// Test that we fail to lease a table that was marked for deletion.
func TestCantLeaseDeletedTable(testingT *testing.T) {
defer leaktest.AfterTest(testingT)()
defer csql.TestDisableAsyncSchemaChangeExec()()
var execKnobs csql.ExecutorTestingKnobs
var mu sync.Mutex
clearSchemaChangers := false
execKnobs.SyncSchemaChangersFilter =
func(tscc csql.TestingSchemaChangerCollection) {
mu.Lock()
defer mu.Unlock()
if clearSchemaChangers {
tscc.ClearSchemaChangers()
}
}
ctx, _ := createTestServerContext()
ctx.TestingKnobs.SQLExecutor = &execKnobs
t := newLeaseTest(testingT, ctx)
defer t.cleanup()
sql := `
CREATE DATABASE test;
CREATE TABLE test.t(a INT PRIMARY KEY);
`
_, err := t.db.Exec(sql)
if err != nil {
t.Fatal(err)
}
// Block schema changers so that the table we're about to DROP is not actually
// dropped; it will be left in a "deleted" state.
mu.Lock()
clearSchemaChangers = true
mu.Unlock()
// DROP the table
_, err = t.db.Exec(`DROP TABLE test.t`)
if err != nil {
t.Fatal(err)
}
// Make sure we can't get a lease on the descriptor.
tableDesc := getTableDescriptor(t.kvDB, "test", "t")
// try to acquire at a bogus version to make sure we don't get back a lease we
// already had.
_, err = t.acquire(1, tableDesc.ID, tableDesc.Version+1)
if !testutils.IsError(err, "descriptor deleted") {
t.Fatalf("got a different error than expected: %s", err)
}
}
func TestCommandsWithPendingMutations(t *testing.T) {
defer leaktest.AfterTest(t)
// The descriptor changes made must have an immediate effect
// so disable leases on tables.
defer csql.TestDisableTableLeases()()
// Disable external processing of mutations.
defer csql.TestDisableAsyncSchemaChangeExec()()
server, sqlDB, kvDB := setup(t)
defer cleanup(server, sqlDB)
if _, err := sqlDB.Exec(`
CREATE DATABASE t;
CREATE TABLE t.test (a CHAR PRIMARY KEY, b CHAR, c CHAR, INDEX foo (c));
`); err != nil {
t.Fatal(err)
}
// Read table descriptor
nameKey := csql.MakeNameMetadataKey(keys.MaxReservedDescID+1, "test")
gr, err := kvDB.Get(nameKey)
if err != nil {
t.Fatal(err)
}
if !gr.Exists() {
t.Fatalf("Name entry %q does not exist", nameKey)
}
descKey := csql.MakeDescMetadataKey(csql.ID(gr.ValueInt()))
desc := &csql.Descriptor{}
if err := kvDB.GetProto(descKey, desc); err != nil {
t.Fatal(err)
}
mt := mutationTest{
T: t,
kvDB: kvDB,
sqlDB: sqlDB,
descKey: descKey,
desc: desc,
}
// Test CREATE INDEX in the presence of mutations.
// Add index DROP mutation "foo""
mt.writeIndexMutation("foo", csql.DescriptorMutation{Direction: csql.DescriptorMutation_DROP})
if _, err := sqlDB.Exec(`CREATE INDEX foo ON t.test (c)`); !testutils.IsError(err, `index "foo" being dropped, try again later`) {
t.Fatal(err)
}
// Make "foo" live.
mt.makeMutationsActive()
// "foo" is being added.
mt.writeIndexMutation("foo", csql.DescriptorMutation{Direction: csql.DescriptorMutation_ADD})
if _, err := sqlDB.Exec(`CREATE INDEX foo ON t.test (c)`); !testutils.IsError(err, `duplicate index name: "foo"`) {
t.Fatal(err)
}
// Make "foo" live.
mt.makeMutationsActive()
// Add column DROP mutation "b"
mt.writeColumnMutation("b", csql.DescriptorMutation{Direction: csql.DescriptorMutation_DROP})
if _, err := sqlDB.Exec(`CREATE INDEX bar ON t.test (b)`); !testutils.IsError(err, `index "bar" contains unknown column "b"`) {
t.Fatal(err)
}
// Make "b" live.
mt.makeMutationsActive()
// "b" is being added.
mt.writeColumnMutation("b", csql.DescriptorMutation{Direction: csql.DescriptorMutation_ADD})
// An index referencing a column mutation that is being added
// is allowed to be added.
if _, err := sqlDB.Exec(`CREATE INDEX bar ON t.test (b)`); err != nil {
t.Fatal(err)
}
// Make "b" live.
mt.makeMutationsActive()
// Test DROP INDEX in the presence of mutations.
// Add index DROP mutation "foo""
mt.writeIndexMutation("foo", csql.DescriptorMutation{Direction: csql.DescriptorMutation_DROP})
// Noop.
if _, err := sqlDB.Exec(`DROP INDEX t.test@foo`); err != nil {
t.Fatal(err)
}
// Make "foo" live.
mt.makeMutationsActive()
// "foo" is being added.
mt.writeIndexMutation("foo", csql.DescriptorMutation{Direction: csql.DescriptorMutation_ADD})
if _, err := sqlDB.Exec(`DROP INDEX t.test@foo`); !testutils.IsError(err, `index "foo" in the middle of being added, try again later`) {
t.Fatal(err)
}
// Make "foo" live.
mt.makeMutationsActive()
// Test ALTER TABLE ADD/DROP column in the presence of mutations.
// Add column DROP mutation "b"
mt.writeColumnMutation("b", csql.DescriptorMutation{Direction: csql.DescriptorMutation_DROP})
if _, err := sqlDB.Exec(`ALTER TABLE t.test ADD b CHAR`); !testutils.IsError(err, `column "b" being dropped, try again later`) {
t.Fatal(err)
}
// Noop.
if _, err := sqlDB.Exec(`ALTER TABLE t.test DROP b`); err != nil {
t.Fatal(err)
}
// Make "b" live.
mt.makeMutationsActive()
// "b" is being added.
mt.writeColumnMutation("b", csql.DescriptorMutation{Direction: csql.DescriptorMutation_ADD})
if _, err := sqlDB.Exec(`ALTER TABLE t.test ADD b CHAR`); !testutils.IsError(err, `duplicate column name: "b"`) {
t.Fatal(err)
}
if _, err := sqlDB.Exec(`ALTER TABLE t.test DROP b`); !testutils.IsError(err, `column "b" in the middle of being added, try again later`) {
t.Fatal(err)
}
// Make "b" live.
mt.makeMutationsActive()
// Test ALTER TABLE ADD CONSTRAINT in the presence of mutations.
// Add index DROP mutation "foo""
mt.writeIndexMutation("foo", csql.DescriptorMutation{Direction: csql.DescriptorMutation_DROP})
if _, err := sqlDB.Exec(`ALTER TABLE t.test ADD CONSTRAINT foo UNIQUE (c)`); !testutils.IsError(err, `index "foo" being dropped, try again later`) {
t.Fatal(err)
}
// Make "foo" live.
mt.makeMutationsActive()
// "foo" is being added.
mt.writeIndexMutation("foo", csql.DescriptorMutation{Direction: csql.DescriptorMutation_ADD})
if _, err := sqlDB.Exec(`ALTER TABLE t.test ADD CONSTRAINT foo UNIQUE (c)`); !testutils.IsError(err, `duplicate index name: "foo"`) {
t.Fatal(err)
}
// Make "foo" live.
mt.makeMutationsActive()
// Add column mutation "b"
mt.writeColumnMutation("b", csql.DescriptorMutation{Direction: csql.DescriptorMutation_DROP})
if _, err := sqlDB.Exec(`ALTER TABLE t.test ADD CONSTRAINT bar UNIQUE (b)`); !testutils.IsError(err, `index "bar" contains unknown column "b"`) {
t.Fatal(err)
}
// Make "b" live.
mt.makeMutationsActive()
// "b" is being added.
mt.writeColumnMutation("b", csql.DescriptorMutation{Direction: csql.DescriptorMutation_ADD})
// Noop.
if _, err := sqlDB.Exec(`ALTER TABLE t.test ADD CONSTRAINT bar UNIQUE (b)`); err != nil {
t.Fatal(err)
}
// Make "b" live.
mt.makeMutationsActive()
// Test DROP CONSTRAINT in the presence of mutations.
// Add index mutation "foo""
mt.writeIndexMutation("foo", csql.DescriptorMutation{Direction: csql.DescriptorMutation_DROP})
// Noop.
if _, err := sqlDB.Exec(`ALTER TABLE t.test DROP CONSTRAINT foo`); err != nil {
t.Fatal(err)
}
// Make "foo" live.
mt.makeMutationsActive()
// "foo" is being added.
mt.writeIndexMutation("foo", csql.DescriptorMutation{Direction: csql.DescriptorMutation_ADD})
if _, err := sqlDB.Exec(`ALTER TABLE t.test DROP CONSTRAINT foo`); !testutils.IsError(err, `constraint "foo" in the middle of being added, try again later`) {
t.Fatal(err)
}
// Make "foo" live.
mt.makeMutationsActive()
// Rename column/index, while index is under mutation.
// Add index mutation "foo""
mt.writeIndexMutation("foo", csql.DescriptorMutation{})
if _, err := sqlDB.Exec(`ALTER INDEX t.test@foo RENAME to ufo`); err != nil {
mt.Fatal(err)
}
if _, err := sqlDB.Exec(`ALTER TABLE t.test RENAME COLUMN c TO d`); err != nil {
mt.Fatal(err)
}
// The mutation in the table descriptor has changed and we would like
// to update our copy to make it live.
if err := mt.kvDB.GetProto(mt.descKey, mt.desc); err != nil {
mt.Fatal(err)
}
// Make "ufo" live.
mt.makeMutationsActive()
// The index has been renamed to ufo, and the column to d.
_ = mt.checkQueryResponse("SHOW INDEX FROM t.test", [][]string{{"test", "primary", "true", "1", "a", "ASC", "false"}, {"test", "ufo", "false", "1", "d", "ASC", "false"}})
// Rename column under mutation works properly.
// Add column mutation "b".
mt.writeColumnMutation("b", csql.DescriptorMutation{})
if _, err := sqlDB.Exec(`ALTER TABLE t.test RENAME COLUMN b TO e`); err != nil {
mt.Fatal(err)
}
// The mutation in the table descriptor has changed and we would like
// to update our copy to make it live.
if err := mt.kvDB.GetProto(mt.descKey, mt.desc); err != nil {
mt.Fatal(err)
}
// Make column "e" live.
mt.makeMutationsActive()
// Column b changed to d.
_ = mt.checkQueryResponse("SHOW COLUMNS FROM t.test", [][]string{{"a", "STRING", "true", "NULL"}, {"d", "STRING", "true", "NULL"}, {"e", "STRING", "true", "NULL"}})
}
func TestOperationsWithIndexMutation(t *testing.T) {
defer leaktest.AfterTest(t)
// The descriptor changes made must have an immediate effect.
defer csql.TestDisableTableLeases()()
// Disable external processing of mutations.
defer csql.TestDisableAsyncSchemaChangeExec()()
server, sqlDB, kvDB := setup(t)
defer cleanup(server, sqlDB)
if _, err := sqlDB.Exec(`
CREATE DATABASE t;
CREATE TABLE t.test (k CHAR PRIMARY KEY, v CHAR, INDEX foo (v));
`); err != nil {
t.Fatal(err)
}
// read table descriptor
nameKey := csql.MakeNameMetadataKey(keys.MaxReservedDescID+1, "test")
gr, err := kvDB.Get(nameKey)
if err != nil {
t.Fatal(err)
}
if !gr.Exists() {
t.Fatalf("Name entry %q does not exist", nameKey)
}
descKey := csql.MakeDescMetadataKey(csql.ID(gr.ValueInt()))
desc := &csql.Descriptor{}
if err := kvDB.GetProto(descKey, desc); err != nil {
t.Fatal(err)
}
mTest := mutationTest{
T: t,
kvDB: kvDB,
sqlDB: sqlDB,
descKey: descKey,
desc: desc,
}
starQuery := `SELECT * FROM t.test`
indexQuery := `SELECT * FROM t.test@foo`
// See the effect of the operations depending on the state.
for _, state := range []csql.DescriptorMutation_State{csql.DescriptorMutation_DELETE_ONLY, csql.DescriptorMutation_WRITE_ONLY} {
// Init table with some entries.
if _, err := sqlDB.Exec(`TRUNCATE TABLE t.test`); err != nil {
t.Fatal(err)
}
initRows := [][]string{{"a", "z"}, {"b", "y"}}
for _, row := range initRows {
if _, err := sqlDB.Exec(`INSERT INTO t.test VALUES ($1, $2)`, row[0], row[1]); err != nil {
t.Fatal(err)
}
}
_ = mTest.checkQueryResponse(starQuery, initRows)
// Index foo is visible.
_ = mTest.checkQueryResponse(indexQuery, [][]string{{"y"}, {"z"}})
// Index foo is invisible once it's a mutation.
mTest.writeIndexMutation("foo", csql.DescriptorMutation{State: state})
if _, err := sqlDB.Query(indexQuery); !testutils.IsError(err, `index "foo" not found`) {
t.Fatal(err)
}
// Insert a new entry.
if _, err := sqlDB.Exec(`INSERT INTO t.test VALUES ('c', 'x')`); err != nil {
t.Fatal(err)
}
_ = mTest.checkQueryResponse(starQuery, [][]string{{"a", "z"}, {"b", "y"}, {"c", "x"}})
// Make index "foo" live so that we can read it.
mTest.makeMutationsActive()
if state == csql.DescriptorMutation_DELETE_ONLY {
// "x" didn't get added to the index.
_ = mTest.checkQueryResponse(indexQuery, [][]string{{"y"}, {"z"}})
} else {
// "x" got added to the index.
_ = mTest.checkQueryResponse(indexQuery, [][]string{{"x"}, {"y"}, {"z"}})
}
// Make "foo" a mutation.
mTest.writeIndexMutation("foo", csql.DescriptorMutation{State: state})
// Update.
if _, err := sqlDB.Exec(`UPDATE t.test SET v = 'w' WHERE k = 'c'`); err != nil {
t.Fatal(err)
}
// Update "v" to its current value "z" in row "a".
if _, err := sqlDB.Exec(`UPDATE t.test SET v = 'z' WHERE k = 'a'`); err != nil {
t.Fatal(err)
}
_ = mTest.checkQueryResponse(starQuery, [][]string{{"a", "z"}, {"b", "y"}, {"c", "w"}})
// Make index "foo" live so that we can read it.
mTest.makeMutationsActive()
if state == csql.DescriptorMutation_DELETE_ONLY {
// updating "x" -> "w" is a noop on the index,
// updating "z" -> "z" results in "z" being deleted from the index.
_ = mTest.checkQueryResponse(indexQuery, [][]string{{"y"}, {"z"}})
} else {
// updating "x" -> "w" results in the index updating from "x" -> "w",
// updating "z" -> "z" is a noop on the index.
_ = mTest.checkQueryResponse(indexQuery, [][]string{{"w"}, {"y"}, {"z"}})
}
// Make "foo" a mutation.
mTest.writeIndexMutation("foo", csql.DescriptorMutation{State: state})
// Delete row "b".
if _, err := sqlDB.Exec(`DELETE FROM t.test WHERE k = 'b'`); err != nil {
t.Fatal(err)
}
_ = mTest.checkQueryResponse(starQuery, [][]string{{"a", "z"}, {"c", "w"}})
// Make index "foo" live so that we can read it.
mTest.makeMutationsActive()
// Deleting row "b" deletes "y" from the index.
if state == csql.DescriptorMutation_DELETE_ONLY {
mTest.checkQueryResponse(indexQuery, [][]string{{"z"}})
} else {
mTest.checkQueryResponse(indexQuery, [][]string{{"w"}, {"z"}})
}
}
// Check that a mutation can only be inserted with an explicit mutation state.
tableDesc := desc.GetTable()
tableDesc.Mutations = []csql.DescriptorMutation{{Descriptor_: &csql.DescriptorMutation_Index{Index: &tableDesc.Indexes[len(tableDesc.Indexes)-1]}}}
tableDesc.Indexes = tableDesc.Indexes[:len(tableDesc.Indexes)-1]
if err := tableDesc.Validate(); !testutils.IsError(err, "mutation in state UNKNOWN, direction NONE, index foo, id 2") {
t.Fatal(err)
}
}
func TestOperationsWithColumnMutation(t *testing.T) {
defer leaktest.AfterTest(t)
// The descriptor changes made must have an immediate effect
// so disable leases on tables.
defer csql.TestDisableTableLeases()()
// Disable external processing of mutations.
defer csql.TestDisableAsyncSchemaChangeExec()()
server, sqlDB, kvDB := setup(t)
defer cleanup(server, sqlDB)
if _, err := sqlDB.Exec(`
CREATE DATABASE t;
CREATE TABLE t.test (k CHAR PRIMARY KEY, v CHAR, i CHAR DEFAULT 'i');
`); err != nil {
t.Fatal(err)
}
// read table descriptor
nameKey := csql.MakeNameMetadataKey(keys.MaxReservedDescID+1, "test")
gr, err := kvDB.Get(nameKey)
if err != nil {
t.Fatal(err)
}
if !gr.Exists() {
t.Fatalf("Name entry %q does not exist", nameKey)
}
descKey := csql.MakeDescMetadataKey(csql.ID(gr.ValueInt()))
desc := &csql.Descriptor{}
if err := kvDB.GetProto(descKey, desc); err != nil {
t.Fatal(err)
}
mTest := mutationTest{
T: t,
kvDB: kvDB,
sqlDB: sqlDB,
descKey: descKey,
desc: desc,
}
starQuery := `SELECT * FROM t.test`
// Run the tests for both states.
for _, state := range []csql.DescriptorMutation_State{csql.DescriptorMutation_DELETE_ONLY, csql.DescriptorMutation_WRITE_ONLY} {
// Init table to start state.
if _, err := sqlDB.Exec(`TRUNCATE TABLE t.test`); err != nil {
t.Fatal(err)
}
initRows := [][]string{{"a", "z", "q"}}
for _, row := range initRows {
if _, err := sqlDB.Exec(`INSERT INTO t.test VALUES ($1, $2, $3)`, row[0], row[1], row[2]); err != nil {
t.Fatal(err)
}
}
// Check that the table only contains the initRows.
_ = mTest.checkQueryResponse(starQuery, initRows)
// Add column "i" as a mutation.
mTest.writeColumnMutation("i", csql.DescriptorMutation{State: state})
// A direct read of column "i" fails.
if _, err := sqlDB.Query(`SELECT i FROM t.test`); err == nil {
t.Fatalf("Read succeeded despite column being in %v state", csql.DescriptorMutation{State: state})
}
// The table only contains columns "k" and "v".
_ = mTest.checkQueryResponse(starQuery, [][]string{{"a", "z"}})
// Inserting a row into the table while specifying column "i" results in an error.
if _, err := sqlDB.Exec(`INSERT INTO t.test (k, v, i) VALUES ('b', 'y', 'i')`); !testutils.IsError(err, `column "i" does not exist`) {
t.Fatal(err)
}
// Repeating the same without specifying the columns results in a different error.
if _, err := sqlDB.Exec(`INSERT INTO t.test VALUES ('b', 'y', 'i')`); !testutils.IsError(err, "INSERT has more expressions than target columns: 3/2") {
t.Fatal(err)
}
// Make column "i" live so that it is read.
mTest.makeMutationsActive()
// Check that we can read all the rows and columns.
_ = mTest.checkQueryResponse(starQuery, initRows)
var afterInsert, afterUpdate, afterDelete [][]string
if state == csql.DescriptorMutation_DELETE_ONLY {
// The default value of "i" for column "i" is not written.
afterInsert = [][]string{{"a", "z", "q"}, {"c", "x", "NULL"}}
// Update is a noop for column "i".
afterUpdate = [][]string{{"a", "u", "q"}, {"c", "x", "NULL"}}
// Delete also deletes column "i".
afterDelete = [][]string{{"c", "x", "NULL"}}
} else {
// The default value of "i" for column "i" is written.
afterInsert = [][]string{{"a", "z", "q"}, {"c", "x", "i"}}
// Update is a noop for column "i".
afterUpdate = [][]string{{"a", "u", "q"}, {"c", "x", "i"}}
// Delete also deletes column "i".
afterDelete = [][]string{{"c", "x", "i"}}
}
// Make column "i" a mutation.
mTest.writeColumnMutation("i", csql.DescriptorMutation{State: state})
// Insert a row into the table.
if _, err := sqlDB.Exec(`INSERT INTO t.test VALUES ('c', 'x')`); err != nil {
t.Fatal(err)
}
// Make column "i" live so that it is read.
mTest.makeMutationsActive()
// Notice that the default value of "i" is only written when the
// descriptor is in the WRITE_ONLY state.
_ = mTest.checkQueryResponse(starQuery, afterInsert)
// Make column "i" a mutation.
mTest.writeColumnMutation("i", csql.DescriptorMutation{State: state})
// Updating column "i" for a row fails.
if _, err := sqlDB.Exec(`UPDATE t.test SET (v, i) = ('u', 'u') WHERE k = 'a'`); !testutils.IsError(err, `column "i" does not exist`) {
t.Fatal(err)
}
// Make column "i" live so that it is read.
mTest.makeMutationsActive()
// The above failed update was a noop.
_ = mTest.checkQueryResponse(starQuery, afterInsert)
// Make column "i" a mutation.
mTest.writeColumnMutation("i", csql.DescriptorMutation{State: state})
// Update a row without specifying mutation column "i".
if _, err := sqlDB.Exec(`UPDATE t.test SET v = 'u' WHERE k = 'a'`); err != nil {
t.Fatal(err)
}
// Make column "i" live so that it is read.
mTest.makeMutationsActive()
// The update to column "v" is seen; there is no effect on column "i".
_ = mTest.checkQueryResponse(starQuery, afterUpdate)
// Make column "i" a mutation.
mTest.writeColumnMutation("i", csql.DescriptorMutation{State: state})
// Delete row "a".
if _, err := sqlDB.Exec(`DELETE FROM t.test WHERE k = 'a'`); err != nil {
t.Fatal(err)
}
// Make column "i" live so that it is read.
mTest.makeMutationsActive()
// Row "a" is deleted. numVals is the number of non-NULL values seen,
// or the number of KV values belonging to all the rows in the table
// excluding row "a" since it's deleted.
numVals := mTest.checkQueryResponse(starQuery, afterDelete)
// Check that there are no hidden KV values for row "a",
// and column "i" for row "a" was deleted.
mTest.checkTableSize(numVals)
}
// Check that a mutation can only be inserted with an explicit mutation state, and direction.
tableDesc := desc.GetTable()
tableDesc.Mutations = []csql.DescriptorMutation{{}}
if err := tableDesc.Validate(); !testutils.IsError(err, "mutation in state UNKNOWN, direction NONE, and no column/index descriptor") {
t.Fatal(err)
}
tableDesc.Mutations = []csql.DescriptorMutation{{Descriptor_: &csql.DescriptorMutation_Column{Column: &tableDesc.Columns[len(tableDesc.Columns)-1]}}}
tableDesc.Columns = tableDesc.Columns[:len(tableDesc.Columns)-1]
if err := tableDesc.Validate(); !testutils.IsError(err, "mutation in state UNKNOWN, direction NONE, col i, id 3") {
t.Fatal(err)
}
tableDesc.Mutations[0].State = csql.DescriptorMutation_DELETE_ONLY
if err := tableDesc.Validate(); !testutils.IsError(err, "mutation in state DELETE_ONLY, direction NONE, col i, id 3") {
t.Fatal(err)
}
tableDesc.Mutations[0].State = csql.DescriptorMutation_UNKNOWN
tableDesc.Mutations[0].Direction = csql.DescriptorMutation_DROP
if err := tableDesc.Validate(); !testutils.IsError(err, "mutation in state UNKNOWN, direction DROP, col i, id 3") {
t.Fatal(err)
}
}
func TestSchemaChangeProcess(t *testing.T) {
defer leaktest.AfterTest(t)
// The descriptor changes made must have an immediate effect
// so disable leases on tables.
defer csql.TestDisableTableLeases()()
// Disable external processing of mutations.
defer csql.TestDisableAsyncSchemaChangeExec()()
server, sqlDB, kvDB := setup(t)
defer cleanup(server, sqlDB)
var id = csql.ID(keys.MaxReservedDescID + 2)
var node = roachpb.NodeID(2)
db := server.DB()
leaseMgr := csql.NewLeaseManager(0, *db, hlc.NewClock(hlc.UnixNano))
changer := csql.NewSchemaChangerForTesting(id, 0, node, *db, leaseMgr)
if _, err := sqlDB.Exec(`
CREATE DATABASE t;
CREATE TABLE t.test (k CHAR PRIMARY KEY, v CHAR, INDEX foo(v));
INSERT INTO t.test VALUES ('a', 'b'), ('c', 'd');
`); err != nil {
t.Fatal(err)
}
// Read table descriptor for version.
nameKey := csql.MakeNameMetadataKey(keys.MaxReservedDescID+1, "test")
gr, err := kvDB.Get(nameKey)
if err != nil {
t.Fatal(err)
}
if !gr.Exists() {
t.Fatalf("Name entry %q does not exist", nameKey)
}
descKey := csql.MakeDescMetadataKey(csql.ID(gr.ValueInt()))
desc := &csql.Descriptor{}
// Check that MaybeIncrementVersion doesn't increment the version
// when the up_version bit is not set.
if err := kvDB.GetProto(descKey, desc); err != nil {
t.Fatal(err)
}
expectedVersion := desc.GetTable().Version
if err := changer.MaybeIncrementVersion(); err != nil {
t.Fatal(err)
}
if err := kvDB.GetProto(descKey, desc); err != nil {
t.Fatal(err)
}
newVersion := desc.GetTable().Version
if newVersion != expectedVersion {
t.Fatalf("bad version; e = %d, v = %d", expectedVersion, newVersion)
}
isDone, err := changer.IsDone()
if err != nil {
t.Fatal(err)
}
if !isDone {
t.Fatalf("table expected to not have an outstanding schema change: %v", desc.GetTable())
}
// Check that MaybeIncrementVersion increments the version
// correctly.
expectedVersion++
desc.GetTable().UpVersion = true
if err := kvDB.Put(descKey, desc); err != nil {
t.Fatal(err)
}
isDone, err = changer.IsDone()
if err != nil {
t.Fatal(err)
}
if isDone {
t.Fatalf("table expected to have an outstanding schema change: %v", desc.GetTable())
}
if err := changer.MaybeIncrementVersion(); err != nil {
t.Fatal(err)
}
if err := kvDB.GetProto(descKey, desc); err != nil {
t.Fatal(err)
}
newVersion = desc.GetTable().Version
if newVersion != expectedVersion {
t.Fatalf("bad version; e = %d, v = %d", expectedVersion, newVersion)
}
isDone, err = changer.IsDone()
if err != nil {
t.Fatal(err)
}
if !isDone {
t.Fatalf("table expected to not have an outstanding schema change: %v", desc.GetTable())
}
// Check that RunStateMachineBeforeBackfill doesn't do anything
// if there are no mutations queued.
if err := changer.RunStateMachineBeforeBackfill(); err != nil {
t.Fatal(err)
}
if err := kvDB.GetProto(descKey, desc); err != nil {
t.Fatal(err)
}
newVersion = desc.GetTable().Version
if newVersion != expectedVersion {
t.Fatalf("bad version; e = %d, v = %d", expectedVersion, newVersion)
}
// Check that RunStateMachineBeforeBackfill functions properly.
if err := kvDB.GetProto(descKey, desc); err != nil {
t.Fatal(err)
}
table := desc.GetTable()
expectedVersion = table.Version
// Make a copy of the index for use in a mutation.
index := proto.Clone(&table.Indexes[0]).(*csql.IndexDescriptor)
index.Name = "bar"
index.ID = table.NextIndexID
table.NextIndexID++
changer = csql.NewSchemaChangerForTesting(id, table.NextMutationID, node, *db, leaseMgr)
table.Mutations = append(table.Mutations, csql.DescriptorMutation{
Descriptor_: &csql.DescriptorMutation_Index{Index: index},
Direction: csql.DescriptorMutation_ADD,
State: csql.DescriptorMutation_DELETE_ONLY,
MutationID: table.NextMutationID,
})
table.NextMutationID++
// Run state machine in both directions.
for _, direction := range []csql.DescriptorMutation_Direction{csql.DescriptorMutation_ADD, csql.DescriptorMutation_DROP} {
table.Mutations[0].Direction = direction
expectedVersion++
if err := kvDB.Put(descKey, desc); err != nil {
t.Fatal(err)
}
// The expected end state.
expectedState := csql.DescriptorMutation_WRITE_ONLY
if direction == csql.DescriptorMutation_DROP {
expectedState = csql.DescriptorMutation_DELETE_ONLY
}
// Run two times to ensure idempotency of operations.
for i := 0; i < 2; i++ {
if err := changer.RunStateMachineBeforeBackfill(); err != nil {
t.Fatal(err)
}
if err := kvDB.GetProto(descKey, desc); err != nil {
t.Fatal(err)
}
table = desc.GetTable()
newVersion = table.Version
if newVersion != expectedVersion {
t.Fatalf("bad version; e = %d, v = %d", expectedVersion, newVersion)
}
state := table.Mutations[0].State
if state != expectedState {
t.Fatalf("bad state; e = %d, v = %d", expectedState, state)
}
}
}
// RunStateMachineBeforeBackfill() doesn't complete the schema change.
isDone, err = changer.IsDone()
if err != nil {
t.Fatal(err)
}
if isDone {
t.Fatalf("table expected to have an outstanding schema change: %v", desc.GetTable())
}
}
// Test schema change backfills are not affected by various operations
// that run simultaneously.
func TestRaceWithBackfill(t *testing.T) {
defer leaktest.AfterTest(t)()
// Disable asynchronous schema change execution to allow synchronous path
// to trigger start of backfill notification.
defer csql.TestDisableAsyncSchemaChangeExec()()
var execKnobs csql.ExecutorTestingKnobs
var backfillNotification chan bool
execKnobs.SchemaChangersStartBackfillNotification =
func() {
if backfillNotification != nil {
// Close channel to notify that the backfill has started.
close(backfillNotification)
}
}
ctx, _ := createTestServerContext()
ctx.TestingKnobs.SQLExecutor = &execKnobs
server, sqlDB, kvDB := setupWithContext(t, ctx)
defer cleanup(server, sqlDB)
if _, err := sqlDB.Exec(`
CREATE DATABASE t;
CREATE TABLE t.test (k INT PRIMARY KEY, v INT, pi DECIMAL DEFAULT (DECIMAL '3.14'));
CREATE UNIQUE INDEX vidx ON t.test (v);
`); err != nil {
t.Fatal(err)
}
// Bulk insert.
maxValue := 4000
insert := fmt.Sprintf(`INSERT INTO t.test VALUES (%d, %d)`, 0, maxValue)
for i := 1; i <= maxValue; i++ {
insert += fmt.Sprintf(` ,(%d, %d)`, i, maxValue-i)
}
if _, err := sqlDB.Exec(insert); err != nil {
t.Fatal(err)
}
// Read table descriptor for version.
nameKey := sqlbase.MakeNameMetadataKey(keys.MaxReservedDescID+1, "test")
gr, err := kvDB.Get(nameKey)
if err != nil {
t.Fatal(err)
}
if !gr.Exists() {
t.Fatalf("Name entry %q does not exist", nameKey)
}
descKey := sqlbase.MakeDescMetadataKey(sqlbase.ID(gr.ValueInt()))
desc := &sqlbase.Descriptor{}
if err := kvDB.GetProto(descKey, desc); err != nil {
t.Fatal(err)
}
tableDesc := desc.GetTable()
tablePrefix := roachpb.Key(keys.MakeTablePrefix(uint32(tableDesc.ID)))
tableEnd := tablePrefix.PrefixEnd()
// number of keys == 4 * number of rows; 3 columns and 1 index entry for
// each row.
if kvs, err := kvDB.Scan(tablePrefix, tableEnd, 0); err != nil {
t.Fatal(err)
} else if e := 4 * (maxValue + 1); len(kvs) != e {
t.Fatalf("expected %d key value pairs, but got %d", e, len(kvs))
}
// Run some schema changes with operations.
// Add column.
backfillNotification = make(chan bool)
runSchemaChangeWithOperations(
t,
sqlDB,
kvDB,
"ALTER TABLE t.test ADD COLUMN x DECIMAL DEFAULT (DECIMAL '1.4')",
maxValue,
5,
descKey,
backfillNotification)
// Drop column.
backfillNotification = make(chan bool)
runSchemaChangeWithOperations(
t,
sqlDB,
kvDB,
"ALTER TABLE t.test DROP pi",
maxValue,
4,
descKey,
backfillNotification)
// Add index.
backfillNotification = make(chan bool)
runSchemaChangeWithOperations(
t,
sqlDB,
kvDB,
"CREATE UNIQUE INDEX foo ON t.test (v)",
maxValue,
5,
descKey,
backfillNotification)
// Drop index.
backfillNotification = make(chan bool)
runSchemaChangeWithOperations(
t,
sqlDB,
kvDB,
"DROP INDEX t.test@vidx",
maxValue,
4,
descKey,
backfillNotification)
// Verify that the index foo over v is consistent, and that column x has
// been backfilled properly.
rows, err := sqlDB.Query(`SELECT v, x from t.test@foo`)
if err != nil {
t.Fatal(err)
}
count := 0
for ; rows.Next(); count++ {
var val int
var x float64
if err := rows.Scan(&val, &x); err != nil {
t.Errorf("row %d scan failed: %s", count, err)
continue
}
if count != val {
t.Errorf("e = %d, v = %d", count, val)
}
if 1.4 != x {
t.Errorf("e = %f, v = %f", 1.4, x)
}
}
if err := rows.Err(); err != nil {
t.Fatal(err)
}
eCount := maxValue + 1
if eCount != count {
t.Fatalf("read the wrong number of rows: e = %d, v = %d", eCount, count)
}
// Verify that a table delete in the middle of a backfill works properly.
// The backfill will terminate in the middle, and the delete will
// successfully delete all the table data.
//
// This test could be made its own test but is placed here to speed up the
// testing.
backfillNotification = make(chan bool)
// Run the schema change in a separate goroutine.
var wg sync.WaitGroup
wg.Add(1)
go func() {
// Start schema change that eventually runs a backfill.
if _, err := sqlDB.Exec("CREATE UNIQUE INDEX bar ON t.test (v)"); err != nil {
t.Error(err)
}
wg.Done()
}()
// Wait until the schema change backfill starts.
<-backfillNotification
// Wait for a short bit to ensure that the backfill has likely progressed
// and written some data, but not long enough that the backfill has
// completed.
time.Sleep(10 * time.Millisecond)
if _, err := sqlDB.Exec("DROP TABLE t.test"); err != nil {
t.Fatal(err)
}
// Wait until the schema change is done.
wg.Wait()
// Ensure that the table data has been deleted.
if kvs, err := kvDB.Scan(tablePrefix, tableEnd, 0); err != nil {
t.Fatal(err)
} else if len(kvs) != 0 {
t.Fatalf("expected %d key value pairs, but got %d", 0, len(kvs))
}
}
// Test that once a table is marked as deleted, a lease's refcount dropping to 0
// means the lease is released immediately, as opposed to being released only
// when it expires.
func TestLeasesOnDeletedTableAreReleasedImmediately(t *testing.T) {
defer leaktest.AfterTest(t)()
defer csql.TestDisableAsyncSchemaChangeExec()()
var execKnobs csql.ExecutorTestingKnobs
var lmKnobs csql.LeaseManagerTestingKnobs
var mu sync.Mutex
clearSchemaChangers := false
execKnobs.SyncSchemaChangersFilter =
func(tscc csql.TestingSchemaChangerCollection) {
mu.Lock()
defer mu.Unlock()
if clearSchemaChangers {
tscc.ClearSchemaChangers()
}
}
var waitTableID sqlbase.ID
deleted := make(chan bool)
lmKnobs.TestingLeasesRefreshedEvent =
func(cfg config.SystemConfig) {
mu.Lock()
defer mu.Unlock()
if waitTableID != 0 {
if isDeleted(waitTableID, cfg) {
close(deleted)
waitTableID = 0
}
}
}
ctx, _ := createTestServerContext()
ctx.TestingKnobs.SQLExecutor = &execKnobs
ctx.TestingKnobs.SQLLeaseManager = &lmKnobs
s, db, kvDB := setupWithContext(t, ctx)
defer cleanup(s, db)
sql := `
CREATE DATABASE test;
CREATE TABLE test.t(a INT PRIMARY KEY);
`
_, err := db.Exec(sql)
if err != nil {
t.Fatal(err)
}
tableDesc := getTableDescriptor(kvDB, "test", "t")
lease1, err := acquire(s.TestServer, tableDesc.ID, 0)
if err != nil {
t.Fatal(err)
}
lease2, err := acquire(s.TestServer, tableDesc.ID, 0)
if err != nil {
t.Fatal(err)
}
// Block schema changers so that the table we're about to DROP is not actually
// dropped; it will be left in a "deleted" state.
// Also install a way to wait for the config update to be processed.
mu.Lock()
clearSchemaChangers = true
waitTableID = tableDesc.ID
mu.Unlock()
// DROP the table
_, err = db.Exec(`DROP TABLE test.t`)
if err != nil {
t.Fatal(err)
}
// Block until the LeaseManager has processed the gossip update.
<-deleted
// We should still be able to acquire, because we have an active lease.
lease3, err := acquire(s.TestServer, tableDesc.ID, 0)
if err != nil {
t.Fatal(err)
}
// Release everything.
if err := s.LeaseManager().Release(lease1); err != nil {
t.Fatal(err)
}
if err := s.LeaseManager().Release(lease2); err != nil {
t.Fatal(err)
}
if err := s.LeaseManager().Release(lease3); err != nil {
t.Fatal(err)
}
// Now we shouldn't be able to acquire any more.
_, err = acquire(s.TestServer, tableDesc.ID, 0)
if !testutils.IsError(err, "descriptor deleted") {
t.Fatalf("got a different error than expected: %s", err)
}
}
