/**
* Copyright (C) 2009 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 com.android.internal.telephony;
import android.content.Context;
import android.os.Build;
import android.os.PersistableBundle;
import android.os.SystemProperties;
import android.telephony.CarrierConfigManager;
import android.telephony.Rlog;
import android.text.TextUtils;
import android.util.Pair;
import com.android.internal.telephony.dataconnection.ApnSetting;
import java.io.FileDescriptor;
import java.io.PrintWriter;
import java.util.ArrayList;
import java.util.Random;
/**
* Retry manager allows a simple way to declare a series of
* retry timeouts. After creating a RetryManager the configure
* method is used to define the sequence. A simple linear series
* may be initialized using configure with three integer parameters
* The other configure method allows a series to be declared using
* a string.
*
* The format of the configuration string is the apn type followed by a series of parameters
* separated by a comma. There are two name value pair parameters plus a series
* of delay times. The units of of these delay times is unspecified.
* The name value pairs which may be specified are:
*
*- max_retries=
*
- default_randomizationTime=
*
*
* apn type specifies the APN type that the retry pattern will apply for. "others" is for all other
* APN types not specified in the config.
*
* max_retries is the number of times that incrementRetryCount
* maybe called before isRetryNeeded will return false. if value
* is infinite then isRetryNeeded will always return true.
*
* default_randomizationTime will be used as the randomizationTime
* for delay times which have no supplied randomizationTime. If
* default_randomizationTime is not defined it defaults to 0.
*
* The other parameters define The series of delay times and each
* may have an optional randomization value separated from the
* delay time by a colon.
*
* Examples:
*
* - 3 retries for mms with no randomization value which means its 0:
*
*
*
- 10 retries for default APN with a 500 default randomization value for each and
* the 4..10 retries all using 3000 as the delay:
*
"default:max_retries=10, default_randomization=500, 1000, 2000, 3000"
*
* - 4 retries for supl APN with a 100 as the default randomization value for the first 2 values
* and the other two having specified values of 500:
*
"supl:default_randomization=100, 1000, 2000, 4000:500, 5000:500"
*
* - Infinite number of retries for all other APNs with the first one at 1000, the second at 2000
* all others will be at 3000.
*
"others:max_retries=infinite,1000,2000,3000
*
*
* {@hide}
*/
public class RetryManager {
public static final String LOG_TAG = "RetryManager";
public static final boolean DBG = true;
public static final boolean VDBG = false; // STOPSHIP if true
/**
* The default retry configuration for APNs. See above for the syntax.
*/
private static final String DEFAULT_DATA_RETRY_CONFIG = "max_retries=3, 5000, 5000, 5000";
/**
* The APN type used for all other APNs retry configuration.
*/
private static final String OTHERS_APN_TYPE = "others";
/**
* The default value (in milliseconds) for delay between APN trying (mInterApnDelay)
* within the same round
*/
private static final long DEFAULT_INTER_APN_DELAY = 20000;
/**
* The default value (in milliseconds) for delay between APN trying (mFailFastInterApnDelay)
* within the same round when we are in fail fast mode
*/
private static final long DEFAULT_INTER_APN_DELAY_FOR_PROVISIONING = 3000;
/**
* The value indicating no retry is needed
*/
public static final long NO_RETRY = -1;
/**
* The value indicating modem did not suggest any retry delay
*/
public static final long NO_SUGGESTED_RETRY_DELAY = -2;
/**
* If the modem suggests a retry delay in the data call setup response, we will retry
* the current APN setting again. However, if the modem keeps suggesting retrying the same
* APN setting, we'll fall into an infinite loop. Therefore adding a counter to retry up to
* MAX_SAME_APN_RETRY times can avoid it.
*/
private static final int MAX_SAME_APN_RETRY = 3;
/**
* The delay (in milliseconds) between APN trying within the same round
*/
private long mInterApnDelay;
/**
* The delay (in milliseconds) between APN trying within the same round when we are in
* fail fast mode
*/
private long mFailFastInterApnDelay;
/**
* Modem suggested delay for retrying the current APN
*/
private long mModemSuggestedDelay = NO_SUGGESTED_RETRY_DELAY;
/**
* The counter for same APN retrying. See MAX_SAME_APN_RETRY for the details.
*/
private int mSameApnRetryCount = 0;
/**
* Retry record with times in milli-seconds
*/
private static class RetryRec {
RetryRec(int delayTime, int randomizationTime) {
mDelayTime = delayTime;
mRandomizationTime = randomizationTime;
}
int mDelayTime;
int mRandomizationTime;
}
/**
* The array of retry records
*/
private ArrayList mRetryArray = new ArrayList();
private Phone mPhone;
/**
* Flag indicating whether retrying forever regardless the maximum retry count mMaxRetryCount
*/
private boolean mRetryForever = false;
/**
* The maximum number of retries to attempt
*/
private int mMaxRetryCount;
/**
* The current number of retries
*/
private int mRetryCount = 0;
/**
* Random number generator. The random delay will be added into retry timer to avoid all devices
* around retrying the APN at the same time.
*/
private Random mRng = new Random();
/**
* Retry manager configuration string. See top of the detailed explanation.
*/
private String mConfig;
/**
* The list to store APN setting candidates for data call setup. Most of the carriers only have
* one APN, but few carriers have more than one.
*/
private ArrayList mWaitingApns = null;
/**
* Index pointing to the current trying APN from mWaitingApns
*/
private int mCurrentApnIndex = -1;
/**
* Apn context type. Could be "default, "mms", "supl", etc...
*/
private String mApnType;
/**
* Retry manager constructor
* @param phone Phone object
* @param apnType APN type
*/
public RetryManager(Phone phone, String apnType) {
mPhone = phone;
mApnType = apnType;
}
/**
* Configure for using string which allow arbitrary
* sequences of times. See class comments for the
* string format.
*
* @return true if successful
*/
private boolean configure(String configStr) {
// Strip quotes if present.
if ((configStr.startsWith("\"") && configStr.endsWith("\""))) {
configStr = configStr.substring(1, configStr.length() - 1);
}
// Reset the retry manager since delay, max retry count, etc...will be reset.
reset();
if (DBG) log("configure: '" + configStr + "'");
mConfig = configStr;
if (!TextUtils.isEmpty(configStr)) {
int defaultRandomization = 0;
if (VDBG) log("configure: not empty");
String strArray[] = configStr.split(",");
for (int i = 0; i < strArray.length; i++) {
if (VDBG) log("configure: strArray[" + i + "]='" + strArray[i] + "'");
Pair value;
String splitStr[] = strArray[i].split("=", 2);
splitStr[0] = splitStr[0].trim();
if (VDBG) log("configure: splitStr[0]='" + splitStr[0] + "'");
if (splitStr.length > 1) {
splitStr[1] = splitStr[1].trim();
if (VDBG) log("configure: splitStr[1]='" + splitStr[1] + "'");
if (TextUtils.equals(splitStr[0], "default_randomization")) {
value = parseNonNegativeInt(splitStr[0], splitStr[1]);
if (!value.first) return false;
defaultRandomization = value.second;
} else if (TextUtils.equals(splitStr[0], "max_retries")) {
if (TextUtils.equals("infinite", splitStr[1])) {
mRetryForever = true;
} else {
value = parseNonNegativeInt(splitStr[0], splitStr[1]);
if (!value.first) return false;
mMaxRetryCount = value.second;
}
} else {
Rlog.e(LOG_TAG, "Unrecognized configuration name value pair: "
+ strArray[i]);
return false;
}
} else {
/**
* Assume a retry time with an optional randomization value
* following a ":"
*/
splitStr = strArray[i].split(":", 2);
splitStr[0] = splitStr[0].trim();
RetryRec rr = new RetryRec(0, 0);
value = parseNonNegativeInt("delayTime", splitStr[0]);
if (!value.first) return false;
rr.mDelayTime = value.second;
// Check if optional randomization value present
if (splitStr.length > 1) {
splitStr[1] = splitStr[1].trim();
if (VDBG) log("configure: splitStr[1]='" + splitStr[1] + "'");
value = parseNonNegativeInt("randomizationTime", splitStr[1]);
if (!value.first) return false;
rr.mRandomizationTime = value.second;
} else {
rr.mRandomizationTime = defaultRandomization;
}
mRetryArray.add(rr);
}
}
if (mRetryArray.size() > mMaxRetryCount) {
mMaxRetryCount = mRetryArray.size();
if (VDBG) log("configure: setting mMaxRetryCount=" + mMaxRetryCount);
}
} else {
log("configure: cleared");
}
if (VDBG) log("configure: true");
return true;
}
/**
* Configure the retry manager
*/
private void configureRetry() {
String configString = null;
String otherConfigString = null;
try {
if (Build.IS_DEBUGGABLE) {
// Using system properties is easier for testing from command line.
String config = SystemProperties.get("test.data_retry_config");
if (!TextUtils.isEmpty(config)) {
configure(config);
return;
}
}
CarrierConfigManager configManager = (CarrierConfigManager)
mPhone.getContext().getSystemService(Context.CARRIER_CONFIG_SERVICE);
PersistableBundle b = configManager.getConfigForSubId(mPhone.getSubId());
mInterApnDelay = b.getLong(
CarrierConfigManager.KEY_CARRIER_DATA_CALL_APN_DELAY_DEFAULT_LONG,
DEFAULT_INTER_APN_DELAY);
mFailFastInterApnDelay = b.getLong(
CarrierConfigManager.KEY_CARRIER_DATA_CALL_APN_DELAY_FASTER_LONG,
DEFAULT_INTER_APN_DELAY_FOR_PROVISIONING);
// Load all retry patterns for all different APNs.
String[] allConfigStrings = b.getStringArray(
CarrierConfigManager.KEY_CARRIER_DATA_CALL_RETRY_CONFIG_STRINGS);
if (allConfigStrings != null) {
for (String s : allConfigStrings) {
if (!TextUtils.isEmpty(s)) {
String splitStr[] = s.split(":", 2);
if (splitStr.length == 2) {
String apnType = splitStr[0].trim();
// Check if this retry pattern is for the APN we want.
if (apnType.equals(mApnType)) {
// Extract the config string. Note that an empty string is valid
// here, meaning no retry for the specified APN.
configString = splitStr[1];
break;
} else if (apnType.equals(OTHERS_APN_TYPE)) {
// Extract the config string. Note that an empty string is valid
// here, meaning no retry for all other APNs.
otherConfigString = splitStr[1];
}
}
}
}
}
if (configString == null) {
if (otherConfigString != null) {
configString = otherConfigString;
} else {
// We should never reach here. If we reach here, it must be a configuration
// error bug.
log("Invalid APN retry configuration!. Use the default one now.");
configString = DEFAULT_DATA_RETRY_CONFIG;
}
}
} catch (NullPointerException ex) {
// We should never reach here unless there is a bug
log("Failed to read configuration! Use the hardcoded default value.");
mInterApnDelay = DEFAULT_INTER_APN_DELAY;
mFailFastInterApnDelay = DEFAULT_INTER_APN_DELAY_FOR_PROVISIONING;
configString = DEFAULT_DATA_RETRY_CONFIG;
}
if (VDBG) {
log("mInterApnDelay = " + mInterApnDelay + ", mFailFastInterApnDelay = " +
mFailFastInterApnDelay);
}
configure(configString);
}
/**
* Return the timer that should be used to trigger the data reconnection
*/
private int getRetryTimer() {
int index;
if (mRetryCount < mRetryArray.size()) {
index = mRetryCount;
} else {
index = mRetryArray.size() - 1;
}
int retVal;
if ((index >= 0) && (index < mRetryArray.size())) {
retVal = mRetryArray.get(index).mDelayTime + nextRandomizationTime(index);
} else {
retVal = 0;
}
if (DBG) log("getRetryTimer: " + retVal);
return retVal;
}
/**
* Parse an integer validating the value is not negative.
* @param name Name
* @param stringValue Value
* @return Pair.first == true if stringValue an integer >= 0
*/
private Pair parseNonNegativeInt(String name, String stringValue) {
int value;
Pair retVal;
try {
value = Integer.parseInt(stringValue);
retVal = new Pair(validateNonNegativeInt(name, value), value);
} catch (NumberFormatException e) {
Rlog.e(LOG_TAG, name + " bad value: " + stringValue, e);
retVal = new Pair(false, 0);
}
if (VDBG) {
log("parseNonNetativeInt: " + name + ", " + stringValue + ", "
+ retVal.first + ", " + retVal.second);
}
return retVal;
}
/**
* Validate an integer is >= 0 and logs an error if not
* @param name Name
* @param value Value
* @return Pair.first
*/
private boolean validateNonNegativeInt(String name, int value) {
boolean retVal;
if (value < 0) {
Rlog.e(LOG_TAG, name + " bad value: is < 0");
retVal = false;
} else {
retVal = true;
}
if (VDBG) log("validateNonNegative: " + name + ", " + value + ", " + retVal);
return retVal;
}
/**
* Return next random number for the index
* @param index Retry index
*/
private int nextRandomizationTime(int index) {
int randomTime = mRetryArray.get(index).mRandomizationTime;
if (randomTime == 0) {
return 0;
} else {
return mRng.nextInt(randomTime);
}
}
/**
* Get the next APN setting for data call setup.
* @return APN setting to try
*/
public ApnSetting getNextApnSetting() {
if (mWaitingApns == null || mWaitingApns.size() == 0) {
log("Waiting APN list is null or empty.");
return null;
}
// If the modem had suggested a retry delay, we should retry the current APN again
// (up to MAX_SAME_APN_RETRY times) instead of getting the next APN setting from
// our own list.
if (mModemSuggestedDelay != NO_SUGGESTED_RETRY_DELAY &&
mSameApnRetryCount < MAX_SAME_APN_RETRY) {
mSameApnRetryCount++;
return mWaitingApns.get(mCurrentApnIndex);
}
mSameApnRetryCount = 0;
int index = mCurrentApnIndex;
// Loop through the APN list to find out the index of next non-permanent failed APN.
while (true) {
if (++index == mWaitingApns.size()) index = 0;
// Stop if we find the non-failed APN.
if (mWaitingApns.get(index).permanentFailed == false) break;
// If we've already cycled through all the APNs, that means there is no APN we can try
if (index == mCurrentApnIndex) return null;
}
mCurrentApnIndex = index;
return mWaitingApns.get(mCurrentApnIndex);
}
/**
* Get the delay for trying the next waiting APN from the list.
* @param failFastEnabled True if fail fast mode enabled. In this case we'll use a shorter
* delay.
* @return delay in milliseconds
*/
public long getDelayForNextApn(boolean failFastEnabled) {
if (mWaitingApns == null || mWaitingApns.size() == 0) {
log("Waiting APN list is null or empty.");
return NO_RETRY;
}
if (mModemSuggestedDelay == NO_RETRY) {
log("Modem suggested not retrying.");
return NO_RETRY;
}
if (mModemSuggestedDelay != NO_SUGGESTED_RETRY_DELAY &&
mSameApnRetryCount < MAX_SAME_APN_RETRY) {
// If the modem explicitly suggests a retry delay, we should use it, even in fail fast
// mode.
log("Modem suggested retry in " + mModemSuggestedDelay + " ms.");
return mModemSuggestedDelay;
}
// In order to determine the delay to try next APN, we need to peek the next available APN.
// Case 1 - If we will start the next round of APN trying,
// we use the exponential-growth delay. (e.g. 5s, 10s, 30s...etc.)
// Case 2 - If we are still within the same round of APN trying,
// we use the fixed standard delay between APNs. (e.g. 20s)
int index = mCurrentApnIndex;
while (true) {
if (++index >= mWaitingApns.size()) index = 0;
// Stop if we find the non-failed APN.
if (mWaitingApns.get(index).permanentFailed == false) break;
// If we've already cycled through all the APNs, that means all APNs have
// permanently failed
if (index == mCurrentApnIndex) {
log("All APNs have permanently failed.");
return NO_RETRY;
}
}
long delay;
if (index <= mCurrentApnIndex) {
// Case 1, if the next APN is in the next round.
if (!mRetryForever && mRetryCount + 1 > mMaxRetryCount) {
log("Reached maximum retry count " + mMaxRetryCount + ".");
return NO_RETRY;
}
delay = getRetryTimer();
++mRetryCount;
} else {
// Case 2, if the next APN is still in the same round.
delay = mInterApnDelay;
}
if (failFastEnabled && delay > mFailFastInterApnDelay) {
// If we enable fail fast mode, and the delay we got is longer than
// fail-fast delay (mFailFastInterApnDelay), use the fail-fast delay.
// If the delay we calculated is already shorter than fail-fast delay,
// then ignore fail-fast delay.
delay = mFailFastInterApnDelay;
}
return delay;
}
/**
* Mark the APN setting permanently failed.
* @param apn APN setting to be marked as permanently failed
* */
public void markApnPermanentFailed(ApnSetting apn) {
if (apn != null) {
apn.permanentFailed = true;
}
}
/**
* Reset the retry manager.
*/
private void reset() {
mMaxRetryCount = 0;
mRetryCount = 0;
mCurrentApnIndex = -1;
mSameApnRetryCount = 0;
mModemSuggestedDelay = NO_SUGGESTED_RETRY_DELAY;
mRetryArray.clear();
}
/**
* Set waiting APNs for retrying in case needed.
* @param waitingApns Waiting APN list
*/
public void setWaitingApns(ArrayList waitingApns) {
if (waitingApns == null) {
log("No waiting APNs provided");
return;
}
mWaitingApns = waitingApns;
// Since we replace the entire waiting APN list, we need to re-config this retry manager.
configureRetry();
for (ApnSetting apn : mWaitingApns) {
apn.permanentFailed = false;
}
log("Setting " + mWaitingApns.size() + " waiting APNs.");
if (VDBG) {
for (int i = 0; i < mWaitingApns.size(); i++) {
log(" [" + i + "]:" + mWaitingApns.get(i));
}
}
}
/**
* Get the list of waiting APNs.
* @return the list of waiting APNs
*/
public ArrayList getWaitingApns() {
return mWaitingApns;
}
/**
* Save the modem suggested delay for retrying the current APN.
* This method is called when we get the suggested delay from RIL.
* @param delay The delay in milliseconds
*/
public void setModemSuggestedDelay(long delay) {
mModemSuggestedDelay = delay;
}
/**
* Get the delay between APN setting trying. This is the fixed delay used for APN setting trying
* within the same round, comparing to the exponential delay used for different rounds.
* @param failFastEnabled True if fail fast mode enabled, which a shorter delay will be used
* @return The delay in milliseconds
*/
public long getInterApnDelay(boolean failFastEnabled) {
return (failFastEnabled) ? mFailFastInterApnDelay : mInterApnDelay;
}
public String toString() {
return "mApnType=" + mApnType + " mRetryCount=" + mRetryCount +
" mMaxRetryCount=" + mMaxRetryCount + " mCurrentApnIndex=" + mCurrentApnIndex +
" mSameApnRtryCount=" + mSameApnRetryCount + " mModemSuggestedDelay=" +
mModemSuggestedDelay + " mRetryForever=" + mRetryForever +
" mConfig={" + mConfig + "}";
}
public void dump(FileDescriptor fd, PrintWriter pw, String[] args) {
pw.println(" RetryManager");
pw.println("***************************************");
pw.println(" config = " + mConfig);
pw.println(" mApnType = " + mApnType);
pw.println(" mCurrentApnIndex = " + mCurrentApnIndex);
pw.println(" mRetryCount = " + mRetryCount);
pw.println(" mMaxRetryCount = " + mMaxRetryCount);
pw.println(" mSameApnRetryCount = " + mSameApnRetryCount);
pw.println(" mModemSuggestedDelay = " + mModemSuggestedDelay);
if (mWaitingApns != null) {
pw.println(" APN list: ");
for (int i = 0; i < mWaitingApns.size(); i++) {
pw.println(" [" + i + "]=" + mWaitingApns.get(i));
}
}
pw.println("***************************************");
pw.flush();
}
private void log(String s) {
Rlog.d(LOG_TAG, "[" + mApnType + "] " + s);
}
}