/* Copyright 2022 GitHub Inc. See https://github.com/github/gh-ost/blob/master/LICENSE */ package base import ( "fmt" "math" "os" "regexp" "strings" "sync" "sync/atomic" "time" uuid "github.com/satori/go.uuid" "github.com/github/gh-ost/go/mysql" "github.com/github/gh-ost/go/sql" "github.com/openark/golib/log" "github.com/go-ini/ini" ) // RowsEstimateMethod is the type of row number estimation type RowsEstimateMethod string const ( TableStatusRowsEstimate RowsEstimateMethod = "TableStatusRowsEstimate" ExplainRowsEstimate RowsEstimateMethod = "ExplainRowsEstimate" CountRowsEstimate RowsEstimateMethod = "CountRowsEstimate" ) type CutOver int const ( CutOverAtomic CutOver = iota CutOverTwoStep ) type ThrottleReasonHint string const ( NoThrottleReasonHint ThrottleReasonHint = "NoThrottleReasonHint" UserCommandThrottleReasonHint ThrottleReasonHint = "UserCommandThrottleReasonHint" LeavingHibernationThrottleReasonHint ThrottleReasonHint = "LeavingHibernationThrottleReasonHint" ) const ( HTTPStatusOK = 200 MaxEventsBatchSize = 1000 ETAUnknown = math.MinInt64 ) var ( envVariableRegexp = regexp.MustCompile("[$][{](.*)[}]") ) type ThrottleCheckResult struct { ShouldThrottle bool Reason string ReasonHint ThrottleReasonHint } func NewThrottleCheckResult(throttle bool, reason string, reasonHint ThrottleReasonHint) *ThrottleCheckResult { return &ThrottleCheckResult{ ShouldThrottle: throttle, Reason: reason, ReasonHint: reasonHint, } } // MigrationContext has the general, global state of migration. It is used by // all components throughout the migration process. type MigrationContext struct { Uuid string DatabaseName string OriginalTableName string AlterStatement string AlterStatementOptions string // anything following the 'ALTER TABLE [schema.]table' from AlterStatement countMutex sync.Mutex countTableRowsCancelFunc func() CountTableRows bool ConcurrentCountTableRows bool AllowedRunningOnMaster bool AllowedMasterMaster bool SwitchToRowBinlogFormat bool AssumeRBR bool SkipForeignKeyChecks bool SkipStrictMode bool AllowZeroInDate bool NullableUniqueKeyAllowed bool ApproveRenamedColumns bool SkipRenamedColumns bool IsTungsten bool DiscardForeignKeys bool AliyunRDS bool GoogleCloudPlatform bool AzureMySQL bool AttemptInstantDDL bool config ContextConfig configMutex *sync.Mutex ConfigFile string CliUser string CliPassword string UseTLS bool TLSAllowInsecure bool TLSCACertificate string TLSCertificate string TLSKey string CliMasterUser string CliMasterPassword string HeartbeatIntervalMilliseconds int64 defaultNumRetries int64 ChunkSize int64 niceRatio float64 MaxLagMillisecondsThrottleThreshold int64 throttleControlReplicaKeys *mysql.InstanceKeyMap ThrottleFlagFile string ThrottleAdditionalFlagFile string throttleQuery string throttleHTTP string IgnoreHTTPErrors bool ThrottleCommandedByUser int64 HibernateUntil int64 maxLoad LoadMap criticalLoad LoadMap CriticalLoadIntervalMilliseconds int64 CriticalLoadHibernateSeconds int64 PostponeCutOverFlagFile string CutOverLockTimeoutSeconds int64 CutOverExponentialBackoff bool ExponentialBackoffMaxInterval int64 ForceNamedCutOverCommand bool ForceNamedPanicCommand bool PanicFlagFile string HooksPath string HooksHintMessage string HooksHintOwner string HooksHintToken string HooksStatusIntervalSec int64 DropServeSocket bool ServeSocketFile string ServeTCPPort int64 Noop bool TestOnReplica bool MigrateOnReplica bool TestOnReplicaSkipReplicaStop bool OkToDropTable bool InitiallyDropOldTable bool InitiallyDropGhostTable bool TimestampOldTable bool // Should old table name include a timestamp CutOverType CutOver ReplicaServerId uint Hostname string AssumeMasterHostname string ApplierTimeZone string TableEngine string RowsEstimate int64 RowsDeltaEstimate int64 UsedRowsEstimateMethod RowsEstimateMethod HasSuperPrivilege bool OriginalBinlogFormat string OriginalBinlogRowImage string InspectorConnectionConfig *mysql.ConnectionConfig InspectorMySQLVersion string ApplierConnectionConfig *mysql.ConnectionConfig ApplierMySQLVersion string StartTime time.Time RowCopyStartTime time.Time RowCopyEndTime time.Time LockTablesStartTime time.Time RenameTablesStartTime time.Time RenameTablesEndTime time.Time pointOfInterestTime time.Time pointOfInterestTimeMutex *sync.Mutex lastHeartbeatOnChangelogTime time.Time lastHeartbeatOnChangelogMutex *sync.Mutex CurrentLag int64 currentProgress uint64 etaNanoseonds int64 ThrottleHTTPIntervalMillis int64 ThrottleHTTPStatusCode int64 ThrottleHTTPTimeoutMillis int64 controlReplicasLagResult mysql.ReplicationLagResult TotalRowsCopied int64 TotalDMLEventsApplied int64 DMLBatchSize int64 isThrottled bool throttleReason string throttleReasonHint ThrottleReasonHint throttleGeneralCheckResult ThrottleCheckResult throttleMutex *sync.Mutex throttleHTTPMutex *sync.Mutex IsPostponingCutOver int64 CountingRowsFlag int64 AllEventsUpToLockProcessedInjectedFlag int64 CleanupImminentFlag int64 UserCommandedUnpostponeFlag int64 CutOverCompleteFlag int64 InCutOverCriticalSectionFlag int64 PanicAbort chan error OriginalTableColumnsOnApplier *sql.ColumnList OriginalTableColumns *sql.ColumnList OriginalTableVirtualColumns *sql.ColumnList OriginalTableUniqueKeys [](*sql.UniqueKey) OriginalTableAutoIncrement uint64 GhostTableColumns *sql.ColumnList GhostTableVirtualColumns *sql.ColumnList GhostTableUniqueKeys [](*sql.UniqueKey) UniqueKey *sql.UniqueKey SharedColumns *sql.ColumnList ColumnRenameMap map[string]string DroppedColumnsMap map[string]bool MappedSharedColumns *sql.ColumnList MigrationRangeMinValues *sql.ColumnValues MigrationRangeMaxValues *sql.ColumnValues Iteration int64 MigrationIterationRangeMinValues *sql.ColumnValues MigrationIterationRangeMaxValues *sql.ColumnValues ForceTmpTableName string recentBinlogCoordinates mysql.BinlogCoordinates Log Logger } type Logger interface { Debug(args ...interface{}) Debugf(format string, args ...interface{}) Info(args ...interface{}) Infof(format string, args ...interface{}) Warning(args ...interface{}) error Warningf(format string, args ...interface{}) error Error(args ...interface{}) error Errorf(format string, args ...interface{}) error Errore(err error) error Fatal(args ...interface{}) error Fatalf(format string, args ...interface{}) error Fatale(err error) error SetLevel(level log.LogLevel) SetPrintStackTrace(printStackTraceFlag bool) } type ContextConfig struct { Client struct { User string Password string } Osc struct { Chunk_Size int64 Max_Lag_Millis int64 Replication_Lag_Query string Max_Load string } } func NewMigrationContext() *MigrationContext { return &MigrationContext{ Uuid: uuid.NewV4().String(), defaultNumRetries: 60, ChunkSize: 1000, InspectorConnectionConfig: mysql.NewConnectionConfig(), ApplierConnectionConfig: mysql.NewConnectionConfig(), MaxLagMillisecondsThrottleThreshold: 1500, CutOverLockTimeoutSeconds: 3, DMLBatchSize: 10, etaNanoseonds: ETAUnknown, maxLoad: NewLoadMap(), criticalLoad: NewLoadMap(), throttleMutex: &sync.Mutex{}, throttleHTTPMutex: &sync.Mutex{}, throttleControlReplicaKeys: mysql.NewInstanceKeyMap(), configMutex: &sync.Mutex{}, pointOfInterestTimeMutex: &sync.Mutex{}, lastHeartbeatOnChangelogMutex: &sync.Mutex{}, ColumnRenameMap: make(map[string]string), PanicAbort: make(chan error), Log: NewDefaultLogger(), } } func (this *MigrationContext) SetConnectionConfig(storageEngine string) error { var transactionIsolation string switch storageEngine { case "rocksdb": transactionIsolation = "READ-COMMITTED" default: transactionIsolation = "REPEATABLE-READ" } this.InspectorConnectionConfig.TransactionIsolation = transactionIsolation this.ApplierConnectionConfig.TransactionIsolation = transactionIsolation return nil } func getSafeTableName(baseName string, suffix string) string { name := fmt.Sprintf("_%s_%s", baseName, suffix) if len(name) <= mysql.MaxTableNameLength { return name } extraCharacters := len(name) - mysql.MaxTableNameLength return fmt.Sprintf("_%s_%s", baseName[0:len(baseName)-extraCharacters], suffix) } // GetGhostTableName generates the name of ghost table, based on original table name // or a given table name func (this *MigrationContext) GetGhostTableName() string { if this.ForceTmpTableName != "" { return getSafeTableName(this.ForceTmpTableName, "gho") } else { return getSafeTableName(this.OriginalTableName, "gho") } } // GetOldTableName generates the name of the "old" table, into which the original table is renamed. func (this *MigrationContext) GetOldTableName() string { var tableName string if this.ForceTmpTableName != "" { tableName = this.ForceTmpTableName } else { tableName = this.OriginalTableName } if this.TimestampOldTable { t := this.StartTime timestamp := fmt.Sprintf("%d%02d%02d%02d%02d%02d", t.Year(), t.Month(), t.Day(), t.Hour(), t.Minute(), t.Second()) return getSafeTableName(tableName, fmt.Sprintf("%s_del", timestamp)) } return getSafeTableName(tableName, "del") } // GetChangelogTableName generates the name of changelog table, based on original table name // or a given table name. func (this *MigrationContext) GetChangelogTableName() string { if this.ForceTmpTableName != "" { return getSafeTableName(this.ForceTmpTableName, "ghc") } else { return getSafeTableName(this.OriginalTableName, "ghc") } } // GetVoluntaryLockName returns a name of a voluntary lock to be used throughout // the swap-tables process. func (this *MigrationContext) GetVoluntaryLockName() string { return fmt.Sprintf("%s.%s.lock", this.DatabaseName, this.OriginalTableName) } // RequiresBinlogFormatChange is `true` when the original binlog format isn't `ROW` func (this *MigrationContext) RequiresBinlogFormatChange() bool { return this.OriginalBinlogFormat != "ROW" } // GetApplierHostname is a safe access method to the applier hostname func (this *MigrationContext) GetApplierHostname() string { if this.ApplierConnectionConfig == nil { return "" } if this.ApplierConnectionConfig.ImpliedKey == nil { return "" } return this.ApplierConnectionConfig.ImpliedKey.Hostname } // GetInspectorHostname is a safe access method to the inspector hostname func (this *MigrationContext) GetInspectorHostname() string { if this.InspectorConnectionConfig == nil { return "" } if this.InspectorConnectionConfig.ImpliedKey == nil { return "" } return this.InspectorConnectionConfig.ImpliedKey.Hostname } // InspectorIsAlsoApplier is `true` when the both inspector and applier are the // same database instance. This would be true when running directly on master or when // testing on replica. func (this *MigrationContext) InspectorIsAlsoApplier() bool { return this.InspectorConnectionConfig.Equals(this.ApplierConnectionConfig) } // HasMigrationRange tells us whether there's a range to iterate for copying rows. // It will be `false` if the table is initially empty func (this *MigrationContext) HasMigrationRange() bool { return this.MigrationRangeMinValues != nil && this.MigrationRangeMaxValues != nil } func (this *MigrationContext) SetCutOverLockTimeoutSeconds(timeoutSeconds int64) error { if timeoutSeconds < 1 { return fmt.Errorf("Minimal timeout is 1sec. Timeout remains at %d", this.CutOverLockTimeoutSeconds) } if timeoutSeconds > 10 { return fmt.Errorf("Maximal timeout is 10sec. Timeout remains at %d", this.CutOverLockTimeoutSeconds) } this.CutOverLockTimeoutSeconds = timeoutSeconds return nil } func (this *MigrationContext) SetExponentialBackoffMaxInterval(intervalSeconds int64) error { if intervalSeconds < 2 { return fmt.Errorf("Minimal maximum interval is 2sec. Timeout remains at %d", this.ExponentialBackoffMaxInterval) } this.ExponentialBackoffMaxInterval = intervalSeconds return nil } func (this *MigrationContext) SetDefaultNumRetries(retries int64) { this.throttleMutex.Lock() defer this.throttleMutex.Unlock() if retries > 0 { this.defaultNumRetries = retries } } func (this *MigrationContext) MaxRetries() int64 { this.throttleMutex.Lock() defer this.throttleMutex.Unlock() retries := this.defaultNumRetries return retries } func (this *MigrationContext) IsTransactionalTable() bool { switch strings.ToLower(this.TableEngine) { case "innodb": { return true } case "tokudb": { return true } case "rocksdb": { return true } } return false } // SetCountTableRowsCancelFunc sets the cancel function for the CountTableRows query context func (this *MigrationContext) SetCountTableRowsCancelFunc(f func()) { this.countMutex.Lock() defer this.countMutex.Unlock() this.countTableRowsCancelFunc = f } // IsCountingTableRows returns true if the migration has a table count query running func (this *MigrationContext) IsCountingTableRows() bool { this.countMutex.Lock() defer this.countMutex.Unlock() return this.countTableRowsCancelFunc != nil } // CancelTableRowsCount cancels the CountTableRows query context. It is safe to // call function even when IsCountingTableRows is false. func (this *MigrationContext) CancelTableRowsCount() { this.countMutex.Lock() defer this.countMutex.Unlock() if this.countTableRowsCancelFunc == nil { return } this.countTableRowsCancelFunc() this.countTableRowsCancelFunc = nil } // ElapsedTime returns time since very beginning of the process func (this *MigrationContext) ElapsedTime() time.Duration { return time.Since(this.StartTime) } // MarkRowCopyStartTime func (this *MigrationContext) MarkRowCopyStartTime() { this.throttleMutex.Lock() defer this.throttleMutex.Unlock() this.RowCopyStartTime = time.Now() } // ElapsedRowCopyTime returns time since starting to copy chunks of rows func (this *MigrationContext) ElapsedRowCopyTime() time.Duration { this.throttleMutex.Lock() defer this.throttleMutex.Unlock() if this.RowCopyStartTime.IsZero() { // Row copy hasn't started yet return 0 } if this.RowCopyEndTime.IsZero() { return time.Since(this.RowCopyStartTime) } return this.RowCopyEndTime.Sub(this.RowCopyStartTime) } // ElapsedRowCopyTime returns time since starting to copy chunks of rows func (this *MigrationContext) MarkRowCopyEndTime() { this.throttleMutex.Lock() defer this.throttleMutex.Unlock() this.RowCopyEndTime = time.Now() } func (this *MigrationContext) TimeSinceLastHeartbeatOnChangelog() time.Duration { return time.Since(this.GetLastHeartbeatOnChangelogTime()) } func (this *MigrationContext) GetCurrentLagDuration() time.Duration { return time.Duration(atomic.LoadInt64(&this.CurrentLag)) } func (this *MigrationContext) GetProgressPct() float64 { return math.Float64frombits(atomic.LoadUint64(&this.currentProgress)) } func (this *MigrationContext) SetProgressPct(progressPct float64) { atomic.StoreUint64(&this.currentProgress, math.Float64bits(progressPct)) } func (this *MigrationContext) GetETADuration() time.Duration { return time.Duration(atomic.LoadInt64(&this.etaNanoseonds)) } func (this *MigrationContext) SetETADuration(etaDuration time.Duration) { atomic.StoreInt64(&this.etaNanoseonds, etaDuration.Nanoseconds()) } func (this *MigrationContext) GetETASeconds() int64 { nano := atomic.LoadInt64(&this.etaNanoseonds) if nano < 0 { return ETAUnknown } return nano / int64(time.Second) } // math.Float64bits([f=0..100]) // GetTotalRowsCopied returns the accurate number of rows being copied (affected) // This is not exactly the same as the rows being iterated via chunks, but potentially close enough func (this *MigrationContext) GetTotalRowsCopied() int64 { return atomic.LoadInt64(&this.TotalRowsCopied) } func (this *MigrationContext) GetIteration() int64 { return atomic.LoadInt64(&this.Iteration) } func (this *MigrationContext) MarkPointOfInterest() int64 { this.pointOfInterestTimeMutex.Lock() defer this.pointOfInterestTimeMutex.Unlock() this.pointOfInterestTime = time.Now() return atomic.LoadInt64(&this.Iteration) } func (this *MigrationContext) TimeSincePointOfInterest() time.Duration { this.pointOfInterestTimeMutex.Lock() defer this.pointOfInterestTimeMutex.Unlock() return time.Since(this.pointOfInterestTime) } func (this *MigrationContext) SetLastHeartbeatOnChangelogTime(t time.Time) { this.lastHeartbeatOnChangelogMutex.Lock() defer this.lastHeartbeatOnChangelogMutex.Unlock() this.lastHeartbeatOnChangelogTime = t } func (this *MigrationContext) GetLastHeartbeatOnChangelogTime() time.Time { this.lastHeartbeatOnChangelogMutex.Lock() defer this.lastHeartbeatOnChangelogMutex.Unlock() return this.lastHeartbeatOnChangelogTime } func (this *MigrationContext) SetHeartbeatIntervalMilliseconds(heartbeatIntervalMilliseconds int64) { if heartbeatIntervalMilliseconds < 100 { heartbeatIntervalMilliseconds = 100 } if heartbeatIntervalMilliseconds > 1000 { heartbeatIntervalMilliseconds = 1000 } this.HeartbeatIntervalMilliseconds = heartbeatIntervalMilliseconds } func (this *MigrationContext) SetMaxLagMillisecondsThrottleThreshold(maxLagMillisecondsThrottleThreshold int64) { if maxLagMillisecondsThrottleThreshold < 100 { maxLagMillisecondsThrottleThreshold = 100 } atomic.StoreInt64(&this.MaxLagMillisecondsThrottleThreshold, maxLagMillisecondsThrottleThreshold) } func (this *MigrationContext) SetChunkSize(chunkSize int64) { if chunkSize < 10 { chunkSize = 10 } if chunkSize > 100000 { chunkSize = 100000 } atomic.StoreInt64(&this.ChunkSize, chunkSize) } func (this *MigrationContext) SetDMLBatchSize(batchSize int64) { if batchSize < 1 { batchSize = 1 } if batchSize > MaxEventsBatchSize { batchSize = MaxEventsBatchSize } atomic.StoreInt64(&this.DMLBatchSize, batchSize) } func (this *MigrationContext) SetThrottleGeneralCheckResult(checkResult *ThrottleCheckResult) *ThrottleCheckResult { this.throttleMutex.Lock() defer this.throttleMutex.Unlock() this.throttleGeneralCheckResult = *checkResult return checkResult } func (this *MigrationContext) GetThrottleGeneralCheckResult() *ThrottleCheckResult { this.throttleMutex.Lock() defer this.throttleMutex.Unlock() result := this.throttleGeneralCheckResult return &result } func (this *MigrationContext) SetThrottled(throttle bool, reason string, reasonHint ThrottleReasonHint) { this.throttleMutex.Lock() defer this.throttleMutex.Unlock() this.isThrottled = throttle this.throttleReason = reason this.throttleReasonHint = reasonHint } func (this *MigrationContext) IsThrottled() (bool, string, ThrottleReasonHint) { this.throttleMutex.Lock() defer this.throttleMutex.Unlock() // we don't throttle when cutting over. We _do_ throttle: // - during copy phase // - just before cut-over // - in between cut-over retries // When cutting over, we need to be aggressive. Cut-over holds table locks. // We need to release those asap. if atomic.LoadInt64(&this.InCutOverCriticalSectionFlag) > 0 { return false, "critical section", NoThrottleReasonHint } return this.isThrottled, this.throttleReason, this.throttleReasonHint } func (this *MigrationContext) GetThrottleQuery() string { this.throttleMutex.Lock() defer this.throttleMutex.Unlock() var query = this.throttleQuery return query } func (this *MigrationContext) SetThrottleQuery(newQuery string) { this.throttleMutex.Lock() defer this.throttleMutex.Unlock() this.throttleQuery = newQuery } func (this *MigrationContext) GetThrottleHTTP() string { this.throttleHTTPMutex.Lock() defer this.throttleHTTPMutex.Unlock() var throttleHTTP = this.throttleHTTP return throttleHTTP } func (this *MigrationContext) SetThrottleHTTP(throttleHTTP string) { this.throttleHTTPMutex.Lock() defer this.throttleHTTPMutex.Unlock() this.throttleHTTP = throttleHTTP } func (this *MigrationContext) SetIgnoreHTTPErrors(ignoreHTTPErrors bool) { this.throttleHTTPMutex.Lock() defer this.throttleHTTPMutex.Unlock() this.IgnoreHTTPErrors = ignoreHTTPErrors } func (this *MigrationContext) GetMaxLoad() LoadMap { this.throttleMutex.Lock() defer this.throttleMutex.Unlock() return this.maxLoad.Duplicate() } func (this *MigrationContext) GetCriticalLoad() LoadMap { this.throttleMutex.Lock() defer this.throttleMutex.Unlock() return this.criticalLoad.Duplicate() } func (this *MigrationContext) GetNiceRatio() float64 { this.throttleMutex.Lock() defer this.throttleMutex.Unlock() return this.niceRatio } func (this *MigrationContext) SetNiceRatio(newRatio float64) { if newRatio < 0.0 { newRatio = 0.0 } if newRatio > 100.0 { newRatio = 100.0 } this.throttleMutex.Lock() defer this.throttleMutex.Unlock() this.niceRatio = newRatio } func (this *MigrationContext) GetRecentBinlogCoordinates() mysql.BinlogCoordinates { this.throttleMutex.Lock() defer this.throttleMutex.Unlock() return this.recentBinlogCoordinates } func (this *MigrationContext) SetRecentBinlogCoordinates(coordinates mysql.BinlogCoordinates) { this.throttleMutex.Lock() defer this.throttleMutex.Unlock() this.recentBinlogCoordinates = coordinates } // ReadMaxLoad parses the `--max-load` flag, which is in multiple key-value format, // such as: 'Threads_running=100,Threads_connected=500' // It only applies changes in case there's no parsing error. func (this *MigrationContext) ReadMaxLoad(maxLoadList string) error { loadMap, err := ParseLoadMap(maxLoadList) if err != nil { return err } this.throttleMutex.Lock() defer this.throttleMutex.Unlock() this.maxLoad = loadMap return nil } // ReadMaxLoad parses the `--max-load` flag, which is in multiple key-value format, // such as: 'Threads_running=100,Threads_connected=500' // It only applies changes in case there's no parsing error. func (this *MigrationContext) ReadCriticalLoad(criticalLoadList string) error { loadMap, err := ParseLoadMap(criticalLoadList) if err != nil { return err } this.throttleMutex.Lock() defer this.throttleMutex.Unlock() this.criticalLoad = loadMap return nil } func (this *MigrationContext) GetControlReplicasLagResult() mysql.ReplicationLagResult { this.throttleMutex.Lock() defer this.throttleMutex.Unlock() lagResult := this.controlReplicasLagResult return lagResult } func (this *MigrationContext) SetControlReplicasLagResult(lagResult *mysql.ReplicationLagResult) { this.throttleMutex.Lock() defer this.throttleMutex.Unlock() if lagResult == nil { this.controlReplicasLagResult = *mysql.NewNoReplicationLagResult() } else { this.controlReplicasLagResult = *lagResult } } func (this *MigrationContext) GetThrottleControlReplicaKeys() *mysql.InstanceKeyMap { this.throttleMutex.Lock() defer this.throttleMutex.Unlock() keys := mysql.NewInstanceKeyMap() keys.AddKeys(this.throttleControlReplicaKeys.GetInstanceKeys()) return keys } func (this *MigrationContext) ReadThrottleControlReplicaKeys(throttleControlReplicas string) error { keys := mysql.NewInstanceKeyMap() if err := keys.ReadCommaDelimitedList(throttleControlReplicas); err != nil { return err } this.throttleMutex.Lock() defer this.throttleMutex.Unlock() this.throttleControlReplicaKeys = keys return nil } func (this *MigrationContext) AddThrottleControlReplicaKey(key mysql.InstanceKey) error { this.throttleMutex.Lock() defer this.throttleMutex.Unlock() this.throttleControlReplicaKeys.AddKey(key) return nil } // ApplyCredentials sorts out the credentials between the config file and the CLI flags func (this *MigrationContext) ApplyCredentials() { this.configMutex.Lock() defer this.configMutex.Unlock() if this.config.Client.User != "" { this.InspectorConnectionConfig.User = this.config.Client.User } if this.CliUser != "" { // Override this.InspectorConnectionConfig.User = this.CliUser } if this.config.Client.Password != "" { this.InspectorConnectionConfig.Password = this.config.Client.Password } if this.CliPassword != "" { // Override this.InspectorConnectionConfig.Password = this.CliPassword } } func (this *MigrationContext) SetupTLS() error { if this.UseTLS { return this.InspectorConnectionConfig.UseTLS(this.TLSCACertificate, this.TLSCertificate, this.TLSKey, this.TLSAllowInsecure) } return nil } // ReadConfigFile attempts to read the config file, if it exists func (this *MigrationContext) ReadConfigFile() error { this.configMutex.Lock() defer this.configMutex.Unlock() if this.ConfigFile == "" { return nil } cfg, err := ini.Load(this.ConfigFile) if err != nil { return err } if cfg.Section("client").HasKey("user") { this.config.Client.User = cfg.Section("client").Key("user").String() } if cfg.Section("client").HasKey("password") { this.config.Client.Password = cfg.Section("client").Key("password").String() } if cfg.Section("osc").HasKey("chunk_size") { this.config.Osc.Chunk_Size, err = cfg.Section("osc").Key("chunk_size").Int64() if err != nil { return fmt.Errorf("Unable to read osc chunk size: %w", err) } } if cfg.Section("osc").HasKey("max_load") { this.config.Osc.Max_Load = cfg.Section("osc").Key("max_load").String() } if cfg.Section("osc").HasKey("replication_lag_query") { this.config.Osc.Replication_Lag_Query = cfg.Section("osc").Key("replication_lag_query").String() } if cfg.Section("osc").HasKey("max_lag_millis") { this.config.Osc.Max_Lag_Millis, err = cfg.Section("osc").Key("max_lag_millis").Int64() if err != nil { return fmt.Errorf("Unable to read max lag millis: %w", err) } } // We accept user & password in the form "${SOME_ENV_VARIABLE}" in which case we pull // the given variable from os env if submatch := envVariableRegexp.FindStringSubmatch(this.config.Client.User); len(submatch) > 1 { this.config.Client.User = os.Getenv(submatch[1]) } if submatch := envVariableRegexp.FindStringSubmatch(this.config.Client.Password); len(submatch) > 1 { this.config.Client.Password = os.Getenv(submatch[1]) } return nil }