admin-rpc-client.go

/*
 * Minio Cloud Storage, (C) 2014, 2015, 2016, 2017 Minio, Inc.
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package cmd

import (
	"encoding/json"
	"errors"
	"fmt"
	"net"
	"os"
	"path"
	"path/filepath"
	"reflect"
	"sort"
	"sync"
	"time"

	"github.com/minio/minio-go/pkg/set"
)

const (
	// Admin service names
	serviceRestartRPC = "Admin.Restart"
	listLocksRPC      = "Admin.ListLocks"
	reInitDisksRPC    = "Admin.ReInitDisks"
	serverInfoDataRPC = "Admin.ServerInfoData"
	getConfigRPC      = "Admin.GetConfig"
	writeTmpConfigRPC = "Admin.WriteTmpConfig"
	commitConfigRPC   = "Admin.CommitConfig"
)

// localAdminClient - represents admin operation to be executed locally.
type localAdminClient struct {
}

// remoteAdminClient - represents admin operation to be executed
// remotely, via RPC.
type remoteAdminClient struct {
	*AuthRPCClient
}

// adminCmdRunner - abstracts local and remote execution of admin
// commands like service stop and service restart.
type adminCmdRunner interface {
	Restart() error
	ListLocks(bucket, prefix string, duration time.Duration) ([]VolumeLockInfo, error)
	ReInitDisks() error
	ServerInfoData() (ServerInfoData, error)
	GetConfig() ([]byte, error)
	WriteTmpConfig(tmpFileName string, configBytes []byte) error
	CommitConfig(tmpFileName string) error
}

// Restart - Sends a message over channel to the go-routine
// responsible for restarting the process.
func (lc localAdminClient) Restart() error {
	globalServiceSignalCh <- serviceRestart
	return nil
}

// ListLocks - Fetches lock information from local lock instrumentation.
func (lc localAdminClient) ListLocks(bucket, prefix string, duration time.Duration) ([]VolumeLockInfo, error) {
	return listLocksInfo(bucket, prefix, duration), nil
}

// Restart - Sends restart command to remote server via RPC.
func (rc remoteAdminClient) Restart() error {
	args := AuthRPCArgs{}
	reply := AuthRPCReply{}
	return rc.Call(serviceRestartRPC, &args, &reply)
}

// ListLocks - Sends list locks command to remote server via RPC.
func (rc remoteAdminClient) ListLocks(bucket, prefix string, duration time.Duration) ([]VolumeLockInfo, error) {
	listArgs := ListLocksQuery{
		bucket:   bucket,
		prefix:   prefix,
		duration: duration,
	}
	var reply ListLocksReply
	if err := rc.Call(listLocksRPC, &listArgs, &reply); err != nil {
		return nil, err
	}
	return reply.volLocks, nil
}

// ReInitDisks - There is nothing to do here, heal format REST API
// handler has already formatted and reinitialized the local disks.
func (lc localAdminClient) ReInitDisks() error {
	return nil
}

// ReInitDisks - Signals peers via RPC to reinitialize their disks and
// object layer.
func (rc remoteAdminClient) ReInitDisks() error {
	args := AuthRPCArgs{}
	reply := AuthRPCReply{}
	return rc.Call(reInitDisksRPC, &args, &reply)
}

// ServerInfoData - Returns the server info of this server.
func (lc localAdminClient) ServerInfoData() (sid ServerInfoData, e error) {
	if globalBootTime.IsZero() {
		return sid, errServerNotInitialized
	}

	// Build storage info
	objLayer := newObjectLayerFn()
	if objLayer == nil {
		return sid, errServerNotInitialized
	}
	storage := objLayer.StorageInfo()

	var arns []string
	for queueArn := range globalEventNotifier.GetAllExternalTargets() {
		arns = append(arns, queueArn)
	}

	return ServerInfoData{
		StorageInfo: storage,
		ConnStats:   globalConnStats.toServerConnStats(),
		HTTPStats:   globalHTTPStats.toServerHTTPStats(),
		Properties: ServerProperties{
			Uptime:   UTCNow().Sub(globalBootTime),
			Version:  Version,
			CommitID: CommitID,
			SQSARN:   arns,
			Region:   serverConfig.GetRegion(),
		},
	}, nil
}

// ServerInfo - returns the server info of the server to which the RPC call is made.
func (rc remoteAdminClient) ServerInfoData() (sid ServerInfoData, e error) {
	args := AuthRPCArgs{}
	reply := ServerInfoDataReply{}
	err := rc.Call(serverInfoDataRPC, &args, &reply)
	if err != nil {
		return sid, err
	}

	return reply.ServerInfoData, nil
}

// GetConfig - returns config.json of the local server.
func (lc localAdminClient) GetConfig() ([]byte, error) {
	if serverConfig == nil {
		return nil, errors.New("config not present")
	}

	return json.Marshal(serverConfig)
}

// GetConfig - returns config.json of the remote server.
func (rc remoteAdminClient) GetConfig() ([]byte, error) {
	args := AuthRPCArgs{}
	reply := ConfigReply{}
	if err := rc.Call(getConfigRPC, &args, &reply); err != nil {
		return nil, err
	}
	return reply.Config, nil
}

// WriteTmpConfig - writes config file content to a temporary file on
// the local server.
func (lc localAdminClient) WriteTmpConfig(tmpFileName string, configBytes []byte) error {
	return writeTmpConfigCommon(tmpFileName, configBytes)
}

// WriteTmpConfig - writes config file content to a temporary file on
// a remote node.
func (rc remoteAdminClient) WriteTmpConfig(tmpFileName string, configBytes []byte) error {
	wArgs := WriteConfigArgs{
		TmpFileName: tmpFileName,
		Buf:         configBytes,
	}

	err := rc.Call(writeTmpConfigRPC, &wArgs, &WriteConfigReply{})
	if err != nil {
		errorIf(err, "Failed to write temporary config file.")
		return err
	}

	return nil
}

// CommitConfig - Move the new config in tmpFileName onto config.json
// on a local node.
func (lc localAdminClient) CommitConfig(tmpFileName string) error {
	configFile := getConfigFile()
	tmpConfigFile := filepath.Join(getConfigDir(), tmpFileName)

	err := os.Rename(tmpConfigFile, configFile)
	errorIf(err, fmt.Sprintf("Failed to rename %s to %s", tmpConfigFile, configFile))
	return err
}

// CommitConfig - Move the new config in tmpFileName onto config.json
// on a remote node.
func (rc remoteAdminClient) CommitConfig(tmpFileName string) error {
	cArgs := CommitConfigArgs{
		FileName: tmpFileName,
	}
	cReply := CommitConfigReply{}
	err := rc.Call(commitConfigRPC, &cArgs, &cReply)
	if err != nil {
		errorIf(err, "Failed to rename config file.")
		return err
	}

	return nil
}

// adminPeer - represents an entity that implements Restart methods.
type adminPeer struct {
	addr      string
	cmdRunner adminCmdRunner
}

// type alias for a collection of adminPeer.
type adminPeers []adminPeer

// makeAdminPeers - helper function to construct a collection of adminPeer.
func makeAdminPeers(endpoints EndpointList) (adminPeerList adminPeers) {
	thisPeer := globalMinioAddr
	if globalMinioHost == "" {
		thisPeer = net.JoinHostPort("localhost", globalMinioPort)
	}
	adminPeerList = append(adminPeerList, adminPeer{
		thisPeer,
		localAdminClient{},
	})

	hostSet := set.CreateStringSet(globalMinioAddr)
	cred := serverConfig.GetCredential()
	serviceEndpoint := path.Join(minioReservedBucketPath, adminPath)
	for _, host := range GetRemotePeers(endpoints) {
		if hostSet.Contains(host) {
			continue
		}
		hostSet.Add(host)
		adminPeerList = append(adminPeerList, adminPeer{
			addr: host,
			cmdRunner: &remoteAdminClient{newAuthRPCClient(authConfig{
				accessKey:       cred.AccessKey,
				secretKey:       cred.SecretKey,
				serverAddr:      host,
				serviceEndpoint: serviceEndpoint,
				secureConn:      globalIsSSL,
				serviceName:     "Admin",
			})},
		})
	}

	return adminPeerList
}

// Initialize global adminPeer collection.
func initGlobalAdminPeers(endpoints EndpointList) {
	globalAdminPeers = makeAdminPeers(endpoints)
}

// invokeServiceCmd - Invoke Restart command.
func invokeServiceCmd(cp adminPeer, cmd serviceSignal) (err error) {
	switch cmd {
	case serviceRestart:
		err = cp.cmdRunner.Restart()
	}
	return err
}

// sendServiceCmd - Invoke Restart command on remote peers
// adminPeer followed by on the local peer.
func sendServiceCmd(cps adminPeers, cmd serviceSignal) {
	// Send service command like stop or restart to all remote nodes and finally run on local node.
	errs := make([]error, len(cps))
	var wg sync.WaitGroup
	remotePeers := cps[1:]
	for i := range remotePeers {
		wg.Add(1)
		go func(idx int) {
			defer wg.Done()
			// we use idx+1 because remotePeers slice is 1 position shifted w.r.t cps
			errs[idx+1] = invokeServiceCmd(remotePeers[idx], cmd)
		}(i)
	}
	wg.Wait()
	errs[0] = invokeServiceCmd(cps[0], cmd)
}

// listPeerLocksInfo - fetch list of locks held on the given bucket,
// matching prefix held longer than duration from all peer servers.
func listPeerLocksInfo(peers adminPeers, bucket, prefix string, duration time.Duration) ([]VolumeLockInfo, error) {
	// Used to aggregate volume lock information from all nodes.
	allLocks := make([][]VolumeLockInfo, len(peers))
	errs := make([]error, len(peers))
	var wg sync.WaitGroup
	localPeer := peers[0]
	remotePeers := peers[1:]
	for i, remotePeer := range remotePeers {
		wg.Add(1)
		go func(idx int, remotePeer adminPeer) {
			defer wg.Done()
			// `remotePeers` is right-shifted by one position relative to `peers`
			allLocks[idx], errs[idx] = remotePeer.cmdRunner.ListLocks(bucket, prefix, duration)
		}(i+1, remotePeer)
	}
	wg.Wait()
	allLocks[0], errs[0] = localPeer.cmdRunner.ListLocks(bucket, prefix, duration)

	// Summarizing errors received for ListLocks RPC across all
	// nodes.  N B the possible unavailability of quorum in errors
	// applies only to distributed setup.
	errCount, err := reduceErrs(errs, []error{})
	if err != nil {
		if errCount >= (len(peers)/2 + 1) {
			return nil, err
		}
		return nil, InsufficientReadQuorum{}
	}

	// Group lock information across nodes by (bucket, object)
	// pair. For readability only.
	paramLockMap := make(map[nsParam][]VolumeLockInfo)
	for _, nodeLocks := range allLocks {
		for _, lockInfo := range nodeLocks {
			param := nsParam{
				volume: lockInfo.Bucket,
				path:   lockInfo.Object,
			}
			paramLockMap[param] = append(paramLockMap[param], lockInfo)
		}
	}
	groupedLockInfos := []VolumeLockInfo{}
	for _, volLocks := range paramLockMap {
		groupedLockInfos = append(groupedLockInfos, volLocks...)
	}
	return groupedLockInfos, nil
}

// reInitPeerDisks - reinitialize disks and object layer on peer servers to use the new format.
func reInitPeerDisks(peers adminPeers) error {
	errs := make([]error, len(peers))

	// Send ReInitDisks RPC call to all nodes.
	// for local adminPeer this is a no-op.
	wg := sync.WaitGroup{}
	for i, peer := range peers {
		wg.Add(1)
		go func(idx int, peer adminPeer) {
			defer wg.Done()
			errs[idx] = peer.cmdRunner.ReInitDisks()
		}(i, peer)
	}
	wg.Wait()
	return nil
}

// uptimeSlice - used to sort uptimes in chronological order.
type uptimeSlice []struct {
	err    error
	uptime time.Duration
}

func (ts uptimeSlice) Len() int {
	return len(ts)
}

func (ts uptimeSlice) Less(i, j int) bool {
	return ts[i].uptime < ts[j].uptime
}

func (ts uptimeSlice) Swap(i, j int) {
	ts[i], ts[j] = ts[j], ts[i]
}

// getPeerUptimes - returns the uptime since the last time read quorum
// was established on success. Otherwise returns errXLReadQuorum.
func getPeerUptimes(peers adminPeers) (time.Duration, error) {
	// In a single node Erasure or FS backend setup the uptime of
	// the setup is the uptime of the single minio server
	// instance.
	if !globalIsDistXL {
		return UTCNow().Sub(globalBootTime), nil
	}

	uptimes := make(uptimeSlice, len(peers))

	// Get up time of all servers.
	wg := sync.WaitGroup{}
	for i, peer := range peers {
		wg.Add(1)
		go func(idx int, peer adminPeer) {
			defer wg.Done()
			serverInfoData, rpcErr := peer.cmdRunner.ServerInfoData()
			uptimes[idx].uptime, uptimes[idx].err = serverInfoData.Properties.Uptime, rpcErr
		}(i, peer)
	}
	wg.Wait()

	// Sort uptimes in chronological order.
	sort.Sort(uptimes)

	// Pick the readQuorum'th uptime in chronological order. i.e,
	// the time at which read quorum was (re-)established.
	readQuorum := len(uptimes) / 2
	validCount := 0
	latestUptime := time.Duration(0)
	for _, uptime := range uptimes {
		if uptime.err != nil {
			errorIf(uptime.err, "Unable to fetch uptime")
			continue
		}

		validCount++
		if validCount >= readQuorum {
			latestUptime = uptime.uptime
			break
		}
	}

	// Less than readQuorum "Admin.Uptime" RPC call returned
	// successfully, so read-quorum unavailable.
	if validCount < readQuorum {
		return time.Duration(0), InsufficientReadQuorum{}
	}

	return latestUptime, nil
}

// getPeerConfig - Fetches config.json from all nodes in the setup and
// returns the one that occurs in a majority of them.
func getPeerConfig(peers adminPeers) ([]byte, error) {
	if !globalIsDistXL {
		return peers[0].cmdRunner.GetConfig()
	}

	errs := make([]error, len(peers))
	configs := make([][]byte, len(peers))

	// Get config from all servers.
	wg := sync.WaitGroup{}
	for i, peer := range peers {
		wg.Add(1)
		go func(idx int, peer adminPeer) {
			defer wg.Done()
			configs[idx], errs[idx] = peer.cmdRunner.GetConfig()
		}(i, peer)
	}
	wg.Wait()

	// Find the maximally occurring config among peers in a
	// distributed setup.

	serverConfigs := make([]serverConfigV13, len(peers))
	for i, configBytes := range configs {
		if errs[i] != nil {
			continue
		}

		// Unmarshal the received config files.
		err := json.Unmarshal(configBytes, &serverConfigs[i])
		if err != nil {
			errorIf(err, "Failed to unmarshal serverConfig from ", peers[i].addr)
			return nil, err
		}
	}

	configJSON, err := getValidServerConfig(serverConfigs, errs)
	if err != nil {
		errorIf(err, "Unable to find a valid server config")
		return nil, traceError(err)
	}

	// Return the config.json that was present quorum or more
	// number of disks.
	return json.Marshal(configJSON)
}

// getValidServerConfig - finds the server config that is present in
// quorum or more number of servers.
func getValidServerConfig(serverConfigs []serverConfigV13, errs []error) (scv serverConfigV13, e error) {
	// majority-based quorum
	quorum := len(serverConfigs)/2 + 1

	// Count the number of disks a config.json was found in.
	configCounter := make([]int, len(serverConfigs))

	// We group equal serverConfigs by the lowest index of the
	// same value;  e.g, let us take the following serverConfigs
	// in a 4-node setup,
	// serverConfigs == [c1, c2, c1, c1]
	// configCounter == [3, 1, 0, 0]
	// c1, c2 are the only distinct values that appear.  c1 is
	// identified by 0, the lowest index it appears in and c2 is
	// identified by 1. So, we need to find the number of times
	// each of these distinct values occur.

	// Invariants:

	// 1. At the beginning of the i-th iteration, the number of
	// unique configurations seen so far is equal to the number of
	// non-zero counter values in config[:i].

	// 2. At the beginning of the i-th iteration, the sum of
	// elements of configCounter[:i] is equal to the number of
	// non-error configurations seen so far.

	// For each of the serverConfig ...
	for i := range serverConfigs {
		// Skip nodes where getConfig failed.
		if errs[i] != nil {
			continue
		}
		// Check if it is equal to any of the configurations
		// seen so far. If j == i is reached then we have an
		// unseen configuration.
		for j := 0; j <= i; j++ {
			if j < i && configCounter[j] == 0 {
				// serverConfigs[j] is known to be
				// equal to a value that was already
				// seen. See example above for
				// clarity.
				continue
			} else if j < i && reflect.DeepEqual(serverConfigs[i], serverConfigs[j]) {
				// serverConfigs[i] is equal to
				// serverConfigs[j], update
				// serverConfigs[j]'s counter since it
				// is the lower index.
				configCounter[j]++
				break
			} else if j == i {
				// serverConfigs[i] is equal to no
				// other value seen before. It is
				// unique so far.
				configCounter[i] = 1
				break
			} // else invariants specified above are violated.
		}
	}

	// We find the maximally occurring server config and check if
	// there is quorum.
	var configJSON serverConfigV13
	maxOccurrence := 0
	for i, count := range configCounter {
		if maxOccurrence < count {
			maxOccurrence = count
			configJSON = serverConfigs[i]
		}
	}

	// If quorum nodes don't agree.
	if maxOccurrence < quorum {
		return scv, errXLWriteQuorum
	}

	return configJSON, nil
}

// Write config contents into a temporary file on all nodes.
func writeTmpConfigPeers(peers adminPeers, tmpFileName string, configBytes []byte) []error {
	// For a single-node minio server setup.
	if !globalIsDistXL {
		err := peers[0].cmdRunner.WriteTmpConfig(tmpFileName, configBytes)
		return []error{err}
	}

	errs := make([]error, len(peers))

	// Write config into temporary file on all nodes.
	wg := sync.WaitGroup{}
	for i, peer := range peers {
		wg.Add(1)
		go func(idx int, peer adminPeer) {
			defer wg.Done()
			errs[idx] = peer.cmdRunner.WriteTmpConfig(tmpFileName, configBytes)
		}(i, peer)
	}
	wg.Wait()

	// Return bytes written and errors (if any) during writing
	// temporary config file.
	return errs
}

// Move config contents from the given temporary file onto config.json
// on all nodes.
func commitConfigPeers(peers adminPeers, tmpFileName string) []error {
	// For a single-node minio server setup.
	if !globalIsDistXL {
		return []error{peers[0].cmdRunner.CommitConfig(tmpFileName)}
	}

	errs := make([]error, len(peers))

	// Rename temporary config file into configDir/config.json on
	// all nodes.
	wg := sync.WaitGroup{}
	for i, peer := range peers {
		wg.Add(1)
		go func(idx int, peer adminPeer) {
			defer wg.Done()
			errs[idx] = peer.cmdRunner.CommitConfig(tmpFileName)
		}(i, peer)
	}
	wg.Wait()

	// Return errors (if any) received during rename.
	return errs
}