minio/cmd/common-main.go

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// Copyright (c) 2015-2021 MinIO, Inc.
//
// This file is part of MinIO Object Storage stack
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package cmd
import (
"bufio"
"bytes"
"context"
"crypto/tls"
"crypto/x509"
"encoding/gob"
"encoding/pem"
"errors"
certs: refactor cert manager to support multiple certificates (#10207) This commit refactors the certificate management implementation in the `certs` package such that multiple certificates can be specified at the same time. Therefore, the following layout of the `certs/` directory is expected: ``` certs/ │ ├─ public.crt ├─ private.key ├─ CAs/ // CAs directory is ignored │ │ │ ... │ ├─ example.com/ │ │ │ ├─ public.crt │ └─ private.key └─ foobar.org/ │ ├─ public.crt └─ private.key ... ``` However, directory names like `example.com` are just for human readability/organization and don't have any meaning w.r.t whether a particular certificate is served or not. This decision is made based on the SNI sent by the client and the SAN of the certificate. *** The `Manager` will pick a certificate based on the client trying to establish a TLS connection. In particular, it looks at the client hello (i.e. SNI) to determine which host the client tries to access. If the manager can find a certificate that matches the SNI it returns this certificate to the client. However, the client may choose to not send an SNI or tries to access a server directly via IP (`https://<ip>:<port>`). In this case, we cannot use the SNI to determine which certificate to serve. However, we also should not pick "the first" certificate that would be accepted by the client (based on crypto. parameters - like a signature algorithm) because it may be an internal certificate that contains internal hostnames. We would disclose internal infrastructure details doing so. Therefore, the `Manager` returns the "default" certificate when the client does not specify an SNI. The default certificate the top-level `public.crt` - i.e. `certs/public.crt`. This approach has some consequences: - It's the operator's responsibility to ensure that the top-level `public.crt` does not disclose any information (i.e. hostnames) that are not publicly visible. However, this was the case in the past already. - Any other `public.crt` - except for the top-level one - must not contain any IP SAN. The reason for this restriction is that the Manager cannot match a SNI to an IP b/c the SNI is the server host name. The entire purpose of SNI is to indicate which host the client tries to connect to when multiple hosts run on the same IP. So, a client will not set the SNI to an IP. If we would allow IP SANs in a lower-level `public.crt` a user would expect that it is possible to connect to MinIO directly via IP address and that the MinIO server would pick "the right" certificate. However, the MinIO server cannot determine which certificate to serve, and therefore always picks the "default" one. This may lead to all sorts of confusing errors like: "It works if I use `https:instance.minio.local` but not when I use `https://10.0.2.1`. These consequences/limitations should be pointed out / explained in our docs in an appropriate way. However, the support for multiple certificates should not have any impact on how deployment with a single certificate function today. Co-authored-by: Harshavardhana <harsha@minio.io>
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"fmt"
"math/rand"
"net"
"net/url"
"os"
"path"
"path/filepath"
"runtime"
"sort"
"strconv"
"strings"
"syscall"
"time"
"github.com/dustin/go-humanize"
fcolor "github.com/fatih/color"
"github.com/go-openapi/loads"
"github.com/inconshreveable/mousetrap"
dns2 "github.com/miekg/dns"
"github.com/minio/cli"
consoleapi "github.com/minio/console/api"
"github.com/minio/console/api/operations"
consoleoauth2 "github.com/minio/console/pkg/auth/idp/oauth2"
consoleCerts "github.com/minio/console/pkg/certs"
"github.com/minio/kes-go"
"github.com/minio/madmin-go/v3"
"github.com/minio/minio-go/v7"
"github.com/minio/minio-go/v7/pkg/set"
"github.com/minio/minio/internal/auth"
"github.com/minio/minio/internal/color"
"github.com/minio/minio/internal/config"
"github.com/minio/minio/internal/kms"
"github.com/minio/minio/internal/logger"
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"github.com/minio/pkg/v2/certs"
"github.com/minio/pkg/v2/console"
"github.com/minio/pkg/v2/ellipses"
"github.com/minio/pkg/v2/env"
xnet "github.com/minio/pkg/v2/net"
)
// serverDebugLog will enable debug printing
var serverDebugLog = env.Get("_MINIO_SERVER_DEBUG", config.EnableOff) == config.EnableOn
var currentReleaseTime time.Time
func init() {
if runtime.GOOS == "windows" {
if mousetrap.StartedByExplorer() {
fmt.Printf("Don't double-click %s\n", os.Args[0])
fmt.Println("You need to open cmd.exe/PowerShell and run it from the command line")
fmt.Println("Refer to the docs here on how to run it as a Windows Service https://github.com/minio/minio-service/tree/master/windows")
fmt.Println("Press the Enter Key to Exit")
fmt.Scanln()
os.Exit(1)
}
}
rand.Seed(time.Now().UTC().UnixNano())
logger.Init(GOPATH, GOROOT)
logger.RegisterError(config.FmtError)
initGlobalContext()
globalBatchJobsMetrics = batchJobMetrics{metrics: make(map[string]*batchJobInfo)}
go globalBatchJobsMetrics.purgeJobMetrics()
t, _ := minioVersionToReleaseTime(Version)
if !t.IsZero() {
globalVersionUnix = uint64(t.Unix())
}
globalIsCICD = env.Get("MINIO_CI_CD", "") != "" || env.Get("CI", "") != ""
console.SetColor("Debug", fcolor.New())
gob.Register(StorageErr(""))
gob.Register(madmin.TimeInfo{})
gob.Register(madmin.XFSErrorConfigs{})
gob.Register(map[string]string{})
gob.Register(map[string]interface{}{})
// All minio-go and madmin-go API operations shall be performed only once,
// another way to look at this is we are turning off retries.
minio.MaxRetry = 1
madmin.MaxRetry = 1
currentReleaseTime, _ = GetCurrentReleaseTime()
}
const consolePrefix = "CONSOLE_"
func minioConfigToConsoleFeatures() {
os.Setenv("CONSOLE_PBKDF_SALT", globalDeploymentID())
os.Setenv("CONSOLE_PBKDF_PASSPHRASE", globalDeploymentID())
if globalMinioEndpoint != "" {
os.Setenv("CONSOLE_MINIO_SERVER", globalMinioEndpoint)
} else {
// Explicitly set 127.0.0.1 so Console will automatically bypass TLS verification to the local S3 API.
// This will save users from providing a certificate with IP or FQDN SAN that points to the local host.
os.Setenv("CONSOLE_MINIO_SERVER", fmt.Sprintf("%s://127.0.0.1:%s", getURLScheme(globalIsTLS), globalMinioPort))
}
if value := env.Get(config.EnvMinIOLogQueryURL, ""); value != "" {
os.Setenv("CONSOLE_LOG_QUERY_URL", value)
if value := env.Get(config.EnvMinIOLogQueryAuthToken, ""); value != "" {
os.Setenv("CONSOLE_LOG_QUERY_AUTH_TOKEN", value)
}
}
// pass the console subpath configuration
if globalBrowserRedirectURL != nil {
subPath := path.Clean(pathJoin(strings.TrimSpace(globalBrowserRedirectURL.Path), SlashSeparator))
if subPath != SlashSeparator {
os.Setenv("CONSOLE_SUBPATH", subPath)
}
}
// Enable if prometheus URL is set.
if value := env.Get(config.EnvMinIOPrometheusURL, ""); value != "" {
os.Setenv("CONSOLE_PROMETHEUS_URL", value)
if value := env.Get(config.EnvMinIOPrometheusJobID, "minio-job"); value != "" {
os.Setenv("CONSOLE_PROMETHEUS_JOB_ID", value)
// Support additional labels for more granular filtering.
if value := env.Get(config.EnvMinIOPrometheusExtraLabels, ""); value != "" {
os.Setenv("CONSOLE_PROMETHEUS_EXTRA_LABELS", value)
}
}
// Support Prometheus Auth Token
if value := env.Get(config.EnvMinIOPrometheusAuthToken, ""); value != "" {
os.Setenv("CONSOLE_PROMETHEUS_AUTH_TOKEN", value)
}
}
// Enable if LDAP is enabled.
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if globalIAMSys.LDAPConfig.Enabled() {
os.Setenv("CONSOLE_LDAP_ENABLED", config.EnableOn)
}
// Handle animation in welcome page
if value := env.Get(config.EnvBrowserLoginAnimation, "on"); value != "" {
os.Setenv("CONSOLE_ANIMATED_LOGIN", value)
}
// Pass on the session duration environment variable, else we will default to 12 hours
if valueSts := env.Get(config.EnvMinioStsDuration, ""); valueSts != "" {
os.Setenv("CONSOLE_STS_DURATION", valueSts)
} else if valueSession := env.Get(config.EnvBrowserSessionDuration, ""); valueSession != "" {
os.Setenv("CONSOLE_STS_DURATION", valueSession)
}
os.Setenv("CONSOLE_MINIO_REGION", globalSite.Region)
os.Setenv("CONSOLE_CERT_PASSWD", env.Get("MINIO_CERT_PASSWD", ""))
// This section sets Browser (console) stored config
if valueSCP := globalBrowserConfig.GetCSPolicy(); valueSCP != "" {
os.Setenv("CONSOLE_SECURE_CONTENT_SECURITY_POLICY", valueSCP)
}
if hstsSeconds := globalBrowserConfig.GetHSTSSeconds(); hstsSeconds > 0 {
isubdom := globalBrowserConfig.IsHSTSIncludeSubdomains()
isprel := globalBrowserConfig.IsHSTSPreload()
os.Setenv("CONSOLE_SECURE_STS_SECONDS", strconv.Itoa(hstsSeconds))
os.Setenv("CONSOLE_SECURE_STS_INCLUDE_SUB_DOMAINS", isubdom)
os.Setenv("CONSOLE_SECURE_STS_PRELOAD", isprel)
}
if valueRefer := globalBrowserConfig.GetReferPolicy(); valueRefer != "" {
os.Setenv("CONSOLE_SECURE_REFERRER_POLICY", valueRefer)
}
globalSubnetConfig.ApplyEnv()
}
func buildOpenIDConsoleConfig() consoleoauth2.OpenIDPCfg {
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pcfgs := globalIAMSys.OpenIDConfig.ProviderCfgs
m := make(map[string]consoleoauth2.ProviderConfig, len(pcfgs))
for name, cfg := range pcfgs {
callback := getConsoleEndpoints()[0] + "/oauth_callback"
if cfg.RedirectURI != "" {
callback = cfg.RedirectURI
}
m[name] = consoleoauth2.ProviderConfig{
URL: cfg.URL.String(),
DisplayName: cfg.DisplayName,
ClientID: cfg.ClientID,
ClientSecret: cfg.ClientSecret,
HMACSalt: globalDeploymentID(),
HMACPassphrase: cfg.ClientID,
Scopes: strings.Join(cfg.DiscoveryDoc.ScopesSupported, ","),
Userinfo: cfg.ClaimUserinfo,
RedirectCallbackDynamic: cfg.RedirectURIDynamic,
RedirectCallback: callback,
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EndSessionEndpoint: cfg.DiscoveryDoc.EndSessionEndpoint,
RoleArn: cfg.GetRoleArn(),
}
}
return m
}
func initConsoleServer() (*consoleapi.Server, error) {
// unset all console_ environment variables.
for _, cenv := range env.List(consolePrefix) {
os.Unsetenv(cenv)
}
// enable all console environment variables
minioConfigToConsoleFeatures()
// set certs dir to minio directory
consoleCerts.GlobalCertsDir = &consoleCerts.ConfigDir{
Path: globalCertsDir.Get(),
}
consoleCerts.GlobalCertsCADir = &consoleCerts.ConfigDir{
Path: globalCertsCADir.Get(),
}
// set certs before other console initialization
consoleapi.GlobalRootCAs, consoleapi.GlobalPublicCerts, consoleapi.GlobalTLSCertsManager = globalRootCAs, globalPublicCerts, globalTLSCerts
swaggerSpec, err := loads.Embedded(consoleapi.SwaggerJSON, consoleapi.FlatSwaggerJSON)
if err != nil {
return nil, err
}
api := operations.NewConsoleAPI(swaggerSpec)
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if !serverDebugLog {
// Disable console logging if server debug log is not enabled
noLog := func(string, ...interface{}) {}
consoleapi.LogInfo = noLog
consoleapi.LogError = noLog
api.Logger = noLog
}
// Pass in console application config. This needs to happen before the
// ConfigureAPI() call.
consoleapi.GlobalMinIOConfig = consoleapi.MinIOConfig{
OpenIDProviders: buildOpenIDConsoleConfig(),
}
server := consoleapi.NewServer(api)
// register all APIs
server.ConfigureAPI()
consolePort, _ := strconv.Atoi(globalMinioConsolePort)
server.Host = globalMinioConsoleHost
server.Port = consolePort
consoleapi.Port = globalMinioConsolePort
consoleapi.Hostname = globalMinioConsoleHost
if globalIsTLS {
// If TLS certificates are provided enforce the HTTPS.
server.EnabledListeners = []string{"https"}
server.TLSPort = consolePort
// Need to store tls-port, tls-host un config variables so secure.middleware can read from there
consoleapi.TLSPort = globalMinioConsolePort
consoleapi.Hostname = globalMinioConsoleHost
}
return server, nil
}
// Check for updates and print a notification message
func checkUpdate(mode string) {
updateURL := minioReleaseInfoURL
if runtime.GOOS == globalWindowsOSName {
updateURL = minioReleaseWindowsInfoURL
}
u, err := url.Parse(updateURL)
if err != nil {
return
}
if currentReleaseTime.IsZero() {
return
}
_, lrTime, err := getLatestReleaseTime(u, 2*time.Second, mode)
if err != nil {
return
}
var older time.Duration
var downloadURL string
if lrTime.After(currentReleaseTime) {
older = lrTime.Sub(currentReleaseTime)
downloadURL = getDownloadURL(releaseTimeToReleaseTag(lrTime))
}
updateMsg := prepareUpdateMessage(downloadURL, older)
if updateMsg == "" {
return
}
logger.Info(prepareUpdateMessage("Run `mc admin update ALIAS`", lrTime.Sub(currentReleaseTime)))
}
func newConfigDir(dir string, dirSet bool, getDefaultDir func() string) (*ConfigDir, error) {
if dir == "" {
dir = getDefaultDir()
}
if dir == "" {
if !dirSet {
return nil, fmt.Errorf("missing option must be provided")
}
return nil, fmt.Errorf("provided option cannot be empty")
}
// Disallow relative paths, figure out absolute paths.
dirAbs, err := filepath.Abs(dir)
if err != nil {
return nil, err
}
err = mkdirAllIgnorePerm(dirAbs)
if err != nil {
return nil, fmt.Errorf("unable to create the directory `%s`: %w", dirAbs, err)
}
return &ConfigDir{path: dirAbs}, nil
}
func buildServerCtxt(ctx *cli.Context, ctxt *serverCtxt) (err error) {
// Get "json" flag from command line argument and
ctxt.JSON = ctx.IsSet("json") || ctx.GlobalIsSet("json")
// Get quiet flag from command line argument.
ctxt.Quiet = ctx.IsSet("quiet") || ctx.GlobalIsSet("quiet")
// Get anonymous flag from command line argument.
ctxt.Anonymous = ctx.IsSet("anonymous") || ctx.GlobalIsSet("anonymous")
// Fetch address option
ctxt.Addr = ctx.GlobalString("address")
if ctxt.Addr == "" || ctxt.Addr == ":"+GlobalMinioDefaultPort {
ctxt.Addr = ctx.String("address")
}
// Fetch console address option
ctxt.ConsoleAddr = ctx.GlobalString("console-address")
if ctxt.ConsoleAddr == "" {
ctxt.ConsoleAddr = ctx.String("console-address")
}
// Check "no-compat" flag from command line argument.
ctxt.StrictS3Compat = !(ctx.IsSet("no-compat") || ctx.GlobalIsSet("no-compat"))
switch {
case ctx.IsSet("config-dir"):
ctxt.ConfigDir = ctx.String("config-dir")
ctxt.configDirSet = true
case ctx.GlobalIsSet("config-dir"):
ctxt.ConfigDir = ctx.GlobalString("config-dir")
ctxt.configDirSet = true
}
switch {
case ctx.IsSet("certs-dir"):
ctxt.CertsDir = ctx.String("certs-dir")
ctxt.certsDirSet = true
case ctx.GlobalIsSet("certs-dir"):
ctxt.CertsDir = ctx.GlobalString("certs-dir")
ctxt.certsDirSet = true
}
ctxt.FTP = ctx.StringSlice("ftp")
ctxt.SFTP = ctx.StringSlice("sftp")
ctxt.Interface = ctx.String("interface")
ctxt.UserTimeout = ctx.Duration("conn-user-timeout")
ctxt.ConnReadDeadline = ctx.Duration("conn-read-deadline")
ctxt.ConnWriteDeadline = ctx.Duration("conn-write-deadline")
ctxt.ShutdownTimeout = ctx.Duration("shutdown-timeout")
ctxt.IdleTimeout = ctx.Duration("idle-timeout")
ctxt.ReadHeaderTimeout = ctx.Duration("read-header-timeout")
ctxt.MaxIdleConnsPerHost = ctx.Int("max-idle-conns-per-host")
if conf := ctx.String("config"); len(conf) > 0 {
err = mergeServerCtxtFromConfigFile(conf, ctxt)
} else {
err = mergeDisksLayoutFromArgs(serverCmdArgs(ctx), ctxt)
}
return err
}
func handleCommonArgs(ctxt serverCtxt) {
if ctxt.JSON {
logger.EnableJSON()
}
if ctxt.Quiet {
logger.EnableQuiet()
}
if ctxt.Anonymous {
logger.EnableAnonymous()
}
consoleAddr := ctxt.ConsoleAddr
addr := ctxt.Addr
configDir := ctxt.ConfigDir
configSet := ctxt.configDirSet
certsDir := ctxt.CertsDir
certsSet := ctxt.certsDirSet
if consoleAddr == "" {
p, err := xnet.GetFreePort()
if err != nil {
logger.FatalIf(err, "Unable to get free port for Console UI on the host")
}
// hold the port
l, err := net.Listen("TCP", fmt.Sprintf(":%s", p.String()))
if err == nil {
defer l.Close()
}
consoleAddr = net.JoinHostPort("", p.String())
}
if _, _, err := net.SplitHostPort(consoleAddr); err != nil {
logger.FatalIf(err, "Unable to start listening on console port")
}
if consoleAddr == addr {
logger.FatalIf(errors.New("--console-address cannot be same as --address"), "Unable to start the server")
}
globalMinioHost, globalMinioPort = mustSplitHostPort(addr)
if globalMinioPort == "0" {
p, err := xnet.GetFreePort()
if err != nil {
logger.FatalIf(err, "Unable to get free port for S3 API on the host")
}
globalMinioPort = p.String()
globalDynamicAPIPort = true
}
globalMinioConsoleHost, globalMinioConsolePort = mustSplitHostPort(consoleAddr)
if globalMinioPort == globalMinioConsolePort {
logger.FatalIf(errors.New("--console-address port cannot be same as --address port"), "Unable to start the server")
}
globalMinioAddr = addr
// Set all config, certs and CAs directories.
var err error
globalConfigDir, err = newConfigDir(configDir, configSet, defaultConfigDir.Get)
logger.FatalIf(err, "Unable to initialize the (deprecated) config directory")
globalCertsDir, err = newConfigDir(certsDir, certsSet, defaultCertsDir.Get)
logger.FatalIf(err, "Unable to initialize the certs directory")
// Remove this code when we deprecate and remove config-dir.
// This code is to make sure we inherit from the config-dir
// option if certs-dir is not provided.
if !certsSet && configSet {
globalCertsDir = &ConfigDir{path: filepath.Join(globalConfigDir.Get(), certsDir)}
}
globalCertsCADir = &ConfigDir{path: filepath.Join(globalCertsDir.Get(), certsCADir)}
logger.FatalIf(mkdirAllIgnorePerm(globalCertsCADir.Get()), "Unable to create certs CA directory at %s", globalCertsCADir.Get())
}
func runDNSCache(ctx *cli.Context) {
dnsTTL := ctx.Duration("dns-cache-ttl")
// Check if we have configured a custom DNS cache TTL.
if dnsTTL <= 0 {
dnsTTL = 10 * time.Minute
}
// Call to refresh will refresh names in cache.
go func() {
// Baremetal setups set DNS refresh window up to dnsTTL duration.
t := time.NewTicker(dnsTTL)
defer t.Stop()
for {
select {
case <-t.C:
globalDNSCache.Refresh()
case <-GlobalContext.Done():
return
}
}
}()
}
type envKV struct {
Key string
Value string
Skip bool
}
func (e envKV) String() string {
if e.Skip {
return ""
}
return fmt.Sprintf("%s=%s", e.Key, e.Value)
}
func parsEnvEntry(envEntry string) (envKV, error) {
envEntry = strings.TrimSpace(envEntry)
if envEntry == "" {
// Skip all empty lines
return envKV{
Skip: true,
}, nil
}
if strings.HasPrefix(envEntry, "#") {
// Skip commented lines
return envKV{
Skip: true,
}, nil
}
envTokens := strings.SplitN(strings.TrimSpace(strings.TrimPrefix(envEntry, "export")), config.EnvSeparator, 2)
if len(envTokens) != 2 {
return envKV{}, fmt.Errorf("envEntry malformed; %s, expected to be of form 'KEY=value'", envEntry)
}
key := envTokens[0]
val := envTokens[1]
// Remove quotes from the value if found
if len(val) >= 2 {
quote := val[0]
if (quote == '"' || quote == '\'') && val[len(val)-1] == quote {
val = val[1 : len(val)-1]
}
}
return envKV{
Key: key,
Value: val,
}, nil
}
// Similar to os.Environ returns a copy of strings representing
// the environment values from a file, in the form "key, value".
// in a structured form.
func minioEnvironFromFile(envConfigFile string) ([]envKV, error) {
f, err := Open(envConfigFile)
if err != nil {
return nil, err
}
defer f.Close()
var ekvs []envKV
scanner := bufio.NewScanner(f)
for scanner.Scan() {
ekv, err := parsEnvEntry(scanner.Text())
if err != nil {
return nil, err
}
if ekv.Skip {
// Skips empty lines
continue
}
ekvs = append(ekvs, ekv)
}
if err = scanner.Err(); err != nil {
return nil, err
}
return ekvs, nil
}
func readFromSecret(sp string) (string, error) {
// Supports reading path from docker secrets, filename is
// relative to /run/secrets/ position.
if isFile(pathJoin("/run/secrets/", sp)) {
sp = pathJoin("/run/secrets/", sp)
}
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credBuf, err := os.ReadFile(sp)
if err != nil {
if os.IsNotExist(err) { // ignore if file doesn't exist.
return "", nil
}
return "", err
}
return string(bytes.TrimSpace(credBuf)), nil
}
func loadEnvVarsFromFiles() {
if env.IsSet(config.EnvAccessKeyFile) {
accessKey, err := readFromSecret(env.Get(config.EnvAccessKeyFile, ""))
if err != nil {
logger.Fatal(config.ErrInvalidCredentials(err),
"Unable to validate credentials inherited from the secret file(s)")
}
if accessKey != "" {
os.Setenv(config.EnvRootUser, accessKey)
}
}
if env.IsSet(config.EnvSecretKeyFile) {
secretKey, err := readFromSecret(env.Get(config.EnvSecretKeyFile, ""))
if err != nil {
logger.Fatal(config.ErrInvalidCredentials(err),
"Unable to validate credentials inherited from the secret file(s)")
}
if secretKey != "" {
os.Setenv(config.EnvRootPassword, secretKey)
}
}
if env.IsSet(config.EnvRootUserFile) {
rootUser, err := readFromSecret(env.Get(config.EnvRootUserFile, ""))
if err != nil {
logger.Fatal(config.ErrInvalidCredentials(err),
"Unable to validate credentials inherited from the secret file(s)")
}
if rootUser != "" {
os.Setenv(config.EnvRootUser, rootUser)
}
}
if env.IsSet(config.EnvRootPasswordFile) {
rootPassword, err := readFromSecret(env.Get(config.EnvRootPasswordFile, ""))
if err != nil {
logger.Fatal(config.ErrInvalidCredentials(err),
"Unable to validate credentials inherited from the secret file(s)")
}
if rootPassword != "" {
os.Setenv(config.EnvRootPassword, rootPassword)
}
}
if env.IsSet(kms.EnvKMSSecretKeyFile) {
kmsSecret, err := readFromSecret(env.Get(kms.EnvKMSSecretKeyFile, ""))
if err != nil {
logger.Fatal(err, "Unable to read the KMS secret key inherited from secret file")
}
if kmsSecret != "" {
os.Setenv(kms.EnvKMSSecretKey, kmsSecret)
}
}
if env.IsSet(config.EnvConfigEnvFile) {
ekvs, err := minioEnvironFromFile(env.Get(config.EnvConfigEnvFile, ""))
if err != nil && !os.IsNotExist(err) {
logger.Fatal(err, "Unable to read the config environment file")
}
for _, ekv := range ekvs {
os.Setenv(ekv.Key, ekv.Value)
}
}
}
func serverHandleEnvVars() {
var err error
globalBrowserEnabled, err = config.ParseBool(env.Get(config.EnvBrowser, config.EnableOn))
if err != nil {
logger.Fatal(config.ErrInvalidBrowserValue(err), "Invalid MINIO_BROWSER value in environment variable")
}
if globalBrowserEnabled {
if redirectURL := env.Get(config.EnvBrowserRedirectURL, ""); redirectURL != "" {
u, err := xnet.ParseHTTPURL(redirectURL)
if err != nil {
logger.Fatal(err, "Invalid MINIO_BROWSER_REDIRECT_URL value in environment variable")
}
// Look for if URL has invalid values and return error.
if !((u.Scheme == "http" || u.Scheme == "https") &&
u.Opaque == "" &&
!u.ForceQuery && u.RawQuery == "" && u.Fragment == "") {
err := fmt.Errorf("URL contains unexpected resources, expected URL to be one of http(s)://console.example.com or as a subpath via API endpoint http(s)://minio.example.com/minio format: %v", u)
logger.Fatal(err, "Invalid MINIO_BROWSER_REDIRECT_URL value is environment variable")
}
globalBrowserRedirectURL = u
}
globalBrowserRedirect = env.Get(config.EnvBrowserRedirect, config.EnableOn) == config.EnableOn
}
if serverURL := env.Get(config.EnvMinIOServerURL, ""); serverURL != "" {
u, err := xnet.ParseHTTPURL(serverURL)
if err != nil {
logger.Fatal(err, "Invalid MINIO_SERVER_URL value in environment variable")
}
// Look for if URL has invalid values and return error.
if !((u.Scheme == "http" || u.Scheme == "https") &&
(u.Path == "/" || u.Path == "") && u.Opaque == "" &&
!u.ForceQuery && u.RawQuery == "" && u.Fragment == "") {
err := fmt.Errorf("URL contains unexpected resources, expected URL to be of http(s)://minio.example.com format: %v", u)
logger.Fatal(err, "Invalid MINIO_SERVER_URL value is environment variable")
}
u.Path = "" // remove any path component such as `/`
globalMinioEndpoint = u.String()
globalMinioEndpointURL = u
}
globalFSOSync, err = config.ParseBool(env.Get(config.EnvFSOSync, config.EnableOff))
if err != nil {
logger.Fatal(config.ErrInvalidFSOSyncValue(err), "Invalid MINIO_FS_OSYNC value in environment variable")
}
rootDiskSize := env.Get(config.EnvRootDriveThresholdSize, "")
if rootDiskSize == "" {
rootDiskSize = env.Get(config.EnvRootDiskThresholdSize, "")
}
if rootDiskSize != "" {
size, err := humanize.ParseBytes(rootDiskSize)
if err != nil {
logger.Fatal(err, fmt.Sprintf("Invalid %s value in root drive threshold environment variable", rootDiskSize))
}
globalRootDiskThreshold = size
}
domains := env.Get(config.EnvDomain, "")
if len(domains) != 0 {
for _, domainName := range strings.Split(domains, config.ValueSeparator) {
if _, ok := dns2.IsDomainName(domainName); !ok {
logger.Fatal(config.ErrInvalidDomainValue(nil).Msg("Unknown value `%s`", domainName),
"Invalid MINIO_DOMAIN value in environment variable")
}
globalDomainNames = append(globalDomainNames, domainName)
}
sort.Strings(globalDomainNames)
lcpSuf := lcpSuffix(globalDomainNames)
for _, domainName := range globalDomainNames {
if domainName == lcpSuf && len(globalDomainNames) > 1 {
logger.Fatal(config.ErrOverlappingDomainValue(nil).Msg("Overlapping domains `%s` not allowed", globalDomainNames),
"Invalid MINIO_DOMAIN value in environment variable")
}
}
}
publicIPs := env.Get(config.EnvPublicIPs, "")
if len(publicIPs) != 0 {
minioEndpoints := strings.Split(publicIPs, config.ValueSeparator)
domainIPs := set.NewStringSet()
for _, endpoint := range minioEndpoints {
if net.ParseIP(endpoint) == nil {
// Checking if the IP is a DNS entry.
addrs, err := globalDNSCache.LookupHost(GlobalContext, endpoint)
if err != nil {
logger.FatalIf(err, "Unable to initialize MinIO server with [%s] invalid entry found in MINIO_PUBLIC_IPS", endpoint)
}
for _, addr := range addrs {
domainIPs.Add(addr)
}
}
domainIPs.Add(endpoint)
}
updateDomainIPs(domainIPs)
} else {
// Add found interfaces IP address to global domain IPS,
// loopback addresses will be naturally dropped.
domainIPs := mustGetLocalIP4()
for _, host := range globalEndpoints.Hostnames() {
domainIPs.Add(host)
}
updateDomainIPs(domainIPs)
}
// In place update is true by default if the MINIO_UPDATE is not set
// or is not set to 'off', if MINIO_UPDATE is set to 'off' then
// in-place update is off.
globalInplaceUpdateDisabled = strings.EqualFold(env.Get(config.EnvUpdate, config.EnableOn), config.EnableOff)
// Check if the supported credential env vars,
// "MINIO_ROOT_USER" and "MINIO_ROOT_PASSWORD" are provided
// Warn user if deprecated environment variables,
// "MINIO_ACCESS_KEY" and "MINIO_SECRET_KEY", are defined
// Check all error conditions first
//nolint:gocritic
if !env.IsSet(config.EnvRootUser) && env.IsSet(config.EnvRootPassword) {
logger.Fatal(config.ErrMissingEnvCredentialRootUser(nil), "Unable to start MinIO")
} else if env.IsSet(config.EnvRootUser) && !env.IsSet(config.EnvRootPassword) {
logger.Fatal(config.ErrMissingEnvCredentialRootPassword(nil), "Unable to start MinIO")
} else if !env.IsSet(config.EnvRootUser) && !env.IsSet(config.EnvRootPassword) {
if !env.IsSet(config.EnvAccessKey) && env.IsSet(config.EnvSecretKey) {
logger.Fatal(config.ErrMissingEnvCredentialAccessKey(nil), "Unable to start MinIO")
} else if env.IsSet(config.EnvAccessKey) && !env.IsSet(config.EnvSecretKey) {
logger.Fatal(config.ErrMissingEnvCredentialSecretKey(nil), "Unable to start MinIO")
}
}
globalDisableFreezeOnBoot = env.Get("_MINIO_DISABLE_API_FREEZE_ON_BOOT", "") == "true" || serverDebugLog
}
func loadRootCredentials() {
// At this point, either both environment variables
// are defined or both are not defined.
// Check both cases and authenticate them if correctly defined
var user, password string
var hasCredentials bool
//nolint:gocritic
if env.IsSet(config.EnvRootUser) && env.IsSet(config.EnvRootPassword) {
user = env.Get(config.EnvRootUser, "")
password = env.Get(config.EnvRootPassword, "")
hasCredentials = true
} else if env.IsSet(config.EnvAccessKey) && env.IsSet(config.EnvSecretKey) {
user = env.Get(config.EnvAccessKey, "")
password = env.Get(config.EnvSecretKey, "")
hasCredentials = true
} else if globalServerCtxt.RootUser != "" && globalServerCtxt.RootPwd != "" {
user, password = globalServerCtxt.RootUser, globalServerCtxt.RootPwd
hasCredentials = true
}
if hasCredentials {
cred, err := auth.CreateCredentials(user, password)
if err != nil {
logger.Fatal(config.ErrInvalidCredentials(err),
"Unable to validate credentials inherited from the shell environment")
}
if env.IsSet(config.EnvAccessKey) && env.IsSet(config.EnvSecretKey) {
msg := fmt.Sprintf("WARNING: %s and %s are deprecated.\n"+
" Please use %s and %s",
config.EnvAccessKey, config.EnvSecretKey,
config.EnvRootUser, config.EnvRootPassword)
logger.Info(color.RedBold(msg))
}
globalActiveCred = cred
globalCredViaEnv = true
} else {
globalActiveCred = auth.DefaultCredentials
}
}
// Initialize KMS global variable after valiadating and loading the configuration.
// It depends on KMS env variables and global cli flags.
func handleKMSConfig() {
if env.IsSet(kms.EnvKMSSecretKey) && env.IsSet(kms.EnvKESEndpoint) {
logger.Fatal(errors.New("ambiguous KMS configuration"), fmt.Sprintf("The environment contains %q as well as %q", kms.EnvKMSSecretKey, kms.EnvKESEndpoint))
}
if env.IsSet(kms.EnvKMSSecretKey) {
KMS, err := kms.Parse(env.Get(kms.EnvKMSSecretKey, ""))
if err != nil {
logger.Fatal(err, "Unable to parse the KMS secret key inherited from the shell environment")
}
GlobalKMS = KMS
}
if env.IsSet(kms.EnvKESEndpoint) {
if env.IsSet(kms.EnvKESAPIKey) {
if env.IsSet(kms.EnvKESClientKey) {
logger.Fatal(errors.New("ambiguous KMS configuration"), fmt.Sprintf("The environment contains %q as well as %q", kms.EnvKESAPIKey, kms.EnvKESClientKey))
}
if env.IsSet(kms.EnvKESClientCert) {
logger.Fatal(errors.New("ambiguous KMS configuration"), fmt.Sprintf("The environment contains %q as well as %q", kms.EnvKESAPIKey, kms.EnvKESClientCert))
}
}
if !env.IsSet(kms.EnvKESKeyName) {
logger.Fatal(errors.New("Invalid KES configuration"), fmt.Sprintf("The mandatory environment variable %q not set", kms.EnvKESKeyName))
}
var endpoints []string
for _, endpoint := range strings.Split(env.Get(kms.EnvKESEndpoint, ""), ",") {
if strings.TrimSpace(endpoint) == "" {
continue
}
if !ellipses.HasEllipses(endpoint) {
endpoints = append(endpoints, endpoint)
continue
}
patterns, err := ellipses.FindEllipsesPatterns(endpoint)
if err != nil {
logger.Fatal(err, fmt.Sprintf("Invalid KES endpoint %q", endpoint))
}
for _, lbls := range patterns.Expand() {
endpoints = append(endpoints, strings.Join(lbls, ""))
}
}
rootCAs, err := certs.GetRootCAs(env.Get(kms.EnvKESServerCA, globalCertsCADir.Get()))
if err != nil {
logger.Fatal(err, fmt.Sprintf("Unable to load X.509 root CAs for KES from %q", env.Get(kms.EnvKESServerCA, globalCertsCADir.Get())))
}
var kmsConf kms.Config
if env.IsSet(kms.EnvKESAPIKey) {
key, err := kes.ParseAPIKey(env.Get(kms.EnvKESAPIKey, ""))
if err != nil {
logger.Fatal(err, fmt.Sprintf("Failed to parse KES API key from %q", env.Get(kms.EnvKESAPIKey, "")))
}
kmsConf = kms.Config{
Endpoints: endpoints,
Enclave: env.Get(kms.EnvKESEnclave, ""),
DefaultKeyID: env.Get(kms.EnvKESKeyName, ""),
APIKey: key,
RootCAs: rootCAs,
}
} else {
loadX509KeyPair := func(certFile, keyFile string) (tls.Certificate, error) {
// Manually load the certificate and private key into memory.
// We need to check whether the private key is encrypted, and
// if so, decrypt it using the user-provided password.
certBytes, err := os.ReadFile(certFile)
if err != nil {
return tls.Certificate{}, fmt.Errorf("Unable to load KES client certificate as specified by the shell environment: %v", err)
}
keyBytes, err := os.ReadFile(keyFile)
if err != nil {
return tls.Certificate{}, fmt.Errorf("Unable to load KES client private key as specified by the shell environment: %v", err)
}
privateKeyPEM, rest := pem.Decode(bytes.TrimSpace(keyBytes))
if len(rest) != 0 {
return tls.Certificate{}, errors.New("Unable to load KES client private key as specified by the shell environment: private key contains additional data")
}
if x509.IsEncryptedPEMBlock(privateKeyPEM) {
keyBytes, err = x509.DecryptPEMBlock(privateKeyPEM, []byte(env.Get(kms.EnvKESClientPassword, "")))
if err != nil {
return tls.Certificate{}, fmt.Errorf("Unable to decrypt KES client private key as specified by the shell environment: %v", err)
}
keyBytes = pem.EncodeToMemory(&pem.Block{Type: privateKeyPEM.Type, Bytes: keyBytes})
}
certificate, err := tls.X509KeyPair(certBytes, keyBytes)
if err != nil {
return tls.Certificate{}, fmt.Errorf("Unable to load KES client certificate as specified by the shell environment: %v", err)
}
return certificate, nil
}
reloadCertEvents := make(chan tls.Certificate, 1)
certificate, err := certs.NewCertificate(env.Get(kms.EnvKESClientCert, ""), env.Get(kms.EnvKESClientKey, ""), loadX509KeyPair)
if err != nil {
logger.Fatal(err, "Failed to load KES client certificate")
}
certificate.Watch(context.Background(), 15*time.Minute, syscall.SIGHUP)
certificate.Notify(reloadCertEvents)
kmsConf = kms.Config{
Endpoints: endpoints,
Enclave: env.Get(kms.EnvKESEnclave, ""),
DefaultKeyID: env.Get(kms.EnvKESKeyName, ""),
Certificate: certificate,
ReloadCertEvents: reloadCertEvents,
RootCAs: rootCAs,
}
}
KMS, err := kms.NewWithConfig(kmsConf)
if err != nil {
logger.Fatal(err, "Unable to initialize a connection to KES as specified by the shell environment")
}
// We check that the default key ID exists or try to create it otherwise.
// This implicitly checks that we can communicate to KES. We don't treat
// a policy error as failure condition since MinIO may not have the permission
// to create keys - just to generate/decrypt data encryption keys.
if err = KMS.CreateKey(context.Background(), env.Get(kms.EnvKESKeyName, "")); err != nil && !errors.Is(err, kes.ErrKeyExists) && !errors.Is(err, kes.ErrNotAllowed) {
logger.Fatal(err, "Unable to initialize a connection to KES as specified by the shell environment")
}
GlobalKMS = KMS
}
}
certs: refactor cert manager to support multiple certificates (#10207) This commit refactors the certificate management implementation in the `certs` package such that multiple certificates can be specified at the same time. Therefore, the following layout of the `certs/` directory is expected: ``` certs/ │ ├─ public.crt ├─ private.key ├─ CAs/ // CAs directory is ignored │ │ │ ... │ ├─ example.com/ │ │ │ ├─ public.crt │ └─ private.key └─ foobar.org/ │ ├─ public.crt └─ private.key ... ``` However, directory names like `example.com` are just for human readability/organization and don't have any meaning w.r.t whether a particular certificate is served or not. This decision is made based on the SNI sent by the client and the SAN of the certificate. *** The `Manager` will pick a certificate based on the client trying to establish a TLS connection. In particular, it looks at the client hello (i.e. SNI) to determine which host the client tries to access. If the manager can find a certificate that matches the SNI it returns this certificate to the client. However, the client may choose to not send an SNI or tries to access a server directly via IP (`https://<ip>:<port>`). In this case, we cannot use the SNI to determine which certificate to serve. However, we also should not pick "the first" certificate that would be accepted by the client (based on crypto. parameters - like a signature algorithm) because it may be an internal certificate that contains internal hostnames. We would disclose internal infrastructure details doing so. Therefore, the `Manager` returns the "default" certificate when the client does not specify an SNI. The default certificate the top-level `public.crt` - i.e. `certs/public.crt`. This approach has some consequences: - It's the operator's responsibility to ensure that the top-level `public.crt` does not disclose any information (i.e. hostnames) that are not publicly visible. However, this was the case in the past already. - Any other `public.crt` - except for the top-level one - must not contain any IP SAN. The reason for this restriction is that the Manager cannot match a SNI to an IP b/c the SNI is the server host name. The entire purpose of SNI is to indicate which host the client tries to connect to when multiple hosts run on the same IP. So, a client will not set the SNI to an IP. If we would allow IP SANs in a lower-level `public.crt` a user would expect that it is possible to connect to MinIO directly via IP address and that the MinIO server would pick "the right" certificate. However, the MinIO server cannot determine which certificate to serve, and therefore always picks the "default" one. This may lead to all sorts of confusing errors like: "It works if I use `https:instance.minio.local` but not when I use `https://10.0.2.1`. These consequences/limitations should be pointed out / explained in our docs in an appropriate way. However, the support for multiple certificates should not have any impact on how deployment with a single certificate function today. Co-authored-by: Harshavardhana <harsha@minio.io>
2020-09-04 02:33:37 -04:00
func getTLSConfig() (x509Certs []*x509.Certificate, manager *certs.Manager, secureConn bool, err error) {
if !(isFile(getPublicCertFile()) && isFile(getPrivateKeyFile())) {
return nil, nil, false, nil
}
if x509Certs, err = config.ParsePublicCertFile(getPublicCertFile()); err != nil {
return nil, nil, false, err
}
certs: refactor cert manager to support multiple certificates (#10207) This commit refactors the certificate management implementation in the `certs` package such that multiple certificates can be specified at the same time. Therefore, the following layout of the `certs/` directory is expected: ``` certs/ │ ├─ public.crt ├─ private.key ├─ CAs/ // CAs directory is ignored │ │ │ ... │ ├─ example.com/ │ │ │ ├─ public.crt │ └─ private.key └─ foobar.org/ │ ├─ public.crt └─ private.key ... ``` However, directory names like `example.com` are just for human readability/organization and don't have any meaning w.r.t whether a particular certificate is served or not. This decision is made based on the SNI sent by the client and the SAN of the certificate. *** The `Manager` will pick a certificate based on the client trying to establish a TLS connection. In particular, it looks at the client hello (i.e. SNI) to determine which host the client tries to access. If the manager can find a certificate that matches the SNI it returns this certificate to the client. However, the client may choose to not send an SNI or tries to access a server directly via IP (`https://<ip>:<port>`). In this case, we cannot use the SNI to determine which certificate to serve. However, we also should not pick "the first" certificate that would be accepted by the client (based on crypto. parameters - like a signature algorithm) because it may be an internal certificate that contains internal hostnames. We would disclose internal infrastructure details doing so. Therefore, the `Manager` returns the "default" certificate when the client does not specify an SNI. The default certificate the top-level `public.crt` - i.e. `certs/public.crt`. This approach has some consequences: - It's the operator's responsibility to ensure that the top-level `public.crt` does not disclose any information (i.e. hostnames) that are not publicly visible. However, this was the case in the past already. - Any other `public.crt` - except for the top-level one - must not contain any IP SAN. The reason for this restriction is that the Manager cannot match a SNI to an IP b/c the SNI is the server host name. The entire purpose of SNI is to indicate which host the client tries to connect to when multiple hosts run on the same IP. So, a client will not set the SNI to an IP. If we would allow IP SANs in a lower-level `public.crt` a user would expect that it is possible to connect to MinIO directly via IP address and that the MinIO server would pick "the right" certificate. However, the MinIO server cannot determine which certificate to serve, and therefore always picks the "default" one. This may lead to all sorts of confusing errors like: "It works if I use `https:instance.minio.local` but not when I use `https://10.0.2.1`. These consequences/limitations should be pointed out / explained in our docs in an appropriate way. However, the support for multiple certificates should not have any impact on how deployment with a single certificate function today. Co-authored-by: Harshavardhana <harsha@minio.io>
2020-09-04 02:33:37 -04:00
manager, err = certs.NewManager(GlobalContext, getPublicCertFile(), getPrivateKeyFile(), config.LoadX509KeyPair)
if err != nil {
return nil, nil, false, err
}
certs: refactor cert manager to support multiple certificates (#10207) This commit refactors the certificate management implementation in the `certs` package such that multiple certificates can be specified at the same time. Therefore, the following layout of the `certs/` directory is expected: ``` certs/ │ ├─ public.crt ├─ private.key ├─ CAs/ // CAs directory is ignored │ │ │ ... │ ├─ example.com/ │ │ │ ├─ public.crt │ └─ private.key └─ foobar.org/ │ ├─ public.crt └─ private.key ... ``` However, directory names like `example.com` are just for human readability/organization and don't have any meaning w.r.t whether a particular certificate is served or not. This decision is made based on the SNI sent by the client and the SAN of the certificate. *** The `Manager` will pick a certificate based on the client trying to establish a TLS connection. In particular, it looks at the client hello (i.e. SNI) to determine which host the client tries to access. If the manager can find a certificate that matches the SNI it returns this certificate to the client. However, the client may choose to not send an SNI or tries to access a server directly via IP (`https://<ip>:<port>`). In this case, we cannot use the SNI to determine which certificate to serve. However, we also should not pick "the first" certificate that would be accepted by the client (based on crypto. parameters - like a signature algorithm) because it may be an internal certificate that contains internal hostnames. We would disclose internal infrastructure details doing so. Therefore, the `Manager` returns the "default" certificate when the client does not specify an SNI. The default certificate the top-level `public.crt` - i.e. `certs/public.crt`. This approach has some consequences: - It's the operator's responsibility to ensure that the top-level `public.crt` does not disclose any information (i.e. hostnames) that are not publicly visible. However, this was the case in the past already. - Any other `public.crt` - except for the top-level one - must not contain any IP SAN. The reason for this restriction is that the Manager cannot match a SNI to an IP b/c the SNI is the server host name. The entire purpose of SNI is to indicate which host the client tries to connect to when multiple hosts run on the same IP. So, a client will not set the SNI to an IP. If we would allow IP SANs in a lower-level `public.crt` a user would expect that it is possible to connect to MinIO directly via IP address and that the MinIO server would pick "the right" certificate. However, the MinIO server cannot determine which certificate to serve, and therefore always picks the "default" one. This may lead to all sorts of confusing errors like: "It works if I use `https:instance.minio.local` but not when I use `https://10.0.2.1`. These consequences/limitations should be pointed out / explained in our docs in an appropriate way. However, the support for multiple certificates should not have any impact on how deployment with a single certificate function today. Co-authored-by: Harshavardhana <harsha@minio.io>
2020-09-04 02:33:37 -04:00
// MinIO has support for multiple certificates. It expects the following structure:
// certs/
// │
// ├─ public.crt
// ├─ private.key
// │
// ├─ example.com/
// │ │
// │ ├─ public.crt
// │ └─ private.key
// └─ foobar.org/
// │
// ├─ public.crt
// └─ private.key
// ...
//
// Therefore, we read all filenames in the cert directory and check
// for each directory whether it contains a public.crt and private.key.
// If so, we try to add it to certificate manager.
root, err := Open(globalCertsDir.Get())
certs: refactor cert manager to support multiple certificates (#10207) This commit refactors the certificate management implementation in the `certs` package such that multiple certificates can be specified at the same time. Therefore, the following layout of the `certs/` directory is expected: ``` certs/ │ ├─ public.crt ├─ private.key ├─ CAs/ // CAs directory is ignored │ │ │ ... │ ├─ example.com/ │ │ │ ├─ public.crt │ └─ private.key └─ foobar.org/ │ ├─ public.crt └─ private.key ... ``` However, directory names like `example.com` are just for human readability/organization and don't have any meaning w.r.t whether a particular certificate is served or not. This decision is made based on the SNI sent by the client and the SAN of the certificate. *** The `Manager` will pick a certificate based on the client trying to establish a TLS connection. In particular, it looks at the client hello (i.e. SNI) to determine which host the client tries to access. If the manager can find a certificate that matches the SNI it returns this certificate to the client. However, the client may choose to not send an SNI or tries to access a server directly via IP (`https://<ip>:<port>`). In this case, we cannot use the SNI to determine which certificate to serve. However, we also should not pick "the first" certificate that would be accepted by the client (based on crypto. parameters - like a signature algorithm) because it may be an internal certificate that contains internal hostnames. We would disclose internal infrastructure details doing so. Therefore, the `Manager` returns the "default" certificate when the client does not specify an SNI. The default certificate the top-level `public.crt` - i.e. `certs/public.crt`. This approach has some consequences: - It's the operator's responsibility to ensure that the top-level `public.crt` does not disclose any information (i.e. hostnames) that are not publicly visible. However, this was the case in the past already. - Any other `public.crt` - except for the top-level one - must not contain any IP SAN. The reason for this restriction is that the Manager cannot match a SNI to an IP b/c the SNI is the server host name. The entire purpose of SNI is to indicate which host the client tries to connect to when multiple hosts run on the same IP. So, a client will not set the SNI to an IP. If we would allow IP SANs in a lower-level `public.crt` a user would expect that it is possible to connect to MinIO directly via IP address and that the MinIO server would pick "the right" certificate. However, the MinIO server cannot determine which certificate to serve, and therefore always picks the "default" one. This may lead to all sorts of confusing errors like: "It works if I use `https:instance.minio.local` but not when I use `https://10.0.2.1`. These consequences/limitations should be pointed out / explained in our docs in an appropriate way. However, the support for multiple certificates should not have any impact on how deployment with a single certificate function today. Co-authored-by: Harshavardhana <harsha@minio.io>
2020-09-04 02:33:37 -04:00
if err != nil {
return nil, nil, false, err
}
defer root.Close()
files, err := root.Readdir(-1)
if err != nil {
return nil, nil, false, err
}
for _, file := range files {
// Ignore all
// - regular files
// - "CAs" directory
// - any directory which starts with ".."
if file.Mode().IsRegular() || file.Name() == "CAs" || strings.HasPrefix(file.Name(), "..") {
certs: refactor cert manager to support multiple certificates (#10207) This commit refactors the certificate management implementation in the `certs` package such that multiple certificates can be specified at the same time. Therefore, the following layout of the `certs/` directory is expected: ``` certs/ │ ├─ public.crt ├─ private.key ├─ CAs/ // CAs directory is ignored │ │ │ ... │ ├─ example.com/ │ │ │ ├─ public.crt │ └─ private.key └─ foobar.org/ │ ├─ public.crt └─ private.key ... ``` However, directory names like `example.com` are just for human readability/organization and don't have any meaning w.r.t whether a particular certificate is served or not. This decision is made based on the SNI sent by the client and the SAN of the certificate. *** The `Manager` will pick a certificate based on the client trying to establish a TLS connection. In particular, it looks at the client hello (i.e. SNI) to determine which host the client tries to access. If the manager can find a certificate that matches the SNI it returns this certificate to the client. However, the client may choose to not send an SNI or tries to access a server directly via IP (`https://<ip>:<port>`). In this case, we cannot use the SNI to determine which certificate to serve. However, we also should not pick "the first" certificate that would be accepted by the client (based on crypto. parameters - like a signature algorithm) because it may be an internal certificate that contains internal hostnames. We would disclose internal infrastructure details doing so. Therefore, the `Manager` returns the "default" certificate when the client does not specify an SNI. The default certificate the top-level `public.crt` - i.e. `certs/public.crt`. This approach has some consequences: - It's the operator's responsibility to ensure that the top-level `public.crt` does not disclose any information (i.e. hostnames) that are not publicly visible. However, this was the case in the past already. - Any other `public.crt` - except for the top-level one - must not contain any IP SAN. The reason for this restriction is that the Manager cannot match a SNI to an IP b/c the SNI is the server host name. The entire purpose of SNI is to indicate which host the client tries to connect to when multiple hosts run on the same IP. So, a client will not set the SNI to an IP. If we would allow IP SANs in a lower-level `public.crt` a user would expect that it is possible to connect to MinIO directly via IP address and that the MinIO server would pick "the right" certificate. However, the MinIO server cannot determine which certificate to serve, and therefore always picks the "default" one. This may lead to all sorts of confusing errors like: "It works if I use `https:instance.minio.local` but not when I use `https://10.0.2.1`. These consequences/limitations should be pointed out / explained in our docs in an appropriate way. However, the support for multiple certificates should not have any impact on how deployment with a single certificate function today. Co-authored-by: Harshavardhana <harsha@minio.io>
2020-09-04 02:33:37 -04:00
continue
}
if file.Mode()&os.ModeSymlink == os.ModeSymlink {
file, err = Stat(filepath.Join(root.Name(), file.Name()))
if err != nil {
// not accessible ignore
continue
}
if !file.IsDir() {
continue
}
}
certs: refactor cert manager to support multiple certificates (#10207) This commit refactors the certificate management implementation in the `certs` package such that multiple certificates can be specified at the same time. Therefore, the following layout of the `certs/` directory is expected: ``` certs/ │ ├─ public.crt ├─ private.key ├─ CAs/ // CAs directory is ignored │ │ │ ... │ ├─ example.com/ │ │ │ ├─ public.crt │ └─ private.key └─ foobar.org/ │ ├─ public.crt └─ private.key ... ``` However, directory names like `example.com` are just for human readability/organization and don't have any meaning w.r.t whether a particular certificate is served or not. This decision is made based on the SNI sent by the client and the SAN of the certificate. *** The `Manager` will pick a certificate based on the client trying to establish a TLS connection. In particular, it looks at the client hello (i.e. SNI) to determine which host the client tries to access. If the manager can find a certificate that matches the SNI it returns this certificate to the client. However, the client may choose to not send an SNI or tries to access a server directly via IP (`https://<ip>:<port>`). In this case, we cannot use the SNI to determine which certificate to serve. However, we also should not pick "the first" certificate that would be accepted by the client (based on crypto. parameters - like a signature algorithm) because it may be an internal certificate that contains internal hostnames. We would disclose internal infrastructure details doing so. Therefore, the `Manager` returns the "default" certificate when the client does not specify an SNI. The default certificate the top-level `public.crt` - i.e. `certs/public.crt`. This approach has some consequences: - It's the operator's responsibility to ensure that the top-level `public.crt` does not disclose any information (i.e. hostnames) that are not publicly visible. However, this was the case in the past already. - Any other `public.crt` - except for the top-level one - must not contain any IP SAN. The reason for this restriction is that the Manager cannot match a SNI to an IP b/c the SNI is the server host name. The entire purpose of SNI is to indicate which host the client tries to connect to when multiple hosts run on the same IP. So, a client will not set the SNI to an IP. If we would allow IP SANs in a lower-level `public.crt` a user would expect that it is possible to connect to MinIO directly via IP address and that the MinIO server would pick "the right" certificate. However, the MinIO server cannot determine which certificate to serve, and therefore always picks the "default" one. This may lead to all sorts of confusing errors like: "It works if I use `https:instance.minio.local` but not when I use `https://10.0.2.1`. These consequences/limitations should be pointed out / explained in our docs in an appropriate way. However, the support for multiple certificates should not have any impact on how deployment with a single certificate function today. Co-authored-by: Harshavardhana <harsha@minio.io>
2020-09-04 02:33:37 -04:00
var (
certFile = filepath.Join(root.Name(), file.Name(), publicCertFile)
keyFile = filepath.Join(root.Name(), file.Name(), privateKeyFile)
)
if !isFile(certFile) || !isFile(keyFile) {
continue
}
if err = manager.AddCertificate(certFile, keyFile); err != nil {
err = fmt.Errorf("Unable to load TLS certificate '%s,%s': %w", certFile, keyFile, err)
logger.LogIf(GlobalContext, err, logger.ErrorKind)
certs: refactor cert manager to support multiple certificates (#10207) This commit refactors the certificate management implementation in the `certs` package such that multiple certificates can be specified at the same time. Therefore, the following layout of the `certs/` directory is expected: ``` certs/ │ ├─ public.crt ├─ private.key ├─ CAs/ // CAs directory is ignored │ │ │ ... │ ├─ example.com/ │ │ │ ├─ public.crt │ └─ private.key └─ foobar.org/ │ ├─ public.crt └─ private.key ... ``` However, directory names like `example.com` are just for human readability/organization and don't have any meaning w.r.t whether a particular certificate is served or not. This decision is made based on the SNI sent by the client and the SAN of the certificate. *** The `Manager` will pick a certificate based on the client trying to establish a TLS connection. In particular, it looks at the client hello (i.e. SNI) to determine which host the client tries to access. If the manager can find a certificate that matches the SNI it returns this certificate to the client. However, the client may choose to not send an SNI or tries to access a server directly via IP (`https://<ip>:<port>`). In this case, we cannot use the SNI to determine which certificate to serve. However, we also should not pick "the first" certificate that would be accepted by the client (based on crypto. parameters - like a signature algorithm) because it may be an internal certificate that contains internal hostnames. We would disclose internal infrastructure details doing so. Therefore, the `Manager` returns the "default" certificate when the client does not specify an SNI. The default certificate the top-level `public.crt` - i.e. `certs/public.crt`. This approach has some consequences: - It's the operator's responsibility to ensure that the top-level `public.crt` does not disclose any information (i.e. hostnames) that are not publicly visible. However, this was the case in the past already. - Any other `public.crt` - except for the top-level one - must not contain any IP SAN. The reason for this restriction is that the Manager cannot match a SNI to an IP b/c the SNI is the server host name. The entire purpose of SNI is to indicate which host the client tries to connect to when multiple hosts run on the same IP. So, a client will not set the SNI to an IP. If we would allow IP SANs in a lower-level `public.crt` a user would expect that it is possible to connect to MinIO directly via IP address and that the MinIO server would pick "the right" certificate. However, the MinIO server cannot determine which certificate to serve, and therefore always picks the "default" one. This may lead to all sorts of confusing errors like: "It works if I use `https:instance.minio.local` but not when I use `https://10.0.2.1`. These consequences/limitations should be pointed out / explained in our docs in an appropriate way. However, the support for multiple certificates should not have any impact on how deployment with a single certificate function today. Co-authored-by: Harshavardhana <harsha@minio.io>
2020-09-04 02:33:37 -04:00
}
}
secureConn = true
// Certs might be symlinks, reload them every 10 seconds.
manager.UpdateReloadDuration(10 * time.Second)
// syscall.SIGHUP to reload the certs.
manager.ReloadOnSignal(syscall.SIGHUP)
certs: refactor cert manager to support multiple certificates (#10207) This commit refactors the certificate management implementation in the `certs` package such that multiple certificates can be specified at the same time. Therefore, the following layout of the `certs/` directory is expected: ``` certs/ │ ├─ public.crt ├─ private.key ├─ CAs/ // CAs directory is ignored │ │ │ ... │ ├─ example.com/ │ │ │ ├─ public.crt │ └─ private.key └─ foobar.org/ │ ├─ public.crt └─ private.key ... ``` However, directory names like `example.com` are just for human readability/organization and don't have any meaning w.r.t whether a particular certificate is served or not. This decision is made based on the SNI sent by the client and the SAN of the certificate. *** The `Manager` will pick a certificate based on the client trying to establish a TLS connection. In particular, it looks at the client hello (i.e. SNI) to determine which host the client tries to access. If the manager can find a certificate that matches the SNI it returns this certificate to the client. However, the client may choose to not send an SNI or tries to access a server directly via IP (`https://<ip>:<port>`). In this case, we cannot use the SNI to determine which certificate to serve. However, we also should not pick "the first" certificate that would be accepted by the client (based on crypto. parameters - like a signature algorithm) because it may be an internal certificate that contains internal hostnames. We would disclose internal infrastructure details doing so. Therefore, the `Manager` returns the "default" certificate when the client does not specify an SNI. The default certificate the top-level `public.crt` - i.e. `certs/public.crt`. This approach has some consequences: - It's the operator's responsibility to ensure that the top-level `public.crt` does not disclose any information (i.e. hostnames) that are not publicly visible. However, this was the case in the past already. - Any other `public.crt` - except for the top-level one - must not contain any IP SAN. The reason for this restriction is that the Manager cannot match a SNI to an IP b/c the SNI is the server host name. The entire purpose of SNI is to indicate which host the client tries to connect to when multiple hosts run on the same IP. So, a client will not set the SNI to an IP. If we would allow IP SANs in a lower-level `public.crt` a user would expect that it is possible to connect to MinIO directly via IP address and that the MinIO server would pick "the right" certificate. However, the MinIO server cannot determine which certificate to serve, and therefore always picks the "default" one. This may lead to all sorts of confusing errors like: "It works if I use `https:instance.minio.local` but not when I use `https://10.0.2.1`. These consequences/limitations should be pointed out / explained in our docs in an appropriate way. However, the support for multiple certificates should not have any impact on how deployment with a single certificate function today. Co-authored-by: Harshavardhana <harsha@minio.io>
2020-09-04 02:33:37 -04:00
return x509Certs, manager, secureConn, nil
}
// contextCanceled returns whether a context is canceled.
func contextCanceled(ctx context.Context) bool {
select {
case <-ctx.Done():
return true
default:
return false
}
}
// bgContext returns a context that can be used for async operations.
// Cancellation/timeouts are removed, so parent cancellations/timeout will
// not propagate from parent.
// Context values are preserved.
// This can be used for goroutines that live beyond the parent context.
func bgContext(parent context.Context) context.Context {
return bgCtx{parent: parent}
}
type bgCtx struct {
parent context.Context
}
func (a bgCtx) Done() <-chan struct{} {
return nil
}
func (a bgCtx) Err() error {
return nil
}
func (a bgCtx) Deadline() (deadline time.Time, ok bool) {
return time.Time{}, false
}
func (a bgCtx) Value(key interface{}) interface{} {
return a.parent.Value(key)
}