func runTreeSmallConfig(signType sign.Type, RoundsPerView int, suite abstract.Suite, failureRate int, faultyNodes ...int) error {
var hc *oldconfig.HostConfig
var err error
opts := oldconfig.ConfigOptions{Suite: suite}
if len(faultyNodes) > 0 {
opts.Faulty = true
}
hc, err = oldconfig.LoadConfig("../test/data/exconf.json", opts)
if err != nil {
return err
}
for _, fh := range faultyNodes {
fmt.Println("Setting", hc.SNodes[fh].Name(), "as faulty")
if failureRate == 100 {
hc.SNodes[fh].Host.(*coconet.FaultyHost).SetDeadFor("commit", true)
}
// hc.SNodes[fh].Host.(*coconet.FaultyHost).Die()
}
if len(faultyNodes) > 0 {
for i := range hc.SNodes {
hc.SNodes[i].FailureRate = failureRate
}
}
for _, sn := range hc.SNodes {
sn.RoundsPerView = RoundsPerView
}
err = hc.Run(false, signType)
if err != nil {
return err
}
for _, sn := range hc.SNodes {
defer sn.Close()
}
// Have root node initiate the signing protocol via a simple annoucement
hc.SNodes[0].LogTest = []byte("Hello World")
hc.SNodes[0].StartAnnouncement(&sign.AnnouncementMessage{LogTest: hc.SNodes[0].LogTest, Round: 1})
return nil
}
func runTCPTimestampFromConfig(RoundsPerView int, signType, nMessages, nClients, nRounds, failureRate int, faultyNodes ...int) error {
var hc *oldconfig.HostConfig
var err error
oldconfig.StartConfigPort += 2010
// load config with faulty or healthy hosts
if len(faultyNodes) > 0 {
hc, err = oldconfig.LoadConfig("../test/data/extcpconf.json", oldconfig.ConfigOptions{ConnType: "tcp", GenHosts: true, Faulty: true})
} else {
hc, err = oldconfig.LoadConfig("../test/data/extcpconf.json", oldconfig.ConfigOptions{ConnType: "tcp", GenHosts: true})
}
if err != nil {
return err
}
// set FailureRates
if len(faultyNodes) > 0 {
for i := range hc.SNodes {
hc.SNodes[i].FailureRate = failureRate
}
}
for _, n := range hc.SNodes {
n.RoundsPerView = RoundsPerView
}
err = hc.Run(true, sign.Type(signType))
if err != nil {
return err
}
stampers, clients, err := hc.RunTimestamper(nClients)
if err != nil {
return err
}
for _, s := range stampers[1:] {
go s.Run("regular", nRounds)
}
go stampers[0].Run("root", nRounds)
log.Println("About to start sending client messages")
for r := 1; r <= nRounds; r++ {
var wg sync.WaitGroup
for _, c := range clients {
for i := 0; i < nMessages; i++ {
messg := []byte("messg:" + strconv.Itoa(r) + "." + strconv.Itoa(i))
wg.Add(1)
// CLIENT SENDING
go func(c *stamp.Client, messg []byte, i int) {
defer wg.Done()
server := "NO VALID SERVER"
retry:
c.Mux.Lock()
for k := range c.Servers {
server = k
break
}
c.Mux.Unlock()
log.Infoln("timestamping")
err := c.TimeStamp(messg, server)
if err == stamp.ErrClientToTSTimeout {
log.Errorln(err)
return
}
if err != nil {
time.Sleep(1 * time.Second)
fmt.Println("retyring because err:", err)
goto retry
}
log.Infoln("timestamped")
}(c, messg, r)
}
}
// wait between rounds
wg.Wait()
log.Println("done with round:", r, " of ", nRounds)
}
// give it some time before closing the connections
// so that no essential messages are denied passing through the network
time.Sleep(1 * time.Second)
for _, h := range hc.SNodes {
h.Close()
}
for _, c := range clients {
c.Close()
}
return nil
}
// # Messages per round, # rounds, failure rate[0..100], list of faulty nodes
func runTSSIntegration(RoundsPerView, nMessages, nRounds, failureRate, failAsRootEvery, failAsFollowerEvery int, faultyNodes ...int) error {
//stamp.ROUND_TIME = 1 * time.Second
var hostConfig *oldconfig.HostConfig
var err error
// load config with faulty or healthy hosts
opts := oldconfig.ConfigOptions{}
if len(faultyNodes) > 0 {
opts.Faulty = true
}
hostConfig, err = oldconfig.LoadConfig("../test/data/exconf.json", opts)
if err != nil {
return err
}
log.Printf("load config returned dir: %p", hostConfig.Dir)
// set FailureRates as pure percentages
if len(faultyNodes) > 0 {
for i := range hostConfig.SNodes {
hostConfig.SNodes[i].FailureRate = failureRate
}
}
// set root failures
if failAsRootEvery > 0 {
for i := range hostConfig.SNodes {
hostConfig.SNodes[i].FailAsRootEvery = failAsRootEvery
}
}
// set followerfailures
for _, f := range faultyNodes {
hostConfig.SNodes[f].FailAsFollowerEvery = failAsFollowerEvery
}
for _, n := range hostConfig.SNodes {
n.RoundsPerView = RoundsPerView
}
err = hostConfig.Run(true, sign.MerkleTree)
if err != nil {
return err
}
// Connect all TSServers to their clients, except for root TSServer
ncps := 3 // # clients per TSServer
stampers := make([]*stamp.Server, len(hostConfig.SNodes))
for i := range stampers {
stampers[i] = stamp.NewServer(hostConfig.SNodes[i])
defer func() {
hostConfig.SNodes[i].Close()
time.Sleep(1 * time.Second)
}()
}
clientsLists := make([][]*stamp.Client, len(hostConfig.SNodes[1:]))
for i, s := range stampers[1:] {
clientsLists[i] = createClientsForTSServer(ncps, s, hostConfig.Dir, 0+i+ncps)
}
for i, s := range stampers[1:] {
go s.Run("regular", nRounds)
go s.ListenToClients()
go func(clients []*stamp.Client, nRounds int, nMessages int, s *stamp.Server) {
log.Println("clients Talk")
time.Sleep(1 * time.Second)
clientsTalk(clients, nRounds, nMessages, s)
log.Println("Clients done Talking")
}(clientsLists[i], nRounds, nMessages, s)
}
log.Println("RUNNING ROOT")
stampers[0].ListenToClients()
stampers[0].Run("root", nRounds)
log.Println("Done running root")
// After clients receive messages back we need a better way
// of waiting to make sure servers check ElGamal sigs
// time.Sleep(1 * time.Second)
log.Println("DONE with test")
return nil
}
func Run(hostname, cfg, app string, rounds int, rootwait int, debug, testConnect bool, failureRate, rFail, fFail int, logger, suite string) {
if debug {
coco.DEBUG = true
}
// fmt.Println("EXEC TIMESTAMPER: " + hostname)
if hostname == "" {
fmt.Println("hostname is empty")
log.Fatal("no hostname given")
}
// load the configuration
//log.Println("loading configuration")
var hc *oldconfig.HostConfig
var err error
s := GetSuite(suite)
opts := oldconfig.ConfigOptions{ConnType: "tcp", Host: hostname, Suite: s}
if failureRate > 0 || fFail > 0 {
opts.Faulty = true
}
hc, err = oldconfig.LoadConfig(cfg, opts)
if err != nil {
fmt.Println(err)
log.Fatal(err)
}
// set FailureRates
if failureRate > 0 {
for i := range hc.SNodes {
hc.SNodes[i].FailureRate = failureRate
}
}
// set root failures
if rFail > 0 {
for i := range hc.SNodes {
hc.SNodes[i].FailAsRootEvery = rFail
}
}
// set follower failures
// a follower fails on %ffail round with failureRate probability
for i := range hc.SNodes {
hc.SNodes[i].FailAsFollowerEvery = fFail
}
// run this specific host
// log.Println("RUNNING HOST CONFIG")
err = hc.Run(app != "sign", sign.MerkleTree, hostname)
if err != nil {
log.Fatal(err)
}
defer func(sn *sign.Node) {
log.Panicln("program has terminated:", hostname)
sn.Close()
}(hc.SNodes[0])
if app == "sign" {
//log.Println("RUNNING Node")
// if I am root do the announcement message
if hc.SNodes[0].IsRoot(0) {
time.Sleep(3 * time.Second)
start := time.Now()
iters := 10
for i := 0; i < iters; i++ {
start = time.Now()
//fmt.Println("ANNOUNCING")
hc.SNodes[0].LogTest = []byte("Hello World")
err = hc.SNodes[0].Announce(0,
&sign.AnnouncementMessage{
LogTest: hc.SNodes[0].LogTest,
Round: i})
if err != nil {
log.Println(err)
}
elapsed := time.Since(start)
log.WithFields(log.Fields{
"file": logutils.File(),
"type": "root_announce",
"round": i,
"time": elapsed,
}).Info("")
}
} else {
// otherwise wait a little bit (hopefully it finishes by the end of this)
time.Sleep(30 * time.Second)
}
} else if app == "stamp" || app == "vote" {
// log.Println("RUNNING TIMESTAMPER")
stampers, _, err := hc.RunTimestamper(0, hostname)
// get rid of the hc information so it can be GC'ed
hc = nil
if err != nil {
log.Fatal(err)
}
for _, s := range stampers {
// only listen if this is the hostname specified
if s.Name() == hostname {
s.Logger = logger
s.Hostname = hostname
s.App = app
if s.IsRoot(0) {
log.Println("RUNNING ROOT SERVER AT:", hostname, rounds)
log.Printf("Waiting: %d s\n", rootwait)
// wait for the other nodes to get set up
time.Sleep(time.Duration(rootwait) * time.Second)
log.Println("STARTING ROOT ROUND")
s.Run("root", rounds)
// log.Println("\n\nROOT DONE\n\n")
} else if !testConnect {
log.Println("RUNNING REGULAR AT:", hostname)
s.Run("regular", rounds)
// log.Println("\n\nREGULAR DONE\n\n")
} else {
// testing connection
log.Println("RUNNING TEST_CONNNECT AT:", hostname)
s.Run("test_connect", rounds)
}
}
}
}
}