lnd/lntest/harness_node_manager.go
yyforyongyu a881477404
lntest: create new package lntest/miner for itest miner
This commit moves the `HarnessMiner` into a new package to avoid
confusion about incoming changes.
2024-07-23 21:30:07 +08:00

213 lines
6.5 KiB
Go

package lntest
import (
"context"
"fmt"
"sync"
"sync/atomic"
"testing"
"github.com/lightningnetwork/lnd/lnrpc"
"github.com/lightningnetwork/lnd/lntest/miner"
"github.com/lightningnetwork/lnd/lntest/node"
"github.com/lightningnetwork/lnd/lntest/wait"
)
// nodeManager is responsible for handling the start and stop of a given node.
// It also keeps track of the running nodes.
type nodeManager struct {
sync.Mutex
// chainBackend houses the information necessary to use a node as LND
// chain backend, such as rpc configuration, P2P information etc.
chainBackend node.BackendConfig
// currentTestCase holds the name for the currently run test case.
currentTestCase string
// lndBinary is the full path to the lnd binary that was specifically
// compiled with all required itest flags.
lndBinary string
// dbBackend sets the database backend to use.
dbBackend node.DatabaseBackend
// nativeSQL sets the database backend to use native SQL when
// applicable.
nativeSQL bool
// activeNodes is a map of all running nodes, format:
// {pubkey: *HarnessNode}.
activeNodes map[uint32]*node.HarnessNode
// standbyNodes is a map of all the standby nodes, format:
// {pubkey: *HarnessNode}.
standbyNodes map[uint32]*node.HarnessNode
// nodeCounter is a monotonically increasing counter that's used as the
// node's unique ID.
nodeCounter uint32
// feeServiceURL is the url of the fee service.
feeServiceURL string
}
// newNodeManager creates a new node manager instance.
func newNodeManager(lndBinary string, dbBackend node.DatabaseBackend,
nativeSQL bool) *nodeManager {
return &nodeManager{
lndBinary: lndBinary,
dbBackend: dbBackend,
nativeSQL: nativeSQL,
activeNodes: make(map[uint32]*node.HarnessNode),
standbyNodes: make(map[uint32]*node.HarnessNode),
}
}
// nextNodeID generates a unique sequence to be used as the node's ID.
func (nm *nodeManager) nextNodeID() uint32 {
nodeID := atomic.AddUint32(&nm.nodeCounter, 1)
return nodeID - 1
}
// newNode initializes a new HarnessNode, supporting the ability to initialize
// a wallet with or without a seed. If useSeed is false, the returned harness
// node can be used immediately. Otherwise, the node will require an additional
// initialization phase where the wallet is either created or restored.
func (nm *nodeManager) newNode(t *testing.T, name string, extraArgs []string,
password []byte, noAuth bool) (*node.HarnessNode, error) {
cfg := &node.BaseNodeConfig{
Name: name,
LogFilenamePrefix: nm.currentTestCase,
Password: password,
BackendCfg: nm.chainBackend,
ExtraArgs: extraArgs,
FeeURL: nm.feeServiceURL,
DBBackend: nm.dbBackend,
NativeSQL: nm.nativeSQL,
NodeID: nm.nextNodeID(),
LndBinary: nm.lndBinary,
NetParams: miner.HarnessNetParams,
SkipUnlock: noAuth,
}
node, err := node.NewHarnessNode(t, cfg)
if err != nil {
return nil, err
}
// Put node in activeNodes to ensure Shutdown is called even if start
// returns an error.
nm.registerNode(node)
return node, nil
}
// RegisterNode records a new HarnessNode in the NetworkHarnesses map of known
// nodes. This method should only be called with nodes that have successfully
// retrieved their public keys via FetchNodeInfo.
func (nm *nodeManager) registerNode(node *node.HarnessNode) {
nm.Lock()
nm.activeNodes[node.Cfg.NodeID] = node
nm.Unlock()
}
// ShutdownNode stops an active lnd process and returns when the process has
// exited and any temporary directories have been cleaned up.
func (nm *nodeManager) shutdownNode(node *node.HarnessNode) error {
if err := node.Shutdown(); err != nil {
return err
}
delete(nm.activeNodes, node.Cfg.NodeID)
return nil
}
// restartNode attempts to restart a lightning node by shutting it down
// cleanly, then restarting the process. This function is fully blocking. Upon
// restart, the RPC connection to the node will be re-attempted, continuing iff
// the connection attempt is successful. If the callback parameter is non-nil,
// then the function will be executed after the node shuts down, but *before*
// the process has been started up again.
func (nm *nodeManager) restartNode(ctxt context.Context,
hn *node.HarnessNode, callback func() error) error {
// Stop the node.
if err := hn.Stop(); err != nil {
return fmt.Errorf("restart node got error: %w", err)
}
if callback != nil {
if err := callback(); err != nil {
return err
}
}
// Start the node without unlocking the wallet.
if hn.Cfg.SkipUnlock {
return hn.StartWithNoAuth(ctxt)
}
return hn.Start(ctxt)
}
// unlockNode unlocks the node's wallet if the password is configured.
// Additionally, each time the node is unlocked, the caller can pass a set of
// SCBs to pass in via the Unlock method allowing them to restore channels
// during restart.
func (nm *nodeManager) unlockNode(hn *node.HarnessNode,
chanBackups ...*lnrpc.ChanBackupSnapshot) error {
// If the node doesn't have a password set, then we can exit here as we
// don't need to unlock it.
if len(hn.Cfg.Password) == 0 {
return nil
}
// Otherwise, we'll unlock the wallet, then complete the final steps
// for the node initialization process.
unlockReq := &lnrpc.UnlockWalletRequest{
WalletPassword: hn.Cfg.Password,
}
if len(chanBackups) != 0 {
unlockReq.ChannelBackups = chanBackups[0]
unlockReq.RecoveryWindow = 100
}
err := wait.NoError(func() error {
return hn.Unlock(unlockReq)
}, DefaultTimeout)
if err != nil {
return fmt.Errorf("%s: failed to unlock: %w", hn.Name(), err)
}
return nil
}
// initWalletAndNode will unlock the node's wallet and finish setting up the
// node so it's ready to take RPC requests.
func (nm *nodeManager) initWalletAndNode(hn *node.HarnessNode,
req *lnrpc.InitWalletRequest) ([]byte, error) {
// Pass the init request via rpc to finish unlocking the node.
resp := hn.RPC.InitWallet(req)
// Now that the wallet is unlocked, before creating an authed
// connection we will close the old unauthed connection.
if err := hn.CloseConn(); err != nil {
return nil, fmt.Errorf("close unauthed conn failed")
}
// Init the node, which will create the authed grpc conn and all its
// rpc clients.
err := hn.InitNode(resp.AdminMacaroon)
// In stateless initialization mode we get a macaroon back that we have
// to return to the test, otherwise gRPC calls won't be possible since
// there are no macaroon files created in that mode.
// In stateful init the admin macaroon will just be nil.
return resp.AdminMacaroon, err
}