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config.go
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config.go
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package ghostferry
import (
"crypto/tls"
"crypto/x509"
"errors"
"fmt"
"io/ioutil"
"strings"
"time"
sql "github.com/Shopify/ghostferry/sqlwrapper"
"github.com/go-sql-driver/mysql"
"github.com/sirupsen/logrus"
)
const (
VerifierTypeChecksumTable = "ChecksumTable"
VerifierTypeIterative = "Iterative"
VerifierTypeInline = "Inline"
VerifierTypeNoVerification = "NoVerification"
DefaultNet = "tcp"
DefaultMarginalia = "application:ghostferry"
MySQLNumParamsLimit = 1<<16 - 1 // see num_params https://dev.mysql.com/doc/internals/en/com-stmt-prepare-response.html
)
type TLSConfig struct {
CertPath string
ServerName string
tlsConfig *tls.Config
}
func (this *TLSConfig) BuildConfig() (*tls.Config, error) {
if this.tlsConfig == nil {
certPool := x509.NewCertPool()
pem, err := ioutil.ReadFile(this.CertPath)
if err != nil {
return nil, err
}
if ok := certPool.AppendCertsFromPEM(pem); !ok {
return nil, errors.New("unable to append pem")
}
this.tlsConfig = &tls.Config{
RootCAs: certPool,
ServerName: this.ServerName,
}
}
return this.tlsConfig, nil
}
type DatabaseConfig struct {
Host string
Port uint16
Net string
User string
Pass string
Collation string
Params map[string]string
TLS *TLSConfig
// ReadTimeout is used to configure the MySQL client timeout for waiting for data from server.
// Timeout is in seconds. Defaults to 0, which means no timeout.
ReadTimeout uint64
// WriteTimeout is used to configure the MySQL client timeout for writing data to server.
// Timeout is in seconds. Defaults to 0, which means no timeout.
WriteTimeout uint64
// SQL annotations used to differentiate Ghostferry's DMLs
// against other actor's. This will default to the defaultMarginalia
// constant above if not set.
//
// This is used to ensure any changes to the Target during the move process
// are performed only by Ghostferry (until cutover). Otherwise, the modification
// will be identified as data corruption and fail the move.
Marginalia string
}
func (c *DatabaseConfig) MySQLConfig() (*mysql.Config, error) {
var addr string
if c.Net == "unix" {
addr = c.Host
} else {
addr = fmt.Sprintf("%s:%d", c.Host, c.Port)
}
cfg := &mysql.Config{
User: c.User,
Passwd: c.Pass,
Net: c.Net,
Addr: addr,
Collation: c.Collation,
Params: c.Params,
AllowNativePasswords: true,
MultiStatements: true,
}
if c.ReadTimeout != 0 {
cfg.ReadTimeout = time.Duration(c.ReadTimeout) * time.Second
}
if c.WriteTimeout != 0 {
cfg.WriteTimeout = time.Duration(c.WriteTimeout) * time.Second
}
if c.TLS != nil {
tlsConfig, err := c.TLS.BuildConfig()
if err != nil {
return nil, fmt.Errorf("failed to build TLS config: %v", err)
}
cfgName := fmt.Sprintf("%s@%s:%d", c.User, c.Host, c.Port)
err = mysql.RegisterTLSConfig(cfgName, tlsConfig)
if err != nil {
return nil, fmt.Errorf("failed to register TLS config: %v", err)
}
cfg.TLSConfig = cfgName
}
return cfg, nil
}
func (c *DatabaseConfig) Validate() error {
if c.Host == "" {
return fmt.Errorf("host is empty")
}
if c.Port == 0 {
return fmt.Errorf("port is not specified")
}
if c.Net == "" {
c.Net = DefaultNet
} else if c.Net == "unix" {
c.Port = 0
} else if c.Net != "tcp" && c.Net != "unix" {
return fmt.Errorf("net is unknown (valid modes: tcp, unix)")
}
if c.User == "" {
return fmt.Errorf("user is empty")
}
err := c.assertParamSet("time_zone", "'+00:00'")
if err != nil {
return err
}
err = c.assertParamSet("sql_mode", "'STRICT_ALL_TABLES,NO_BACKSLASH_ESCAPES'")
if err != nil {
return err
}
if c.Marginalia == "" {
c.Marginalia = DefaultMarginalia
}
return nil
}
func (c *DatabaseConfig) SqlDB(logger *logrus.Entry) (*sql.DB, error) {
dbCfg, err := c.MySQLConfig()
if err != nil {
return nil, fmt.Errorf("failed to build database config: %s", err)
}
if logger != nil {
logger.WithField("dsn", MaskedDSN(dbCfg)).Info("connecting to database")
}
return sql.Open("mysql", dbCfg.FormatDSN(), c.Marginalia)
}
func (c *DatabaseConfig) assertParamSet(param, value string) error {
if c.Params == nil {
c.Params = make(map[string]string)
}
if c.Params[param] != "" && c.Params[param] != value {
return fmt.Errorf("%s must be set to %s", param, value)
}
c.Params[param] = value
return nil
}
type InlineVerifierConfig struct {
// The maximum expected downtime during cutover, in the format of
// time.ParseDuration. If nothing is specified, the InlineVerifier will not
// try to estimate the downtime and will always allow cutover.
MaxExpectedDowntime string
// The interval at which the periodic binlog reverification occurs, in the
// format of time.ParseDuration. Default: 1s.
VerifyBinlogEventsInterval string
verifyBinlogEventsInterval time.Duration
maxExpectedDowntime time.Duration
}
func (c *InlineVerifierConfig) Validate() error {
var err error
if c.MaxExpectedDowntime != "" {
c.maxExpectedDowntime, err = time.ParseDuration(c.MaxExpectedDowntime)
if err != nil {
return err
}
} else {
c.maxExpectedDowntime = time.Duration(0)
}
if c.VerifyBinlogEventsInterval == "" {
c.VerifyBinlogEventsInterval = "1s"
}
c.verifyBinlogEventsInterval, err = time.ParseDuration(c.VerifyBinlogEventsInterval)
if err != nil {
return err
}
return nil
}
type IterativeVerifierConfig struct {
// List of tables that should be ignored by the IterativeVerifier.
IgnoredTables []string
// List of columns that should be ignored by the IterativeVerifier.
// This is in the format of table_name -> [list of column names]
IgnoredColumns map[string][]string
// The number of concurrent verifiers. Note that a single table can only be
// assigned to one goroutine and currently multiple goroutines per table
// is not supported.
Concurrency int
// The maximum expected downtime during cutover, in the format of
// time.ParseDuration.
MaxExpectedDowntime string
// Map of the table and column identifying the compression type
// (if any) of the column. This is used during verification to ensure
// the data was successfully copied as some compression algorithms can
// output different compressed data with the same input data.
//
// The data structure is a map of table names to a map of column names
// to the compression algorithm.
// ex: {books: {contents: snappy}}
//
// Currently supported compression algorithms are:
// 1. Snappy (https://google.github.io/snappy/) as "SNAPPY"
//
// Optional: defaults to empty map/no compression
//
// Note that the IterativeVerifier is in the process of being deprecated.
// If this is specified, ColumnCompressionConfig should also be filled out in
// the main Config.
TableColumnCompression TableColumnCompressionConfig
}
func (c *IterativeVerifierConfig) Validate() error {
if c.MaxExpectedDowntime != "" {
_, err := time.ParseDuration(c.MaxExpectedDowntime)
if err != nil {
return err
}
}
if c.Concurrency == 0 {
c.Concurrency = 4
}
return nil
}
type ControlServerConfig struct {
// enable/disable http control server
Enabled bool
// Bind control server address
ServerBindAddr string
// Path to `web` base dir
WebBasedir string
// TODO: refactor control server config out of the base ferry at some point
// This adds optional buttons in the web ui that runs a script located at the
// path specified.
// The format is "script name" => ["path to script", "arg1", "arg2"]. The script name
// will be displayed on the web ui.
CustomScripts map[string][]string
}
func (c *ControlServerConfig) Validate() error {
// this is used to update the web base dir path from the debian packager
if WebUiBasedir != "" {
c.WebBasedir = WebUiBasedir
}
if c.ServerBindAddr == "" {
c.ServerBindAddr = "0.0.0.0:8000"
}
if c.WebBasedir == "" {
c.WebBasedir = "."
}
return nil
}
// SchemaName => TableName => ColumnName => CompressionAlgorithm
// Example: blog1 => articles => body => snappy
// (SELECT body FROM blog1.articles => returns compressed blob)
type ColumnCompressionConfig map[string]map[string]map[string]string
func (c ColumnCompressionConfig) CompressedColumnsFor(schemaName, tableName string) map[string]string {
tableConfig, found := c[schemaName]
if !found {
return nil
}
columnsConfig, found := tableConfig[tableName]
if !found {
return nil
}
return columnsConfig
}
// SchemaName => TableName => ColumnName => struct{}{}
// These columns will be ignored during InlineVerification
type ColumnIgnoreConfig map[string]map[string]map[string]struct{}
func (c ColumnIgnoreConfig) IgnoredColumnsFor(schemaName, tableName string) map[string]struct{} {
tableConfig, found := c[schemaName]
if !found {
return nil
}
columnsConfig, found := tableConfig[tableName]
if !found {
return nil
}
return columnsConfig
}
// SchemaName => TableName => IndexName
// These indices will be forced for queries in InlineVerification
type ForceIndexConfig map[string]map[string]string
func (c ForceIndexConfig) IndexFor(schemaName, tableName string) string {
tableConfig, found := c[schemaName]
if !found {
return ""
}
index, found := tableConfig[tableName]
if !found {
return ""
}
return index
}
// CascadingPaginationColumnConfig to configure pagination columns to be
// used. The term `Cascading` to denote that greater specificity takes
// precedence.
type CascadingPaginationColumnConfig struct {
// PerTable has greatest specificity and takes precedence over the other options
PerTable map[string]map[string]string // SchemaName => TableName => ColumnName
// FallbackColumn is a global default to fallback to and is less specific than the
// default, which is the Primary Key
FallbackColumn string
}
// PaginationColumnFor is a helper function to retrieve the column name to paginate by
func (c *CascadingPaginationColumnConfig) PaginationColumnFor(schemaName, tableName string) (string, bool) {
if c == nil {
return "", false
}
tableConfig, found := c.PerTable[schemaName]
if !found {
return "", false
}
column, found := tableConfig[tableName]
if !found {
return "", false
}
return column, true
}
// FallbackPaginationColumnName retreives the column name specified as a fallback when the Primary Key isn't suitable for pagination
func (c *CascadingPaginationColumnConfig) FallbackPaginationColumnName() (string, bool) {
if c == nil || c.FallbackColumn == "" {
return "", false
}
return c.FallbackColumn, true
}
type DataIterationBatchSizePerTableOverride struct {
// Lower limit for rowSize, if a rowSize <= MinRowSize, ControlPoints[MinRowSize] will be used
MinRowSize int
// Upper limit for rowSize, if a rowSize >= MaxRowSize, ControlPoints[MaxRowSize] will be used
MaxRowSize int
// Map of rowSize => batchSize used to calculate batchSize for new rowSizes, results stored in TableOverride
ControlPoints map[int]uint64
// Map of schemaName(source schema) => tableName => batchSize to override default values for certain tables
TableOverride map[string]map[string]uint64
}
func (d *DataIterationBatchSizePerTableOverride) Validate() error {
if d != nil {
if _, found := d.ControlPoints[d.MinRowSize]; !found {
return fmt.Errorf("must provide batch size for MinRowSize")
}
if _, found := d.ControlPoints[d.MaxRowSize]; !found {
return fmt.Errorf("must provide batch size for MaxRowSize")
}
if d.TableOverride == nil {
d.TableOverride = map[string]map[string]uint64{}
}
}
return nil
}
func (d *DataIterationBatchSizePerTableOverride) UpdateBatchSizes(db *sql.DB, tables TableSchemaCache) error {
schemaTablesMap := map[string][]string{}
for _, table := range tables {
if _, found := d.TableOverride[table.Schema][table.Name]; found {
continue
}
schemaTablesMap[table.Schema] = append(schemaTablesMap[table.Schema], table.Name)
}
for schemaName, tableNames := range schemaTablesMap {
if _, found := d.TableOverride[schemaName]; !found {
d.TableOverride[schemaName] = map[string]uint64{}
}
query := fmt.Sprintf(
`SELECT T1.TABLE_NAME, AVG_ROW_LENGTH, MAX_BATCH_SIZE
FROM information_schema.TABLES T1
JOIN (SELECT TABLE_NAME, TABLE_SCHEMA, floor(%d / count(*)) MAX_BATCH_SIZE
FROM information_schema.COLUMNS WHERE TABLE_SCHEMA = '%s' AND TABLE_NAME in ('%s')
GROUP BY table_name) T2 USING (TABLE_SCHEMA, TABLE_NAME);`,
MySQLNumParamsLimit,
schemaName,
strings.Join(tableNames, `', '`),
)
rows, err := db.Query(query)
if err != nil {
return err
}
defer rows.Close()
for rows.Next() {
var avgRowLength, maxBatchSize int
var tableName string
err = rows.Scan(&tableName, &avgRowLength, &maxBatchSize)
if err != nil {
return err
}
// MySQL has an upper limit of 2^16 for num_params for prepared statements. This will cause an error when
// we attempt to execute a INSERT statement with > 65535 parameters.
// If batchSize > 65535/num_columns, we will use 65535/num_columns
batchSize := d.CalculateBatchSize(avgRowLength)
if batchSize >= maxBatchSize {
batchSize = maxBatchSize
}
d.TableOverride[schemaName][tableName] = uint64(batchSize)
}
}
return nil
}
func (d *DataIterationBatchSizePerTableOverride) CalculateBatchSize(rowSize int) int {
if batchSize, found := d.ControlPoints[rowSize]; found {
return int(batchSize)
}
if rowSize >= d.MaxRowSize {
return int(d.ControlPoints[d.MaxRowSize])
}
if rowSize <= d.MinRowSize {
return int(d.ControlPoints[d.MinRowSize])
}
closestPointLessThanRowSize := d.MinRowSize
closestPointGreaterThanRowSize := d.MaxRowSize
for size := range d.ControlPoints {
if size < rowSize && rowSize-size < rowSize-closestPointLessThanRowSize {
closestPointLessThanRowSize = size
}
if size > rowSize && size-rowSize < closestPointGreaterThanRowSize-rowSize {
closestPointGreaterThanRowSize = size
}
}
return linearInterpolation(
rowSize, closestPointLessThanRowSize,
int(d.ControlPoints[closestPointLessThanRowSize]),
closestPointGreaterThanRowSize,
int(d.ControlPoints[closestPointGreaterThanRowSize]),
)
}
func linearInterpolation(x, x0, y0, x1, y1 int) int {
return y0*(x1-x)/(x1-x0) + y1*(x-x0)/(x1-x0)
}
type Config struct {
// Source database connection configuration
//
// Required
Source *DatabaseConfig
// Target database connection configuration
//
// Required
Target *DatabaseConfig
// Map database name on the source database (key of the map) to a
// different name on the target database (value of the associated key).
// This allows one to move data and change the database name in the
// process.
//
// Optional: defaults to empty map/no rewrites
DatabaseRewrites map[string]string
// Map the table name on the source database to a different name on
// the target database. See DatabaseRewrite.
//
// Optional: defaults to empty map/no rewrites
TableRewrites map[string]string
// The maximum number of retries for writes if the writes failed on
// the target database.
//
// Optional: defaults to 5.
DBWriteRetries int
// Filter out the databases/tables when detecting the source databases
// and tables.
//
// Required
TableFilter TableFilter
// Filter out unwanted data/events from being copied.
//
// Optional: defaults to nil/no filter.
CopyFilter CopyFilter
// The server id used by Ghostferry to connect to MySQL as a replication
// slave. This id must be unique on the MySQL server. If 0 is specified,
// a random id will be generated upon connecting to the MySQL server.
//
// Optional: defaults to an automatically generated one
MyServerId uint32
// The maximum number of binlog events to write at once. Note this is a
// maximum: if there are not a lot of binlog events, they will be written
// one at a time such the binlog streamer lag is as low as possible. This
// batch size will only be hit if there is a log of binlog at the same time.
//
// Optional: defaults to 100
BinlogEventBatchSize int
// This optional config uses different data points to calculate
// batch size per table using linear interpolation
DataIterationBatchSizePerTableOverride *DataIterationBatchSizePerTableOverride
// The maximum number of retries for reads if the reads fail on the source
// database.
//
// Optional: defaults to 5
DBReadRetries int
// This specify the number of concurrent goroutines, each iterating over
// a single table.
//
// At this point in time, parallelize iteration within a single table. This
// may be possible to add to the future.
//
// Optional: defaults to 4
DataIterationConcurrency int
// This specifies if Ghostferry will pause before cutover or not.
//
// Optional: defaults to false
AutomaticCutover bool
// This specifies whether or not Ferry.Run will handle SIGINT and SIGTERM
// by dumping the current state to stdout and the error HTTP callback.
// The dumped state can be used to resume Ghostferry.
DumpStateOnSignal bool
// This specifies whether or not Ghostferry will dump the current state to stdout
// before exiting due to an error.
//
// Optional: defaults to false
DumpStateToStdoutOnError bool
// This excludes schema cache from the state dump in both the HTTP callback
// and the stdout dumping. This may save a lot of space if you don't need
// to deal with schema migrations.
DoNotIncludeSchemaCacheInStateDump bool
// Config for the ControlServer
ControlServerConfig *ControlServerConfig
// Report progress via an HTTP callback. The Payload field of the callback
// will be sent to the server as the CustomPayload field in the Progress
// struct. The unit of ProgressReportFrequency is in milliseconds.
ProgressCallback HTTPCallback
ProgressReportFrequency int
// Report state via an HTTP callback. The SerializedState struct will be
// sent as the Payload parameter. The unit of StateReportFrequency is
// in milliseconds.
StateCallback HTTPCallback
StateReportFrequency int
// Report error via an HTTP callback. The Payload field will contain the ErrorType,
// ErrorMessage and the StateDump.
ErrorCallback HTTPCallback
// Report when ghostferry is entering cutover
CutoverLock HTTPCallback
// Report when ghostferry is finished cutover
CutoverUnlock HTTPCallback
// If the callback returns a non OK status, these two values configure the number of times Ferry should attempt to
// retry acquiring the cutover lock, and for how long the Ferry should wait
// before attempting another lock acquisition
// MaxCutoverRetries default is 1 retry
// CutoverRetryWaitSeconds default is 1 second
MaxCutoverRetries int
CutoverRetryWaitSeconds int
// The state to resume from as dumped by the PanicErrorHandler.
// If this is null, a new Ghostferry run will be started. Otherwise, the
// reconciliation process will start and Ghostferry will resume after that.
StateToResumeFrom *SerializableState
// The verifier to use during the run. Valid choices are:
// ChecksumTable
// Iterative
// NoVerification
//
// If it is left blank, the Verifier member variable on the Ferry will be
// used. If that member variable is nil, no verification will be done.
VerifierType string
// Only useful if VerifierType == Iterative.
// This specifies the configurations to the IterativeVerifier.
//
// This option is in the process of being deprecated.
IterativeVerifierConfig IterativeVerifierConfig
// Only useful if VerifierType == Inline.
// This specifies the configurations to the InlineVerifierConfig.
InlineVerifierConfig InlineVerifierConfig
// For old versions mysql<5.6.2, MariaDB<10.1.6 which has no related var
// Make sure you have binlog_row_image=FULL when turning on this
SkipBinlogRowImageCheck bool
// This config is necessary for inline verification for a special case of
// Ghostferry:
//
// - If you are copying a table where the data is already partially on the
// target through some other means.
// - Specifically, the PaginationKey of this row on both the source and the target are
// the same. Thus, INSERT IGNORE will skip copying this row, leaving the
// data on the target unchanged.
// - If the data on the target is already identical to the source, then
// verification will pass and all is well.
// - However, if this data is compressed with a non-determinstic algorithm
// such as snappy, the compressed blob may not be equal even when the
// uncompressed data is equal.
// - This column signals to the InlineVerifier that it needs to decompress
// the data to compare identity.
//
// Note: a similar option exists in IterativeVerifier. However, the
// IterativeVerifier is being deprecated and this will be the correct place
// to specify it if you don't need the IterativeVerifier.
CompressedColumnsForVerification ColumnCompressionConfig
// This config is also for inline verification for the same special case of
// Ghostferry as documented with the CompressedColumnsForVerification option:
//
// - If you're copying a table where the data is partially already on the
// the target through some other means.
// - A difference in a particular column could be acceptable.
// - An example would be a table with a data field and a created_at field.
// Maybe the created_at field is not important for data integrity as long
// as the data field is correct.
// - Putting the column in this config will cause the InlineVerifier to skip
// this column for verification.
IgnoredColumnsForVerification ColumnIgnoreConfig
// Map an index to a table, will add `FORCE INDEX (index_name)` to the fingerprint SELECT query.
// Index hinting might be necessary if you are running into slow queries during copy on your target.
//
// Example:
//
// "ForceIndexForVerification": {
// "blog": {
// "users": "ix_users_some_id"
// }
// }
//
ForceIndexForVerification ForceIndexConfig
// Ghostferry requires a single numeric column to paginate over tables. Inferring that column is done in the following exact order:
// 1. Use the PerTable pagination column, if configured for a table. Fail if we cannot find this column in the table.
// 2. Use the table's primary key column as the pagination column. Fail if the primary key is not numeric or is a composite key without a FallbackColumn specified.
// 3. Use the FallbackColumn pagination column, if configured. Fail if we cannot find this column in the table.
CascadingPaginationColumnConfig *CascadingPaginationColumnConfig
// SkipTargetVerification is used to enable or disable target verification during moves.
// This feature is currently only available while using the InlineVerifier.
//
// This does so by inspecting the annotations (configured as Marginalia in the DatabaseConfig above)
// and will fail the move unless all applicable DMLs (as identified by the sharding key) sent to the
// Target were sent from Ghostferry.
//
// NOTE:
// The Target database must be configured with binlog_rows_query_log_events
// set to "ON" for this to function properly. Ghostferry not allow the move
// process to begin if this is enabled and the above option is set to "OFF".
//
// Required: defaults to false
SkipTargetVerification bool
// During initialization, Ghostferry will raise an error if any
// foreign key constraints are detected in the source database.
//
// This check can be bypassed by setting this value to true.
//
// WARNING:
// Using Ghostferry with foreign keys is highly discouraged and
// disabling this check makes no guarantees of the success of the run.
//
// Required: defaults to false
SkipForeignKeyConstraintsCheck bool
// EnableRowBatchsize is used to enable or disable the calculation of number of bytes written for each row batch.
//
// Optional: Defaults to false.
//
// NOTE:
// Turning off the EnableRowBatchSize flag would show the NumBytes written per RowBatch to be zero
// in the Progress. This behaviour is perfectly okay and doesn't mean there are no rows being written
// to the target DB.
EnableRowBatchSize bool
// If the target DB is set to read_only ghostferry will throw an error during the initialization step.
// AllowSuperUserOnReadOnly flag allows to run ghostferry even if the target DB is read_only. This is helpful in
// scenarios where target DB needs to be restricted from writes made by any other user then the ghostferry user.
//
// Optional: Defaults to false.
//
// NOTE:
// The ghostferry target user should have SUPER permissions to actually write to the target DB,
// if ghostferry is ran with AllowSuperUserOnReadOnly = true and the target DB is set to read_only.
AllowSuperUserOnReadOnly bool
// If true, net/http/pprof will be enabled on port 6060.
EnablePProf bool
// ----------------------------------------------------------------------------------------------------------------
// Updatable config
// The following configs are updatable via the `Config.Update` method and should be passed by pointer
UpdatableConfig UpdatableConfig
// ----------------------------------------------------------------------------------------------------------------
// DEPRECATED CONFIGS
// The following configs are deprecated
DataIterationBatchSize uint64 // replaced by UpdatableConfig.DataIterationBatchSize
ServerBindAddr string // replaced by ControlServerConfig.ServerBindAddr
WebBasedir string // replaced by ControlServerConfig.WebBasedir
ControlServerCustomScripts map[string][]string // replaced by ControlServerConfig.CustomScripts
}
func (c *Config) ValidateConfig() error {
if err := c.Source.Validate(); err != nil {
return fmt.Errorf("source: %s", err)
}
if err := c.Target.Validate(); err != nil {
return fmt.Errorf("target: %s", err)
}
if c.TableFilter == nil {
return fmt.Errorf("Table filter function must be provided")
}
if c.StateToResumeFrom != nil && c.StateToResumeFrom.GhostferryVersion != VersionString {
return fmt.Errorf("StateToResumeFrom version mismatch: resume = %s, current = %s", c.StateToResumeFrom.GhostferryVersion, VersionString)
}
if c.VerifierType == VerifierTypeIterative {
if err := c.IterativeVerifierConfig.Validate(); err != nil {
return fmt.Errorf("IterativeVerifierConfig invalid: %v", err)
}
} else if c.VerifierType == VerifierTypeInline {
if err := c.InlineVerifierConfig.Validate(); err != nil {
return fmt.Errorf("InlineVerifierConfig invalid: %v", err)
}
}
if c.ControlServerConfig == nil {
c.ControlServerConfig = &ControlServerConfig{}
}
c.checkForDeprecatedConfig()
if err := c.ControlServerConfig.Validate(); err != nil {
return fmt.Errorf("control_server: %s", err)
}
if c.DBWriteRetries == 0 {
c.DBWriteRetries = 5
}
if err := c.UpdatableConfig.Validate(); err != nil {
return fmt.Errorf("updatable config: %s", err)
}
if err := c.DataIterationBatchSizePerTableOverride.Validate(); err != nil {
return fmt.Errorf("DataIterationBatchSizePoints invalid: %s", err)
}
if c.BinlogEventBatchSize == 0 {
c.BinlogEventBatchSize = 100
}
if c.DataIterationConcurrency == 0 {
c.DataIterationConcurrency = 4
}
if c.DBReadRetries == 0 {
c.DBReadRetries = 5
}
if c.MaxCutoverRetries == 0 {
c.MaxCutoverRetries = 1
}
if c.CutoverRetryWaitSeconds == 0 {
c.CutoverRetryWaitSeconds = 1
}
return nil
}
func (c *Config) checkForDeprecatedConfig() {
if c.DataIterationBatchSize != 0 {
c.logDeprecated("DataIterationBatchSize", "UpdatableConfig.DataIterationBatchSize")
c.UpdatableConfig.DataIterationBatchSize = c.DataIterationBatchSize
}
if c.ServerBindAddr != "" {
c.logDeprecated("ServerBindAddr", "ControlServerConfig.ServerBindAddr")
c.ControlServerConfig.ServerBindAddr = c.ServerBindAddr
}
if c.WebBasedir != "" {
c.logDeprecated("WebBasedir", "ControlServerConfig.WebBasedir")
c.ControlServerConfig.WebBasedir = c.WebBasedir
}
if len(c.ControlServerCustomScripts) != 0 {
c.logDeprecated("ControlServerCustomScripts", "ControlServerConfig.CustomScripts")
c.ControlServerConfig.CustomScripts= c.ControlServerCustomScripts
}
}
func (c *Config) logDeprecated(deprecatedConfig string, newConfig string) {
logrus.Warnf("Config.%s is deprecated in favour of Config.%s", deprecatedConfig, newConfig)
}
func (c *Config) Update(updatedConfig UpdatableConfig) {
if updatedConfig.DataIterationBatchSize > 0 {
c.UpdatableConfig.DataIterationBatchSize = updatedConfig.DataIterationBatchSize
}
}
// UpdatableConfig defines config fields that support dynamic updates
type UpdatableConfig struct {
// The batch size used to iterate the data during data copy. This batch size
// is always used: if this is specified to be 100, 100 rows will be copied
// per iteration.
//
// With the current implementation of Ghostferry, we need to lock the rows
// we select. This means, the larger this number is, the longer we need to
// hold this lock. On the flip side, the smaller this number is, the slower
// the copy will likely be.
//
// Optional: defaults to 200
DataIterationBatchSize uint64
// End of Updatable config
// ----------------------------------------------------------------------------------------------------------------
}
func (c *UpdatableConfig) Validate() error {
if c.DataIterationBatchSize == 0 {
c.DataIterationBatchSize = 200
}
return nil
}