third_party/sqlite/src/test/wal_common.tcl - cobalt - Git at Google

 # 2010 June 03
 #
 # 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 contains common code used by many different malloc tests
 # within the test suite.
 #

 proc wal_file_size {nFrame pgsz} {
   expr {32 + ($pgsz+24)*$nFrame}
 }

 proc wal_frame_count {zFile pgsz} {
   if {[file exists $zFile]==0} { return 0 }
   set f [file size $zFile]
   if {$f < 32} { return 0 }
   expr {($f - 32) / ($pgsz+24)}
 }

 proc wal_cksum_intlist {ckv1 ckv2 intlist} {
   upvar $ckv1 c1
   upvar $ckv2 c2
   foreach {v1 v2} $intlist {
     set c1 [expr {($c1 + $v1 + $c2)&0xFFFFFFFF}]
     set c2 [expr {($c2 + $v2 + $c1)&0xFFFFFFFF}]
   }
 }


 # This proc calculates checksums in the same way as those used by SQLite
 # in WAL files. If the $endian argument is "big", then checksums are
 # calculated by interpreting data as an array of big-endian integers. If
 # it is "little", data is interpreted as an array of little-endian integers.
 #
 proc wal_cksum {endian ckv1 ckv2 blob} {
   upvar $ckv1 c1
   upvar $ckv2 c2

   if {$endian!="big" && $endian!="little"} {
     return -error "Bad value \"$endian\" - must be \"big\" or \"little\""
   }
   set scanpattern I*
   if {$endian == "little"} { set scanpattern i* }

   binary scan $blob $scanpattern values
   wal_cksum_intlist c1 c2 $values
 }

 proc wal_set_walhdr {filename {intlist {}}} {
   if {[llength $intlist]==6} {
     set blob [binary format I6 $intlist]
     set endian little
     if {[lindex $intlist 0] & 0x00000001} { set endian big }
     set c1 0
     set c2 0
     wal_cksum $endian c1 c2 $blob
     append blob [binary format II $c1 $c2]

     set fd [open $filename r+]
     fconfigure $fd -translation binary
     fconfigure $fd -encoding binary
     seek $fd 0
     puts -nonewline $fd $blob
     close $fd
   }

   set fd [open $filename]
   fconfigure $fd -translation binary
   fconfigure $fd -encoding binary
   set blob [read $fd 24]
   close $fd

   binary scan $blob I6 ints
   set ints
 }

 proc wal_fix_walindex_cksum {hdrvar} {
   upvar $hdrvar hdr
   set c1 0
   set c2 0
   wal_cksum_intlist c1 c2 [lrange $hdr 0 9]
   lset hdr 10 $c1
   lset hdr 11 $c2
 }
	# 2010 June 03
	#
	# 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 contains common code used by many different malloc tests
	# within the test suite.
	#

	proc wal_file_size {nFrame pgsz} {
	expr {32 + ($pgsz+24)*$nFrame}
	}

	proc wal_frame_count {zFile pgsz} {
	if {[file exists $zFile]==0} { return 0 }
	set f [file size $zFile]
	if {$f < 32} { return 0 }
	expr {($f - 32) / ($pgsz+24)}
	}

	proc wal_cksum_intlist {ckv1 ckv2 intlist} {
	upvar $ckv1 c1
	upvar $ckv2 c2
	foreach {v1 v2} $intlist {
	set c1 [expr {($c1 + $v1 + $c2)&0xFFFFFFFF}]
	set c2 [expr {($c2 + $v2 + $c1)&0xFFFFFFFF}]
	}
	}


	# This proc calculates checksums in the same way as those used by SQLite
	# in WAL files. If the $endian argument is "big", then checksums are
	# calculated by interpreting data as an array of big-endian integers. If
	# it is "little", data is interpreted as an array of little-endian integers.
	#
	proc wal_cksum {endian ckv1 ckv2 blob} {
	upvar $ckv1 c1
	upvar $ckv2 c2

	if {$endian!="big" && $endian!="little"} {
	return -error "Bad value \"$endian\" - must be \"big\" or \"little\""
	}
	set scanpattern I*
	if {$endian == "little"} { set scanpattern i* }

	binary scan $blob $scanpattern values
	wal_cksum_intlist c1 c2 $values
	}

	proc wal_set_walhdr {filename {intlist {}}} {
	if {[llength $intlist]==6} {
	set blob [binary format I6 $intlist]
	set endian little
	if {[lindex $intlist 0] & 0x00000001} { set endian big }
	set c1 0
	set c2 0
	wal_cksum $endian c1 c2 $blob
	append blob [binary format II $c1 $c2]

	set fd [open $filename r+]
	fconfigure $fd -translation binary
	fconfigure $fd -encoding binary
	seek $fd 0
	puts -nonewline $fd $blob
	close $fd
	}

	set fd [open $filename]
	fconfigure $fd -translation binary
	fconfigure $fd -encoding binary
	set blob [read $fd 24]
	close $fd

	binary scan $blob I6 ints
	set ints
	}

	proc wal_fix_walindex_cksum {hdrvar} {
	upvar $hdrvar hdr
	set c1 0
	set c2 0
	wal_cksum_intlist c1 c2 [lrange $hdr 0 9]
	lset hdr 10 $c1
	lset hdr 11 $c2
	}