public class CheckpointManager
extends java.lang.Object
Vends hard-coded StoredBlock
s for blocks throughout the chain. Checkpoints serve two purposes:
Checkpoints are used by the SPV BlockChain
to initialize fresh
SPVBlockStore
s. They are not used by fully validating mode, which instead has a
different concept of checkpoints that are used to hard-code the validity of blocks that violate BIP30 (duplicate
coinbase transactions). Those "checkpoints" can be found in NetworkParameters.
The file format consists of the string "CHECKPOINTS 1", followed by a uint32 containing the number of signatures to read. The value may not be larger than 256 (so it could have been a byte but isn't for historical reasons). If the number of signatures is larger than zero, each 65 byte ECDSA secp256k1 signature then follows. The signatures sign the hash of all bytes that follow the last signature.
After the signatures come an int32 containing the number of checkpoints in the file. Then each checkpoint follows one after the other. A checkpoint is 12 bytes for the total work done field, 4 bytes for the height, 80 bytes for the block header and then 1 zero byte at the end (i.e. number of transactions in the block: always zero).
Modifier and Type | Field and Description |
---|---|
static com.google.common.io.BaseEncoding |
BASE64 |
protected java.util.TreeMap<java.lang.Long,StoredBlock> |
checkpoints |
protected Sha256Hash |
dataHash |
protected NetworkParameters |
params |
Constructor and Description |
---|
CheckpointManager(Context context)
Loads the default checkpoints bundled with bitcoinj
|
CheckpointManager(NetworkParameters params,
java.io.InputStream inputStream)
Loads the checkpoints from the given stream
|
Modifier and Type | Method and Description |
---|---|
static void |
checkpoint(NetworkParameters params,
java.io.InputStream checkpoints,
BlockStore store,
long time)
Convenience method that creates a CheckpointManager, loads the given data, gets the checkpoint for the given
time, then inserts it into the store and sets that to be the chain head.
|
StoredBlock |
getCheckpointBefore(long time)
Returns a
StoredBlock representing the last checkpoint before the given time, for example, normally
you would want to know the checkpoint before the earliest wallet birthday. |
Sha256Hash |
getDataHash()
Returns a hash of the concatenated checkpoint data.
|
int |
numCheckpoints()
Returns the number of checkpoints that were loaded.
|
static java.io.InputStream |
openStream(NetworkParameters params)
Returns a checkpoints stream pointing to inside the bitcoinj JAR
|
protected final java.util.TreeMap<java.lang.Long,StoredBlock> checkpoints
protected final NetworkParameters params
protected final Sha256Hash dataHash
public static final com.google.common.io.BaseEncoding BASE64
public CheckpointManager(Context context) throws java.io.IOException
java.io.IOException
public CheckpointManager(NetworkParameters params, @Nullable java.io.InputStream inputStream) throws java.io.IOException
java.io.IOException
public static java.io.InputStream openStream(NetworkParameters params)
public StoredBlock getCheckpointBefore(long time)
StoredBlock
representing the last checkpoint before the given time, for example, normally
you would want to know the checkpoint before the earliest wallet birthday.public int numCheckpoints()
public Sha256Hash getDataHash()
public static void checkpoint(NetworkParameters params, java.io.InputStream checkpoints, BlockStore store, long time) throws java.io.IOException, BlockStoreException
Convenience method that creates a CheckpointManager, loads the given data, gets the checkpoint for the given time, then inserts it into the store and sets that to be the chain head. Useful when you have just created a new store from scratch and want to use configure it all in one go.
Note that time is adjusted backwards by a week to account for possible clock drift in the block headers.
java.io.IOException
BlockStoreException