third_party/sqlite/src/test/attach2.test - cobalt - Git at Google

 # 2003 July 1
 #
 # The author disclaims copyright to this source code.  In place of
 # a legal notice, here is a blessing:
 #
 #    May you do good and not evil.
 #    May you find forgiveness for yourself and forgive others.
 #    May you share freely, never taking more than you give.
 #
 #***********************************************************************
 # This file implements regression tests for SQLite library.  The
 # focus of this script is testing the ATTACH and DETACH commands
 # and related functionality.
 #
 # $Id: attach2.test,v 1.38 2007/12/13 21:54:11 drh Exp $
 #

 set testdir [file dirname $argv0]
 source $testdir/tester.tcl

 ifcapable !attach {
   finish_test
   return
 }

 # Ticket #354
 #
 # Databases test.db and test2.db contain identical schemas.  Make
 # sure we can attach test2.db from test.db.
 #
 do_test attach2-1.1 {
   db eval {
     CREATE TABLE t1(a,b);
     CREATE INDEX x1 ON t1(a);
   }
   file delete -force test2.db
   file delete -force test2.db-journal
   sqlite3 db2 test2.db
   db2 eval {
     CREATE TABLE t1(a,b);
     CREATE INDEX x1 ON t1(a);
   }
   catchsql {
     ATTACH 'test2.db' AS t2;
   }
 } {0 {}}

 # Ticket #514
 #
 proc db_list {db} {
   set list {}
   foreach {idx name file} [execsql {PRAGMA database_list} $db] {
     lappend list $idx $name
   }
   return $list
 }
 db eval {DETACH t2}
 do_test attach2-2.1 {
   # lock test2.db then try to attach it.  This is no longer an error because
   # db2 just RESERVES the database.  It does not obtain a write-lock until
   # we COMMIT.
   db2 eval {BEGIN}
   db2 eval {UPDATE t1 SET a = 0 WHERE 0}
   catchsql {
     ATTACH 'test2.db' AS t2;
   }
 } {0 {}}
 ifcapable schema_pragmas {
 do_test attach2-2.2 {
   # make sure test2.db did get attached.
   db_list db
 } {0 main 2 t2}
 } ;# ifcapable schema_pragmas
 db2 eval {COMMIT}

 do_test attach2-2.5 {
   # Make sure we can read test2.db from db
   catchsql {
     SELECT name FROM t2.sqlite_master;
   }
 } {0 {t1 x1}}
 do_test attach2-2.6 {
   # lock test2.db and try to read from it.  This should still work because
   # the lock is only a RESERVED lock which does not prevent reading.
   #
   db2 eval BEGIN
   db2 eval {UPDATE t1 SET a = 0 WHERE 0}
   catchsql {
     SELECT name FROM t2.sqlite_master;
   }
 } {0 {t1 x1}}
 do_test attach2-2.7 {
   # but we can still read from test1.db even though test2.db is locked.
   catchsql {
     SELECT name FROM main.sqlite_master;
   }
 } {0 {t1 x1}}
 do_test attach2-2.8 {
   # start a transaction on test.db even though test2.db is locked.
   catchsql {
     BEGIN;
     INSERT INTO t1 VALUES(8,9);
   }
 } {0 {}}
 do_test attach2-2.9 {
   execsql {
     SELECT * FROM t1
   }
 } {8 9}
 do_test attach2-2.10 {
   # now try to write to test2.db.  the write should fail
   catchsql {
     INSERT INTO t2.t1 VALUES(1,2);
   }
 } {1 {database is locked}}
 do_test attach2-2.11 {
   # when the write failed in the previous test, the transaction should
   # have rolled back.
   #
   # Update for version 3: A transaction is no longer rolled back if a
   #                       database is found to be busy.
   execsql {rollback}
   db2 eval ROLLBACK
   execsql {
     SELECT * FROM t1
   }
 } {}
 do_test attach2-2.12 {
   catchsql {
     COMMIT
   }
 } {1 {cannot commit - no transaction is active}}

 # Ticket #574:  Make sure it works using the non-callback API
 #
 do_test attach2-3.1 {
   set DB [sqlite3_connection_pointer db]
   set rc [catch {sqlite3_prepare $DB "ATTACH 'test2.db' AS t2" -1 TAIL} VM]
   if {$rc} {lappend rc $VM}
   sqlite3_step $VM
   sqlite3_finalize $VM
   set rc
 } {0}
 do_test attach2-3.2 {
   set rc [catch {sqlite3_prepare $DB "DETACH t2" -1 TAIL} VM]
   if {$rc} {lappend rc $VM}
   sqlite3_step $VM
   sqlite3_finalize $VM
   set rc
 } {0}

 db close
 for {set i 2} {$i<=15} {incr i} {
   catch {db$i close}
 }

 # A procedure to verify the status of locks on a database.
 #
 proc lock_status {testnum db expected_result} {
   # If the database was compiled with OMIT_TEMPDB set, then
   # the lock_status list will not contain an entry for the temp
   # db. But the test code doesn't know this, so its easiest
   # to filter it out of the $expected_result list here.
   ifcapable !tempdb {
     set expected_result [concat \
         [lrange $expected_result 0 1] \
         [lrange $expected_result 4 end] \
     ]
   }
   do_test attach2-$testnum [subst {
     $db cache flush  ;# The lock_status pragma should not be cached
     execsql {PRAGMA lock_status} $db
   }] $expected_result
 }
 set sqlite_os_trace 0

 # Tests attach2-4.* test that read-locks work correctly with attached
 # databases.
 do_test attach2-4.1 {
   sqlite3 db test.db
   sqlite3 db2 test.db
   execsql {ATTACH 'test2.db' as file2}
   execsql {ATTACH 'test2.db' as file2} db2
 } {}

 lock_status 4.1.1 db {main unlocked temp closed file2 unlocked}
 lock_status 4.1.2 db2 {main unlocked temp closed file2 unlocked}

 do_test attach2-4.2 {
   # Handle 'db' read-locks test.db
   execsql {BEGIN}
   execsql {SELECT * FROM t1}
   # Lock status:
   #    db  - shared(main)
   #    db2 -
 } {}

 lock_status 4.2.1 db {main shared temp closed file2 unlocked}
 lock_status 4.2.2 db2 {main unlocked temp closed file2 unlocked}

 do_test attach2-4.3 {
   # The read lock held by db does not prevent db2 from reading test.db
   execsql {SELECT * FROM t1} db2
 } {}

 lock_status 4.3.1 db {main shared temp closed file2 unlocked}
 lock_status 4.3.2 db2 {main unlocked temp closed file2 unlocked}

 do_test attach2-4.4 {
   # db is holding a read lock on test.db, so we should not be able
   # to commit a write to test.db from db2
   catchsql {
     INSERT INTO t1 VALUES(1, 2)
   } db2
 } {1 {database is locked}}

 lock_status 4.4.1 db {main shared temp closed file2 unlocked}
 lock_status 4.4.2 db2 {main unlocked temp closed file2 unlocked}

 # We have to make sure that the cache_size and the soft_heap_limit
 # are large enough to hold the entire change in memory.  If either
 # is set too small, then changes will spill to the database, forcing
 # a reserved lock to promote to exclusive.  That will mess up our
 # test results.

 set soft_limit [sqlite3_soft_heap_limit 0]


 do_test attach2-4.5 {
   # Handle 'db2' reserves file2.
   execsql {BEGIN} db2
   execsql {INSERT INTO file2.t1 VALUES(1, 2)} db2
   # Lock status:
   #    db  - shared(main)
   #    db2 - reserved(file2)
 } {}

 lock_status 4.5.1 db {main shared temp closed file2 unlocked}
 lock_status 4.5.2 db2 {main unlocked temp closed file2 reserved}

 do_test attach2-4.6.1 {
   # Reads are allowed against a reserved database.
   catchsql {
     SELECT * FROM file2.t1;
   }
   # Lock status:
   #    db  - shared(main), shared(file2)
   #    db2 - reserved(file2)
 } {0 {}}

 lock_status 4.6.1.1 db {main shared temp closed file2 shared}
 lock_status 4.6.1.2 db2 {main unlocked temp closed file2 reserved}

 do_test attach2-4.6.2 {
   # Writes against a reserved database are not allowed.
   catchsql {
     UPDATE file2.t1 SET a=0;
   }
 } {1 {database is locked}}

 lock_status 4.6.2.1 db {main shared temp closed file2 shared}
 lock_status 4.6.2.2 db2 {main unlocked temp closed file2 reserved}

 do_test attach2-4.7 {
   # Ensure handle 'db' retains the lock on the main file after
   # failing to obtain a write-lock on file2.
   catchsql {
     INSERT INTO t1 VALUES(1, 2)
   } db2
 } {0 {}}

 lock_status 4.7.1 db {main shared temp closed file2 shared}
 lock_status 4.7.2 db2 {main reserved temp closed file2 reserved}

 do_test attach2-4.8 {
   # We should still be able to read test.db from db2
   execsql {SELECT * FROM t1} db2
 } {1 2}

 lock_status 4.8.1 db {main shared temp closed file2 shared}
 lock_status 4.8.2 db2 {main reserved temp closed file2 reserved}

 do_test attach2-4.9 {
   # Try to upgrade the handle 'db' lock.
   catchsql {
     INSERT INTO t1 VALUES(1, 2)
   }
 } {1 {database is locked}}

 lock_status 4.9.1 db {main shared temp closed file2 shared}
 lock_status 4.9.2 db2 {main reserved temp closed file2 reserved}

 do_test attach2-4.10 {
   # We cannot commit db2 while db is holding a read-lock
   catchsql {COMMIT} db2
 } {1 {database is locked}}

 lock_status 4.10.1 db {main shared temp closed file2 shared}
 lock_status 4.10.2 db2 {main pending temp closed file2 reserved}

 set sqlite_os_trace 0
 do_test attach2-4.11 {
   # db is able to commit.
   catchsql {COMMIT}
 } {0 {}}

 lock_status 4.11.1 db {main unlocked temp closed file2 unlocked}
 lock_status 4.11.2 db2 {main pending temp closed file2 reserved}

 do_test attach2-4.12 {
   # Now we can commit db2
   catchsql {COMMIT} db2
 } {0 {}}

 lock_status 4.12.1 db {main unlocked temp closed file2 unlocked}
 lock_status 4.12.2 db2 {main unlocked temp closed file2 unlocked}

 do_test attach2-4.13 {
   execsql {SELECT * FROM file2.t1}
 } {1 2}
 do_test attach2-4.14 {
   execsql {INSERT INTO t1 VALUES(1, 2)}
 } {}
 do_test attach2-4.15 {
   execsql {SELECT * FROM t1} db2
 } {1 2 1 2}

 db close
 db2 close
 file delete -force test2.db
 sqlite3_soft_heap_limit $soft_limit

 # These tests - attach2-5.* - check that the master journal file is deleted
 # correctly when a multi-file transaction is committed or rolled back.
 #
 # Update: It's not actually created if a rollback occurs, so that test
 # doesn't really prove too much.
 foreach f [glob test.db*] {file delete -force $f}
 do_test attach2-5.1 {
   sqlite3 db test.db
   execsql {
     ATTACH 'test.db2' AS aux;
   }
 } {}
 do_test attach2-5.2 {
   execsql {
     BEGIN;
     CREATE TABLE tbl(a, b, c);
     CREATE TABLE aux.tbl(a, b, c);
     COMMIT;
   }
 } {}
 do_test attach2-5.3 {
   lsort [glob test.db*]
 } {test.db test.db2}
 do_test attach2-5.4 {
   execsql {
     BEGIN;
     DROP TABLE aux.tbl;
     DROP TABLE tbl;
     ROLLBACK;
   }
 } {}
 do_test attach2-5.5 {
   lsort [glob test.db*]
 } {test.db test.db2}

 # Check that a database cannot be ATTACHed or DETACHed during a transaction.
 do_test attach2-6.1 {
   execsql {
     BEGIN;
   }
 } {}
 do_test attach2-6.2 {
   catchsql {
     ATTACH 'test3.db' as aux2;
   }
 } {1 {cannot ATTACH database within transaction}}

 do_test attach2-6.3 {
   catchsql {
     DETACH aux;
   }
 } {1 {cannot DETACH database within transaction}}
 do_test attach2-6.4 {
   execsql {
     COMMIT;
     DETACH aux;
   }
 } {}

 db close

 finish_test
	# 2003 July 1
	#
	# The author disclaims copyright to this source code. In place of
	# a legal notice, here is a blessing:
	#
	# May you do good and not evil.
	# May you find forgiveness for yourself and forgive others.
	# May you share freely, never taking more than you give.
	#
	#***********************************************************************
	# This file implements regression tests for SQLite library. The
	# focus of this script is testing the ATTACH and DETACH commands
	# and related functionality.
	#
	# $Id: attach2.test,v 1.38 2007/12/13 21:54:11 drh Exp $
	#

	set testdir [file dirname $argv0]
	source $testdir/tester.tcl

	ifcapable !attach {
	finish_test
	return
	}

	# Ticket #354
	#
	# Databases test.db and test2.db contain identical schemas. Make
	# sure we can attach test2.db from test.db.
	#
	do_test attach2-1.1 {
	db eval {
	CREATE TABLE t1(a,b);
	CREATE INDEX x1 ON t1(a);
	}
	file delete -force test2.db
	file delete -force test2.db-journal
	sqlite3 db2 test2.db
	db2 eval {
	CREATE TABLE t1(a,b);
	CREATE INDEX x1 ON t1(a);
	}
	catchsql {
	ATTACH 'test2.db' AS t2;
	}
	} {0 {}}

	# Ticket #514
	#
	proc db_list {db} {
	set list {}
	foreach {idx name file} [execsql {PRAGMA database_list} $db] {
	lappend list $idx $name
	}
	return $list
	}
	db eval {DETACH t2}
	do_test attach2-2.1 {
	# lock test2.db then try to attach it. This is no longer an error because
	# db2 just RESERVES the database. It does not obtain a write-lock until
	# we COMMIT.
	db2 eval {BEGIN}
	db2 eval {UPDATE t1 SET a = 0 WHERE 0}
	catchsql {
	ATTACH 'test2.db' AS t2;
	}
	} {0 {}}
	ifcapable schema_pragmas {
	do_test attach2-2.2 {
	# make sure test2.db did get attached.
	db_list db
	} {0 main 2 t2}
	} ;# ifcapable schema_pragmas
	db2 eval {COMMIT}

	do_test attach2-2.5 {
	# Make sure we can read test2.db from db
	catchsql {
	SELECT name FROM t2.sqlite_master;
	}
	} {0 {t1 x1}}
	do_test attach2-2.6 {
	# lock test2.db and try to read from it. This should still work because
	# the lock is only a RESERVED lock which does not prevent reading.
	#
	db2 eval BEGIN
	db2 eval {UPDATE t1 SET a = 0 WHERE 0}
	catchsql {
	SELECT name FROM t2.sqlite_master;
	}
	} {0 {t1 x1}}
	do_test attach2-2.7 {
	# but we can still read from test1.db even though test2.db is locked.
	catchsql {
	SELECT name FROM main.sqlite_master;
	}
	} {0 {t1 x1}}
	do_test attach2-2.8 {
	# start a transaction on test.db even though test2.db is locked.
	catchsql {
	BEGIN;
	INSERT INTO t1 VALUES(8,9);
	}
	} {0 {}}
	do_test attach2-2.9 {
	execsql {
	SELECT * FROM t1
	}
	} {8 9}
	do_test attach2-2.10 {
	# now try to write to test2.db. the write should fail
	catchsql {
	INSERT INTO t2.t1 VALUES(1,2);
	}
	} {1 {database is locked}}
	do_test attach2-2.11 {
	# when the write failed in the previous test, the transaction should
	# have rolled back.
	#
	# Update for version 3: A transaction is no longer rolled back if a
	# database is found to be busy.
	execsql {rollback}
	db2 eval ROLLBACK
	execsql {
	SELECT * FROM t1
	}
	} {}
	do_test attach2-2.12 {
	catchsql {
	COMMIT
	}
	} {1 {cannot commit - no transaction is active}}

	# Ticket #574: Make sure it works using the non-callback API
	#
	do_test attach2-3.1 {
	set DB [sqlite3_connection_pointer db]
	set rc [catch {sqlite3_prepare $DB "ATTACH 'test2.db' AS t2" -1 TAIL} VM]
	if {$rc} {lappend rc $VM}
	sqlite3_step $VM
	sqlite3_finalize $VM
	set rc
	} {0}
	do_test attach2-3.2 {
	set rc [catch {sqlite3_prepare $DB "DETACH t2" -1 TAIL} VM]
	if {$rc} {lappend rc $VM}
	sqlite3_step $VM
	sqlite3_finalize $VM
	set rc
	} {0}

	db close
	for {set i 2} {$i<=15} {incr i} {
	catch {db$i close}
	}

	# A procedure to verify the status of locks on a database.
	#
	proc lock_status {testnum db expected_result} {
	# If the database was compiled with OMIT_TEMPDB set, then
	# the lock_status list will not contain an entry for the temp
	# db. But the test code doesn't know this, so its easiest
	# to filter it out of the $expected_result list here.
	ifcapable !tempdb {
	set expected_result [concat \
	[lrange $expected_result 0 1] \
	[lrange $expected_result 4 end] \
	]
	}
	do_test attach2-$testnum [subst {
	$db cache flush ;# The lock_status pragma should not be cached
	execsql {PRAGMA lock_status} $db
	}] $expected_result
	}
	set sqlite_os_trace 0

	# Tests attach2-4.* test that read-locks work correctly with attached
	# databases.
	do_test attach2-4.1 {
	sqlite3 db test.db
	sqlite3 db2 test.db
	execsql {ATTACH 'test2.db' as file2}
	execsql {ATTACH 'test2.db' as file2} db2
	} {}

	lock_status 4.1.1 db {main unlocked temp closed file2 unlocked}
	lock_status 4.1.2 db2 {main unlocked temp closed file2 unlocked}

	do_test attach2-4.2 {
	# Handle 'db' read-locks test.db
	execsql {BEGIN}
	execsql {SELECT * FROM t1}
	# Lock status:
	# db - shared(main)
	# db2 -
	} {}

	lock_status 4.2.1 db {main shared temp closed file2 unlocked}
	lock_status 4.2.2 db2 {main unlocked temp closed file2 unlocked}

	do_test attach2-4.3 {
	# The read lock held by db does not prevent db2 from reading test.db
	execsql {SELECT * FROM t1} db2
	} {}

	lock_status 4.3.1 db {main shared temp closed file2 unlocked}
	lock_status 4.3.2 db2 {main unlocked temp closed file2 unlocked}

	do_test attach2-4.4 {
	# db is holding a read lock on test.db, so we should not be able
	# to commit a write to test.db from db2
	catchsql {
	INSERT INTO t1 VALUES(1, 2)
	} db2
	} {1 {database is locked}}

	lock_status 4.4.1 db {main shared temp closed file2 unlocked}
	lock_status 4.4.2 db2 {main unlocked temp closed file2 unlocked}

	# We have to make sure that the cache_size and the soft_heap_limit
	# are large enough to hold the entire change in memory. If either
	# is set too small, then changes will spill to the database, forcing
	# a reserved lock to promote to exclusive. That will mess up our
	# test results.

	set soft_limit [sqlite3_soft_heap_limit 0]


	do_test attach2-4.5 {
	# Handle 'db2' reserves file2.
	execsql {BEGIN} db2
	execsql {INSERT INTO file2.t1 VALUES(1, 2)} db2
	# Lock status:
	# db - shared(main)
	# db2 - reserved(file2)
	} {}

	lock_status 4.5.1 db {main shared temp closed file2 unlocked}
	lock_status 4.5.2 db2 {main unlocked temp closed file2 reserved}

	do_test attach2-4.6.1 {
	# Reads are allowed against a reserved database.
	catchsql {
	SELECT * FROM file2.t1;
	}
	# Lock status:
	# db - shared(main), shared(file2)
	# db2 - reserved(file2)
	} {0 {}}

	lock_status 4.6.1.1 db {main shared temp closed file2 shared}
	lock_status 4.6.1.2 db2 {main unlocked temp closed file2 reserved}

	do_test attach2-4.6.2 {
	# Writes against a reserved database are not allowed.
	catchsql {
	UPDATE file2.t1 SET a=0;
	}
	} {1 {database is locked}}

	lock_status 4.6.2.1 db {main shared temp closed file2 shared}
	lock_status 4.6.2.2 db2 {main unlocked temp closed file2 reserved}

	do_test attach2-4.7 {
	# Ensure handle 'db' retains the lock on the main file after
	# failing to obtain a write-lock on file2.
	catchsql {
	INSERT INTO t1 VALUES(1, 2)
	} db2
	} {0 {}}

	lock_status 4.7.1 db {main shared temp closed file2 shared}
	lock_status 4.7.2 db2 {main reserved temp closed file2 reserved}

	do_test attach2-4.8 {
	# We should still be able to read test.db from db2
	execsql {SELECT * FROM t1} db2
	} {1 2}

	lock_status 4.8.1 db {main shared temp closed file2 shared}
	lock_status 4.8.2 db2 {main reserved temp closed file2 reserved}

	do_test attach2-4.9 {
	# Try to upgrade the handle 'db' lock.
	catchsql {
	INSERT INTO t1 VALUES(1, 2)
	}
	} {1 {database is locked}}

	lock_status 4.9.1 db {main shared temp closed file2 shared}
	lock_status 4.9.2 db2 {main reserved temp closed file2 reserved}

	do_test attach2-4.10 {
	# We cannot commit db2 while db is holding a read-lock
	catchsql {COMMIT} db2
	} {1 {database is locked}}

	lock_status 4.10.1 db {main shared temp closed file2 shared}
	lock_status 4.10.2 db2 {main pending temp closed file2 reserved}

	set sqlite_os_trace 0
	do_test attach2-4.11 {
	# db is able to commit.
	catchsql {COMMIT}
	} {0 {}}

	lock_status 4.11.1 db {main unlocked temp closed file2 unlocked}
	lock_status 4.11.2 db2 {main pending temp closed file2 reserved}

	do_test attach2-4.12 {
	# Now we can commit db2
	catchsql {COMMIT} db2
	} {0 {}}

	lock_status 4.12.1 db {main unlocked temp closed file2 unlocked}
	lock_status 4.12.2 db2 {main unlocked temp closed file2 unlocked}

	do_test attach2-4.13 {
	execsql {SELECT * FROM file2.t1}
	} {1 2}
	do_test attach2-4.14 {
	execsql {INSERT INTO t1 VALUES(1, 2)}
	} {}
	do_test attach2-4.15 {
	execsql {SELECT * FROM t1} db2
	} {1 2 1 2}

	db close
	db2 close
	file delete -force test2.db
	sqlite3_soft_heap_limit $soft_limit

	# These tests - attach2-5.* - check that the master journal file is deleted
	# correctly when a multi-file transaction is committed or rolled back.
	#
	# Update: It's not actually created if a rollback occurs, so that test
	# doesn't really prove too much.
	foreach f [glob test.db*] {file delete -force $f}
	do_test attach2-5.1 {
	sqlite3 db test.db
	execsql {
	ATTACH 'test.db2' AS aux;
	}
	} {}
	do_test attach2-5.2 {
	execsql {
	BEGIN;
	CREATE TABLE tbl(a, b, c);
	CREATE TABLE aux.tbl(a, b, c);
	COMMIT;
	}
	} {}
	do_test attach2-5.3 {
	lsort [glob test.db*]
	} {test.db test.db2}
	do_test attach2-5.4 {
	execsql {
	BEGIN;
	DROP TABLE aux.tbl;
	DROP TABLE tbl;
	ROLLBACK;
	}
	} {}
	do_test attach2-5.5 {
	lsort [glob test.db*]
	} {test.db test.db2}

	# Check that a database cannot be ATTACHed or DETACHed during a transaction.
	do_test attach2-6.1 {
	execsql {
	BEGIN;
	}
	} {}
	do_test attach2-6.2 {
	catchsql {
	ATTACH 'test3.db' as aux2;
	}
	} {1 {cannot ATTACH database within transaction}}

	do_test attach2-6.3 {
	catchsql {
	DETACH aux;
	}
	} {1 {cannot DETACH database within transaction}}
	do_test attach2-6.4 {
	execsql {
	COMMIT;
	DETACH aux;
	}
	} {}

	db close

	finish_test