/* * MinIO Cloud Storage, (C) 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 config import ( "fmt" "regexp" "strings" "github.com/minio/minio-go/pkg/set" "github.com/minio/minio/pkg/auth" "github.com/minio/minio/pkg/env" "github.com/minio/minio/pkg/madmin" ) // Error config error type type Error string // Errorf - formats according to a format specifier and returns // the string as a value that satisfies error of type config.Error func Errorf(format string, a ...interface{}) error { return Error(fmt.Sprintf(format, a...)) } func (e Error) Error() string { return string(e) } // Default keys const ( Default = madmin.Default State = "state" Comment = "comment" // State values StateOn = "on" StateOff = "off" RegionName = "name" AccessKey = "access_key" SecretKey = "secret_key" ) // Top level config constants. const ( CredentialsSubSys = "credentials" PolicyOPASubSys = "policy_opa" IdentityOpenIDSubSys = "identity_openid" IdentityLDAPSubSys = "identity_ldap" CacheSubSys = "cache" RegionSubSys = "region" EtcdSubSys = "etcd" StorageClassSubSys = "storageclass" CompressionSubSys = "compression" KmsVaultSubSys = "kms_vault" LoggerWebhookSubSys = "logger_webhook" AuditWebhookSubSys = "audit_webhook" // Add new constants here if you add new fields to config. ) // Notification config constants. const ( NotifyKafkaSubSys = "notify_kafka" NotifyMQTTSubSys = "notify_mqtt" NotifyMySQLSubSys = "notify_mysql" NotifyNATSSubSys = "notify_nats" NotifyNSQSubSys = "notify_nsq" NotifyESSubSys = "notify_elasticsearch" NotifyAMQPSubSys = "notify_amqp" NotifyPostgresSubSys = "notify_postgres" NotifyRedisSubSys = "notify_redis" NotifyWebhookSubSys = "notify_webhook" // Add new constants here if you add new fields to config. ) // SubSystems - all supported sub-systems var SubSystems = set.CreateStringSet([]string{ CredentialsSubSys, RegionSubSys, EtcdSubSys, CacheSubSys, StorageClassSubSys, CompressionSubSys, KmsVaultSubSys, LoggerWebhookSubSys, AuditWebhookSubSys, PolicyOPASubSys, IdentityLDAPSubSys, IdentityOpenIDSubSys, NotifyAMQPSubSys, NotifyESSubSys, NotifyKafkaSubSys, NotifyMQTTSubSys, NotifyMySQLSubSys, NotifyNATSSubSys, NotifyNSQSubSys, NotifyPostgresSubSys, NotifyRedisSubSys, NotifyWebhookSubSys, }...) // SubSystemsSingleTargets - subsystems which only support single target. var SubSystemsSingleTargets = set.CreateStringSet([]string{ CredentialsSubSys, RegionSubSys, EtcdSubSys, CacheSubSys, StorageClassSubSys, CompressionSubSys, KmsVaultSubSys, PolicyOPASubSys, IdentityLDAPSubSys, IdentityOpenIDSubSys, }...) // Constant separators const ( SubSystemSeparator = madmin.SubSystemSeparator KvSeparator = madmin.KvSeparator KvSpaceSeparator = madmin.KvSpaceSeparator KvComment = `#` KvNewline = madmin.KvNewline KvDoubleQuote = madmin.KvDoubleQuote KvSingleQuote = madmin.KvSingleQuote // Env prefix used for all envs in MinIO EnvPrefix = "MINIO_" EnvWordDelimiter = `_` ) // KV - is a shorthand of each key value. type KV struct { Key string `json:"key"` Value string `json:"value"` } // KVS - is a shorthand for some wrapper functions // to operate on list of key values. type KVS []KV // Empty - return if kv is empty func (kvs KVS) Empty() bool { return len(kvs) == 0 } func (kvs KVS) String() string { var s strings.Builder for _, kv := range kvs { // Do not need to print if state is on if kv.Key == State && kv.Value == StateOn { continue } s.WriteString(kv.Key) s.WriteString(KvSeparator) s.WriteString(KvDoubleQuote) s.WriteString(kv.Value) s.WriteString(KvDoubleQuote) s.WriteString(KvSpaceSeparator) } return s.String() } // Get - returns the value of a key, if not found returns empty. func (kvs KVS) Get(key string) string { v, ok := kvs.Lookup(key) if ok { return v } return "" } // Lookup - lookup a key in a list of KVS func (kvs KVS) Lookup(key string) (string, bool) { for _, kv := range kvs { if kv.Key == key { return kv.Value, true } } return "", false } // Config - MinIO server config structure. type Config map[string]map[string]KVS func (c Config) String() string { var s strings.Builder for k, v := range c { for target, kv := range v { s.WriteString(k) if target != Default { s.WriteString(SubSystemSeparator) s.WriteString(target) } s.WriteString(KvSpaceSeparator) s.WriteString(kv.String()) s.WriteString(KvNewline) } } return s.String() } // Default KV configs for worm and region var ( DefaultCredentialKVS = KVS{ KV{ Key: State, Value: StateOff, }, KV{ Key: AccessKey, Value: auth.DefaultAccessKey, }, KV{ Key: SecretKey, Value: auth.DefaultSecretKey, }, } DefaultRegionKVS = KVS{ KV{ Key: State, Value: StateOff, }, KV{ Key: RegionName, Value: "", }, } ) // LookupCreds - lookup credentials from config. func LookupCreds(kv KVS) (auth.Credentials, error) { if err := CheckValidKeys(CredentialsSubSys, kv, DefaultCredentialKVS); err != nil { return auth.Credentials{}, err } accessKey := env.Get(EnvAccessKey, kv.Get(AccessKey)) secretKey := env.Get(EnvSecretKey, kv.Get(SecretKey)) if accessKey == "" && secretKey == "" { accessKey = auth.DefaultAccessKey secretKey = auth.DefaultSecretKey } return auth.CreateCredentials(accessKey, secretKey) } var validRegionRegex = regexp.MustCompile("^[a-zA-Z][a-zA-Z0-9-_-]+$") // LookupRegion - get current region. func LookupRegion(kv KVS) (string, error) { if err := CheckValidKeys(RegionSubSys, kv, DefaultRegionKVS); err != nil { return "", err } region := env.Get(EnvRegion, "") if region == "" { region = env.Get(EnvRegionName, kv.Get(RegionName)) } if region != "" { if validRegionRegex.MatchString(region) { return region, nil } return "", Errorf("region '%s' is invalid, expected simple characters such as [us-east-1, myregion...]", region) } return "", nil } // CheckValidKeys - checks if inputs KVS has the necessary keys, // returns error if it find extra or superflous keys. func CheckValidKeys(subSys string, kv KVS, validKVS KVS) error { nkv := KVS{} for _, kv := range kv { if _, ok := validKVS.Lookup(kv.Key); !ok { nkv = append(nkv, kv) } } if len(nkv) > 0 { return Errorf("found invalid keys (%s) for '%s' sub-system", nkv.String(), subSys) } return nil } // LookupWorm - check if worm is enabled func LookupWorm() (bool, error) { return ParseBool(env.Get(EnvWorm, StateOff)) } // New - initialize a new server config. func New() Config { srvCfg := make(Config) for _, k := range SubSystems.ToSlice() { srvCfg[k] = map[string]KVS{} } return srvCfg } // GetKVS - get kvs from specific subsystem. func (c Config) GetKVS(s string, defaultKVS map[string]KVS) (map[string]KVS, error) { if len(s) == 0 { return nil, Error("input cannot be empty") } inputs := strings.Fields(s) if len(inputs) > 1 { return nil, Errorf("invalid number of arguments %s", s) } subSystemValue := strings.SplitN(inputs[0], SubSystemSeparator, 2) if len(subSystemValue) == 0 { return nil, Errorf("invalid number of arguments %s", s) } found := SubSystems.Contains(subSystemValue[0]) if !found { // Check for sub-prefix only if the input value is only a // single value, this rejects invalid inputs if any. found = !SubSystems.FuncMatch(strings.HasPrefix, subSystemValue[0]).IsEmpty() && len(subSystemValue) == 1 } if !found { return nil, Errorf("unknown sub-system %s", s) } kvs := make(map[string]KVS) var ok bool subSysPrefix := subSystemValue[0] if len(subSystemValue) == 2 { if len(subSystemValue[1]) == 0 { return nil, Errorf("sub-system target '%s' cannot be empty", s) } kvs[inputs[0]], ok = c[subSysPrefix][subSystemValue[1]] if !ok { return nil, Errorf("sub-system target '%s' doesn't exist", s) } } else { for subSys, subSysTgts := range c { if !strings.HasPrefix(subSys, subSysPrefix) { continue } for k, kv := range subSysTgts { if k != Default { kvs[subSys+SubSystemSeparator+k] = kv } else { kvs[subSys] = kv } } } } if len(kvs) == 0 { kvs[subSysPrefix] = defaultKVS[subSysPrefix] return kvs, nil } return kvs, nil } // DelKVS - delete a specific key. func (c Config) DelKVS(s string) error { if len(s) == 0 { return Error("input arguments cannot be empty") } inputs := strings.Fields(s) if len(inputs) > 1 { return Errorf("invalid number of arguments %s", s) } subSystemValue := strings.SplitN(inputs[0], SubSystemSeparator, 2) if len(subSystemValue) == 0 { return Errorf("invalid number of arguments %s", s) } if !SubSystems.Contains(subSystemValue[0]) { return Errorf("unknown sub-system %s", s) } tgt := Default subSys := subSystemValue[0] if len(subSystemValue) == 2 { if len(subSystemValue[1]) == 0 { return Errorf("sub-system target '%s' cannot be empty", s) } tgt = subSystemValue[1] } _, ok := c[subSys][tgt] if !ok { return Errorf("sub-system %s already deleted", s) } delete(c[subSys], tgt) return nil } // This function is needed, to trim off single or double quotes, creeping into the values. func sanitizeValue(v string) string { v = strings.TrimSuffix(strings.TrimPrefix(strings.TrimSpace(v), KvDoubleQuote), KvDoubleQuote) return strings.TrimSuffix(strings.TrimPrefix(v, KvSingleQuote), KvSingleQuote) } // Clone - clones a config map entirely. func (c Config) Clone() Config { cp := New() for subSys, tgtKV := range c { cp[subSys] = make(map[string]KVS) for tgt, kv := range tgtKV { cp[subSys][tgt] = append(cp[subSys][tgt], kv...) } } return cp } // SetKVS - set specific key values per sub-system. func (c Config) SetKVS(s string, defaultKVS map[string]KVS) error { if len(s) == 0 { return Error("input arguments cannot be empty") } inputs := strings.SplitN(s, KvSpaceSeparator, 2) if len(inputs) <= 1 { return Errorf("invalid number of arguments '%s'", s) } subSystemValue := strings.SplitN(inputs[0], SubSystemSeparator, 2) if len(subSystemValue) == 0 { return Errorf("invalid number of arguments %s", s) } if !SubSystems.Contains(subSystemValue[0]) { return Errorf("unknown sub-system %s", s) } if SubSystemsSingleTargets.Contains(subSystemValue[0]) && len(subSystemValue) == 2 { return Errorf("sub-system '%s' only supports single target", subSystemValue[0]) } var kvs = KVS{} var prevK string for _, v := range strings.Fields(inputs[1]) { kv := strings.SplitN(v, KvSeparator, 2) if len(kv) == 0 { continue } if len(kv) == 1 && prevK != "" { kvs = append(kvs, KV{ Key: prevK, Value: strings.Join([]string{kvs.Get(prevK), sanitizeValue(kv[0])}, KvSpaceSeparator), }) continue } if len(kv) == 1 { return Errorf("key '%s', cannot have empty value", kv[0]) } prevK = kv[0] kvs = append(kvs, KV{ Key: kv[0], Value: sanitizeValue(kv[1]), }) } tgt := Default subSys := subSystemValue[0] if len(subSystemValue) == 2 { tgt = subSystemValue[1] } _, ok := c[subSys][tgt] if !ok { c[subSys][tgt] = KVS{} } else { c[subSys][tgt] = kvs } _, ok = c[subSys][tgt].Lookup(State) if !ok { // implicit state "on" if not specified. c[subSys][tgt] = append(c[subSys][tgt], KV{ Key: State, Value: StateOn, }) } for _, kv := range defaultKVS[subSys] { _, ok := c[subSys][tgt].Lookup(kv.Key) if !ok { c[subSys][tgt] = append(c[subSys][tgt], kv) } } return nil }