func verifyBank(db *sql.DB) {
var sum int64
if *aggregate {
if err := db.QueryRow("SELECT SUM(balance) FROM accounts").Scan(&sum); err != nil {
log.Fatal(err)
}
} else {
tx, err := db.Begin()
if err != nil {
log.Fatal(err)
}
rows, err := tx.Query("SELECT balance FROM accounts")
if err != nil {
log.Fatal(err)
}
for rows.Next() {
var balance int64
if err = rows.Scan(&balance); err != nil {
log.Fatal(err)
}
sum += balance
}
if err = tx.Commit(); err != nil {
log.Fatal(err)
}
}
if sum == 0 {
log.Info("The bank is in good order.")
} else {
log.Fatalf("The bank is not in good order. Total value: %d", sum)
}
}
// bootstrapStores bootstraps uninitialized stores once the cluster
// and node IDs have been established for this node. Store IDs are
// allocated via a sequence id generator stored at a system key per
// node.
func (n *Node) bootstrapStores(bootstraps *list.List, stopper *stop.Stopper) {
log.Infof("bootstrapping %d store(s)", bootstraps.Len())
if n.ClusterID == "" {
panic("ClusterID missing during store bootstrap of auxiliary store")
}
// Bootstrap all waiting stores by allocating a new store id for
// each and invoking store.Bootstrap() to persist.
inc := int64(bootstraps.Len())
firstID, err := allocateStoreIDs(n.Descriptor.NodeID, inc, n.ctx.DB)
if err != nil {
log.Fatal(err)
}
sIdent := roachpb.StoreIdent{
ClusterID: n.ClusterID,
NodeID: n.Descriptor.NodeID,
StoreID: firstID,
}
for e := bootstraps.Front(); e != nil; e = e.Next() {
s := e.Value.(*storage.Store)
if err := s.Bootstrap(sIdent, stopper); err != nil {
log.Fatal(err)
}
if err := s.Start(stopper); err != nil {
log.Fatal(err)
}
n.stores.AddStore(s)
sIdent.StoreID++
log.Infof("bootstrapped store %s", s)
// Done regularly in Node.startGossip, but this cuts down the time
// until this store is used for range allocations.
s.GossipStore()
}
}
// SimulateNetwork runs until the simCallback returns false.
//
// At each cycle, every node gossips a key equal to its address (unique)
// with the cycle as the value. The received cycle value can be used
// to determine the aging of information between any two nodes in the
// network.
//
// At each cycle of the simulation, node 0 gossips the sentinel.
//
// The simulation callback receives the cycle and the network as arguments.
func (n *Network) SimulateNetwork(simCallback func(cycle int, network *Network) bool) {
nodes := n.Nodes
for cycle := 1; simCallback(cycle, n); cycle++ {
// Node 0 gossips sentinel & cluster ID every cycle.
if err := nodes[0].Gossip.AddInfo(
gossip.KeySentinel,
encoding.EncodeUint64Ascending(nil, uint64(cycle)),
time.Hour); err != nil {
log.Fatal(err)
}
if err := nodes[0].Gossip.AddInfo(gossip.KeyClusterID,
encoding.EncodeUint64Ascending(nil, uint64(cycle)), 0*time.Second); err != nil {
log.Fatal(err)
}
// Every node gossips cycle.
for _, node := range nodes {
if err := node.Gossip.AddInfo(
node.Addr.String(),
encoding.EncodeUint64Ascending(nil, uint64(cycle)),
time.Hour); err != nil {
log.Fatal(err)
}
node.Gossip.SimulationCycle()
}
time.Sleep(5 * time.Millisecond)
}
log.Infof("gossip network simulation: total infos sent=%d, received=%d", n.infosSent(), n.infosReceived())
}
func main() {
if err := parseFlags(); err != nil {
log.Fatal(err)
}
serv := maybeStartLocalServer()
if serv != nil {
defer serv.Stop()
}
db, err := setupDatabase()
if err != nil {
log.Fatal(err)
}
lastNow := time.Now()
var lastNumDumps uint64
writers := make([]blockWriter, *concurrency)
for i := range writers {
writers[i] = newBlockWriter(db)
go writers[i].run()
}
for range time.Tick(*outputInterval) {
now := time.Now()
elapsed := time.Since(lastNow)
dumps := atomic.LoadUint64(&numBlocks)
log.Infof("%d dumps were executed at %.1f/second.", (dumps - lastNumDumps), float64(dumps-lastNumDumps)/elapsed.Seconds())
lastNumDumps = dumps
lastNow = now
}
}
// bootstrapStores bootstraps uninitialized stores once the cluster
// and node IDs have been established for this node. Store IDs are
// allocated via a sequence id generator stored at a system key per
// node.
func (n *Node) bootstrapStores(bootstraps []*storage.Store, stopper *stop.Stopper) {
if n.ClusterID == *uuid.EmptyUUID {
panic("ClusterID missing during store bootstrap of auxiliary store")
}
// Bootstrap all waiting stores by allocating a new store id for
// each and invoking store.Bootstrap() to persist.
inc := int64(len(bootstraps))
firstID, err := allocateStoreIDs(n.Descriptor.NodeID, inc, n.ctx.DB)
if err != nil {
log.Fatal(err)
}
sIdent := roachpb.StoreIdent{
ClusterID: n.ClusterID,
NodeID: n.Descriptor.NodeID,
StoreID: firstID,
}
for _, s := range bootstraps {
if err := s.Bootstrap(sIdent, stopper); err != nil {
log.Fatal(err)
}
if err := s.Start(stopper); err != nil {
log.Fatal(err)
}
n.stores.AddStore(s)
sIdent.StoreID++
log.Infof("bootstrapped store %s", s)
// Done regularly in Node.startGossip, but this cuts down the time
// until this store is used for range allocations.
s.GossipStore()
}
}
// NewNetwork creates nodeCount gossip nodes.
func NewNetwork(nodeCount int) *Network {
clock := hlc.NewClock(hlc.UnixNano)
log.Infof("simulating gossip network with %d nodes", nodeCount)
n := &Network{
Nodes: []*Node{},
Stopper: stop.NewStopper(),
}
n.rpcContext = rpc.NewContext(&base.Context{Insecure: true}, clock, n.Stopper)
var err error
n.tlsConfig, err = n.rpcContext.GetServerTLSConfig()
if err != nil {
log.Fatal(err)
}
for i := 0; i < nodeCount; i++ {
node, err := n.CreateNode()
if err != nil {
log.Fatal(err)
}
// Build a resolver for each instance or we'll get data races.
r, err := resolver.NewResolverFromAddress(n.Nodes[0].Addr)
if err != nil {
log.Fatalf("bad gossip address %s: %s", n.Nodes[0].Addr, err)
}
node.Gossip.SetResolvers([]resolver.Resolver{r})
if err := n.StartNode(node); err != nil {
log.Fatal(err)
}
}
return n
}
func (z *zeroSum) setup() uint32 {
db := z.db[0]
if _, err := db.Exec("CREATE DATABASE IF NOT EXISTS zerosum"); err != nil {
log.Fatal(context.Background(), err)
}
accounts := `
CREATE TABLE IF NOT EXISTS accounts (
id INT PRIMARY KEY,
balance INT NOT NULL
)
`
if _, err := db.Exec(accounts); err != nil {
log.Fatal(context.Background(), err)
}
tableIDQuery := `
SELECT tables.id FROM system.namespace tables
JOIN system.namespace dbs ON dbs.id = tables.parentid
WHERE dbs.name = $1 AND tables.name = $2
`
var tableID uint32
if err := db.QueryRow(tableIDQuery, "zerosum", "accounts").Scan(&tableID); err != nil {
log.Fatal(context.Background(), err)
}
return tableID
}
// NewNetwork creates nodeCount gossip nodes.
func NewNetwork(nodeCount int, createResolvers bool) *Network {
log.Infof(context.TODO(), "simulating gossip network with %d nodes", nodeCount)
n := &Network{
Nodes: []*Node{},
Stopper: stop.NewStopper(),
}
n.rpcContext = rpc.NewContext(&base.Context{Insecure: true}, nil, n.Stopper)
var err error
n.tlsConfig, err = n.rpcContext.GetServerTLSConfig()
if err != nil {
log.Fatal(context.TODO(), err)
}
for i := 0; i < nodeCount; i++ {
node, err := n.CreateNode()
if err != nil {
log.Fatal(context.TODO(), err)
}
// Build a resolver for each instance or we'll get data races.
if createResolvers {
r, err := resolver.NewResolverFromAddress(n.Nodes[0].Addr())
if err != nil {
log.Fatalf(context.TODO(), "bad gossip address %s: %s", n.Nodes[0].Addr(), err)
}
node.Gossip.SetResolvers([]resolver.Resolver{r})
}
}
return n
}
func (c *cluster) freeze(nodeIdx int, freeze bool) {
addr := c.rpcAddr(nodeIdx)
conn, err := c.rpcCtx.GRPCDial(addr)
if err != nil {
log.Fatalf(context.Background(), "unable to dial: %s: %v", addr, err)
}
adminClient := serverpb.NewAdminClient(conn)
stream, err := adminClient.ClusterFreeze(
context.Background(), &serverpb.ClusterFreezeRequest{Freeze: freeze})
if err != nil {
log.Fatal(context.Background(), err)
}
for {
resp, err := stream.Recv()
if err != nil {
if err == io.EOF {
break
}
log.Fatal(context.Background(), err)
}
fmt.Println(resp.Message)
}
fmt.Println("ok")
}
// newDockerClient constructs a new docker client using the best available
// method. If DOCKER_HOST is set, initialize the client using DOCKER_TLS_VERIFY
// and DOCKER_CERT_PATH. If DOCKER_HOST is not set, look for the unix domain
// socket in /run/docker.sock and /var/run/docker.sock.
func newDockerClient() dockerclient.Client {
if host := os.Getenv("DOCKER_HOST"); host != "" {
if os.Getenv("DOCKER_TLS_VERIFY") == "" {
c, err := dockerclient.NewDockerClient(host, nil)
if err != nil {
log.Fatal(err)
}
return c
}
c, err := dockerclient.NewDockerClient(host, getTLSConfig())
if err != nil {
log.Fatal(err)
}
return c
}
for _, l := range []string{"/run/docker.sock", "/var/run/docker.sock"} {
if _, err := os.Stat(l); err != nil {
continue
}
c, err := dockerclient.NewDockerClient("unix://"+l, nil)
if err != nil {
return nil
}
return c
}
log.Fatal("docker not configured")
return nil
}
// startAdminServer launches a new admin server using minimal engine
// and local database setup. Returns the new http test server, which
// should be cleaned up by caller via httptest.Server.Close(). The
// Cockroach KV client address is set to the address of the test server.
func startAdminServer() (string, *stop.Stopper) {
stopper := stop.NewStopper()
db, err := BootstrapCluster("cluster-1", []engine.Engine{engine.NewInMem(proto.Attributes{}, 1<<20)}, stopper)
if err != nil {
log.Fatal(err)
}
admin := newAdminServer(db, stopper)
mux := http.NewServeMux()
mux.Handle(adminEndpoint, admin)
mux.Handle(debugEndpoint, admin)
httpServer := httptest.NewUnstartedServer(mux)
tlsConfig, err := testContext.GetServerTLSConfig()
if err != nil {
log.Fatal(err)
}
httpServer.TLS = tlsConfig
httpServer.StartTLS()
stopper.AddCloser(httpServer)
if strings.HasPrefix(httpServer.URL, "http://") {
testContext.Addr = strings.TrimPrefix(httpServer.URL, "http://")
} else if strings.HasPrefix(httpServer.URL, "https://") {
testContext.Addr = strings.TrimPrefix(httpServer.URL, "https://")
}
return httpServer.URL, stopper
}
// initNodeID updates the internal NodeDescriptor with the given ID. If zero is
// supplied, a new NodeID is allocated with the first invocation. For all other
// values, the supplied ID is stored into the descriptor (unless one has been
// set previously, in which case a fatal error occurs).
//
// Upon setting a new NodeID, the descriptor is gossiped and the NodeID is
// stored into the gossip instance.
func (n *Node) initNodeID(id roachpb.NodeID) {
if id < 0 {
log.Fatalf("NodeID must not be negative")
}
if o := n.Descriptor.NodeID; o > 0 {
if id == 0 {
return
}
log.Fatalf("cannot initialize NodeID to %d, already have %d", id, o)
}
var err error
if id == 0 {
id, err = allocateNodeID(n.ctx.DB)
log.Infof("new node allocated ID %d", id)
if err != nil {
log.Fatal(err)
}
if id == 0 {
log.Fatal("new node allocated illegal ID 0")
}
n.ctx.Gossip.SetNodeID(id)
} else {
log.Infof("node ID %d initialized", id)
}
// Gossip the node descriptor to make this node addressable by node ID.
n.Descriptor.NodeID = id
if err = n.ctx.Gossip.SetNodeDescriptor(&n.Descriptor); err != nil {
log.Fatalf("couldn't gossip descriptor for node %d: %s", n.Descriptor.NodeID, err)
}
}
// NewNetwork creates nodeCount gossip nodes. The networkType should
// be set to either "tcp" or "unix". The gossipInterval should be set
// to a compressed simulation timescale, though large enough to give
// the concurrent goroutines enough time to pass data back and forth
// in order to yield accurate estimates of how old data actually ends
// up being at the various nodes (e.g. DefaultTestGossipInterval).
// TODO: This method should take `stopper` as an argument.
func NewNetwork(nodeCount int, networkType string,
gossipInterval time.Duration) *Network {
clock := hlc.NewClock(hlc.UnixNano)
log.Infof("simulating gossip network with %d nodes", nodeCount)
stopper := stop.NewStopper()
rpcContext := rpc.NewContext(&base.Context{Insecure: true}, clock, stopper)
nodes := make([]*Node, nodeCount)
for i := range nodes {
server := rpc.NewServer(util.CreateTestAddr(networkType), rpcContext)
if err := server.Start(); err != nil {
log.Fatal(err)
}
nodes[i] = &Node{Server: server}
}
var numResolvers int
if len(nodes) > 3 {
numResolvers = 3
} else {
numResolvers = len(nodes)
}
for i, leftNode := range nodes {
// Build new resolvers for each instance or we'll get data races.
var resolvers []resolver.Resolver
for _, rightNode := range nodes[:numResolvers] {
resolvers = append(resolvers, resolver.NewResolverFromAddress(rightNode.Server.Addr()))
}
gossipNode := gossip.New(rpcContext, gossipInterval, resolvers)
addr := leftNode.Server.Addr()
if err := gossipNode.SetNodeDescriptor(&roachpb.NodeDescriptor{
NodeID: roachpb.NodeID(i + 1),
Address: util.MakeUnresolvedAddr(addr.Network(), addr.String()),
}); err != nil {
log.Fatal(err)
}
gossipNode.Start(leftNode.Server, stopper)
stopper.AddCloser(leftNode.Server)
leftNode.Gossip = gossipNode
}
return &Network{
Nodes: nodes,
NetworkType: networkType,
GossipInterval: gossipInterval,
Stopper: stopper,
}
}
// NewNetwork creates nodeCount gossip nodes. The networkType should
// be set to either "tcp" or "unix".
func NewNetwork(nodeCount int, networkType string) *Network {
clock := hlc.NewClock(hlc.UnixNano)
log.Infof("simulating gossip network with %d nodes", nodeCount)
stopper := stop.NewStopper()
rpcContext := rpc.NewContext(&base.Context{Insecure: true}, clock, stopper)
tlsConfig, err := rpcContext.GetServerTLSConfig()
if err != nil {
log.Fatal(err)
}
nodes := make([]*Node, nodeCount)
for i := range nodes {
server := rpc.NewServer(rpcContext)
testAddr := util.CreateTestAddr(networkType)
ln, err := util.ListenAndServe(stopper, server, testAddr, tlsConfig)
if err != nil {
log.Fatal(err)
}
nodes[i] = &Node{Server: server, Addr: ln.Addr()}
}
for i, leftNode := range nodes {
// Build new resolvers for each instance or we'll get data races.
resolvers := []resolver.Resolver{resolver.NewResolverFromAddress(nodes[0].Addr)}
gossipNode := gossip.New(rpcContext, resolvers)
addr := leftNode.Addr
gossipNode.SetNodeID(roachpb.NodeID(i + 1))
if err := gossipNode.SetNodeDescriptor(&roachpb.NodeDescriptor{
NodeID: roachpb.NodeID(i + 1),
Address: util.MakeUnresolvedAddr(addr.Network(), addr.String()),
}); err != nil {
log.Fatal(err)
}
if err := gossipNode.AddInfo(addr.String(), encoding.EncodeUint64(nil, 0), time.Hour); err != nil {
log.Fatal(err)
}
gossipNode.Start(leftNode.Server, addr, stopper)
gossipNode.EnableSimulationCycler(true)
leftNode.Gossip = gossipNode
}
return &Network{
Nodes: nodes,
NetworkType: networkType,
Stopper: stopper,
}
}
func main() {
if err := parseFlags(); err != nil {
log.Fatal(err)
}
serv := maybeStartLocalServer()
if serv != nil {
defer serv.Stop()
}
db, err := setupDatabase()
if err != nil {
log.Fatal(err)
}
lastNow := time.Now()
var lastNumDumps uint64
writers := make([]blockWriter, *concurrency)
errCh := make(chan error)
for i := range writers {
writers[i] = newBlockWriter(db)
go writers[i].run(errCh)
}
var numErr int
for range time.Tick(*outputInterval) {
now := time.Now()
elapsed := time.Since(lastNow)
dumps := atomic.LoadUint64(&numBlocks)
log.Infof("%d dumps were executed at %.1f/second (%d total errors)", (dumps - lastNumDumps), float64(dumps-lastNumDumps)/elapsed.Seconds(), numErr)
for {
select {
case err := <-errCh:
numErr++
if !*tolerateErrors {
log.Fatal(err)
} else {
log.Warning(err)
}
continue
default:
}
break
}
lastNumDumps = dumps
lastNow = now
}
}
func newCLITest() cliTest {
// Reset the client context for each test. We don't reset the
// pointer (because they are tied into the flags), but instead
// overwrite the existing struct's values.
baseCtx.InitDefaults()
cliCtx.InitCLIDefaults()
osStderr = os.Stdout
s, err := serverutils.StartServerRaw(base.TestServerArgs{})
if err != nil {
log.Fatalf(context.Background(), "Could not start server: %v", err)
}
tempDir, err := ioutil.TempDir("", "cli-test")
if err != nil {
log.Fatal(context.Background(), err)
}
// Copy these assets to disk from embedded strings, so this test can
// run from a standalone binary.
// Disable embedded certs, or the security library will try to load
// our real files as embedded assets.
security.ResetReadFileFn()
assets := []string{
filepath.Join(security.EmbeddedCertsDir, security.EmbeddedCACert),
filepath.Join(security.EmbeddedCertsDir, security.EmbeddedCAKey),
filepath.Join(security.EmbeddedCertsDir, security.EmbeddedNodeCert),
filepath.Join(security.EmbeddedCertsDir, security.EmbeddedNodeKey),
filepath.Join(security.EmbeddedCertsDir, security.EmbeddedRootCert),
filepath.Join(security.EmbeddedCertsDir, security.EmbeddedRootKey),
}
for _, a := range assets {
securitytest.RestrictedCopy(nil, a, tempDir, filepath.Base(a))
}
return cliTest{
TestServer: s.(*server.TestServer),
certsDir: tempDir,
cleanupFunc: func() {
if err := os.RemoveAll(tempDir); err != nil {
log.Fatal(context.Background(), err)
}
},
}
}
func (l *Cluster) startNode(i int) *Container {
gossipNodes := []string{}
for i := 0; i < l.numNodes; i++ {
gossipNodes = append(gossipNodes, fmt.Sprintf("%s:%d", node(i), cockroachPort))
}
cmd := []string{
"start",
"--stores=ssd=" + data(i),
"--certs=/certs",
"--addr=" + fmt.Sprintf("%s:%d", node(i), cockroachPort),
"--gossip=" + strings.Join(gossipNodes, ","),
"--scan-max-idle-time=200ms", // set low to speed up tests
}
if len(l.LogDir) > 0 {
dockerDir := "/logs/" + node(i)
localDir := l.LogDir + "/" + node(i)
if !exists(localDir) {
if err := os.Mkdir(localDir, 0777); err != nil {
log.Fatal(err)
}
}
log.Infof("Logs for node %s are located at %s.", node(i), localDir)
cmd = append(
cmd,
"--log-dir="+dockerDir,
"--logtostderr=false",
"--alsologtostderr=true")
}
c := l.createRoach(i, cmd...)
maybePanic(c.Start(nil, l.dns, l.vols))
c.Name = node(i)
log.Infof("started %s: https://%s", c.Name, c.Addr(""))
return c
}
func (c *cluster) makeNode(nodeIdx int, extraArgs []string) *node {
name := fmt.Sprintf("%d", nodeIdx+1)
dir := filepath.Join(dataDir, name)
logDir := filepath.Join(dir, "logs")
if err := os.MkdirAll(logDir, 0755); err != nil {
log.Fatal(context.Background(), err)
}
args := []string{
cockroachBin,
"start",
"--insecure",
fmt.Sprintf("--port=%d", c.rpcPort(nodeIdx)),
fmt.Sprintf("--http-port=%d", c.httpPort(nodeIdx)),
fmt.Sprintf("--store=%s", dir),
fmt.Sprintf("--cache=256MiB"),
fmt.Sprintf("--logtostderr"),
}
if nodeIdx > 0 {
args = append(args, fmt.Sprintf("--join=localhost:%d", c.rpcPort(0)))
}
args = append(args, extraArgs...)
node := &node{
LogDir: logDir,
Args: args,
}
node.start()
return node
}
func createTestClient(addr string) *client.DB {
db, err := client.Open("https://root@" + addr + "?certs=" + security.EmbeddedCertsDir)
if err != nil {
log.Fatal(err)
}
return db
}
// Serve accepts and services connections on the already started
// listener.
func (s *Server) Serve(handler http.Handler) {
s.handler = handler
s.activeConns = make(map[net.Conn]struct{})
server := &http.Server{
Handler: s,
ConnState: func(conn net.Conn, state http.ConnState) {
s.mu.Lock()
defer s.mu.Unlock()
switch state {
case http.StateNew:
s.activeConns[conn] = struct{}{}
case http.StateHijacked, http.StateClosed:
delete(s.activeConns, conn)
}
},
}
s.context.Stopper.RunWorker(func() {
if err := server.Serve(s.listener); err != nil {
if !strings.HasSuffix(err.Error(), "use of closed network connection") {
log.Fatal(err)
}
}
})
s.context.Stopper.RunWorker(func() {
<-s.context.Stopper.ShouldStop()
s.Close()
})
}
// Serve accepts and services connections on the already started
// listener.
func (s *Server) Serve(handler http.Handler) {
s.handler = handler
s.activeConns = make(map[net.Conn]struct{})
server := &http.Server{
Handler: s,
ConnState: func(conn net.Conn, state http.ConnState) {
s.mu.Lock()
defer s.mu.Unlock()
switch state {
case http.StateNew:
if s.closed {
conn.Close()
return
}
s.activeConns[conn] = struct{}{}
case http.StateClosed:
delete(s.activeConns, conn)
}
},
}
s.context.Stopper.RunWorker(func() {
if err := server.Serve(s.listener); err != nil && !isClosedConnection(err) {
log.Fatal(err)
}
})
s.context.Stopper.RunWorker(func() {
<-s.context.Stopper.ShouldStop()
s.Close()
})
}
// SimulateNetwork creates nodeCount gossip nodes. The network should
// be set to either "tcp" or "unix". The gossipInterval should be set
// to a compressed simulation timescale, though large enough to give
// the concurrent goroutines enough time to pass data back and forth
// in order to yield accurate estimates of how old data actually ends
// up being at the various nodes. After each gossipInterval period,
// simCallback is invoked; when it returns false, the simulation
// ends. If it returns true, the simulation continues another cycle.
//
// Node0 gossips the node count as well as the gossip sentinel. The
// gossip bootstrap hosts are set to the first three nodes (or fewer if
// less than three are available).
//
// At each cycle of the simulation, node 0 gossips the sentinel. If
// the simulation requires other nodes to gossip, this should be done
// via simCallback.
//
// The simulation callback receives a map of nodes, keyed by node address.
func SimulateNetwork(nodeCount int, network string, gossipInterval time.Duration,
simCallback func(cycle int, nodes map[string]*Gossip) bool) {
// seed the random number generator for non-determinism across
// multiple runs.
rand.Seed(time.Now().UTC().UnixNano())
tlsConfig := rpc.LoadInsecureTLSConfig()
log.Infof("simulating network with %d nodes", nodeCount)
servers := make([]*rpc.Server, nodeCount)
addrs := make([]net.Addr, nodeCount)
for i := 0; i < nodeCount; i++ {
addr := util.CreateTestAddr(network)
servers[i] = rpc.NewServer(addr, tlsConfig)
if err := servers[i].Start(); err != nil {
log.Fatal(err)
}
addrs[i] = servers[i].Addr()
}
var bootstrap []net.Addr
if nodeCount < 3 {
bootstrap = addrs
} else {
bootstrap = addrs[:3]
}
nodes := make(map[string]*Gossip, nodeCount)
for i := 0; i < nodeCount; i++ {
node := New(tlsConfig)
node.Name = fmt.Sprintf("Node%d", i)
node.SetBootstrap(bootstrap)
node.SetInterval(gossipInterval)
node.Start(servers[i])
// Node 0 gossips node count.
if i == 0 {
node.AddInfo(KeyNodeCount, int64(nodeCount), time.Hour)
}
nodes[addrs[i].String()] = node
}
gossipTimeout := time.Tick(gossipInterval)
var complete bool
for cycle := 0; !complete; cycle++ {
select {
case <-gossipTimeout:
// Node 0 gossips sentinel every cycle.
nodes[addrs[0].String()].AddInfo(KeySentinel, int64(cycle), time.Hour)
if !simCallback(cycle, nodes) {
complete = true
}
}
}
// Stop all servers & nodes.
for i := 0; i < nodeCount; i++ {
servers[i].Close()
nodes[addrs[i].String()].Stop()
}
}
func (lt *localInterceptableTransport) handleMessage(msg *RaftMessageRequest) {
ack := make(chan struct{})
iMsg := &interceptMessage{
args: msg,
ack: ack,
}
// The following channel ops are not protected by a select with
// ShouldStop since we are running under a StartTask and leaving
// things partially complete here could prevent other components
// from shutting down cleanly.
lt.Events <- iMsg
<-ack
lt.mu.Lock()
srv, ok := lt.listeners[msg.ToReplica.StoreID]
lt.mu.Unlock()
if !ok {
return
}
_, err := srv.RaftMessage(msg)
if err == ErrStopped {
return
} else if err != nil {
log.Fatal(err)
}
}
// request returns the result of performing a http get request.
func request(url string, httpClient *http.Client) ([]byte, bool) {
for r := retry.Start(retryOptions); r.Next(); {
req, err := http.NewRequest("GET", url, nil)
if err != nil {
log.Fatal(err)
return nil, false
}
req.Header.Set(util.AcceptHeader, util.JSONContentType)
resp, err := httpClient.Do(req)
if err != nil {
log.Infof("could not GET %s - %s", url, err)
continue
}
defer resp.Body.Close()
body, err := ioutil.ReadAll(resp.Body)
if err != nil {
log.Infof("could not ready body for %s - %s", url, err)
continue
}
if resp.StatusCode != http.StatusOK {
log.Infof("could not GET %s - statuscode: %d - body: %s", url, resp.StatusCode, body)
continue
}
returnedContentType := resp.Header.Get(util.ContentTypeHeader)
if returnedContentType != util.JSONContentType {
log.Infof("unexpected content type: %v", returnedContentType)
continue
}
log.Infof("OK response from %s", url)
return body, true
}
log.Warningf("There was an error retrieving %s", url)
return nil, false
}
func (l *LocalCluster) runDockerSpy() {
l.panicOnStop()
create := func() (*Container, error) {
return createContainer(l,
container.Config{
Image: dockerspyImage + ":" + dockerspyTag,
Cmd: strslice.New("--dns-domain=" + domain),
}, container.HostConfig{
Binds: []string{"/var/run/docker.sock:/var/run/docker.sock"},
PublishAllPorts: true,
},
"docker-spy",
)
}
c, err := create()
if dockerclient.IsErrImageNotFound(err) {
if err := pullImage(l, types.ImagePullOptions{ImageID: dockerspyImage, Tag: dockerspyTag}); err != nil {
log.Fatal(err)
}
c, err = create()
}
maybePanic(err)
maybePanic(c.Start())
l.dns = c
if ci, err := c.Inspect(); err != nil {
log.Error(err)
} else {
log.Infof("started %s: %s", c.Name(), ci.NetworkSettings.IPAddress)
}
}
func (r *Replica) leasePostCommitTrigger(
ctx context.Context,
trigger PostCommitTrigger,
replicaID roachpb.ReplicaID,
prevLease *roachpb.Lease, // TODO(tschottdorf): could this not be nil?
) {
if prevLease.Replica.StoreID != trigger.lease.Replica.StoreID {
// The lease is changing hands. Is this replica the new lease holder?
if trigger.lease.Replica.ReplicaID == replicaID {
// If this replica is a new holder of the lease, update the low water
// mark of the timestamp cache. Note that clock offset scenarios are
// handled via a stasis period inherent in the lease which is documented
// in on the Lease struct.
//
// The introduction of lease transfers implies that the previous lease
// may have been shortened and we are now applying a formally overlapping
// lease (since the old lease holder has promised not to serve any more
// requests, this is kosher). This means that we don't use the old
// lease's expiration but instead use the new lease's start to initialize
// the timestamp cache low water.
log.Infof(ctx, "new range lease %s following %s [physicalTime=%s]",
trigger.lease, prevLease, r.store.Clock().PhysicalTime())
r.mu.Lock()
r.mu.tsCache.SetLowWater(trigger.lease.Start)
r.mu.Unlock()
// Gossip the first range whenever its lease is acquired. We check to
// make sure the lease is active so that a trailing replica won't process
// an old lease request and attempt to gossip the first range.
if r.IsFirstRange() && trigger.lease.Covers(r.store.Clock().Now()) {
func() {
r.mu.Lock()
defer r.mu.Unlock()
r.gossipFirstRangeLocked(ctx)
}()
}
} else if trigger.lease.Covers(r.store.Clock().Now()) {
if err := r.withRaftGroup(func(raftGroup *raft.RawNode) error {
if raftGroup.Status().RaftState == raft.StateLeader {
// If this replica is the raft leader but it is not the new lease
// holder, then try to transfer the raft leadership to match the
// lease.
log.Infof(ctx, "range %v: replicaID %v transfer raft leadership to replicaID %v",
r.RangeID, replicaID, trigger.lease.Replica.ReplicaID)
raftGroup.TransferLeader(uint64(trigger.lease.Replica.ReplicaID))
}
return nil
}); err != nil {
// An error here indicates that this Replica has been destroyed
// while lacking the necessary synchronization (or even worse, it
// fails spuriously - could be a storage error), and so we avoid
// sweeping that under the rug.
//
// TODO(tschottdorf): this error is not handled any more
// at this level.
log.Fatal(ctx, NewReplicaCorruptionError(err))
}
}
}
}
func ExampleDB_Put_insecure() {
s := &server.TestServer{}
s.Ctx = server.NewTestContext()
s.Ctx.Insecure = true
if pErr := s.Start(); pErr != nil {
log.Fatalf("Could not start server: %v", pErr)
}
defer s.Stop()
db, err := client.Open(s.Stopper(), "rpc://foo@"+s.ServingAddr())
if err != nil {
log.Fatal(err)
}
if pErr := db.Put("aa", "1"); pErr != nil {
panic(pErr)
}
result, pErr := db.Get("aa")
if pErr != nil {
panic(pErr)
}
fmt.Printf("aa=%s\n", result.ValueBytes())
// Output:
// aa=1
}
// Read the balances in all the accounts and return them.
func (bank *Bank) sumAllAccounts() int64 {
var result int64
err := bank.db.Txn(func(txn *client.Txn) error {
rows, err := txn.Scan(bank.makeAccountID(0), bank.makeAccountID(bank.numAccounts), int64(bank.numAccounts))
if err != nil {
return err
}
if len(rows) != bank.numAccounts {
return fmt.Errorf("Could only read %d of %d rows of the database.\n", len(rows), bank.numAccounts)
}
// Sum up the balances.
for i := 0; i < bank.numAccounts; i++ {
account := &Account{}
err := account.decode(rows[i].ValueBytes())
if err != nil {
return err
}
// fmt.Printf("Account %d contains %d$\n", bank.firstAccount+i, account.Balance)
result += account.Balance
}
return nil
})
if err != nil {
log.Fatal(err)
}
return result
}
func createTestClientFor(stopper *stop.Stopper, addr, user string) *client.DB {
db, err := client.Open(stopper, "rpcs://"+user+"@"+addr+"?certs="+security.EmbeddedCertsDir)
if err != nil {
log.Fatal(err)
}
return db
}
func ExampleDB_Insecure() {
s := &server.TestServer{}
s.Ctx = server.NewTestContext()
s.Ctx.Insecure = true
if err := s.Start(); err != nil {
log.Fatalf("Could not start server: %v", err)
}
log.Infof("Test server listening on %s: %s", s.Ctx.RequestScheme(), s.ServingAddr())
defer s.Stop()
db, err := client.Open("http://root@" + s.ServingAddr())
if err != nil {
log.Fatal(err)
}
if err := db.Put("aa", "1"); err != nil {
panic(err)
}
result, err := db.Get("aa")
if err != nil {
panic(err)
}
fmt.Printf("aa=%s\n", result.ValueBytes())
// Output:
// aa=1
}
