libdb/test/tcl/siutils.tcl

#See the file LICENSE for redistribution information.
#
# Copyright (c) 2001, 2011 Oracle and/or its affiliates.  All rights reserved.
#
# $Id$
#
# Secondary index utilities.  This file used to be known as
# sindex.tcl.
#
# The secondary index tests themselves live in si0*.tcl.
#
# Standard number of secondary indices to create if a single-element
# list of methods is passed into the secondary index tests.
global nsecondaries
set nsecondaries 2

# The callback function we use for each given secondary in most tests
# is a simple function of its place in the list of secondaries (0-based)
# and the access method (since recnos may need different callbacks).
#
# !!!
# Note that callbacks 0-3 return unique secondary keys if the input data
# are unique;  callbacks 4 and higher may not, so don't use them with
# the normal wordlist and secondaries that don't support dups.
# The callbacks that incorporate a key don't work properly with recno
# access methods, at least not in the current test framework (the
# error_check_good lines test for e.g. 1foo, when the database has
# e.g. 0x010x000x000x00foo).
proc callback_n { n } {
	switch $n {
		0 { return _s_reversedata }
		1 { return _s_noop }
		2 { return _s_concatkeydata }
		3 { return _s_concatdatakey }
		4 { return _s_reverseconcat }
		5 { return _s_truncdata }
		6 { return _s_constant }
		7 { return _s_twokeys }
		8 { return _s_variablekeys }
	}
	return _s_noop
}

proc _s_noop { a b } { return $b }
proc _s_reversedata { a b } { return [reverse $b] }
proc _s_truncdata { a b } { return [string range $b 1 end] }
proc _s_concatkeydata { a b } { return $a$b }
proc _s_concatdatakey { a b } { return $b$a }
proc _s_reverseconcat { a b } { return [reverse $a$b] }
proc _s_constant { a b } { return "constant-data" }
proc _s_twokeys { a b } { return [list 1 2] }
proc _s_variablekeys { a b } {
	set rlen [string length $b]
	set result {}
	for {set i 0} {$i < $rlen} {incr i} {
		lappend $result $i
	}
	return $result
}

# Should the check_secondary routines print lots of output?
set verbose_check_secondaries 0

# Given a primary database handle, a list of secondary handles, a
# number of entries, and arrays of keys and data, verify that all
# databases have what they ought to.
proc check_secondaries { pdb sdbs nentries keyarr dataarr {pref "Check"} \
    {errp NONE} {errs NONE} {errsg NONE}} {
	upvar $keyarr keys
	upvar $dataarr data
	global verbose_check_secondaries

	if { [string compare $errp NONE] != 0 } {
		upvar $errp errorp
	}
	set errorp 0
	if { [string compare $errs NONE] != 0 } {
		upvar $errs errors
	}
	set errors 0
	if { [string compare $errsg NONE] != 0 } {
		upvar $errsg errorsg
	}
	set errorsg 0
	# Make sure each key/data pair is in the primary.
	if { $verbose_check_secondaries } {
		puts "\t\t$pref.1: Each key/data pair is in the primary"
	}
	for { set i 0 } { $i < $nentries } { incr i } {
		if { [string equal $errp NONE] } {
			error_check_good pdb_get($i) [$pdb get $keys($i)] \
			    [list [list $keys($i) $data($i)]]
		} else {
			set stat [catch {$pdb get $keys($i)} ret]
			if { $stat == 1 } {
				set errorp $ret
				break
			} else {
				error_check_good pdb_get($i) $ret \
				    [list [list $keys($i) $data($i)]]
			}
		}
	}

	for { set j 0 } { $j < [llength $sdbs] } { incr j } {
		# Make sure each key/data pair is in this secondary.
		if { $verbose_check_secondaries } {
			puts "\t\t$pref.2:\
			    Each skey/key/data tuple is in secondary #$j"
		}
		set sdb [lindex $sdbs $j]
		set nskeys 0
		for { set i 0 } { $i < $nentries } { incr i } {
			set skeys [[callback_n $j] $keys($i) $data($i)]
			if { [llength $skeys] == 0 } {
				set skeys [list $skeys]
			}
			foreach skey $skeys {
				incr nskeys
				# Check with pget on the secondary.
				set stat [catch {$sdb pget -get_both \
				    $skey $keys($i)} ret]
				if { [string equal $errs NONE] } {
					error_check_good stat $stat 0
					error_check_good sdb($j)_pget($i) $ret \
					    [list [list \
					    $skey $keys($i) $data($i)]]
				} else {
					if { $stat == 1 } {
						set errors $ret
					} else {
						error_check_good \
						    sdb($j)_pget($i) $ret \
						    [list [list \
						    $skey $keys($i) $data($i)]]
					}
				}
				# Check again with get on the secondary.  Since
				# get_both is not an allowed option with get on
				# a secondary handle, we can't guarantee an
				# exact match on method 5 and over.  We just
				# make sure that one of the returned key/data
				# pairs is the right one.
				if { $j >= 5 } {
					error_check_good sdb($j)_get($i) \
					    [is_substr [$sdb get $skey] \
					    [list [list $skey $data($i)]]] 1
				} else {
					set stat [catch {$sdb get $skey} ret]
					if { [string equal $errs NONE] } {
						error_check_good \
						    sdb($j)_get($i) $ret \
						    [list [list \
						    $skey $data($i)]]
					} else {
						if { $stat == 1 } {
							set errorsg $ret
							break
						} else {
							error_check_good \
							    sdb($j)_get($i) \
							    $ret [list [list \
							    $skey $data($i)]]
						}
					}
				}
				#
				# We couldn't break above because we need to
				# execute the errorsg error as well.
				#
				if { $errors != 0 } {
					break
				}
			}
		}
		if { $errors != 0 || $errorsg != 0 } {
			break
		}

		# Make sure this secondary contains only $nskeys
		# items.
		if { $verbose_check_secondaries } {
			puts "\t\t$pref.3: Secondary #$j has $nskeys items"
		}
		set dbc [$sdb cursor]
		error_check_good dbc($i) \
		    [is_valid_cursor $dbc $sdb] TRUE
		for { set k 0 } { [llength [$dbc get -next]] > 0 } \
		    { incr k } { }
		error_check_good numitems($i) $k $nskeys
		error_check_good dbc($i)_close [$dbc close] 0
	}
	if { $errorp != 0 || $errors != 0 || $errorsg != 0 } {
		return
	}

	if { $verbose_check_secondaries } {
		puts "\t\t$pref.4: Primary has $nentries items"
	}
	set dbc [$pdb cursor]
	error_check_good pdbc [is_valid_cursor $dbc $pdb] TRUE
	for { set k 0 } { [llength [$dbc get -next]] > 0 } { incr k } { }
	error_check_good numitems $k $nentries
	error_check_good pdbc_close [$dbc close] 0
}

# Given a primary database handle and a list of secondary handles, walk
# through the primary and make sure all the secondaries are correct,
# then walk through the secondaries and make sure the primary is correct.
#
# This is slightly less rigorous than the normal check_secondaries--we
# use it whenever we don't have up-to-date "keys" and "data" arrays.
proc cursor_check_secondaries { pdb sdbs nentries { pref "Check" } } {
	global verbose_check_secondaries

	# Make sure each key/data pair in the primary is in each secondary.
	set pdbc [$pdb cursor]
	error_check_good ccs_pdbc [is_valid_cursor $pdbc $pdb] TRUE
	set i 0
	if { $verbose_check_secondaries } {
		puts "\t\t$pref.1:\
		    Key/data in primary => key/data in secondaries"
	}

	for { set dbt [$pdbc get -first] } { [llength $dbt] > 0 } \
	    { set dbt [$pdbc get -next] } {
		incr i
		set pkey [lindex [lindex $dbt 0] 0]
		set pdata [lindex [lindex $dbt 0] 1]
		for { set j 0 } { $j < [llength $sdbs] } { incr j } {
			set sdb [lindex $sdbs $j]
			# Check with pget.
			foreach skey [[callback_n $j] $pkey $pdata] {
			set sdbt [$sdb pget -get_both $skey $pkey]
			error_check_good pkey($pkey,$j) \
			    [lindex [lindex $sdbt 0] 1] $pkey
			error_check_good pdata($pdata,$j) \
			    [lindex [lindex $sdbt 0] 2] $pdata
			}
		}
	}
	error_check_good ccs_pdbc_close [$pdbc close] 0
	error_check_good primary_has_nentries $i $nentries

	for { set j 0 } { $j < [llength $sdbs] } { incr j } {
		if { $verbose_check_secondaries } {
			puts "\t\t$pref.2:\
			    Key/data in secondary #$j => key/data in primary"
		}
		set sdb [lindex $sdbs $j]
		set sdbc [$sdb cursor]
		error_check_good ccs_sdbc($j) [is_valid_cursor $sdbc $sdb] TRUE
		for { set dbt [$sdbc pget -first] } { [llength $dbt] > 0 } \
		    { set dbt [$sdbc pget -next] } {
			set pkey [lindex [lindex $dbt 0] 1]
			set pdata [lindex [lindex $dbt 0] 2]
			error_check_good pdb_get($pkey/$pdata,$j) \
			    [$pdb get -get_both $pkey $pdata] \
			    [list [list $pkey $pdata]]
		}

		# To exercise pget -last/pget -prev, we do it backwards too.
		for { set dbt [$sdbc pget -last] } { [llength $dbt] > 0 } \
		    { set dbt [$sdbc pget -prev] } {
			set pkey [lindex [lindex $dbt 0] 1]
			set pdata [lindex [lindex $dbt 0] 2]
			error_check_good pdb_get_bkwds($pkey/$pdata,$j) \
			    [$pdb get -get_both $pkey $pdata] \
			    [list [list $pkey $pdata]]
		}

		error_check_good ccs_sdbc_close($j) [$sdbc close] 0
	}
}

# The secondary index tests take a list of the access methods that
# each array ought to use.  Convert at one blow into a list of converted
# argses and omethods for each method in the list.
proc convert_argses { methods largs } {
	set ret {}
	foreach m $methods {
		lappend ret [convert_args $m $largs]
	}
	return $ret
}
proc convert_methods { methods } {
	set ret {}
	foreach m $methods {
		lappend ret [convert_method $m]
	}
	return $ret
}
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) 2001, 2011 Oracle and/or its affiliates. All rights reserved.`
			`#`
			`# $Id$`
			`#`
			`# Secondary index utilities. This file used to be known as`
			`# sindex.tcl.`
			`#`
			`# The secondary index tests themselves live in si0*.tcl.`
			`#`
			`# Standard number of secondary indices to create if a single-element`
			`# list of methods is passed into the secondary index tests.`
			`global nsecondaries`
			`set nsecondaries 2`

			`# The callback function we use for each given secondary in most tests`
			`# is a simple function of its place in the list of secondaries (0-based)`
			`# and the access method (since recnos may need different callbacks).`
			`#`
			`# !!!`
			`# Note that callbacks 0-3 return unique secondary keys if the input data`
			`# are unique; callbacks 4 and higher may not, so don't use them with`
			`# the normal wordlist and secondaries that don't support dups.`
			`# The callbacks that incorporate a key don't work properly with recno`
			`# access methods, at least not in the current test framework (the`
			`# error_check_good lines test for e.g. 1foo, when the database has`
			`# e.g. 0x010x000x000x00foo).`
			`proc callback_n { n } {`
			`switch $n {`
			`0 { return _s_reversedata }`
			`1 { return _s_noop }`
			`2 { return _s_concatkeydata }`
			`3 { return _s_concatdatakey }`
			`4 { return _s_reverseconcat }`
			`5 { return _s_truncdata }`
			`6 { return _s_constant }`
			`7 { return _s_twokeys }`
			`8 { return _s_variablekeys }`
			`}`
			`return _s_noop`
			`}`

			`proc _s_noop { a b } { return $b }`
			`proc _s_reversedata { a b } { return [reverse $b] }`
			`proc _s_truncdata { a b } { return [string range $b 1 end] }`
			`proc _s_concatkeydata { a b } { return $a$b }`
			`proc _s_concatdatakey { a b } { return $b$a }`
			`proc _s_reverseconcat { a b } { return [reverse $a$b] }`
			`proc _s_constant { a b } { return "constant-data" }`
			`proc _s_twokeys { a b } { return [list 1 2] }`
			`proc _s_variablekeys { a b } {`
			`set rlen [string length $b]`
			`set result {}`
			`for {set i 0} {$i < $rlen} {incr i} {`
			`lappend $result $i`
			`}`
			`return $result`
			`}`

			`# Should the check_secondary routines print lots of output?`
			`set verbose_check_secondaries 0`

			`# Given a primary database handle, a list of secondary handles, a`
			`# number of entries, and arrays of keys and data, verify that all`
			`# databases have what they ought to.`
			`proc check_secondaries { pdb sdbs nentries keyarr dataarr {pref "Check"} \`
			`{errp NONE} {errs NONE} {errsg NONE}} {`
			`upvar $keyarr keys`
			`upvar $dataarr data`
			`global verbose_check_secondaries`

			`if { [string compare $errp NONE] != 0 } {`
			`upvar $errp errorp`
			`}`
			`set errorp 0`
			`if { [string compare $errs NONE] != 0 } {`
			`upvar $errs errors`
			`}`
			`set errors 0`
			`if { [string compare $errsg NONE] != 0 } {`
			`upvar $errsg errorsg`
			`}`
			`set errorsg 0`
			`# Make sure each key/data pair is in the primary.`
			`if { $verbose_check_secondaries } {`
			`puts "\t\t$pref.1: Each key/data pair is in the primary"`
			`}`
			`for { set i 0 } { $i < $nentries } { incr i } {`
			`if { [string equal $errp NONE] } {`
			`error_check_good pdb_get($i) [$pdb get $keys($i)] \`
			`[list [list $keys($i) $data($i)]]`
			`} else {`
			`set stat [catch {$pdb get $keys($i)} ret]`
			`if { $stat == 1 } {`
			`set errorp $ret`
			`break`
			`} else {`
			`error_check_good pdb_get($i) $ret \`
			`[list [list $keys($i) $data($i)]]`
			`}`
			`}`
			`}`

			`for { set j 0 } { $j < [llength $sdbs] } { incr j } {`
			`# Make sure each key/data pair is in this secondary.`
			`if { $verbose_check_secondaries } {`
			`puts "\t\t$pref.2:\`
			`Each skey/key/data tuple is in secondary #$j"`
			`}`
			`set sdb [lindex $sdbs $j]`
			`set nskeys 0`
			`for { set i 0 } { $i < $nentries } { incr i } {`
			`set skeys [[callback_n $j] $keys($i) $data($i)]`
			`if { [llength $skeys] == 0 } {`
			`set skeys [list $skeys]`
			`}`
			`foreach skey $skeys {`
			`incr nskeys`
			`# Check with pget on the secondary.`
			`set stat [catch {$sdb pget -get_both \`
			`$skey $keys($i)} ret]`
			`if { [string equal $errs NONE] } {`
			`error_check_good stat $stat 0`
			`error_check_good sdb($j)_pget($i) $ret \`
			`[list [list \`
			`$skey $keys($i) $data($i)]]`
			`} else {`
			`if { $stat == 1 } {`
			`set errors $ret`
			`} else {`
			`error_check_good \`
			`sdb($j)_pget($i) $ret \`
			`[list [list \`
			`$skey $keys($i) $data($i)]]`
			`}`
			`}`
			`# Check again with get on the secondary. Since`
			`# get_both is not an allowed option with get on`
			`# a secondary handle, we can't guarantee an`
			`# exact match on method 5 and over. We just`
			`# make sure that one of the returned key/data`
			`# pairs is the right one.`
			`if { $j >= 5 } {`
			`error_check_good sdb($j)_get($i) \`
			`[is_substr [$sdb get $skey] \`
			`[list [list $skey $data($i)]]] 1`
			`} else {`
			`set stat [catch {$sdb get $skey} ret]`
			`if { [string equal $errs NONE] } {`
			`error_check_good \`
			`sdb($j)_get($i) $ret \`
			`[list [list \`
			`$skey $data($i)]]`
			`} else {`
			`if { $stat == 1 } {`
			`set errorsg $ret`
			`break`
			`} else {`
			`error_check_good \`
			`sdb($j)_get($i) \`
			`$ret [list [list \`
			`$skey $data($i)]]`
			`}`
			`}`
			`}`
			`#`
			`# We couldn't break above because we need to`
			`# execute the errorsg error as well.`
			`#`
			`if { $errors != 0 } {`
			`break`
			`}`
			`}`
			`}`
			`if { $errors != 0 \|\| $errorsg != 0 } {`
			`break`
			`}`

			`# Make sure this secondary contains only $nskeys`
			`# items.`
			`if { $verbose_check_secondaries } {`
			`puts "\t\t$pref.3: Secondary #$j has $nskeys items"`
			`}`
			`set dbc [$sdb cursor]`
			`error_check_good dbc($i) \`
			`[is_valid_cursor $dbc $sdb] TRUE`
			`for { set k 0 } { [llength [$dbc get -next]] > 0 } \`
			`{ incr k } { }`
			`error_check_good numitems($i) $k $nskeys`
			`error_check_good dbc($i)_close [$dbc close] 0`
			`}`
			`if { $errorp != 0 \|\| $errors != 0 \|\| $errorsg != 0 } {`
			`return`
			`}`

			`if { $verbose_check_secondaries } {`
			`puts "\t\t$pref.4: Primary has $nentries items"`
			`}`
			`set dbc [$pdb cursor]`
			`error_check_good pdbc [is_valid_cursor $dbc $pdb] TRUE`
			`for { set k 0 } { [llength [$dbc get -next]] > 0 } { incr k } { }`
			`error_check_good numitems $k $nentries`
			`error_check_good pdbc_close [$dbc close] 0`
			`}`

			`# Given a primary database handle and a list of secondary handles, walk`
			`# through the primary and make sure all the secondaries are correct,`
			`# then walk through the secondaries and make sure the primary is correct.`
			`#`
			`# This is slightly less rigorous than the normal check_secondaries--we`
			`# use it whenever we don't have up-to-date "keys" and "data" arrays.`
			`proc cursor_check_secondaries { pdb sdbs nentries { pref "Check" } } {`
			`global verbose_check_secondaries`

			`# Make sure each key/data pair in the primary is in each secondary.`
			`set pdbc [$pdb cursor]`
			`error_check_good ccs_pdbc [is_valid_cursor $pdbc $pdb] TRUE`
			`set i 0`
			`if { $verbose_check_secondaries } {`
			`puts "\t\t$pref.1:\`
			`Key/data in primary => key/data in secondaries"`
			`}`

			`for { set dbt [$pdbc get -first] } { [llength $dbt] > 0 } \`
			`{ set dbt [$pdbc get -next] } {`
			`incr i`
			`set pkey [lindex [lindex $dbt 0] 0]`
			`set pdata [lindex [lindex $dbt 0] 1]`
			`for { set j 0 } { $j < [llength $sdbs] } { incr j } {`
			`set sdb [lindex $sdbs $j]`
			`# Check with pget.`
			`foreach skey [[callback_n $j] $pkey $pdata] {`
			`set sdbt [$sdb pget -get_both $skey $pkey]`
			`error_check_good pkey($pkey,$j) \`
			`[lindex [lindex $sdbt 0] 1] $pkey`
			`error_check_good pdata($pdata,$j) \`
			`[lindex [lindex $sdbt 0] 2] $pdata`
			`}`
			`}`
			`}`
			`error_check_good ccs_pdbc_close [$pdbc close] 0`
			`error_check_good primary_has_nentries $i $nentries`

			`for { set j 0 } { $j < [llength $sdbs] } { incr j } {`
			`if { $verbose_check_secondaries } {`
			`puts "\t\t$pref.2:\`
			`Key/data in secondary #$j => key/data in primary"`
			`}`
			`set sdb [lindex $sdbs $j]`
			`set sdbc [$sdb cursor]`
			`error_check_good ccs_sdbc($j) [is_valid_cursor $sdbc $sdb] TRUE`
			`for { set dbt [$sdbc pget -first] } { [llength $dbt] > 0 } \`
			`{ set dbt [$sdbc pget -next] } {`
			`set pkey [lindex [lindex $dbt 0] 1]`
			`set pdata [lindex [lindex $dbt 0] 2]`
			`error_check_good pdb_get($pkey/$pdata,$j) \`
			`[$pdb get -get_both $pkey $pdata] \`
			`[list [list $pkey $pdata]]`
			`}`

			`# To exercise pget -last/pget -prev, we do it backwards too.`
			`for { set dbt [$sdbc pget -last] } { [llength $dbt] > 0 } \`
			`{ set dbt [$sdbc pget -prev] } {`
			`set pkey [lindex [lindex $dbt 0] 1]`
			`set pdata [lindex [lindex $dbt 0] 2]`
			`error_check_good pdb_get_bkwds($pkey/$pdata,$j) \`
			`[$pdb get -get_both $pkey $pdata] \`
			`[list [list $pkey $pdata]]`
			`}`

			`error_check_good ccs_sdbc_close($j) [$sdbc close] 0`
			`}`
			`}`

			`# The secondary index tests take a list of the access methods that`
			`# each array ought to use. Convert at one blow into a list of converted`
			`# argses and omethods for each method in the list.`
			`proc convert_argses { methods largs } {`
			`set ret {}`
			`foreach m $methods {`
			`lappend ret [convert_args $m $largs]`
			`}`
			`return $ret`
			`}`
			`proc convert_methods { methods } {`
			`set ret {}`
			`foreach m $methods {`
			`lappend ret [convert_method $m]`
			`}`
			`return $ret`
			`}`