lnd/chainntnfs/interface.go
Olaoluwa Osuntokun 4d1a1d2799
chainntnfs: add cross interface implementation tests
This commit refactors the existing chainntnfns package in order to
allow more easily allow integration into the main system, by allowing
one to gain access to a set of end-to-end tests for a particular
ChainNotifier implementation.

In order to achieve this, the existing set of tests for the only
concrete implementation (`BtcdNoitifer`) have been refactored to test
against all “registered” notifier interfaces registered. This is
achieved by creating the concept of a “driver” for each concrete
`ChainNotifer` implementation. Once a the package of a particular
driver is imported, solely for the side effects, the init() method
automatically registers the driver.

Additionally, the documentation in various areas of the package have
been cleaned up a bit.
2016-09-01 19:13:10 -07:00

183 lines
6.8 KiB
Go

package chainntnfs
import (
"fmt"
"sync"
"github.com/roasbeef/btcd/wire"
)
// ChainNotifier represents a trusted source to receive notifications concerning
// targeted events on the Bitcoin blockchain. The interface specification is
// intentionally general in order to support a wide array of chain notification
// implementations such as: btcd's websockets notifications, Bitcoin Core's
// ZeroMQ notifications, various Bitcoin API services, Electrum servers, etc.
//
// Concrete implementations of ChainNotifier should be able to support multiple
// concurrent client requests, as well as multiple concurrent notification events.
type ChainNotifier interface {
// RegisterConfirmationsNtfn registers an intent to be notified once
// txid reaches numConfs confirmations. The returned ConfirmationEvent
// should properly notify the client once the specified number of
// confirmations has been reached for the txid, as well as if the
// original tx gets re-org'd out of the mainchain.
RegisterConfirmationsNtfn(txid *wire.ShaHash, numConfs uint32) (*ConfirmationEvent, error)
// RegisterSpendNtfn registers an intent to be notified once the target
// outpoint is succesfully spent within a confirmed transaction. The
// returned SpendEvent will receive a send on the 'Spend' transaction
// once a transaction spending the input is detected on the blockchain.
//
// NOTE: This notifications should be triggered once the transaction is
// *seen* on the network, not when it has received a single confirmation.
RegisterSpendNtfn(outpoint *wire.OutPoint) (*SpendEvent, error)
// RegisterBlockEpochNtfn registers an intent to be notified of each
// new block connected to the tip of the main chain. The returned
// BlockEpochEvent struct contains a channel which will be sent upon
// for each new block discovered.
RegisterBlockEpochNtfn(targetHeight int32) (*BlockEpochEvent, error)
// Start the ChainNotifier. Once started, the implementation should be
// ready, and able to receive notification registrations from clients.
Start() error
// Stops the concrete ChainNotifier. Once stopped, the ChainNotifier
// should disallow any future requests from potential clients.
// Additionally, all pending client notifications will be cancelled
// by closing the related channels on the *Event's.
Stop() error
}
// TODO(roasbeef): ln channels should request spend ntfns for counterparty's
// inputs to funding tx also, consider channel closed if funding tx re-org'd
// out and inputs double spent.
// TODO(roasbeef): all chans should be receive only.
// ConfirmationEvent encapsulates a confirmation notification. With this struct,
// callers can be notified of: the instance the target txid reaches the targeted
// number of confirmations, and also in the event that the original txid becomes
// disconnected from the blockchain as a result of a re-org.
//
// Once the txid reaches the specified number of confirmations, the 'Confirmed'
// channel will be sent upon fufulling the notification.
//
// If the event that the original transaction becomes re-org'd out of the main
// chain, the 'NegativeConf' will be sent upon with a value representing the
// depth of the re-org.
type ConfirmationEvent struct {
Confirmed chan int32 // MUST be buffered.
// TODO(roasbeef): all goroutines on ln channel updates should also
// have a struct chan that's closed if funding gets re-org out. Need
// to sync, to request another confirmation event ntfn, then re-open
// channel after confs.
NegativeConf chan int32 // MUST be buffered.
}
// SpendDetail contains details pertaining to a spent output. This struct itself
// is the spentness notification. It includes the original outpoint which triggered
// the notification, the hash of the transaction spending the output, the
// spending transaction itself, and finally the input index which spent the
// target output.
type SpendDetail struct {
SpentOutPoint *wire.OutPoint
SpenderTxHash *wire.ShaHash
SpendingTx *wire.MsgTx
SpenderInputIndex uint32
SpendingHeight int32
}
// SpendEvent encapsulates a spentness notification. Its only field 'Spend' will
// be sent upon once the target output passed into RegisterSpendNtfn has been
// spent on the blockchain.
type SpendEvent struct {
Spend chan *SpendDetail // MUST be buffered.
}
// BlockEpoch represents meta-data concerning each new block connected to the
// main chain.
type BlockEpoch struct {
Height int32
Hash *wire.ShaHash
}
// BlockEpochEvent encapsulates an on-going stream of block epoch
// notifications. Its only field 'Epoochs' will be sent upon for each new block
// connected to the main-chain.
type BlockEpochEvent struct {
Epochs chan *BlockEpoch // MUST be buffered.
}
// NotifierDriver represents a "driver" for a particular interface. A driver is
// indentified by a globally unique string identifier along with a 'New()'
// method which is responsible for initializing a particular ChainNotifier
// concrete implementation.
type NotifierDriver struct {
// NotifierType is a string which uniquely identifes the ChainNotifier
// that this driver, drives.
NotifierType string
// New creates a new instance of a concrete ChainNotifier
// implementation given a variadic set up arguments. The function takes
// a varidaic number of interface paramters in order to provide
// initialization flexibility, thereby accomodating several potential
// ChainNotifier implementations.
New func(args ...interface{}) (ChainNotifier, error)
}
var (
notifiers = make(map[string]*NotifierDriver)
registerMtx sync.Mutex
)
// RegisteredNotifiers returns a slice of all currently registered notifiers.
//
// NOTE: This function is safe for concurrent access.
func RegisteredNotifiers() []*NotifierDriver {
registerMtx.Lock()
defer registerMtx.Unlock()
drivers := make([]*NotifierDriver, 0, len(notifiers))
for _, driver := range notifiers {
drivers = append(drivers, driver)
}
return drivers
}
// RegisterNotifier registers a NotifierDriver which is capable of driving a
// concrete ChainNotifier interface. In the case that this driver has already
// been registered, an error is returned.
//
// NOTE: This function is safe for concurrent access.
func RegisterNotifier(driver *NotifierDriver) error {
registerMtx.Lock()
defer registerMtx.Unlock()
if _, ok := notifiers[driver.NotifierType]; ok {
return fmt.Errorf("notifier already registered")
}
notifiers[driver.NotifierType] = driver
return nil
}
// SupportedNotifiers returns a slice of strings that represent the database
// drivers that have been registered and are therefore supported.
//
// NOTE: This function is safe for concurrent access.
func SupportedNotifiers() []string {
registerMtx.Lock()
defer registerMtx.Unlock()
supportedNotifiers := make([]string, 0, len(notifiers))
for driverName := range notifiers {
supportedNotifiers = append(supportedNotifiers, driverName)
}
return supportedNotifiers
}