org.bitcoinj.core.AlertMessage Maven / Gradle / Ivy
/*
* Copyright 2011 Google Inc.
* Copyright 2015 Andreas Schildbach
*
* 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 org.bitcoinj.core;
import java.util.Date;
import java.util.HashSet;
import java.util.Set;
/**
* Alerts are signed messages that are broadcast on the peer-to-peer network if they match a hard-coded signing key.
* The private keys are held by a small group of core Bitcoin developers, and alerts may be broadcast in the event of
* an available upgrade or a serious network problem. Alerts have an expiration time, data that specifies what
* set of software versions it matches and the ability to cancel them by broadcasting another type of alert.
*
* The right course of action on receiving an alert is usually to either ensure a human will see it (display on screen,
* log, email), or if you decide to use alerts for notifications that are specific to your app in some way, to parse it.
* For example, you could treat it as an upgrade notification specific to your app. Satoshi designed alerts to ensure
* that software upgrades could be distributed independently of a hard-coded website, in order to allow everything to
* be purely peer-to-peer. You don't have to use this of course, and indeed it often makes more sense not to.
*
*
Before doing anything with an alert, you should check {@link AlertMessage#isSignatureValid()}.
*
* Instances of this class are not safe for use by multiple threads.
*/
public class AlertMessage extends Message {
private byte[] content;
private byte[] signature;
// See the getters for documentation of what each field means.
private long version = 1;
private Date relayUntil;
private Date expiration;
private long id;
private long cancel;
private long minVer, maxVer;
private long priority;
private String comment, statusBar, reserved;
// Chosen arbitrarily to avoid memory blowups.
private static final long MAX_SET_SIZE = 100;
public AlertMessage(NetworkParameters params, byte[] payloadBytes) throws ProtocolException {
super(params, payloadBytes, 0);
}
@Override
public String toString() {
return "ALERT: " + getStatusBar();
}
@Override
protected void parse() throws ProtocolException {
// Alerts are formatted in two levels. The top level contains two byte arrays: a signature, and a serialized
// data structure containing the actual alert data.
int startPos = cursor;
content = readByteArray();
signature = readByteArray();
// Now we need to parse out the contents of the embedded structure. Rewind back to the start of the message.
cursor = startPos;
readVarInt(); // Skip the length field on the content array.
// We're inside the embedded structure.
version = readUint32();
// Read the timestamps. Bitcoin uses seconds since the epoch.
relayUntil = new Date(readUint64().longValue() * 1000);
expiration = new Date(readUint64().longValue() * 1000);
id = readUint32();
cancel = readUint32();
// Sets are serialized as - ....
long cancelSetSize = readVarInt();
if (cancelSetSize < 0 || cancelSetSize > MAX_SET_SIZE) {
throw new ProtocolException("Bad cancel set size: " + cancelSetSize);
}
// Using a hashset here is very inefficient given that this will normally be only one item. But Java doesn't
// make it easy to do better. What we really want is just an array-backed set.
Set
cancelSet = new HashSet<>((int) cancelSetSize);
for (long i = 0; i < cancelSetSize; i++) {
cancelSet.add(readUint32());
}
minVer = readUint32();
maxVer = readUint32();
// Read the subver matching set.
long subverSetSize = readVarInt();
if (subverSetSize < 0 || subverSetSize > MAX_SET_SIZE) {
throw new ProtocolException("Bad subver set size: " + subverSetSize);
}
Set matchingSubVers = new HashSet<>((int) subverSetSize);
for (long i = 0; i < subverSetSize; i++) {
matchingSubVers.add(readStr());
}
priority = readUint32();
comment = readStr();
statusBar = readStr();
reserved = readStr();
length = cursor - offset;
}
/**
* Returns true if the digital signature attached to the message verifies. Don't do anything with the alert if it
* doesn't verify, because that would allow arbitrary attackers to spam your users.
*/
public boolean isSignatureValid() {
return ECKey.verify(Sha256Hash.hashTwice(content), signature, params.getAlertSigningKey());
}
/////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// Field accessors.
/**
* The time at which the alert should stop being broadcast across the network. Note that you can still receive
* the alert after this time from other nodes if the alert still applies to them or to you.
*/
public Date getRelayUntil() {
return relayUntil;
}
public void setRelayUntil(Date relayUntil) {
this.relayUntil = relayUntil;
}
/**
* The time at which the alert ceases to be relevant. It should not be presented to the user or app administrator
* after this time.
*/
public Date getExpiration() {
return expiration;
}
public void setExpiration(Date expiration) {
this.expiration = expiration;
}
/**
* The numeric identifier of this alert. Each alert should have a unique ID, but the signer can choose any number.
* If an alert is broadcast with a cancel field higher than this ID, this alert is considered cancelled.
* @return uint32
*/
public long getId() {
return id;
}
public void setId(long id) {
this.id = id;
}
/**
* A marker that results in any alerts with an ID lower than this value to be considered cancelled.
* @return uint32
*/
public long getCancel() {
return cancel;
}
public void setCancel(long cancel) {
this.cancel = cancel;
}
/**
* The inclusive lower bound on software versions that are considered for the purposes of this alert. Bitcoin Core
* compares this against a protocol version field, but as long as the subVer field is used to restrict it your
* alerts could use any version numbers.
* @return uint32
*/
public long getMinVer() {
return minVer;
}
public void setMinVer(long minVer) {
this.minVer = minVer;
}
/**
* The inclusive upper bound on software versions considered for the purposes of this alert. Bitcoin Core
* compares this against a protocol version field, but as long as the subVer field is used to restrict it your
* alerts could use any version numbers.
*/
public long getMaxVer() {
return maxVer;
}
public void setMaxVer(long maxVer) {
this.maxVer = maxVer;
}
/**
* Provides an integer ordering amongst simultaneously active alerts.
* @return uint32
*/
public long getPriority() {
return priority;
}
public void setPriority(long priority) {
this.priority = priority;
}
/**
* This field is unused. It is presumably intended for the author of the alert to provide a justification for it
* visible to protocol developers but not users.
*/
public String getComment() {
return comment;
}
public void setComment(String comment) {
this.comment = comment;
}
/**
* A string that is intended to display in the status bar of Bitcoin Core's GUI client. It contains the user-visible
* message. English only.
*/
public String getStatusBar() {
return statusBar;
}
public void setStatusBar(String statusBar) {
this.statusBar = statusBar;
}
/**
* This field is never used.
*/
public String getReserved() {
return reserved;
}
public void setReserved(String reserved) {
this.reserved = reserved;
}
public long getVersion() {
return version;
}
}