mirror of
https://codeberg.org/superseriousbusiness/gotosocial.git
synced 2024-12-27 03:18:16 +03:00
411 lines
12 KiB
Go
411 lines
12 KiB
Go
package migrate
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import (
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"github.com/uptrace/bun/migrate/sqlschema"
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)
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// changeset is a set of changes to the database schema definition.
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type changeset struct {
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operations []Operation
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}
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// Add new operations to the changeset.
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func (c *changeset) Add(op ...Operation) {
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c.operations = append(c.operations, op...)
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}
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// diff calculates the diff between the current database schema and the target state.
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// The changeset is not sorted -- the caller should resolve dependencies before applying the changes.
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func diff(got, want sqlschema.Database, opts ...diffOption) *changeset {
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d := newDetector(got, want, opts...)
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return d.detectChanges()
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}
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func (d *detector) detectChanges() *changeset {
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currentTables := d.current.GetTables()
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targetTables := d.target.GetTables()
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RenameCreate:
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for wantName, wantTable := range targetTables.FromOldest() {
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// A table with this name exists in the database. We assume that schema objects won't
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// be renamed to an already existing name, nor do we support such cases.
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// Simply check if the table definition has changed.
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if haveTable, ok := currentTables.Get(wantName); ok {
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d.detectColumnChanges(haveTable, wantTable, true)
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d.detectConstraintChanges(haveTable, wantTable)
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continue
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}
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// Find all renamed tables. We assume that renamed tables have the same signature.
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for haveName, haveTable := range currentTables.FromOldest() {
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if _, exists := targetTables.Get(haveName); !exists && d.canRename(haveTable, wantTable) {
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d.changes.Add(&RenameTableOp{
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TableName: haveTable.GetName(),
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NewName: wantName,
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})
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d.refMap.RenameTable(haveTable.GetName(), wantName)
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// Find renamed columns, if any, and check if constraints (PK, UNIQUE) have been updated.
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// We need not check wantTable any further.
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d.detectColumnChanges(haveTable, wantTable, false)
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d.detectConstraintChanges(haveTable, wantTable)
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currentTables.Delete(haveName)
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continue RenameCreate
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}
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}
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// If wantTable does not exist in the database and was not renamed
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// then we need to create this table in the database.
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additional := wantTable.(*sqlschema.BunTable)
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d.changes.Add(&CreateTableOp{
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TableName: wantTable.GetName(),
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Model: additional.Model,
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})
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}
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// Drop any remaining "current" tables which do not have a model.
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for name, table := range currentTables.FromOldest() {
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if _, keep := targetTables.Get(name); !keep {
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d.changes.Add(&DropTableOp{
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TableName: table.GetName(),
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})
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}
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}
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targetFKs := d.target.GetForeignKeys()
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currentFKs := d.refMap.Deref()
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for fk := range targetFKs {
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if _, ok := currentFKs[fk]; !ok {
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d.changes.Add(&AddForeignKeyOp{
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ForeignKey: fk,
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ConstraintName: "", // leave empty to let each dialect apply their convention
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})
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}
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}
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for fk, name := range currentFKs {
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if _, ok := targetFKs[fk]; !ok {
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d.changes.Add(&DropForeignKeyOp{
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ConstraintName: name,
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ForeignKey: fk,
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})
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}
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}
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return &d.changes
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}
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// detechColumnChanges finds renamed columns and, if checkType == true, columns with changed type.
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func (d *detector) detectColumnChanges(current, target sqlschema.Table, checkType bool) {
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currentColumns := current.GetColumns()
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targetColumns := target.GetColumns()
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ChangeRename:
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for tName, tCol := range targetColumns.FromOldest() {
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// This column exists in the database, so it hasn't been renamed, dropped, or added.
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// Still, we should not delete(columns, thisColumn), because later we will need to
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// check that we do not try to rename a column to an already a name that already exists.
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if cCol, ok := currentColumns.Get(tName); ok {
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if checkType && !d.equalColumns(cCol, tCol) {
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d.changes.Add(&ChangeColumnTypeOp{
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TableName: target.GetName(),
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Column: tName,
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From: cCol,
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To: d.makeTargetColDef(cCol, tCol),
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})
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}
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continue
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}
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// Column tName does not exist in the database -- it's been either renamed or added.
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// Find renamed columns first.
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for cName, cCol := range currentColumns.FromOldest() {
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// Cannot rename if a column with this name already exists or the types differ.
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if _, exists := targetColumns.Get(cName); exists || !d.equalColumns(tCol, cCol) {
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continue
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}
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d.changes.Add(&RenameColumnOp{
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TableName: target.GetName(),
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OldName: cName,
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NewName: tName,
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})
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d.refMap.RenameColumn(target.GetName(), cName, tName)
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currentColumns.Delete(cName) // no need to check this column again
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// Update primary key definition to avoid superficially recreating the constraint.
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current.GetPrimaryKey().Columns.Replace(cName, tName)
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continue ChangeRename
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}
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d.changes.Add(&AddColumnOp{
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TableName: target.GetName(),
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ColumnName: tName,
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Column: tCol,
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})
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}
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// Drop columns which do not exist in the target schema and were not renamed.
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for cName, cCol := range currentColumns.FromOldest() {
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if _, keep := targetColumns.Get(cName); !keep {
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d.changes.Add(&DropColumnOp{
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TableName: target.GetName(),
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ColumnName: cName,
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Column: cCol,
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})
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}
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}
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}
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func (d *detector) detectConstraintChanges(current, target sqlschema.Table) {
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Add:
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for _, want := range target.GetUniqueConstraints() {
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for _, got := range current.GetUniqueConstraints() {
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if got.Equals(want) {
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continue Add
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}
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}
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d.changes.Add(&AddUniqueConstraintOp{
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TableName: target.GetName(),
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Unique: want,
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})
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}
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Drop:
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for _, got := range current.GetUniqueConstraints() {
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for _, want := range target.GetUniqueConstraints() {
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if got.Equals(want) {
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continue Drop
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}
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}
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d.changes.Add(&DropUniqueConstraintOp{
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TableName: target.GetName(),
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Unique: got,
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})
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}
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targetPK := target.GetPrimaryKey()
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currentPK := current.GetPrimaryKey()
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// Detect primary key changes
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if targetPK == nil && currentPK == nil {
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return
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}
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switch {
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case targetPK == nil && currentPK != nil:
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d.changes.Add(&DropPrimaryKeyOp{
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TableName: target.GetName(),
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PrimaryKey: *currentPK,
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})
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case currentPK == nil && targetPK != nil:
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d.changes.Add(&AddPrimaryKeyOp{
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TableName: target.GetName(),
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PrimaryKey: *targetPK,
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})
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case targetPK.Columns != currentPK.Columns:
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d.changes.Add(&ChangePrimaryKeyOp{
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TableName: target.GetName(),
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Old: *currentPK,
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New: *targetPK,
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})
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}
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}
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func newDetector(got, want sqlschema.Database, opts ...diffOption) *detector {
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cfg := &detectorConfig{
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cmpType: func(c1, c2 sqlschema.Column) bool {
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return c1.GetSQLType() == c2.GetSQLType() && c1.GetVarcharLen() == c2.GetVarcharLen()
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},
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}
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for _, opt := range opts {
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opt(cfg)
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}
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return &detector{
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current: got,
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target: want,
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refMap: newRefMap(got.GetForeignKeys()),
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cmpType: cfg.cmpType,
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}
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}
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type diffOption func(*detectorConfig)
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func withCompareTypeFunc(f CompareTypeFunc) diffOption {
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return func(cfg *detectorConfig) {
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cfg.cmpType = f
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}
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}
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// detectorConfig controls how differences in the model states are resolved.
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type detectorConfig struct {
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cmpType CompareTypeFunc
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}
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// detector may modify the passed database schemas, so it isn't safe to re-use them.
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type detector struct {
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// current state represents the existing database schema.
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current sqlschema.Database
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// target state represents the database schema defined in bun models.
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target sqlschema.Database
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changes changeset
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refMap refMap
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// cmpType determines column type equivalence.
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// Default is direct comparison with '==' operator, which is inaccurate
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// due to the existence of dialect-specific type aliases. The caller
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// should pass a concrete InspectorDialect.EquuivalentType for robust comparison.
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cmpType CompareTypeFunc
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}
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// canRename checks if t1 can be renamed to t2.
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func (d detector) canRename(t1, t2 sqlschema.Table) bool {
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return t1.GetSchema() == t2.GetSchema() && equalSignatures(t1, t2, d.equalColumns)
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}
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func (d detector) equalColumns(col1, col2 sqlschema.Column) bool {
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return d.cmpType(col1, col2) &&
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col1.GetDefaultValue() == col2.GetDefaultValue() &&
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col1.GetIsNullable() == col2.GetIsNullable() &&
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col1.GetIsAutoIncrement() == col2.GetIsAutoIncrement() &&
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col1.GetIsIdentity() == col2.GetIsIdentity()
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}
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func (d detector) makeTargetColDef(current, target sqlschema.Column) sqlschema.Column {
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// Avoid unneccessary type-change migrations if the types are equivalent.
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if d.cmpType(current, target) {
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target = &sqlschema.BaseColumn{
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Name: target.GetName(),
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DefaultValue: target.GetDefaultValue(),
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IsNullable: target.GetIsNullable(),
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IsAutoIncrement: target.GetIsAutoIncrement(),
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IsIdentity: target.GetIsIdentity(),
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SQLType: current.GetSQLType(),
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VarcharLen: current.GetVarcharLen(),
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}
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}
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return target
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}
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type CompareTypeFunc func(sqlschema.Column, sqlschema.Column) bool
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// equalSignatures determines if two tables have the same "signature".
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func equalSignatures(t1, t2 sqlschema.Table, eq CompareTypeFunc) bool {
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sig1 := newSignature(t1, eq)
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sig2 := newSignature(t2, eq)
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return sig1.Equals(sig2)
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}
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// signature is a set of column definitions, which allows "relation/name-agnostic" comparison between them;
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// meaning that two columns are considered equal if their types are the same.
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type signature struct {
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// underlying stores the number of occurences for each unique column type.
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// It helps to account for the fact that a table might have multiple columns that have the same type.
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underlying map[sqlschema.BaseColumn]int
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eq CompareTypeFunc
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}
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func newSignature(t sqlschema.Table, eq CompareTypeFunc) signature {
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s := signature{
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underlying: make(map[sqlschema.BaseColumn]int),
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eq: eq,
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}
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s.scan(t)
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return s
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}
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// scan iterates over table's field and counts occurrences of each unique column definition.
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func (s *signature) scan(t sqlschema.Table) {
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for _, icol := range t.GetColumns().FromOldest() {
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scanCol := icol.(*sqlschema.BaseColumn)
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// This is slightly more expensive than if the columns could be compared directly
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// and we always did s.underlying[col]++, but we get type-equivalence in return.
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col, count := s.getCount(*scanCol)
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if count == 0 {
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s.underlying[*scanCol] = 1
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} else {
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s.underlying[col]++
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}
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}
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}
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// getCount uses CompareTypeFunc to find a column with the same (equivalent) SQL type
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// and returns its count. Count 0 means there are no columns with of this type.
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func (s *signature) getCount(keyCol sqlschema.BaseColumn) (key sqlschema.BaseColumn, count int) {
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for col, cnt := range s.underlying {
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if s.eq(&col, &keyCol) {
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return col, cnt
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}
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}
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return keyCol, 0
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}
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// Equals returns true if 2 signatures share an identical set of columns.
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func (s *signature) Equals(other signature) bool {
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if len(s.underlying) != len(other.underlying) {
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return false
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}
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for col, count := range s.underlying {
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if _, countOther := other.getCount(col); countOther != count {
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return false
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}
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}
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return true
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}
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// refMap is a utility for tracking superficial changes in foreign keys,
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// which do not require any modificiation in the database.
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// Modern SQL dialects automatically updated foreign key constraints whenever
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// a column or a table is renamed. Detector can use refMap to ignore any
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// differences in foreign keys which were caused by renamed column/table.
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type refMap map[*sqlschema.ForeignKey]string
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func newRefMap(fks map[sqlschema.ForeignKey]string) refMap {
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rm := make(map[*sqlschema.ForeignKey]string)
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for fk, name := range fks {
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rm[&fk] = name
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}
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return rm
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}
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// RenameT updates table name in all foreign key definions which depend on it.
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func (rm refMap) RenameTable(tableName string, newName string) {
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for fk := range rm {
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switch tableName {
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case fk.From.TableName:
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fk.From.TableName = newName
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case fk.To.TableName:
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fk.To.TableName = newName
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}
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}
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}
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// RenameColumn updates column name in all foreign key definions which depend on it.
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func (rm refMap) RenameColumn(tableName string, column, newName string) {
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for fk := range rm {
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if tableName == fk.From.TableName {
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fk.From.Column.Replace(column, newName)
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}
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if tableName == fk.To.TableName {
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fk.To.Column.Replace(column, newName)
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}
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}
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}
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// Deref returns copies of ForeignKey values to a map.
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func (rm refMap) Deref() map[sqlschema.ForeignKey]string {
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out := make(map[sqlschema.ForeignKey]string)
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for fk, name := range rm {
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out[*fk] = name
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}
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return out
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}
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