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

 # 2007 April 12
 #
 # 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 the tests in this file are to verify that the
 # pager optimizations implemented in version 3.3.14 work.
 #
 # $Id: pageropt.test,v 1.5 2008/08/20 14:49:25 danielk1977 Exp $

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

 ifcapable {!pager_pragmas||secure_delete} {
   finish_test
   return
 }

 # Run the SQL statement supplied by the argument and return
 # the results.  Prepend four integers to the beginning of the
 # result which are
 #
 #     (1)  The number of page reads from the database
 #     (2)  The number of page writes to the database
 #     (3)  The number of page writes to the journal
 #     (4)  The number of cache pages freed
 #
 proc pagercount_sql {sql {db db}} {
   global sqlite3_pager_readdb_count
   global sqlite3_pager_writedb_count
   global sqlite3_pager_writej_count
   global sqlite3_pager_pgfree_count
   set sqlite3_pager_readdb_count 0
   set sqlite3_pager_writedb_count 0
   set sqlite3_pager_writej_count 0
   set r [$db eval $sql]
   set cnt [list $sqlite3_pager_readdb_count \
                 $sqlite3_pager_writedb_count \
                 $sqlite3_pager_writej_count ]
   return [concat $cnt $r]
 }

 # Setup the test database
 #
 do_test pageropt-1.1 {
   sqlite3_soft_heap_limit 0
   execsql {
     PRAGMA auto_vacuum = OFF;
     PRAGMA page_size = 1024;
   }
   pagercount_sql {
     CREATE TABLE t1(x);
   }
 } {0 2 0}
 do_test pageropt-1.2 {
   pagercount_sql {
     INSERT INTO t1 VALUES(randomblob(5000));
   }
 } {0 6 2}

 # Verify that values remain in cache on for subsequent reads.
 # We should not have to go back to disk.
 #
 do_test pageropt-1.3 {
   pagercount_sql {
     SELECT length(x) FROM t1
   }
 } {0 0 0 5000}

 # If another thread reads the database, the original cache
 # remains valid.
 #
 sqlite3 db2 test.db
 set blobcontent [db2 one {SELECT hex(x) FROM t1}]
 do_test pageropt-1.4 {
   pagercount_sql {
     SELECT hex(x) FROM t1
   }
 } [list 0 0 0 $blobcontent]

 # But if the other thread modifies the database, then the cache
 # must refill.
 #
 do_test pageropt-1.5 {
   db2 eval {CREATE TABLE t2(y)}
   pagercount_sql {
     SELECT hex(x) FROM t1
   }
 } [list 6 0 0 $blobcontent]
 do_test pageropt-1.6 {
   pagercount_sql {
     SELECT hex(x) FROM t1
   }
 } [list 0 0 0 $blobcontent]

 # Verify that the last page of an overflow chain is not read from
 # disk when deleting a row.  The one row of t1(x) has four pages
 # of overflow.  So deleting that row from t1 should involve reading
 # the sqlite_master table (1 page) the main page of t1 (1 page) and
 # the three overflow pages of t1 for a total of 5 pages.
 #
 # Pages written are page 1 (for the freelist pointer), the root page
 # of the table, and one of the overflow chain pointers because it
 # becomes the trunk of the freelist.  Total 3.
 #
 do_test pageropt-2.1 {
   db close
   sqlite3 db test.db
   pagercount_sql {
     DELETE FROM t1 WHERE rowid=1
   }
 } {5 3 3}

 # When pulling pages off of the freelist, there is no reason
 # to actually bring in the old content.
 #
 do_test pageropt-2.2 {
   db close
   sqlite3 db test.db
   pagercount_sql {
     INSERT INTO t1 VALUES(randomblob(1500));
   }
 } {3 4 3}
 do_test pageropt-2.3 {
   pagercount_sql {
     INSERT INTO t1 VALUES(randomblob(1500));
   }
 } {0 4 3}

 # Note the new optimization that when pulling the very last page off of the
 # freelist we do not read the content of that page.
 #
 do_test pageropt-2.4 {
   pagercount_sql {
     INSERT INTO t1 VALUES(randomblob(1500));
   }
 } {0 5 3}

 # Appending a large quantity of data does not involve writing much
 # to the journal file.
 #
 do_test pageropt-3.1 {
   pagercount_sql {
     INSERT INTO t2 SELECT * FROM t1;
   }
 } {1 7 2}

 # Once again, we do not need to read the last page of an overflow chain
 # while deleting.
 #
 do_test pageropt-3.2 {
   pagercount_sql {
     DROP TABLE t2;
   }
 } {0 2 3}
 do_test pageropt-3.3 {
   pagercount_sql {
     DELETE FROM t1;
   }
 } {0 3 3}

 # There are now 11 pages on the freelist.  Move them all into an
 # overflow chain by inserting a single large record.  Starting from
 # a cold cache, only page 1, the root page of table t1, and the trunk
 # of the freelist need to be read (3 pages).  And only those three
 # pages need to be journalled.  But 13 pages need to be written:
 # page1, the root page of table t1, and an 11 page overflow chain.
 #
 do_test pageropt-4.1 {
   db close
   sqlite3 db test.db
   pagercount_sql {
     INSERT INTO t1 VALUES(randomblob(11300))
   }
 } {3 13 3}

 # Now we delete that big entries starting from a cold cache and an
 # empty freelist.  The first 10 of the 11 pages overflow chain have
 # to be read, together with page1 and the root of the t1 table.  12
 # reads total.  But only page1, the t1 root, and the trunk of the
 # freelist need to be journalled and written back.
 #
 do_test pageropt-4.2 {
   db close
   sqlite3 db test.db
   pagercount_sql {
     DELETE FROM t1
   }
 } {12 3 3}

 sqlite3_soft_heap_limit $cmdlinearg(soft-heap-limit)
 catch {db2 close}
 finish_test
	# 2007 April 12
	#
	# 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 the tests in this file are to verify that the
	# pager optimizations implemented in version 3.3.14 work.
	#
	# $Id: pageropt.test,v 1.5 2008/08/20 14:49:25 danielk1977 Exp $

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

	ifcapable {!pager_pragmas\|\|secure_delete} {
	finish_test
	return
	}

	# Run the SQL statement supplied by the argument and return
	# the results. Prepend four integers to the beginning of the
	# result which are
	#
	# (1) The number of page reads from the database
	# (2) The number of page writes to the database
	# (3) The number of page writes to the journal
	# (4) The number of cache pages freed
	#
	proc pagercount_sql {sql {db db}} {
	global sqlite3_pager_readdb_count
	global sqlite3_pager_writedb_count
	global sqlite3_pager_writej_count
	global sqlite3_pager_pgfree_count
	set sqlite3_pager_readdb_count 0
	set sqlite3_pager_writedb_count 0
	set sqlite3_pager_writej_count 0
	set r [$db eval $sql]
	set cnt [list $sqlite3_pager_readdb_count \
	$sqlite3_pager_writedb_count \
	$sqlite3_pager_writej_count ]
	return [concat $cnt $r]
	}

	# Setup the test database
	#
	do_test pageropt-1.1 {
	sqlite3_soft_heap_limit 0
	execsql {
	PRAGMA auto_vacuum = OFF;
	PRAGMA page_size = 1024;
	}
	pagercount_sql {
	CREATE TABLE t1(x);
	}
	} {0 2 0}
	do_test pageropt-1.2 {
	pagercount_sql {
	INSERT INTO t1 VALUES(randomblob(5000));
	}
	} {0 6 2}

	# Verify that values remain in cache on for subsequent reads.
	# We should not have to go back to disk.
	#
	do_test pageropt-1.3 {
	pagercount_sql {
	SELECT length(x) FROM t1
	}
	} {0 0 0 5000}

	# If another thread reads the database, the original cache
	# remains valid.
	#
	sqlite3 db2 test.db
	set blobcontent [db2 one {SELECT hex(x) FROM t1}]
	do_test pageropt-1.4 {
	pagercount_sql {
	SELECT hex(x) FROM t1
	}
	} [list 0 0 0 $blobcontent]

	# But if the other thread modifies the database, then the cache
	# must refill.
	#
	do_test pageropt-1.5 {
	db2 eval {CREATE TABLE t2(y)}
	pagercount_sql {
	SELECT hex(x) FROM t1
	}
	} [list 6 0 0 $blobcontent]
	do_test pageropt-1.6 {
	pagercount_sql {
	SELECT hex(x) FROM t1
	}
	} [list 0 0 0 $blobcontent]

	# Verify that the last page of an overflow chain is not read from
	# disk when deleting a row. The one row of t1(x) has four pages
	# of overflow. So deleting that row from t1 should involve reading
	# the sqlite_master table (1 page) the main page of t1 (1 page) and
	# the three overflow pages of t1 for a total of 5 pages.
	#
	# Pages written are page 1 (for the freelist pointer), the root page
	# of the table, and one of the overflow chain pointers because it
	# becomes the trunk of the freelist. Total 3.
	#
	do_test pageropt-2.1 {
	db close
	sqlite3 db test.db
	pagercount_sql {
	DELETE FROM t1 WHERE rowid=1
	}
	} {5 3 3}

	# When pulling pages off of the freelist, there is no reason
	# to actually bring in the old content.
	#
	do_test pageropt-2.2 {
	db close
	sqlite3 db test.db
	pagercount_sql {
	INSERT INTO t1 VALUES(randomblob(1500));
	}
	} {3 4 3}
	do_test pageropt-2.3 {
	pagercount_sql {
	INSERT INTO t1 VALUES(randomblob(1500));
	}
	} {0 4 3}

	# Note the new optimization that when pulling the very last page off of the
	# freelist we do not read the content of that page.
	#
	do_test pageropt-2.4 {
	pagercount_sql {
	INSERT INTO t1 VALUES(randomblob(1500));
	}
	} {0 5 3}

	# Appending a large quantity of data does not involve writing much
	# to the journal file.
	#
	do_test pageropt-3.1 {
	pagercount_sql {
	INSERT INTO t2 SELECT * FROM t1;
	}
	} {1 7 2}

	# Once again, we do not need to read the last page of an overflow chain
	# while deleting.
	#
	do_test pageropt-3.2 {
	pagercount_sql {
	DROP TABLE t2;
	}
	} {0 2 3}
	do_test pageropt-3.3 {
	pagercount_sql {
	DELETE FROM t1;
	}
	} {0 3 3}

	# There are now 11 pages on the freelist. Move them all into an
	# overflow chain by inserting a single large record. Starting from
	# a cold cache, only page 1, the root page of table t1, and the trunk
	# of the freelist need to be read (3 pages). And only those three
	# pages need to be journalled. But 13 pages need to be written:
	# page1, the root page of table t1, and an 11 page overflow chain.
	#
	do_test pageropt-4.1 {
	db close
	sqlite3 db test.db
	pagercount_sql {
	INSERT INTO t1 VALUES(randomblob(11300))
	}
	} {3 13 3}

	# Now we delete that big entries starting from a cold cache and an
	# empty freelist. The first 10 of the 11 pages overflow chain have
	# to be read, together with page1 and the root of the t1 table. 12
	# reads total. But only page1, the t1 root, and the trunk of the
	# freelist need to be journalled and written back.
	#
	do_test pageropt-4.2 {
	db close
	sqlite3 db test.db
	pagercount_sql {
	DELETE FROM t1
	}
	} {12 3 3}

	sqlite3_soft_heap_limit $cmdlinearg(soft-heap-limit)
	catch {db2 close}
	finish_test