You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
minio/cmd/endpoint.go

917 lines
25 KiB

/*
* MinIO Cloud Storage, (C) 2017-2019 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 (
"context"
"crypto/tls"
"errors"
"fmt"
"net"
"net/http"
"net/url"
"path"
"path/filepath"
"reflect"
"runtime"
"sort"
"strconv"
"strings"
"time"
"github.com/dustin/go-humanize"
"github.com/minio/minio-go/v7/pkg/set"
"github.com/minio/minio/cmd/config"
xhttp "github.com/minio/minio/cmd/http"
"github.com/minio/minio/cmd/logger"
"github.com/minio/minio/cmd/rest"
"github.com/minio/minio/pkg/env"
"github.com/minio/minio/pkg/mountinfo"
xnet "github.com/minio/minio/pkg/net"
)
// EndpointType - enum for endpoint type.
type EndpointType int
const (
// PathEndpointType - path style endpoint type enum.
PathEndpointType EndpointType = iota + 1
// URLEndpointType - URL style endpoint type enum.
URLEndpointType
)
// ProxyEndpoint - endpoint used for proxy redirects
// See proxyRequest() for details.
type ProxyEndpoint struct {
Endpoint
Transport *http.Transport
}
// Endpoint - any type of endpoint.
type Endpoint struct {
*url.URL
IsLocal bool
}
func (endpoint Endpoint) String() string {
if endpoint.Host == "" {
return endpoint.Path
}
return endpoint.URL.String()
}
// Type - returns type of endpoint.
func (endpoint Endpoint) Type() EndpointType {
if endpoint.Host == "" {
return PathEndpointType
}
return URLEndpointType
}
// HTTPS - returns true if secure for URLEndpointType.
func (endpoint Endpoint) HTTPS() bool {
return endpoint.Scheme == "https"
}
// UpdateIsLocal - resolves the host and updates if it is local or not.
func (endpoint *Endpoint) UpdateIsLocal() (err error) {
if !endpoint.IsLocal {
endpoint.IsLocal, err = isLocalHost(endpoint.Hostname(), endpoint.Port(), globalMinioPort)
if err != nil {
return err
}
}
return nil
}
// NewEndpoint - returns new endpoint based on given arguments.
func NewEndpoint(arg string) (ep Endpoint, e error) {
// isEmptyPath - check whether given path is not empty.
isEmptyPath := func(path string) bool {
return path == "" || path == SlashSeparator || path == `\`
}
if isEmptyPath(arg) {
return ep, fmt.Errorf("empty or root endpoint is not supported")
}
var isLocal bool
var host string
u, err := url.Parse(arg)
if err == nil && u.Host != "" {
// URL style of endpoint.
// Valid URL style endpoint is
// - Scheme field must contain "http" or "https"
// - All field should be empty except Host and Path.
if !((u.Scheme == "http" || u.Scheme == "https") &&
u.User == nil && u.Opaque == "" && !u.ForceQuery && u.RawQuery == "" && u.Fragment == "") {
return ep, fmt.Errorf("invalid URL endpoint format")
}
var port string
host, port, err = net.SplitHostPort(u.Host)
if err != nil {
if !strings.Contains(err.Error(), "missing port in address") {
return ep, fmt.Errorf("invalid URL endpoint format: %w", err)
}
host = u.Host
} else {
var p int
p, err = strconv.Atoi(port)
if err != nil {
return ep, fmt.Errorf("invalid URL endpoint format: invalid port number")
} else if p < 1 || p > 65535 {
return ep, fmt.Errorf("invalid URL endpoint format: port number must be between 1 to 65535")
}
}
if i := strings.Index(host, "%"); i > -1 {
host = host[:i]
}
if host == "" {
return ep, fmt.Errorf("invalid URL endpoint format: empty host name")
}
// As this is path in the URL, we should use path package, not filepath package.
// On MS Windows, filepath.Clean() converts into Windows path style ie `/foo` becomes `\foo`
u.Path = path.Clean(u.Path)
if isEmptyPath(u.Path) {
return ep, fmt.Errorf("empty or root path is not supported in URL endpoint")
}
// On windows having a preceding SlashSeparator will cause problems, if the
// command line already has C:/<export-folder/ in it. Final resulting
// path on windows might become C:/C:/ this will cause problems
// of starting minio server properly in distributed mode on windows.
// As a special case make sure to trim the separator.
// NOTE: It is also perfectly fine for windows users to have a path
// without C:/ since at that point we treat it as relative path
// and obtain the full filesystem path as well. Providing C:/
// style is necessary to provide paths other than C:/,
// such as F:/, D:/ etc.
//
// Another additional benefit here is that this style also
// supports providing \\host\share support as well.
if runtime.GOOS == globalWindowsOSName {
if filepath.VolumeName(u.Path[1:]) != "" {
u.Path = u.Path[1:]
}
}
} else {
// Only check if the arg is an ip address and ask for scheme since its absent.
// localhost, example.com, any FQDN cannot be disambiguated from a regular file path such as
// /mnt/export1. So we go ahead and start the minio server in FS modes in these cases.
if isHostIP(arg) {
return ep, fmt.Errorf("invalid URL endpoint format: missing scheme http or https")
}
absArg, err := filepath.Abs(arg)
if err != nil {
return Endpoint{}, fmt.Errorf("absolute path failed %s", err)
}
u = &url.URL{Path: path.Clean(absArg)}
isLocal = true
}
return Endpoint{
URL: u,
IsLocal: isLocal,
}, nil
}
// ZoneEndpoints represent endpoints in a given zone
// along with its setCount and setDriveCount.
type ZoneEndpoints struct {
SetCount int
DrivesPerSet int
Endpoints Endpoints
}
// EndpointServerSets - list of list of endpoints
type EndpointServerSets []ZoneEndpoints
// GetLocalZoneIdx returns the zone which endpoint belongs to locally.
// if ep is remote this code will return -1 zoneIndex
func (l EndpointServerSets) GetLocalZoneIdx(ep Endpoint) int {
for i, zep := range l {
for _, cep := range zep.Endpoints {
if cep.IsLocal && ep.IsLocal {
if reflect.DeepEqual(cep, ep) {
return i
}
}
}
}
return -1
}
// Add add zone endpoints
func (l *EndpointServerSets) Add(zeps ZoneEndpoints) error {
existSet := set.NewStringSet()
for _, zep := range *l {
for _, ep := range zep.Endpoints {
existSet.Add(ep.String())
}
}
// Validate if there are duplicate endpoints across serverSets
for _, ep := range zeps.Endpoints {
if existSet.Contains(ep.String()) {
return fmt.Errorf("duplicate endpoints found")
}
}
*l = append(*l, zeps)
return nil
}
// FirstLocal returns true if the first endpoint is local.
func (l EndpointServerSets) FirstLocal() bool {
return l[0].Endpoints[0].IsLocal
}
// HTTPS - returns true if secure for URLEndpointType.
func (l EndpointServerSets) HTTPS() bool {
return l[0].Endpoints.HTTPS()
}
// NEndpoints - returns all nodes count
func (l EndpointServerSets) NEndpoints() (count int) {
for _, ep := range l {
count += len(ep.Endpoints)
}
return count
}
// Hostnames - returns list of unique hostnames
func (l EndpointServerSets) Hostnames() []string {
foundSet := set.NewStringSet()
for _, ep := range l {
for _, endpoint := range ep.Endpoints {
if foundSet.Contains(endpoint.Hostname()) {
continue
}
foundSet.Add(endpoint.Hostname())
}
}
return foundSet.ToSlice()
}
// hostsSorted will return all hosts found.
// The LOCAL host will be nil, but the indexes of all hosts should
// remain consistent across the cluster.
func (l EndpointServerSets) hostsSorted() []*xnet.Host {
peers, localPeer := l.peers()
sort.Strings(peers)
hosts := make([]*xnet.Host, len(peers))
for i, hostStr := range peers {
if hostStr == localPeer {
continue
}
host, err := xnet.ParseHost(hostStr)
if err != nil {
logger.LogIf(GlobalContext, err)
continue
}
hosts[i] = host
}
return hosts
}
// peers will return all peers, including local.
// The local peer is returned as a separate string.
func (l EndpointServerSets) peers() (peers []string, local string) {
allSet := set.NewStringSet()
for _, ep := range l {
for _, endpoint := range ep.Endpoints {
if endpoint.Type() != URLEndpointType {
continue
}
peer := endpoint.Host
if endpoint.IsLocal {
if _, port := mustSplitHostPort(peer); port == globalMinioPort {
local = peer
}
}
allSet.Add(peer)
}
}
return allSet.ToSlice(), local
}
// Endpoints - list of same type of endpoint.
type Endpoints []Endpoint
// HTTPS - returns true if secure for URLEndpointType.
func (endpoints Endpoints) HTTPS() bool {
return endpoints[0].HTTPS()
}
Move admin APIs to new path and add redesigned heal APIs (#5351) - Changes related to moving admin APIs - admin APIs now have an endpoint under /minio/admin - admin APIs are now versioned - a new API to server the version is added at "GET /minio/admin/version" and all API operations have the path prefix /minio/admin/v1/<operation> - new service stop API added - credentials change API is moved to /minio/admin/v1/config/credential - credentials change API and configuration get/set API now require TLS so that credentials are protected - all API requests now receive JSON - heal APIs are disabled as they will be changed substantially - Heal API changes Heal API is now provided at a single endpoint with the ability for a client to start a heal sequence on all the data in the server, a single bucket, or under a prefix within a bucket. When a heal sequence is started, the server returns a unique token that needs to be used for subsequent 'status' requests to fetch heal results. On each status request from the client, the server returns heal result records that it has accumulated since the previous status request. The server accumulates upto 1000 records and pauses healing further objects until the client requests for status. If the client does not request any further records for a long time, the server aborts the heal sequence automatically. A heal result record is returned for each entity healed on the server, such as system metadata, object metadata, buckets and objects, and has information about the before and after states on each disk. A client may request to force restart a heal sequence - this causes the running heal sequence to be aborted at the next safe spot and starts a new heal sequence.
7 years ago
// GetString - returns endpoint string of i-th endpoint (0-based),
// and empty string for invalid indexes.
func (endpoints Endpoints) GetString(i int) string {
Move admin APIs to new path and add redesigned heal APIs (#5351) - Changes related to moving admin APIs - admin APIs now have an endpoint under /minio/admin - admin APIs are now versioned - a new API to server the version is added at "GET /minio/admin/version" and all API operations have the path prefix /minio/admin/v1/<operation> - new service stop API added - credentials change API is moved to /minio/admin/v1/config/credential - credentials change API and configuration get/set API now require TLS so that credentials are protected - all API requests now receive JSON - heal APIs are disabled as they will be changed substantially - Heal API changes Heal API is now provided at a single endpoint with the ability for a client to start a heal sequence on all the data in the server, a single bucket, or under a prefix within a bucket. When a heal sequence is started, the server returns a unique token that needs to be used for subsequent 'status' requests to fetch heal results. On each status request from the client, the server returns heal result records that it has accumulated since the previous status request. The server accumulates upto 1000 records and pauses healing further objects until the client requests for status. If the client does not request any further records for a long time, the server aborts the heal sequence automatically. A heal result record is returned for each entity healed on the server, such as system metadata, object metadata, buckets and objects, and has information about the before and after states on each disk. A client may request to force restart a heal sequence - this causes the running heal sequence to be aborted at the next safe spot and starts a new heal sequence.
7 years ago
if i < 0 || i >= len(endpoints) {
return ""
}
return endpoints[i].String()
}
func hostResolveToLocalhost(endpoint Endpoint) bool {
hostIPs, err := getHostIP(endpoint.Hostname())
if err != nil {
// Log the message to console about the host resolving
reqInfo := (&logger.ReqInfo{}).AppendTags(
"host",
endpoint.Hostname(),
)
ctx := logger.SetReqInfo(GlobalContext, reqInfo)
logger.LogIf(ctx, err, logger.Application)
return false
}
var loopback int
for _, hostIP := range hostIPs.ToSlice() {
if net.ParseIP(hostIP).IsLoopback() {
loopback++
}
}
return loopback == len(hostIPs)
}
func (endpoints Endpoints) atleastOneEndpointLocal() bool {
for _, endpoint := range endpoints {
if endpoint.IsLocal {
return true
}
}
return false
}
// UpdateIsLocal - resolves the host and discovers the local host.
func (endpoints Endpoints) UpdateIsLocal(foundPrevLocal bool) error {
orchestrated := IsDocker() || IsKubernetes()
k8sReplicaSet := IsKubernetesReplicaSet()
var epsResolved int
var foundLocal bool
resolvedList := make([]bool, len(endpoints))
// Mark the starting time
startTime := time.Now()
keepAliveTicker := time.NewTicker(10 * time.Millisecond)
defer keepAliveTicker.Stop()
for {
// Break if the local endpoint is found already Or all the endpoints are resolved.
if foundLocal || (epsResolved == len(endpoints)) {
break
}
// Retry infinitely on Kubernetes and Docker swarm.
// This is needed as the remote hosts are sometime
// not available immediately.
select {
case <-globalOSSignalCh:
return fmt.Errorf("The endpoint resolution got interrupted")
default:
for i, resolved := range resolvedList {
if resolved {
// Continue if host is already resolved.
continue
}
// Log the message to console about the host resolving
reqInfo := (&logger.ReqInfo{}).AppendTags(
"host",
endpoints[i].Hostname(),
)
if k8sReplicaSet && hostResolveToLocalhost(endpoints[i]) {
err := fmt.Errorf("host %s resolves to 127.*, DNS incorrectly configured retrying",
endpoints[i])
// time elapsed
timeElapsed := time.Since(startTime)
// log error only if more than 1s elapsed
if timeElapsed > time.Second {
reqInfo.AppendTags("elapsedTime",
humanize.RelTime(startTime,
startTime.Add(timeElapsed),
"elapsed",
""))
ctx := logger.SetReqInfo(GlobalContext, reqInfo)
logger.LogIf(ctx, err, logger.Application)
}
continue
}
// return err if not Docker or Kubernetes
// We use IsDocker() to check for Docker environment
// We use IsKubernetes() to check for Kubernetes environment
isLocal, err := isLocalHost(endpoints[i].Hostname(),
endpoints[i].Port(),
globalMinioPort,
)
if err != nil && !orchestrated {
return err
}
if err != nil {
// time elapsed
timeElapsed := time.Since(startTime)
// log error only if more than 1s elapsed
if timeElapsed > time.Second {
reqInfo.AppendTags("elapsedTime",
humanize.RelTime(startTime,
startTime.Add(timeElapsed),
"elapsed",
"",
))
ctx := logger.SetReqInfo(GlobalContext,
reqInfo)
logger.LogIf(ctx, err, logger.Application)
}
} else {
resolvedList[i] = true
endpoints[i].IsLocal = isLocal
if k8sReplicaSet && !endpoints.atleastOneEndpointLocal() && !foundPrevLocal {
// In replicated set in k8s deployment, IPs might
// get resolved for older IPs, add this code
// to ensure that we wait for this server to
// participate atleast one disk and be local.
//
// In special cases for replica set with expanded
// zone setups we need to make sure to provide
// value of foundPrevLocal from zone1 if we already
// found a local setup. Only if we haven't found
// previous local we continue to wait to look for
// atleast one local.
resolvedList[i] = false
// time elapsed
err := fmt.Errorf("no endpoint is local to this host: %s", endpoints[i])
timeElapsed := time.Since(startTime)
// log error only if more than 1s elapsed
if timeElapsed > time.Second {
reqInfo.AppendTags("elapsedTime",
humanize.RelTime(startTime,
startTime.Add(timeElapsed),
"elapsed",
"",
))
ctx := logger.SetReqInfo(GlobalContext,
reqInfo)
logger.LogIf(ctx, err, logger.Application)
}
continue
}
epsResolved++
if !foundLocal {
foundLocal = isLocal
}
}
}
// Wait for the tick, if the there exist a local endpoint in discovery.
// Non docker/kubernetes environment we do not need to wait.
if !foundLocal && orchestrated {
<-keepAliveTicker.C
}
}
}
// On Kubernetes/Docker setups DNS resolves inappropriately sometimes
// where there are situations same endpoints with multiple disks
// come online indicating either one of them is local and some
// of them are not local. This situation can never happen and
// its only a possibility in orchestrated deployments with dynamic
// DNS. Following code ensures that we treat if one of the endpoint
// says its local for a given host - it is true for all endpoints
// for the same host. Following code ensures that this assumption
// is true and it works in all scenarios and it is safe to assume
// for a given host.
endpointLocalMap := make(map[string]bool)
for _, ep := range endpoints {
if ep.IsLocal {
endpointLocalMap[ep.Host] = ep.IsLocal
}
}
for i := range endpoints {
endpoints[i].IsLocal = endpointLocalMap[endpoints[i].Host]
}
return nil
}
// NewEndpoints - returns new endpoint list based on input args.
func NewEndpoints(args ...string) (endpoints Endpoints, err error) {
var endpointType EndpointType
var scheme string
uniqueArgs := set.NewStringSet()
// Loop through args and adds to endpoint list.
for i, arg := range args {
endpoint, err := NewEndpoint(arg)
if err != nil {
return nil, fmt.Errorf("'%s': %s", arg, err.Error())
}
// All endpoints have to be same type and scheme if applicable.
if i == 0 {
endpointType = endpoint.Type()
scheme = endpoint.Scheme
} else if endpoint.Type() != endpointType {
return nil, fmt.Errorf("mixed style endpoints are not supported")
} else if endpoint.Scheme != scheme {
return nil, fmt.Errorf("mixed scheme is not supported")
}
arg = endpoint.String()
if uniqueArgs.Contains(arg) {
return nil, fmt.Errorf("duplicate endpoints found")
}
uniqueArgs.Add(arg)
endpoints = append(endpoints, endpoint)
}
return endpoints, nil
}
// Checks if there are any cross device mounts.
func checkCrossDeviceMounts(endpoints Endpoints) (err error) {
var absPaths []string
for _, endpoint := range endpoints {
if endpoint.IsLocal {
var absPath string
absPath, err = filepath.Abs(endpoint.Path)
if err != nil {
return err
}
absPaths = append(absPaths, absPath)
}
}
return mountinfo.CheckCrossDevice(absPaths)
}
// CreateEndpoints - validates and creates new endpoints for given args.
func CreateEndpoints(serverAddr string, foundLocal bool, args ...[]string) (Endpoints, SetupType, error) {
var endpoints Endpoints
var setupType SetupType
var err error
// Check whether serverAddr is valid for this host.
if err = CheckLocalServerAddr(serverAddr); err != nil {
return endpoints, setupType, err
}
_, serverAddrPort := mustSplitHostPort(serverAddr)
// For single arg, return FS setup.
if len(args) == 1 && len(args[0]) == 1 {
var endpoint Endpoint
endpoint, err = NewEndpoint(args[0][0])
if err != nil {
return endpoints, setupType, err
}
if err := endpoint.UpdateIsLocal(); err != nil {
return endpoints, setupType, err
}
if endpoint.Type() != PathEndpointType {
return endpoints, setupType, config.ErrInvalidFSEndpoint(nil).Msg("use path style endpoint for FS setup")
}
endpoints = append(endpoints, endpoint)
setupType = FSSetupType
// Check for cross device mounts if any.
if err = checkCrossDeviceMounts(endpoints); err != nil {
return endpoints, setupType, config.ErrInvalidFSEndpoint(nil).Msg(err.Error())
}
return endpoints, setupType, nil
}
for _, iargs := range args {
// Convert args to endpoints
eps, err := NewEndpoints(iargs...)
if err != nil {
return endpoints, setupType, config.ErrInvalidErasureEndpoints(nil).Msg(err.Error())
}
// Check for cross device mounts if any.
if err = checkCrossDeviceMounts(eps); err != nil {
return endpoints, setupType, config.ErrInvalidErasureEndpoints(nil).Msg(err.Error())
}
endpoints = append(endpoints, eps...)
}
if len(endpoints) == 0 {
return endpoints, setupType, config.ErrInvalidErasureEndpoints(nil).Msg("invalid number of endpoints")
}
// Return Erasure setup when all endpoints are path style.
if endpoints[0].Type() == PathEndpointType {
setupType = ErasureSetupType
return endpoints, setupType, nil
}
if err = endpoints.UpdateIsLocal(foundLocal); err != nil {
return endpoints, setupType, config.ErrInvalidErasureEndpoints(nil).Msg(err.Error())
}
// Here all endpoints are URL style.
endpointPathSet := set.NewStringSet()
localEndpointCount := 0
localServerHostSet := set.NewStringSet()
localPortSet := set.NewStringSet()
for _, endpoint := range endpoints {
endpointPathSet.Add(endpoint.Path)
if endpoint.IsLocal {
localServerHostSet.Add(endpoint.Hostname())
var port string
_, port, err = net.SplitHostPort(endpoint.Host)
if err != nil {
port = serverAddrPort
}
localPortSet.Add(port)
localEndpointCount++
}
}
// Check whether same path is not used in endpoints of a host on different port.
{
pathIPMap := make(map[string]set.StringSet)
for _, endpoint := range endpoints {
host := endpoint.Hostname()
hostIPSet, _ := getHostIP(host)
if IPSet, ok := pathIPMap[endpoint.Path]; ok {
if !IPSet.Intersection(hostIPSet).IsEmpty() {
return endpoints, setupType,
config.ErrInvalidErasureEndpoints(nil).Msg(fmt.Sprintf("path '%s' can not be served by different port on same address", endpoint.Path))
}
pathIPMap[endpoint.Path] = IPSet.Union(hostIPSet)
} else {
pathIPMap[endpoint.Path] = hostIPSet
}
}
}
// Check whether same path is used for more than 1 local endpoints.
{
localPathSet := set.CreateStringSet()
for _, endpoint := range endpoints {
if !endpoint.IsLocal {
continue
}
if localPathSet.Contains(endpoint.Path) {
return endpoints, setupType,
config.ErrInvalidErasureEndpoints(nil).Msg(fmt.Sprintf("path '%s' cannot be served by different address on same server", endpoint.Path))
}
localPathSet.Add(endpoint.Path)
}
}
// All endpoints are pointing to local host
if len(endpoints) == localEndpointCount {
// If all endpoints have same port number, Just treat it as local erasure setup
// using URL style endpoints.
if len(localPortSet) == 1 {
if len(localServerHostSet) > 1 {
return endpoints, setupType,
config.ErrInvalidErasureEndpoints(nil).Msg("all local endpoints should not have different hostnames/ips")
}
return endpoints, ErasureSetupType, nil
}
// Even though all endpoints are local, but those endpoints use different ports.
// This means it is DistErasure setup.
}
// Add missing port in all endpoints.
for i := range endpoints {
_, port, err := net.SplitHostPort(endpoints[i].Host)
if err != nil {
endpoints[i].Host = net.JoinHostPort(endpoints[i].Host, serverAddrPort)
} else if endpoints[i].IsLocal && serverAddrPort != port {
// If endpoint is local, but port is different than serverAddrPort, then make it as remote.
endpoints[i].IsLocal = false
}
}
uniqueArgs := set.NewStringSet()
for _, endpoint := range endpoints {
uniqueArgs.Add(endpoint.Host)
}
// Error out if we have less than 2 unique servers.
if len(uniqueArgs.ToSlice()) < 2 && setupType == DistErasureSetupType {
err := fmt.Errorf("Unsupported number of endpoints (%s), minimum number of servers cannot be less than 2 in distributed setup", endpoints)
return endpoints, setupType, err
}
publicIPs := env.Get(config.EnvPublicIPs, "")
if len(publicIPs) == 0 {
updateDomainIPs(uniqueArgs)
}
setupType = DistErasureSetupType
return endpoints, setupType, nil
}
// GetLocalPeer - returns local peer value, returns globalMinioAddr
// for FS and Erasure mode. In case of distributed server return
// the first element from the set of peers which indicate that
// they are local. There is always one entry that is local
// even with repeated server endpoints.
func GetLocalPeer(endpointServerSets EndpointServerSets) (localPeer string) {
peerSet := set.NewStringSet()
for _, ep := range endpointServerSets {
for _, endpoint := range ep.Endpoints {
if endpoint.Type() != URLEndpointType {
continue
}
if endpoint.IsLocal && endpoint.Host != "" {
peerSet.Add(endpoint.Host)
}
}
}
if peerSet.IsEmpty() {
// Local peer can be empty in FS or Erasure coded mode.
// If so, return globalMinioHost + globalMinioPort value.
if globalMinioHost != "" {
return net.JoinHostPort(globalMinioHost, globalMinioPort)
}
return net.JoinHostPort("127.0.0.1", globalMinioPort)
}
return peerSet.ToSlice()[0]
}
// GetProxyEndpointLocalIndex returns index of the local proxy endpoint
func GetProxyEndpointLocalIndex(proxyEps []ProxyEndpoint) int {
for i, pep := range proxyEps {
if pep.IsLocal {
return i
}
}
return -1
}
func httpDo(clnt *http.Client, req *http.Request, f func(*http.Response, error) error) error {
ctx, cancel := context.WithTimeout(GlobalContext, 200*time.Millisecond)
defer cancel()
// Run the HTTP request in a goroutine and pass the response to f.
c := make(chan error, 1)
req = req.WithContext(ctx)
go func() { c <- f(clnt.Do(req)) }()
select {
case <-ctx.Done():
<-c // Wait for f to return.
return ctx.Err()
case err := <-c:
return err
}
}
func getOnlineProxyEndpointIdx() int {
type reqIndex struct {
Request *http.Request
Idx int
}
proxyRequests := make(map[*http.Client]reqIndex, len(globalProxyEndpoints))
for i, proxyEp := range globalProxyEndpoints {
proxyEp := proxyEp
serverURL := &url.URL{
Scheme: proxyEp.Scheme,
Host: proxyEp.Host,
Path: pathJoin(healthCheckPathPrefix, healthCheckLivenessPath),
}
req, err := http.NewRequest(http.MethodGet, serverURL.String(), nil)
if err != nil {
continue
}
proxyRequests[&http.Client{
Transport: proxyEp.Transport,
}] = reqIndex{
Request: req,
Idx: i,
}
}
for c, r := range proxyRequests {
if err := httpDo(c, r.Request, func(resp *http.Response, err error) error {
if err != nil {
return err
}
xhttp.DrainBody(resp.Body)
if resp.StatusCode != http.StatusOK {
return errors.New(resp.Status)
}
if v := resp.Header.Get(xhttp.MinIOServerStatus); v == unavailable {
return errors.New(v)
}
return nil
}); err != nil {
continue
}
return r.Idx
}
return -1
}
// GetProxyEndpoints - get all endpoints that can be used to proxy list request.
func GetProxyEndpoints(endpointServerSets EndpointServerSets) []ProxyEndpoint {
var proxyEps []ProxyEndpoint
proxyEpSet := set.NewStringSet()
for _, ep := range endpointServerSets {
for _, endpoint := range ep.Endpoints {
if endpoint.Type() != URLEndpointType {
continue
}
host := endpoint.Host
if proxyEpSet.Contains(host) {
continue
}
proxyEpSet.Add(host)
var tlsConfig *tls.Config
if globalIsSSL {
tlsConfig = &tls.Config{
ServerName: endpoint.Hostname(),
RootCAs: globalRootCAs,
}
}
// allow transport to be HTTP/1.1 for proxying.
tr := newCustomHTTPProxyTransport(tlsConfig, rest.DefaultTimeout)()
proxyEps = append(proxyEps, ProxyEndpoint{
Endpoint: endpoint,
Transport: tr,
})
}
}
return proxyEps
}
func updateDomainIPs(endPoints set.StringSet) {
ipList := set.NewStringSet()
for e := range endPoints {
host, port, err := net.SplitHostPort(e)
if err != nil {
if strings.Contains(err.Error(), "missing port in address") {
host = e
port = globalMinioPort
} else {
continue
}
}
if net.ParseIP(host) == nil {
IPs, err := getHostIP(host)
if err != nil {
continue
}
IPsWithPort := IPs.ApplyFunc(func(ip string) string {
return net.JoinHostPort(ip, port)
})
ipList = ipList.Union(IPsWithPort)
}
ipList.Add(net.JoinHostPort(host, port))
}
globalDomainIPs = ipList.FuncMatch(func(ip string, matchString string) bool {
host, _, err := net.SplitHostPort(ip)
if err != nil {
host = ip
}
return !net.ParseIP(host).IsLoopback() && host != "localhost"
}, "")
}