/* Copyright 2016 GitHub Inc. See https://github.com/github/gh-ost/blob/master/LICENSE */ package sql import ( "fmt" "strconv" "strings" ) type ValueComparisonSign string const ( LessThanComparisonSign ValueComparisonSign = "<" LessThanOrEqualsComparisonSign ValueComparisonSign = "<=" EqualsComparisonSign ValueComparisonSign = "=" GreaterThanOrEqualsComparisonSign ValueComparisonSign = ">=" GreaterThanComparisonSign ValueComparisonSign = ">" NotEqualsComparisonSign ValueComparisonSign = "!=" ) // EscapeName will escape a db/table/column/... name by wrapping with backticks. // It is not fool proof. I'm just trying to do the right thing here, not solving // SQL injection issues, which should be irrelevant for this tool. func EscapeName(name string) string { if unquoted, err := strconv.Unquote(name); err == nil { name = unquoted } return fmt.Sprintf("`%s`", name) } func buildColumnsPreparedValues(columns *ColumnList) []string { values := make([]string, columns.Len(), columns.Len()) for i, column := range columns.Columns() { var token string if column.timezoneConversion != nil { token = fmt.Sprintf("convert_tz(?, '%s', '%s')", column.timezoneConversion.ToTimezone, "+00:00") } else if column.Type == JSONColumnType { token = "convert(? using utf8mb4)" } else { token = "?" } values[i] = token } return values } func buildPreparedValues(length int) []string { values := make([]string, length, length) for i := 0; i < length; i++ { values[i] = "?" } return values } func duplicateNames(names []string) []string { duplicate := make([]string, len(names), len(names)) copy(duplicate, names) return duplicate } func BuildValueComparison(column string, value string, comparisonSign ValueComparisonSign) (result string, err error) { if column == "" { return "", fmt.Errorf("Empty column in GetValueComparison") } if value == "" { return "", fmt.Errorf("Empty value in GetValueComparison") } comparison := fmt.Sprintf("(%s %s %s)", EscapeName(column), string(comparisonSign), value) return comparison, err } func BuildEqualsComparison(columns []string, values []string) (result string, err error) { if len(columns) == 0 { return "", fmt.Errorf("Got 0 columns in GetEqualsComparison") } if len(columns) != len(values) { return "", fmt.Errorf("Got %d columns but %d values in GetEqualsComparison", len(columns), len(values)) } comparisons := []string{} for i, column := range columns { value := values[i] comparison, err := BuildValueComparison(column, value, EqualsComparisonSign) if err != nil { return "", err } comparisons = append(comparisons, comparison) } result = strings.Join(comparisons, " and ") result = fmt.Sprintf("(%s)", result) return result, nil } func BuildEqualsPreparedComparison(columns []string) (result string, err error) { values := buildPreparedValues(len(columns)) return BuildEqualsComparison(columns, values) } func BuildSetPreparedClause(columns *ColumnList) (result string, err error) { if columns.Len() == 0 { return "", fmt.Errorf("Got 0 columns in BuildSetPreparedClause") } setTokens := []string{} for _, column := range columns.Columns() { var setToken string if column.timezoneConversion != nil { setToken = fmt.Sprintf("%s=convert_tz(?, '%s', '%s')", EscapeName(column.Name), column.timezoneConversion.ToTimezone, "+00:00") } else if column.Type == JSONColumnType { setToken = fmt.Sprintf("%s=convert(? using utf8mb4)", EscapeName(column.Name)) } else { setToken = fmt.Sprintf("%s=?", EscapeName(column.Name)) } setTokens = append(setTokens, setToken) } return strings.Join(setTokens, ", "), nil } func BuildRangeComparison(columns []string, values []string, args []interface{}, comparisonSign ValueComparisonSign) (result string, explodedArgs []interface{}, err error) { if len(columns) == 0 { return "", explodedArgs, fmt.Errorf("Got 0 columns in GetRangeComparison") } if len(columns) != len(values) { return "", explodedArgs, fmt.Errorf("Got %d columns but %d values in GetEqualsComparison", len(columns), len(values)) } if len(columns) != len(args) { return "", explodedArgs, fmt.Errorf("Got %d columns but %d args in GetEqualsComparison", len(columns), len(args)) } includeEquals := false if comparisonSign == LessThanOrEqualsComparisonSign { comparisonSign = LessThanComparisonSign includeEquals = true } if comparisonSign == GreaterThanOrEqualsComparisonSign { comparisonSign = GreaterThanComparisonSign includeEquals = true } comparisons := []string{} for i, column := range columns { // value := values[i] rangeComparison, err := BuildValueComparison(column, value, comparisonSign) if err != nil { return "", explodedArgs, err } if len(columns[0:i]) > 0 { equalitiesComparison, err := BuildEqualsComparison(columns[0:i], values[0:i]) if err != nil { return "", explodedArgs, err } comparison := fmt.Sprintf("(%s AND %s)", equalitiesComparison, rangeComparison) comparisons = append(comparisons, comparison) explodedArgs = append(explodedArgs, args[0:i]...) explodedArgs = append(explodedArgs, args[i]) } else { comparisons = append(comparisons, rangeComparison) explodedArgs = append(explodedArgs, args[i]) } } if includeEquals { comparison, err := BuildEqualsComparison(columns, values) if err != nil { return "", explodedArgs, nil } comparisons = append(comparisons, comparison) explodedArgs = append(explodedArgs, args...) } result = strings.Join(comparisons, " or ") result = fmt.Sprintf("(%s)", result) return result, explodedArgs, nil } func BuildRangePreparedComparison(columns *ColumnList, args []interface{}, comparisonSign ValueComparisonSign) (result string, explodedArgs []interface{}, err error) { values := buildColumnsPreparedValues(columns) return BuildRangeComparison(columns.Names(), values, args, comparisonSign) } func BuildRangeInsertQuery(databaseName, originalTableName, ghostTableName string, sharedColumns []string, mappedSharedColumns []string, uniqueKey string, uniqueKeyColumns *ColumnList, rangeStartValues, rangeEndValues []string, rangeStartArgs, rangeEndArgs []interface{}, includeRangeStartValues bool, transactionalTable bool) (result string, explodedArgs []interface{}, err error) { if len(sharedColumns) == 0 { return "", explodedArgs, fmt.Errorf("Got 0 shared columns in BuildRangeInsertQuery") } databaseName = EscapeName(databaseName) originalTableName = EscapeName(originalTableName) ghostTableName = EscapeName(ghostTableName) mappedSharedColumns = duplicateNames(mappedSharedColumns) for i := range mappedSharedColumns { mappedSharedColumns[i] = EscapeName(mappedSharedColumns[i]) } mappedSharedColumnsListing := strings.Join(mappedSharedColumns, ", ") sharedColumns = duplicateNames(sharedColumns) for i := range sharedColumns { sharedColumns[i] = EscapeName(sharedColumns[i]) } sharedColumnsListing := strings.Join(sharedColumns, ", ") uniqueKey = EscapeName(uniqueKey) var minRangeComparisonSign ValueComparisonSign = GreaterThanComparisonSign if includeRangeStartValues { minRangeComparisonSign = GreaterThanOrEqualsComparisonSign } rangeStartComparison, rangeExplodedArgs, err := BuildRangeComparison(uniqueKeyColumns.Names(), rangeStartValues, rangeStartArgs, minRangeComparisonSign) if err != nil { return "", explodedArgs, err } explodedArgs = append(explodedArgs, rangeExplodedArgs...) rangeEndComparison, rangeExplodedArgs, err := BuildRangeComparison(uniqueKeyColumns.Names(), rangeEndValues, rangeEndArgs, LessThanOrEqualsComparisonSign) if err != nil { return "", explodedArgs, err } explodedArgs = append(explodedArgs, rangeExplodedArgs...) transactionalClause := "" if transactionalTable { transactionalClause = "lock in share mode" } result = fmt.Sprintf(` insert /* gh-ost %s.%s */ ignore into %s.%s (%s) (select %s from %s.%s force index (%s) where (%s and %s) %s ) `, databaseName, originalTableName, databaseName, ghostTableName, mappedSharedColumnsListing, sharedColumnsListing, databaseName, originalTableName, uniqueKey, rangeStartComparison, rangeEndComparison, transactionalClause) return result, explodedArgs, nil } func BuildRangeInsertPreparedQuery(databaseName, originalTableName, ghostTableName string, sharedColumns []string, mappedSharedColumns []string, uniqueKey string, uniqueKeyColumns *ColumnList, rangeStartArgs, rangeEndArgs []interface{}, includeRangeStartValues bool, transactionalTable bool) (result string, explodedArgs []interface{}, err error) { rangeStartValues := buildColumnsPreparedValues(uniqueKeyColumns) rangeEndValues := buildColumnsPreparedValues(uniqueKeyColumns) return BuildRangeInsertQuery(databaseName, originalTableName, ghostTableName, sharedColumns, mappedSharedColumns, uniqueKey, uniqueKeyColumns, rangeStartValues, rangeEndValues, rangeStartArgs, rangeEndArgs, includeRangeStartValues, transactionalTable) } func BuildUniqueKeyRangeEndPreparedQueryViaOffset(databaseName, tableName string, uniqueKeyColumns *ColumnList, rangeStartArgs, rangeEndArgs []interface{}, chunkSize int64, includeRangeStartValues bool, hint string) (result string, explodedArgs []interface{}, err error) { if uniqueKeyColumns.Len() == 0 { return "", explodedArgs, fmt.Errorf("Got 0 columns in BuildUniqueKeyRangeEndPreparedQuery") } databaseName = EscapeName(databaseName) tableName = EscapeName(tableName) var startRangeComparisonSign ValueComparisonSign = GreaterThanComparisonSign if includeRangeStartValues { startRangeComparisonSign = GreaterThanOrEqualsComparisonSign } rangeStartComparison, rangeExplodedArgs, err := BuildRangePreparedComparison(uniqueKeyColumns, rangeStartArgs, startRangeComparisonSign) if err != nil { return "", explodedArgs, err } explodedArgs = append(explodedArgs, rangeExplodedArgs...) rangeEndComparison, rangeExplodedArgs, err := BuildRangePreparedComparison(uniqueKeyColumns, rangeEndArgs, LessThanOrEqualsComparisonSign) if err != nil { return "", explodedArgs, err } explodedArgs = append(explodedArgs, rangeExplodedArgs...) uniqueKeyColumnNames := duplicateNames(uniqueKeyColumns.Names()) uniqueKeyColumnAscending := make([]string, len(uniqueKeyColumnNames), len(uniqueKeyColumnNames)) uniqueKeyColumnDescending := make([]string, len(uniqueKeyColumnNames), len(uniqueKeyColumnNames)) for i, column := range uniqueKeyColumns.Columns() { uniqueKeyColumnNames[i] = EscapeName(uniqueKeyColumnNames[i]) if column.Type == EnumColumnType { uniqueKeyColumnAscending[i] = fmt.Sprintf("concat(%s) asc", uniqueKeyColumnNames[i]) uniqueKeyColumnDescending[i] = fmt.Sprintf("concat(%s) desc", uniqueKeyColumnNames[i]) } else { uniqueKeyColumnAscending[i] = fmt.Sprintf("%s asc", uniqueKeyColumnNames[i]) uniqueKeyColumnDescending[i] = fmt.Sprintf("%s desc", uniqueKeyColumnNames[i]) } } result = fmt.Sprintf(` select /* gh-ost %s.%s %s */ %s from %s.%s where %s and %s order by %s limit 1 offset %d `, databaseName, tableName, hint, strings.Join(uniqueKeyColumnNames, ", "), databaseName, tableName, rangeStartComparison, rangeEndComparison, strings.Join(uniqueKeyColumnAscending, ", "), (chunkSize - 1), ) return result, explodedArgs, nil } func BuildUniqueKeyRangeEndPreparedQueryViaTemptable(databaseName, tableName string, uniqueKeyColumns *ColumnList, rangeStartArgs, rangeEndArgs []interface{}, chunkSize int64, includeRangeStartValues bool, hint string) (result string, explodedArgs []interface{}, err error) { if uniqueKeyColumns.Len() == 0 { return "", explodedArgs, fmt.Errorf("Got 0 columns in BuildUniqueKeyRangeEndPreparedQuery") } databaseName = EscapeName(databaseName) tableName = EscapeName(tableName) var startRangeComparisonSign ValueComparisonSign = GreaterThanComparisonSign if includeRangeStartValues { startRangeComparisonSign = GreaterThanOrEqualsComparisonSign } rangeStartComparison, rangeExplodedArgs, err := BuildRangePreparedComparison(uniqueKeyColumns, rangeStartArgs, startRangeComparisonSign) if err != nil { return "", explodedArgs, err } explodedArgs = append(explodedArgs, rangeExplodedArgs...) rangeEndComparison, rangeExplodedArgs, err := BuildRangePreparedComparison(uniqueKeyColumns, rangeEndArgs, LessThanOrEqualsComparisonSign) if err != nil { return "", explodedArgs, err } explodedArgs = append(explodedArgs, rangeExplodedArgs...) uniqueKeyColumnNames := duplicateNames(uniqueKeyColumns.Names()) uniqueKeyColumnAscending := make([]string, len(uniqueKeyColumnNames), len(uniqueKeyColumnNames)) uniqueKeyColumnDescending := make([]string, len(uniqueKeyColumnNames), len(uniqueKeyColumnNames)) for i, column := range uniqueKeyColumns.Columns() { uniqueKeyColumnNames[i] = EscapeName(uniqueKeyColumnNames[i]) if column.Type == EnumColumnType { uniqueKeyColumnAscending[i] = fmt.Sprintf("concat(%s) asc", uniqueKeyColumnNames[i]) uniqueKeyColumnDescending[i] = fmt.Sprintf("concat(%s) desc", uniqueKeyColumnNames[i]) } else { uniqueKeyColumnAscending[i] = fmt.Sprintf("%s asc", uniqueKeyColumnNames[i]) uniqueKeyColumnDescending[i] = fmt.Sprintf("%s desc", uniqueKeyColumnNames[i]) } } result = fmt.Sprintf(` select /* gh-ost %s.%s %s */ %s from ( select %s from %s.%s where %s and %s order by %s limit %d ) select_osc_chunk order by %s limit 1 `, databaseName, tableName, hint, strings.Join(uniqueKeyColumnNames, ", "), strings.Join(uniqueKeyColumnNames, ", "), databaseName, tableName, rangeStartComparison, rangeEndComparison, strings.Join(uniqueKeyColumnAscending, ", "), chunkSize, strings.Join(uniqueKeyColumnDescending, ", "), ) return result, explodedArgs, nil } func BuildUniqueKeyMinValuesPreparedQuery(databaseName, tableName string, uniqueKeyColumns *ColumnList) (string, error) { return buildUniqueKeyMinMaxValuesPreparedQuery(databaseName, tableName, uniqueKeyColumns, "asc") } func BuildUniqueKeyMaxValuesPreparedQuery(databaseName, tableName string, uniqueKeyColumns *ColumnList) (string, error) { return buildUniqueKeyMinMaxValuesPreparedQuery(databaseName, tableName, uniqueKeyColumns, "desc") } func buildUniqueKeyMinMaxValuesPreparedQuery(databaseName, tableName string, uniqueKeyColumns *ColumnList, order string) (string, error) { if uniqueKeyColumns.Len() == 0 { return "", fmt.Errorf("Got 0 columns in BuildUniqueKeyMinMaxValuesPreparedQuery") } databaseName = EscapeName(databaseName) tableName = EscapeName(tableName) uniqueKeyColumnNames := duplicateNames(uniqueKeyColumns.Names()) uniqueKeyColumnOrder := make([]string, len(uniqueKeyColumnNames), len(uniqueKeyColumnNames)) for i, column := range uniqueKeyColumns.Columns() { uniqueKeyColumnNames[i] = EscapeName(uniqueKeyColumnNames[i]) if column.Type == EnumColumnType { uniqueKeyColumnOrder[i] = fmt.Sprintf("concat(%s) %s", uniqueKeyColumnNames[i], order) } else { uniqueKeyColumnOrder[i] = fmt.Sprintf("%s %s", uniqueKeyColumnNames[i], order) } } query := fmt.Sprintf(` select /* gh-ost %s.%s */ %s from %s.%s order by %s limit 1 `, databaseName, tableName, strings.Join(uniqueKeyColumnNames, ", "), databaseName, tableName, strings.Join(uniqueKeyColumnOrder, ", "), ) return query, nil } func BuildDMLDeleteQuery(databaseName, tableName string, tableColumns, uniqueKeyColumns *ColumnList, args []interface{}) (result string, uniqueKeyArgs []interface{}, err error) { if len(args) != tableColumns.Len() { return result, uniqueKeyArgs, fmt.Errorf("args count differs from table column count in BuildDMLDeleteQuery") } if uniqueKeyColumns.Len() == 0 { return result, uniqueKeyArgs, fmt.Errorf("No unique key columns found in BuildDMLDeleteQuery") } for _, column := range uniqueKeyColumns.Columns() { tableOrdinal := tableColumns.Ordinals[column.Name] arg := column.convertArg(args[tableOrdinal]) uniqueKeyArgs = append(uniqueKeyArgs, arg) } databaseName = EscapeName(databaseName) tableName = EscapeName(tableName) equalsComparison, err := BuildEqualsPreparedComparison(uniqueKeyColumns.Names()) if err != nil { return result, uniqueKeyArgs, err } result = fmt.Sprintf(` delete /* gh-ost %s.%s */ from %s.%s where %s `, databaseName, tableName, databaseName, tableName, equalsComparison, ) return result, uniqueKeyArgs, nil } func BuildDMLInsertQuery(databaseName, tableName string, tableColumns, sharedColumns, mappedSharedColumns *ColumnList, args []interface{}) (result string, sharedArgs []interface{}, err error) { if len(args) != tableColumns.Len() { return result, args, fmt.Errorf("args count differs from table column count in BuildDMLInsertQuery") } if !sharedColumns.IsSubsetOf(tableColumns) { return result, args, fmt.Errorf("shared columns is not a subset of table columns in BuildDMLInsertQuery") } if sharedColumns.Len() == 0 { return result, args, fmt.Errorf("No shared columns found in BuildDMLInsertQuery") } databaseName = EscapeName(databaseName) tableName = EscapeName(tableName) for _, column := range sharedColumns.Columns() { tableOrdinal := tableColumns.Ordinals[column.Name] arg := column.convertArg(args[tableOrdinal]) sharedArgs = append(sharedArgs, arg) } mappedSharedColumnNames := duplicateNames(mappedSharedColumns.Names()) for i := range mappedSharedColumnNames { mappedSharedColumnNames[i] = EscapeName(mappedSharedColumnNames[i]) } preparedValues := buildColumnsPreparedValues(mappedSharedColumns) result = fmt.Sprintf(` replace /* gh-ost %s.%s */ into %s.%s (%s) values (%s) `, databaseName, tableName, databaseName, tableName, strings.Join(mappedSharedColumnNames, ", "), strings.Join(preparedValues, ", "), ) return result, sharedArgs, nil } func BuildDMLUpdateQuery(databaseName, tableName string, tableColumns, sharedColumns, mappedSharedColumns, uniqueKeyColumns *ColumnList, valueArgs, whereArgs []interface{}) (result string, sharedArgs, uniqueKeyArgs []interface{}, err error) { if len(valueArgs) != tableColumns.Len() { return result, sharedArgs, uniqueKeyArgs, fmt.Errorf("value args count differs from table column count in BuildDMLUpdateQuery") } if len(whereArgs) != tableColumns.Len() { return result, sharedArgs, uniqueKeyArgs, fmt.Errorf("where args count differs from table column count in BuildDMLUpdateQuery") } if !sharedColumns.IsSubsetOf(tableColumns) { return result, sharedArgs, uniqueKeyArgs, fmt.Errorf("shared columns is not a subset of table columns in BuildDMLUpdateQuery") } if !uniqueKeyColumns.IsSubsetOf(sharedColumns) { return result, sharedArgs, uniqueKeyArgs, fmt.Errorf("unique key columns is not a subset of shared columns in BuildDMLUpdateQuery") } if sharedColumns.Len() == 0 { return result, sharedArgs, uniqueKeyArgs, fmt.Errorf("No shared columns found in BuildDMLUpdateQuery") } if uniqueKeyColumns.Len() == 0 { return result, sharedArgs, uniqueKeyArgs, fmt.Errorf("No unique key columns found in BuildDMLUpdateQuery") } databaseName = EscapeName(databaseName) tableName = EscapeName(tableName) for _, column := range sharedColumns.Columns() { tableOrdinal := tableColumns.Ordinals[column.Name] arg := column.convertArg(valueArgs[tableOrdinal]) sharedArgs = append(sharedArgs, arg) } for _, column := range uniqueKeyColumns.Columns() { tableOrdinal := tableColumns.Ordinals[column.Name] arg := column.convertArg(whereArgs[tableOrdinal]) uniqueKeyArgs = append(uniqueKeyArgs, arg) } setClause, err := BuildSetPreparedClause(mappedSharedColumns) equalsComparison, err := BuildEqualsPreparedComparison(uniqueKeyColumns.Names()) result = fmt.Sprintf(` update /* gh-ost %s.%s */ %s.%s set %s where %s `, databaseName, tableName, databaseName, tableName, setClause, equalsComparison, ) return result, sharedArgs, uniqueKeyArgs, nil }