seaweedfs/weed/command/server.go

308 lines
12 KiB
Go

package command
import (
"net/http"
"os"
"runtime"
"runtime/pprof"
"strconv"
"strings"
"sync"
"time"
"github.com/chrislusf/seaweedfs/weed/glog"
"github.com/chrislusf/seaweedfs/weed/pb"
"github.com/chrislusf/seaweedfs/weed/server"
"github.com/chrislusf/seaweedfs/weed/storage"
"github.com/chrislusf/seaweedfs/weed/util"
"github.com/gorilla/mux"
"github.com/soheilhy/cmux"
"google.golang.org/grpc"
"google.golang.org/grpc/reflection"
)
type ServerOptions struct {
cpuprofile *string
}
var (
serverOptions ServerOptions
filerOptions FilerOptions
)
func init() {
cmdServer.Run = runServer // break init cycle
}
var cmdServer = &Command{
UsageLine: "server -port=8080 -dir=/tmp -volume.max=5 -ip=server_name",
Short: "start a server, including volume server, and automatically elect a master server",
Long: `start both a volume server to provide storage spaces
and a master server to provide volume=>location mapping service and sequence number of file ids
This is provided as a convenient way to start both volume server and master server.
The servers are exactly the same as starting them separately.
So other volume servers can use this embedded master server also.
Optionally, one filer server can be started. Logically, filer servers should not be in a cluster.
They run with meta data on disk, not shared. So each filer server is different.
`,
}
var (
serverIp = cmdServer.Flag.String("ip", "localhost", "ip or server name")
serverBindIp = cmdServer.Flag.String("ip.bind", "0.0.0.0", "ip address to bind to")
serverMaxCpu = cmdServer.Flag.Int("maxCpu", 0, "maximum number of CPUs. 0 means all available CPUs")
serverTimeout = cmdServer.Flag.Int("idleTimeout", 30, "connection idle seconds")
serverDataCenter = cmdServer.Flag.String("dataCenter", "", "current volume server's data center name")
serverRack = cmdServer.Flag.String("rack", "", "current volume server's rack name")
serverWhiteListOption = cmdServer.Flag.String("whiteList", "", "comma separated Ip addresses having write permission. No limit if empty.")
serverPeers = cmdServer.Flag.String("master.peers", "", "other master nodes in comma separated ip:masterPort list")
serverSecureKey = cmdServer.Flag.String("secure.secret", "", "secret to encrypt Json Web Token(JWT)")
serverGarbageThreshold = cmdServer.Flag.String("garbageThreshold", "0.3", "threshold to vacuum and reclaim spaces")
masterPort = cmdServer.Flag.Int("master.port", 9333, "master server http listen port")
masterMetaFolder = cmdServer.Flag.String("master.dir", "", "data directory to store meta data, default to same as -dir specified")
masterVolumeSizeLimitMB = cmdServer.Flag.Uint("master.volumeSizeLimitMB", 30*1000, "Master stops directing writes to oversized volumes.")
masterVolumePreallocate = cmdServer.Flag.Bool("master.volumePreallocate", false, "Preallocate disk space for volumes.")
masterDefaultReplicaPlacement = cmdServer.Flag.String("master.defaultReplicaPlacement", "000", "Default replication type if not specified.")
volumePort = cmdServer.Flag.Int("volume.port", 8080, "volume server http listen port")
volumePublicPort = cmdServer.Flag.Int("volume.port.public", 0, "volume server public port")
volumeDataFolders = cmdServer.Flag.String("dir", os.TempDir(), "directories to store data files. dir[,dir]...")
volumeMaxDataVolumeCounts = cmdServer.Flag.String("volume.max", "7", "maximum numbers of volumes, count[,count]...")
volumePulse = cmdServer.Flag.Int("pulseSeconds", 5, "number of seconds between heartbeats")
volumeIndexType = cmdServer.Flag.String("volume.index", "memory", "Choose [memory|leveldb|boltdb|btree] mode for memory~performance balance.")
volumeFixJpgOrientation = cmdServer.Flag.Bool("volume.images.fix.orientation", true, "Adjust jpg orientation when uploading.")
volumeReadRedirect = cmdServer.Flag.Bool("volume.read.redirect", true, "Redirect moved or non-local volumes.")
volumeServerPublicUrl = cmdServer.Flag.String("volume.publicUrl", "", "publicly accessible address")
volumeEnableBytesCache = cmdServer.Flag.Bool("volume.cache.enable", false, "direct cache instead of OS cache, cost more memory.")
isStartingFiler = cmdServer.Flag.Bool("filer", false, "whether to start filer")
serverWhiteList []string
)
func init() {
serverOptions.cpuprofile = cmdServer.Flag.String("cpuprofile", "", "cpu profile output file")
filerOptions.master = cmdServer.Flag.String("filer.master", "", "default to current master server")
filerOptions.collection = cmdServer.Flag.String("filer.collection", "", "all data will be stored in this collection")
filerOptions.port = cmdServer.Flag.Int("filer.port", 8888, "filer server http listen port")
filerOptions.publicPort = cmdServer.Flag.Int("filer.port.public", 0, "filer server public http listen port")
filerOptions.dir = cmdServer.Flag.String("filer.dir", "", "directory to store meta data, default to a 'filer' sub directory of what -dir is specified")
filerOptions.defaultReplicaPlacement = cmdServer.Flag.String("filer.defaultReplicaPlacement", "", "Default replication type if not specified during runtime.")
filerOptions.redirectOnRead = cmdServer.Flag.Bool("filer.redirectOnRead", false, "whether proxy or redirect to volume server during file GET request")
filerOptions.disableDirListing = cmdServer.Flag.Bool("filer.disableDirListing", false, "turn off directory listing")
filerOptions.confFile = cmdServer.Flag.String("filer.confFile", "", "json encoded filer conf file")
filerOptions.maxMB = cmdServer.Flag.Int("filer.maxMB", 32, "split files larger than the limit")
filerOptions.cassandra_server = cmdServer.Flag.String("filer.cassandra.server", "", "host[:port] of the cassandra server")
filerOptions.cassandra_keyspace = cmdServer.Flag.String("filer.cassandra.keyspace", "seaweed", "keyspace of the cassandra server")
filerOptions.redis_server = cmdServer.Flag.String("filer.redis.server", "", "host:port of the redis server, e.g., 127.0.0.1:6379")
filerOptions.redis_password = cmdServer.Flag.String("filer.redis.password", "", "redis password in clear text")
filerOptions.redis_database = cmdServer.Flag.Int("filer.redis.database", 0, "the database on the redis server")
}
func runServer(cmd *Command, args []string) bool {
filerOptions.secretKey = serverSecureKey
if *serverOptions.cpuprofile != "" {
f, err := os.Create(*serverOptions.cpuprofile)
if err != nil {
glog.Fatal(err)
}
pprof.StartCPUProfile(f)
defer pprof.StopCPUProfile()
}
if *filerOptions.redirectOnRead {
*isStartingFiler = true
}
*filerOptions.master = *serverIp + ":" + strconv.Itoa(*masterPort)
filerOptions.ip = serverIp
if *filerOptions.defaultReplicaPlacement == "" {
*filerOptions.defaultReplicaPlacement = *masterDefaultReplicaPlacement
}
if *volumePublicPort == 0 {
*volumePublicPort = *volumePort
}
if *serverMaxCpu < 1 {
*serverMaxCpu = runtime.NumCPU()
}
runtime.GOMAXPROCS(*serverMaxCpu)
folders := strings.Split(*volumeDataFolders, ",")
maxCountStrings := strings.Split(*volumeMaxDataVolumeCounts, ",")
var maxCounts []int
for _, maxString := range maxCountStrings {
if max, e := strconv.Atoi(maxString); e == nil {
maxCounts = append(maxCounts, max)
} else {
glog.Fatalf("The max specified in -max not a valid number %s", maxString)
}
}
if len(folders) != len(maxCounts) {
glog.Fatalf("%d directories by -dir, but only %d max is set by -max", len(folders), len(maxCounts))
}
for _, folder := range folders {
if err := util.TestFolderWritable(folder); err != nil {
glog.Fatalf("Check Data Folder(-dir) Writable %s : %s", folder, err)
}
}
if *masterVolumeSizeLimitMB > 30*1000 {
glog.Fatalf("masterVolumeSizeLimitMB should be less than 30000")
}
if *masterMetaFolder == "" {
*masterMetaFolder = folders[0]
}
if *isStartingFiler {
if *filerOptions.dir == "" {
*filerOptions.dir = *masterMetaFolder + "/filer"
os.MkdirAll(*filerOptions.dir, 0700)
}
if err := util.TestFolderWritable(*filerOptions.dir); err != nil {
glog.Fatalf("Check Mapping Meta Folder (-filer.dir=\"%s\") Writable: %s", *filerOptions.dir, err)
}
}
if err := util.TestFolderWritable(*masterMetaFolder); err != nil {
glog.Fatalf("Check Meta Folder (-mdir=\"%s\") Writable: %s", *masterMetaFolder, err)
}
if *serverWhiteListOption != "" {
serverWhiteList = strings.Split(*serverWhiteListOption, ",")
}
if *isStartingFiler {
go func() {
time.Sleep(1 * time.Second)
filerOptions.start()
}()
}
var raftWaitForMaster sync.WaitGroup
var volumeWait sync.WaitGroup
raftWaitForMaster.Add(1)
volumeWait.Add(1)
go func() {
r := mux.NewRouter()
ms := weed_server.NewMasterServer(r, *masterPort, *masterMetaFolder,
*masterVolumeSizeLimitMB, *masterVolumePreallocate,
*volumePulse, *masterDefaultReplicaPlacement, *serverGarbageThreshold,
serverWhiteList, *serverSecureKey,
)
glog.V(0).Infoln("Start Seaweed Master", util.VERSION, "at", *serverIp+":"+strconv.Itoa(*masterPort))
masterListener, e := util.NewListener(*serverBindIp+":"+strconv.Itoa(*masterPort), 0)
if e != nil {
glog.Fatalf("Master startup error: %v", e)
}
go func() {
raftWaitForMaster.Wait()
time.Sleep(100 * time.Millisecond)
myAddress := *serverIp + ":" + strconv.Itoa(*masterPort)
var peers []string
if *serverPeers != "" {
peers = strings.Split(*serverPeers, ",")
}
raftServer := weed_server.NewRaftServer(r, peers, myAddress, *masterMetaFolder, ms.Topo, *volumePulse)
ms.SetRaftServer(raftServer)
volumeWait.Done()
}()
raftWaitForMaster.Done()
// start grpc and http server
m := cmux.New(masterListener)
grpcL := m.Match(cmux.HTTP2HeaderField("content-type", "application/grpc"))
httpL := m.Match(cmux.Any())
// Create your protocol servers.
grpcS := grpc.NewServer()
pb.RegisterSeaweedServer(grpcS, ms)
reflection.Register(grpcS)
httpS := &http.Server{Handler: r}
go grpcS.Serve(grpcL)
go httpS.Serve(httpL)
if err := m.Serve(); err != nil {
glog.Fatalf("master server failed to serve: %v", err)
}
}()
volumeWait.Wait()
time.Sleep(100 * time.Millisecond)
if *volumePublicPort == 0 {
*volumePublicPort = *volumePort
}
if *volumeServerPublicUrl == "" {
*volumeServerPublicUrl = *serverIp + ":" + strconv.Itoa(*volumePublicPort)
}
isSeperatedPublicPort := *volumePublicPort != *volumePort
volumeMux := http.NewServeMux()
publicVolumeMux := volumeMux
if isSeperatedPublicPort {
publicVolumeMux = http.NewServeMux()
}
volumeNeedleMapKind := storage.NeedleMapInMemory
switch *volumeIndexType {
case "leveldb":
volumeNeedleMapKind = storage.NeedleMapLevelDb
case "boltdb":
volumeNeedleMapKind = storage.NeedleMapBoltDb
case "btree":
volumeNeedleMapKind = storage.NeedleMapBtree
}
volumeServer := weed_server.NewVolumeServer(volumeMux, publicVolumeMux,
*serverIp, *volumePort, *volumeServerPublicUrl,
folders, maxCounts,
volumeNeedleMapKind,
*serverIp+":"+strconv.Itoa(*masterPort), *volumePulse, *serverDataCenter, *serverRack,
serverWhiteList, *volumeFixJpgOrientation, *volumeReadRedirect,
)
glog.V(0).Infoln("Start Seaweed volume server", util.VERSION, "at", *serverIp+":"+strconv.Itoa(*volumePort))
volumeListener, eListen := util.NewListener(
*serverBindIp+":"+strconv.Itoa(*volumePort),
time.Duration(*serverTimeout)*time.Second,
)
if eListen != nil {
glog.Fatalf("Volume server listener error: %v", eListen)
}
if isSeperatedPublicPort {
publicListeningAddress := *serverIp + ":" + strconv.Itoa(*volumePublicPort)
glog.V(0).Infoln("Start Seaweed volume server", util.VERSION, "public at", publicListeningAddress)
publicListener, e := util.NewListener(publicListeningAddress, time.Duration(*serverTimeout)*time.Second)
if e != nil {
glog.Fatalf("Volume server listener error:%v", e)
}
go func() {
if e := http.Serve(publicListener, publicVolumeMux); e != nil {
glog.Fatalf("Volume server fail to serve public: %v", e)
}
}()
}
util.OnInterrupt(func() {
volumeServer.Shutdown()
pprof.StopCPUProfile()
})
if e := http.Serve(volumeListener, volumeMux); e != nil {
glog.Fatalf("Volume server fail to serve:%v", e)
}
return true
}