * * @hide */ @NonNull public static TerribleFailureHandler setWtfHandler(@NonNull TerribleFailureHandler handler) { if (handler == null) { throw new NullPointerException("handler == null"); } TerribleFailureHandler oldHandler = sWtfHandler; sWtfHandler = handler; return oldHandler; } /** * Handy function to get a loggable stack trace from a Throwable * @param tr An exception to log */ @NonNull public static String getStackTraceString(@Nullable Throwable tr) { if (tr == null) { return ""; } // This is to reduce the amount of log spew that apps do in the non-error // condition of the network being unavailable. Throwable t = tr; while (t != null) { if (t instanceof UnknownHostException) { return ""; } t = t.getCause(); } StringWriter sw = new StringWriter(); PrintWriter pw = new FastPrintWriter(sw, false, 256); tr.printStackTrace(pw); pw.flush(); return sw.toString(); } /** * Low-level logging call. * @param priority The priority/type of this log message * @param tag Used to identify the source of a log message. It usually identifies * the class or activity where the log call occurs. * @param msg The message you would like logged. * @return The number of bytes written. */ public static int println(@Level int priority, @Nullable String tag, @NonNull String msg) { return println_native(LOG_ID_MAIN, priority, tag, msg); } /** @hide */ public static final int LOG_ID_MAIN = 0; /** @hide */ public static final int LOG_ID_RADIO = 1; /** @hide */ public static final int LOG_ID_EVENTS = 2; /** @hide */ public static final int LOG_ID_SYSTEM = 3; /** @hide */ public static final int LOG_ID_CRASH = 4; /** @hide */ @UnsupportedAppUsage public static native int println_native(int bufID, int priority, String tag, String msg); /** * Return the maximum payload the log daemon accepts without truncation. * @return LOGGER_ENTRY_MAX_PAYLOAD. */ private static native int logger_entry_max_payload_native(); /** * Helper function for long messages. Uses the LineBreakBufferedWriter to break * up long messages and stacktraces along newlines, but tries to write in large * chunks. This is to avoid truncation. * @hide */ public static int printlns(int bufID, int priority, @Nullable String tag, @NonNull String msg, @Nullable Throwable tr) { ImmediateLogWriter logWriter = new ImmediateLogWriter(bufID, priority, tag); // Acceptable buffer size. Get the native buffer size, subtract two zero terminators, // and the length of the tag. // Note: we implicitly accept possible truncation for Modified-UTF8 differences. It // is too expensive to compute that ahead of time. int bufferSize = PreloadHolder.LOGGER_ENTRY_MAX_PAYLOAD // Base. - 2 // Two terminators. - (tag != null ? tag.length() : 0) // Tag length. - 32; // Some slack. // At least assume you can print *some* characters (tag is not too large). bufferSize = Math.max(bufferSize, 100); LineBreakBufferedWriter lbbw = new LineBreakBufferedWriter(logWriter, bufferSize); lbbw.println(msg); if (tr != null) { // This is to reduce the amount of log spew that apps do in the non-error // condition of the network being unavailable. Throwable t = tr; while (t != null) { if (t instanceof UnknownHostException) { break; } if (t instanceof DeadSystemException) { lbbw.println("DeadSystemException: The system died; " + "earlier logs will point to the root cause"); break; } t = t.getCause(); } if (t == null) { tr.printStackTrace(lbbw); } } lbbw.flush(); return logWriter.getWritten(); } /** * PreloadHelper class. Caches the LOGGER_ENTRY_MAX_PAYLOAD value to avoid * a JNI call during logging. */ static class PreloadHolder { public final static int LOGGER_ENTRY_MAX_PAYLOAD = logger_entry_max_payload_native(); } /** * Helper class to write to the logcat. Different from LogWriter, this writes * the whole given buffer and does not break along newlines. */ private static class ImmediateLogWriter extends Writer { private int bufID; private int priority; private String tag; private int written = 0; /** * Create a writer that immediately writes to the log, using the given * parameters. */ public ImmediateLogWriter(int bufID, int priority, String tag) { this.bufID = bufID; this.priority = priority; this.tag = tag; } public int getWritten() { return written; } @Override public void write(char[] cbuf, int off, int len) { // Note: using String here has a bit of overhead as a Java object is created, // but using the char[] directly is not easier, as it needs to be translated // to a C char[] for logging. written += println_native(bufID, priority, tag, new String(cbuf, off, len)); } @Override public void flush() { // Ignored. } @Override public void close() { // Ignored. } } }