libdb/test/tcl/fop001.tcl

# See the file LICENSE for redistribution information.
#
# Copyright (c) 2000, 2011 Oracle and/or its affiliates.  All rights reserved.
#
# $Id$
#
# TEST	fop001.tcl
# TEST	Test two file system operations combined in one transaction. 
proc fop001 { method { inmem 0 } { childtxn 0 } args } {
	source ./include.tcl

	set args [convert_args $method $args]
	set omethod [convert_method $method]

	# The variable inmem determines whether the test is being
	# run with regular named databases or named in-memory databases.
	set txntype "transaction"
	if { $inmem == 0 } {
		if { $childtxn == 0 } {
			set tnum "001"
		} else {
			set tnum "009"
			set txntype "child transaction"
			puts "Fop001 with child txns is called fop009."
		}
		set string "regular named databases"
		set operator do_op
	} else {
		if {[is_queueext $method] } {
			puts "Skipping in-memory test for method $method."
			return
		}
		if { $childtxn == 0 } {
			set tnum "007"
			puts "Fop001 with in-memory dbs is called fop007."
		} else {
			set tnum "011"
			set txntype "child transaction"
			puts "Fop001 with in-memory dbs\
			    and child txns is called fop011."
		}
		set string "in-memory named databases"
		set operator do_inmem_op
	}

	puts "\nFop$tnum: ($method)\
	    Two file system ops in one $txntype for $string."

	set exists {a b}
	set noexist {foo bar}
	set open {}
	set cases {}
	set ops {rename remove open open_create open_excl truncate}

	# Set up all sensible two-op cases (op1 succeeds).
	foreach retval { 0 "file exists" "no such file" } {
		foreach op1 {rename remove open open_excl \
		    open_create truncate} {
			foreach op2 $ops {
				append cases " " [create_tests $op1 $op2 \
				    $exists $noexist $open $retval]
			}
		}
	}

	# Set up evil two-op cases (op1 fails).  Omit open_create
	# and truncate from op1 list -- open_create always succeeds
	# and truncate requires a successful open.
	foreach retval { 0 "file exists" "no such file" } {
		foreach op1 { rename remove open open_excl } {
			foreach op2 $ops {
				append cases " " [create_badtests $op1 $op2 \
					$exists $noexist $open $retval]
			}
		}
	}

	# The structure of each case is:
	# {{op1 {names1} result end1} {op2 {names2} result} {remaining}}
	# A result of "0" indicates no error is expected.
	# Otherwise, the result is the expected error message.
	#
	# The "end1" variable indicates whether the first txn
	# ended with an abort or a commit, and is not used
	# in this test.
	#
	# The "remaining" variable lists the files that should 
	# exist at the end of the test case.
	#
	# Comment this loop out to remove the list of cases.
#	set i 1
#	foreach case $cases {
#		puts "\tFop$tnum:$i: $case"
#		incr i
#	}

	set testid 0

	# Run all the cases
	foreach case $cases {
		env_cleanup $testdir
		incr testid

		# Extract elements of the case
		set op1 [lindex [lindex $case 0] 0]
		set names1 [lindex [lindex $case 0] 1]
		set res1 [lindex [lindex $case 0] 2]

		set op2 [lindex [lindex $case 1] 0]
		set names2 [lindex [lindex $case 1] 1]
		set res2 [lindex [lindex $case 1] 2]
		set remaining [lindex [lindex $case 1] 3]

		# Use the list of remaining files to derive
		# the list of files that should be gone.
		set allnames { a b foo bar }
		set gone {}
		foreach f $allnames {
			set idx [lsearch -exact $remaining $f]
			if { $idx == -1 } {
				lappend gone $f
			}
		}

		puts -nonewline "\tFop$tnum.$testid: $op1 ($names1), " 
		puts "then $op2 ($names2)."

		# The variable 'when' describes when to resolve a txn -- 
		# before or after closing any open databases. 
		foreach when { before after } {

			# Create transactional environment.
			set env [berkdb_env -create -home $testdir -txn nosync]
			error_check_good is_valid_env [is_valid_env $env] TRUE
	
			# Create two databases, dba and dbb.
			if { $inmem == 0 } {
				set dba [eval {berkdb_open -create} $omethod \
				    $args -env $env -auto_commit a]
			} else {
				set dba [eval {berkdb_open -create} $omethod \
				    $args -env $env -auto_commit { "" a }]
			}
			error_check_good dba_open [is_valid_db $dba] TRUE
			error_check_good dba_put [$dba put 1 a] 0
			error_check_good dba_close [$dba close] 0
	
			if { $inmem == 0 } {
				set dbb [eval {berkdb_open -create} $omethod \
				    $args -env $env -auto_commit b]
			} else {
				set dbb [eval {berkdb_open -create} $omethod \
				    $args -env $env -auto_commit { "" b }]
			}
			error_check_good dbb_open [is_valid_db $dbb] TRUE
			error_check_good dbb_put [$dbb put 1 b] 0
			error_check_good dbb_close [$dbb close] 0
	
			# The variable 'end' describes how to resolve the txn.
			# We run the 'abort' first because that leaves the env
			# properly set up for the 'commit' test.
			foreach end {abort commit} {
	
				# Start transaction
				set parent [$env txn]
				set parent_end "commit"
				set msg ""
				if { $childtxn } {
					set child [$env txn -parent $parent]
					set txn $child
					set msg "(committing parent)"
					if { [berkdb random_int 0 1] == 0 } {
						set parent_end "abort"
						set msg "(aborting parent)"
					}
				} else {
					set txn $parent
				}

				puts "\t\tFop$tnum.$testid:\
				    $end $when closing database. $msg"
	
				# Execute and check operation 1
				set result1 [$operator \
				    $omethod $op1 $names1 $txn $env $args]
				if { $res1 == 0 } {
					error_check_good \
					    op1_should_succeed $result1 $res1
				} else {
					set error [extract_error $result1]
					error_check_good \
					    op1_wrong_failure $error $res1
				}
	
				# Execute and check operation 2
				set result2 [$operator \
				    $omethod $op2 $names2 $txn $env $args]
				if { $res2 == 0 } {
					error_check_good \
					    op2_should_succeed $result2 $res2
				} else {
					set error [extract_error $result2]
					error_check_good \
					    op2_wrong_failure $error $res2
				}
	
				if { $when == "before" } {
					error_check_good txn_$end [$txn $end] 0
					if { $childtxn } {
						error_check_good parent_end \
						    [$parent $parent_end] 0 
					}
		
					# If the txn was aborted, we still
					# have the original two databases.
					# Otherwise check for the expected
					# remaining files.
					if { $end == "abort" ||\
					    $parent_end == "abort" } {
						error_check_good db_exists \
						    [database_exists \
						    $inmem $testdir a] 1
						error_check_good db_exists \
						    [database_exists \
						    $inmem $testdir b] 1
					} else {
						foreach db $remaining {
							error_check_good db_exists \
							    [database_exists \
							    $inmem $testdir $db] 1
						}
						foreach db $gone {
							error_check_good db_gone \
							    [database_exists \
							    $inmem $testdir $db] 0
						}
					}

					close_db_handles 
				} else {
					close_db_handles
					error_check_good txn_$end [$txn $end] 0
					if { $childtxn } {
						error_check_good resolve_parent \
						    [$parent $parent_end] 0 
					}
	
					if { $end == "abort" || $parent_end == "abort" } {
						error_check_good db_exists \
						    [database_exists \
						    $inmem $testdir a] 1
						error_check_good db_exists \
						    [database_exists \
						    $inmem $testdir b] 1
					} else {
						foreach db $remaining {
							error_check_good db_exists \
							    [database_exists \
							    $inmem $testdir $db] 1
						}
						foreach db $gone {
							error_check_good db_gone \
							    [database_exists \
							    $inmem $testdir $db] 0
						}

					}
				}		
			}
	
			# Clean up for next case
			error_check_good env_close [$env close] 0
			error_check_good envremove \
			    [berkdb envremove -home $testdir] 0
			env_cleanup $testdir
		}
	}
}

proc database_exists { inmem testdir name } {
	if { $inmem == 1 } {
		return [inmem_exists $testdir $name]
	} else {
		return [file exists $testdir/$name]
	}	

}

# This is a real hack.  We need to figure out if an in-memory named
# file exists.  In a perfect world we could use mpool stat.  Unfortunately,
# mpool_stat returns files that have deadfile set and we need to not consider
# those files to be meaningful.  So, we are parsing the output of db_stat -MA
# (I told you this was a hack)  If we ever change the output, this is going
# to break big time.  Here is what we assume:
# A file is represented by: File #N name
# The last field printed for a file is Flags
# If the file is dead, deadfile will show up in the flags
proc inmem_exists { dir filename } {
	source ./include.tcl
	set infile 0
	set islive 0
	set name ""
	set s [exec $util_path/db_stat -MA -h $dir]
	foreach i $s {
		if { $i == "File" } {
			set infile 1
			set islive 1
			set name ""
		} elseif { $i == "Flags" } {
			set infile 0
			if { $name != "" && $islive } {
				return 1
			}
		} elseif { $infile != 0 } {
			incr infile
		}

		if { $islive } {
			if { $i == "deadfile," || $i == "deadfile" } {
				set islive 0
			}
		}

		if { $infile == 3 } {
			if { $i == $filename } {
				set name $filename
			}
		}
	}
	return 0
}
Release 5.2.28 on 6/10/2011 2011-09-13 17:44:24 +00:00			`# See the file LICENSE for redistribution information.`
			`#`
			`# Copyright (c) 2000, 2011 Oracle and/or its affiliates. All rights reserved.`
			`#`
			`# $Id$`
			`#`
			`# TEST fop001.tcl`
			`# TEST Test two file system operations combined in one transaction.`
			`proc fop001 { method { inmem 0 } { childtxn 0 } args } {`
			`source ./include.tcl`

			`set args [convert_args $method $args]`
			`set omethod [convert_method $method]`

			`# The variable inmem determines whether the test is being`
			`# run with regular named databases or named in-memory databases.`
			`set txntype "transaction"`
			`if { $inmem == 0 } {`
			`if { $childtxn == 0 } {`
			`set tnum "001"`
			`} else {`
			`set tnum "009"`
			`set txntype "child transaction"`
			`puts "Fop001 with child txns is called fop009."`
			`}`
			`set string "regular named databases"`
			`set operator do_op`
			`} else {`
			`if {[is_queueext $method] } {`
			`puts "Skipping in-memory test for method $method."`
			`return`
			`}`
			`if { $childtxn == 0 } {`
			`set tnum "007"`
			`puts "Fop001 with in-memory dbs is called fop007."`
			`} else {`
			`set tnum "011"`
			`set txntype "child transaction"`
			`puts "Fop001 with in-memory dbs\`
			`and child txns is called fop011."`
			`}`
			`set string "in-memory named databases"`
			`set operator do_inmem_op`
			`}`

			`puts "\nFop$tnum: ($method)\`
			`Two file system ops in one $txntype for $string."`

			`set exists {a b}`
			`set noexist {foo bar}`
			`set open {}`
			`set cases {}`
			`set ops {rename remove open open_create open_excl truncate}`

			`# Set up all sensible two-op cases (op1 succeeds).`
			`foreach retval { 0 "file exists" "no such file" } {`
			`foreach op1 {rename remove open open_excl \`
			`open_create truncate} {`
			`foreach op2 $ops {`
			`append cases " " [create_tests $op1 $op2 \`
			`$exists $noexist $open $retval]`
			`}`
			`}`
			`}`

			`# Set up evil two-op cases (op1 fails). Omit open_create`
			`# and truncate from op1 list -- open_create always succeeds`
			`# and truncate requires a successful open.`
			`foreach retval { 0 "file exists" "no such file" } {`
			`foreach op1 { rename remove open open_excl } {`
			`foreach op2 $ops {`
			`append cases " " [create_badtests $op1 $op2 \`
			`$exists $noexist $open $retval]`
			`}`
			`}`
			`}`

			`# The structure of each case is:`
			`# {{op1 {names1} result end1} {op2 {names2} result} {remaining}}`
			`# A result of "0" indicates no error is expected.`
			`# Otherwise, the result is the expected error message.`
			`#`
			`# The "end1" variable indicates whether the first txn`
			`# ended with an abort or a commit, and is not used`
			`# in this test.`
			`#`
			`# The "remaining" variable lists the files that should`
			`# exist at the end of the test case.`
			`#`
			`# Comment this loop out to remove the list of cases.`
			`# set i 1`
			`# foreach case $cases {`
			`# puts "\tFop$tnum:$i: $case"`
			`# incr i`
			`# }`

			`set testid 0`

			`# Run all the cases`
			`foreach case $cases {`
			`env_cleanup $testdir`
			`incr testid`

			`# Extract elements of the case`
			`set op1 [lindex [lindex $case 0] 0]`
			`set names1 [lindex [lindex $case 0] 1]`
			`set res1 [lindex [lindex $case 0] 2]`

			`set op2 [lindex [lindex $case 1] 0]`
			`set names2 [lindex [lindex $case 1] 1]`
			`set res2 [lindex [lindex $case 1] 2]`
			`set remaining [lindex [lindex $case 1] 3]`

			`# Use the list of remaining files to derive`
			`# the list of files that should be gone.`
			`set allnames { a b foo bar }`
			`set gone {}`
			`foreach f $allnames {`
			`set idx [lsearch -exact $remaining $f]`
			`if { $idx == -1 } {`
			`lappend gone $f`
			`}`
			`}`

			`puts -nonewline "\tFop$tnum.$testid: $op1 ($names1), "`
			`puts "then $op2 ($names2)."`

			`# The variable 'when' describes when to resolve a txn --`
			`# before or after closing any open databases.`
			`foreach when { before after } {`

			`# Create transactional environment.`
			`set env [berkdb_env -create -home $testdir -txn nosync]`
			`error_check_good is_valid_env [is_valid_env $env] TRUE`

			`# Create two databases, dba and dbb.`
			`if { $inmem == 0 } {`
			`set dba [eval {berkdb_open -create} $omethod \`
			`$args -env $env -auto_commit a]`
			`} else {`
			`set dba [eval {berkdb_open -create} $omethod \`
			`$args -env $env -auto_commit { "" a }]`
			`}`
			`error_check_good dba_open [is_valid_db $dba] TRUE`
			`error_check_good dba_put [$dba put 1 a] 0`
			`error_check_good dba_close [$dba close] 0`

			`if { $inmem == 0 } {`
			`set dbb [eval {berkdb_open -create} $omethod \`
			`$args -env $env -auto_commit b]`
			`} else {`
			`set dbb [eval {berkdb_open -create} $omethod \`
			`$args -env $env -auto_commit { "" b }]`
			`}`
			`error_check_good dbb_open [is_valid_db $dbb] TRUE`
			`error_check_good dbb_put [$dbb put 1 b] 0`
			`error_check_good dbb_close [$dbb close] 0`

			`# The variable 'end' describes how to resolve the txn.`
			`# We run the 'abort' first because that leaves the env`
			`# properly set up for the 'commit' test.`
			`foreach end {abort commit} {`

			`# Start transaction`
			`set parent [$env txn]`
			`set parent_end "commit"`
			`set msg ""`
			`if { $childtxn } {`
			`set child [$env txn -parent $parent]`
			`set txn $child`
			`set msg "(committing parent)"`
			`if { [berkdb random_int 0 1] == 0 } {`
			`set parent_end "abort"`
			`set msg "(aborting parent)"`
			`}`
			`} else {`
			`set txn $parent`
			`}`

			`puts "\t\tFop$tnum.$testid:\`
			`$end $when closing database. $msg"`

			`# Execute and check operation 1`
			`set result1 [$operator \`
			`$omethod $op1 $names1 $txn $env $args]`
			`if { $res1 == 0 } {`
			`error_check_good \`
			`op1_should_succeed $result1 $res1`
			`} else {`
			`set error [extract_error $result1]`
			`error_check_good \`
			`op1_wrong_failure $error $res1`
			`}`

			`# Execute and check operation 2`
			`set result2 [$operator \`
			`$omethod $op2 $names2 $txn $env $args]`
			`if { $res2 == 0 } {`
			`error_check_good \`
			`op2_should_succeed $result2 $res2`
			`} else {`
			`set error [extract_error $result2]`
			`error_check_good \`
			`op2_wrong_failure $error $res2`
			`}`

			`if { $when == "before" } {`
			`error_check_good txn_$end [$txn $end] 0`
			`if { $childtxn } {`
			`error_check_good parent_end \`
			`[$parent $parent_end] 0`
			`}`

			`# If the txn was aborted, we still`
			`# have the original two databases.`
			`# Otherwise check for the expected`
			`# remaining files.`
			`if { $end == "abort" \|\|\`
			`$parent_end == "abort" } {`
			`error_check_good db_exists \`
			`[database_exists \`
			`$inmem $testdir a] 1`
			`error_check_good db_exists \`
			`[database_exists \`
			`$inmem $testdir b] 1`
			`} else {`
			`foreach db $remaining {`
			`error_check_good db_exists \`
			`[database_exists \`
			`$inmem $testdir $db] 1`
			`}`
			`foreach db $gone {`
			`error_check_good db_gone \`
			`[database_exists \`
			`$inmem $testdir $db] 0`
			`}`
			`}`

			`close_db_handles`
			`} else {`
			`close_db_handles`
			`error_check_good txn_$end [$txn $end] 0`
			`if { $childtxn } {`
			`error_check_good resolve_parent \`
			`[$parent $parent_end] 0`
			`}`

			`if { $end == "abort" \|\| $parent_end == "abort" } {`
			`error_check_good db_exists \`
			`[database_exists \`
			`$inmem $testdir a] 1`
			`error_check_good db_exists \`
			`[database_exists \`
			`$inmem $testdir b] 1`
			`} else {`
			`foreach db $remaining {`
			`error_check_good db_exists \`
			`[database_exists \`
			`$inmem $testdir $db] 1`
			`}`
			`foreach db $gone {`
			`error_check_good db_gone \`
			`[database_exists \`
			`$inmem $testdir $db] 0`
			`}`

			`}`
			`}`
			`}`

			`# Clean up for next case`
			`error_check_good env_close [$env close] 0`
			`error_check_good envremove \`
			`[berkdb envremove -home $testdir] 0`
			`env_cleanup $testdir`
			`}`
			`}`
			`}`

			`proc database_exists { inmem testdir name } {`
			`if { $inmem == 1 } {`
			`return [inmem_exists $testdir $name]`
			`} else {`
			`return [file exists $testdir/$name]`
			`}`

			`}`

			`# This is a real hack. We need to figure out if an in-memory named`
			`# file exists. In a perfect world we could use mpool stat. Unfortunately,`
			`# mpool_stat returns files that have deadfile set and we need to not consider`
			`# those files to be meaningful. So, we are parsing the output of db_stat -MA`
			`# (I told you this was a hack) If we ever change the output, this is going`
			`# to break big time. Here is what we assume:`
			`# A file is represented by: File #N name`
			`# The last field printed for a file is Flags`
			`# If the file is dead, deadfile will show up in the flags`
			`proc inmem_exists { dir filename } {`
			`source ./include.tcl`
			`set infile 0`
			`set islive 0`
			`set name ""`
			`set s [exec $util_path/db_stat -MA -h $dir]`
			`foreach i $s {`
			`if { $i == "File" } {`
			`set infile 1`
			`set islive 1`
			`set name ""`
			`} elseif { $i == "Flags" } {`
			`set infile 0`
			`if { $name != "" && $islive } {`
			`return 1`
			`}`
			`} elseif { $infile != 0 } {`
			`incr infile`
			`}`

			`if { $islive } {`
			`if { $i == "deadfile," \|\| $i == "deadfile" } {`
			`set islive 0`
			`}`
			`}`

			`if { $infile == 3 } {`
			`if { $i == $filename } {`
			`set name $filename`
			`}`
			`}`
			`}`
			`return 0`
			`}`