third_party/sqlite/sqlite-src-3080704/tool/fragck.tcl - chromium/src - Git at Google

 # Run this TCL script using "testfixture" to get a report that shows
 # the sequence of database pages used by a particular table or index.
 # This information is used for fragmentation analysis.
 #

 # Get the name of the database to analyze
 #

 if {[llength $argv]!=2} {
   puts stderr "Usage: $argv0 database-name table-or-index-name"
   exit 1
 }
 set file_to_analyze [lindex $argv 0]
 if {![file exists $file_to_analyze]} {
   puts stderr "No such file: $file_to_analyze"
   exit 1
 }
 if {![file readable $file_to_analyze]} {
   puts stderr "File is not readable: $file_to_analyze"
   exit 1
 }
 if {[file size $file_to_analyze]<512} {
   puts stderr "Empty or malformed database: $file_to_analyze"
   exit 1
 }
 set objname [lindex $argv 1]

 # Open the database
 #
 sqlite3 db [lindex $argv 0]
 set DB [btree_open [lindex $argv 0] 1000 0]

 # This proc is a wrapper around the btree_cursor_info command. The
 # second argument is an open btree cursor returned by [btree_cursor].
 # The first argument is the name of an array variable that exists in
 # the scope of the caller. If the third argument is non-zero, then
 # info is returned for the page that lies $up entries upwards in the
 # tree-structure. (i.e. $up==1 returns the parent page, $up==2 the
 # grandparent etc.)
 #
 # The following entries in that array are filled in with information retrieved
 # using [btree_cursor_info]:
 #
 #   $arrayvar(page_no)             =  The page number
 #   $arrayvar(entry_no)            =  The entry number
 #   $arrayvar(page_entries)        =  Total number of entries on this page
 #   $arrayvar(cell_size)           =  Cell size (local payload + header)
 #   $arrayvar(page_freebytes)      =  Number of free bytes on this page
 #   $arrayvar(page_freeblocks)     =  Number of free blocks on the page
 #   $arrayvar(payload_bytes)       =  Total payload size (local + overflow)
 #   $arrayvar(header_bytes)        =  Header size in bytes
 #   $arrayvar(local_payload_bytes) =  Local payload size
 #   $arrayvar(parent)              =  Parent page number
 #
 proc cursor_info {arrayvar csr {up 0}} {
   upvar $arrayvar a
   foreach [list a(page_no) \
                 a(entry_no) \
                 a(page_entries) \
                 a(cell_size) \
                 a(page_freebytes) \
                 a(page_freeblocks) \
                 a(payload_bytes) \
                 a(header_bytes) \
                 a(local_payload_bytes) \
                 a(parent) \
                 a(first_ovfl) ] [btree_cursor_info $csr $up] break
 }

 # Determine the page-size of the database. This global variable is used
 # throughout the script.
 #
 set pageSize [db eval {PRAGMA page_size}]

 # Find the root page of table or index to be analyzed.  Also find out
 # if the object is a table or an index.
 #
 if {$objname=="sqlite_master"} {
   set rootpage 1
   set type table
 } else {
   db eval {
     SELECT rootpage, type FROM sqlite_master
      WHERE name=$objname
   } break
   if {![info exists rootpage]} {
     puts stderr "no such table or index: $objname"
     exit 1
   }
   if {$type!="table" && $type!="index"} {
     puts stderr "$objname is something other than a table or index"
     exit 1
   }
   if {![string is integer -strict $rootpage]} {
     puts stderr "invalid root page for $objname: $rootpage"
     exit 1
   }
 }

 # The cursor $csr is pointing to an entry.  Print out information
 # about the page that $up levels above that page that contains
 # the entry.  If $up==0 use the page that contains the entry.
 #
 # If information about the page has been printed already, then
 # this is a no-op.
 #
 proc page_info {csr up} {
   global seen
   cursor_info ci $csr $up
   set pg $ci(page_no)
   if {[info exists seen($pg)]} return
   set seen($pg) 1

   # Do parent pages first
   #
   if {$ci(parent)} {
     page_info $csr [expr {$up+1}]
   }

   # Find the depth of this page
   #
   set depth 1
   set i $up
   while {$ci(parent)} {
     incr i
     incr depth
     cursor_info ci $csr $i
   }

   # print the results
   #
   puts [format {LEVEL %d:  %6d} $depth $pg]
 }


 # Loop through the object and print out page numbers
 #
 set csr [btree_cursor $DB $rootpage 0]
 for {btree_first $csr} {![btree_eof $csr]} {btree_next $csr} {
   page_info $csr 0
   set i 1
   foreach pg [btree_ovfl_info $DB $csr] {
     puts [format {OVFL %3d: %6d} $i $pg]
     incr i
   }
 }
 exit 0
	# Run this TCL script using "testfixture" to get a report that shows
	# the sequence of database pages used by a particular table or index.
	# This information is used for fragmentation analysis.
	#

	# Get the name of the database to analyze
	#

	if {[llength $argv]!=2} {
	puts stderr "Usage: $argv0 database-name table-or-index-name"
	exit 1
	}
	set file_to_analyze [lindex $argv 0]
	if {![file exists $file_to_analyze]} {
	puts stderr "No such file: $file_to_analyze"
	exit 1
	}
	if {![file readable $file_to_analyze]} {
	puts stderr "File is not readable: $file_to_analyze"
	exit 1
	}
	if {[file size $file_to_analyze]<512} {
	puts stderr "Empty or malformed database: $file_to_analyze"
	exit 1
	}
	set objname [lindex $argv 1]

	# Open the database
	#
	sqlite3 db [lindex $argv 0]
	set DB [btree_open [lindex $argv 0] 1000 0]

	# This proc is a wrapper around the btree_cursor_info command. The
	# second argument is an open btree cursor returned by [btree_cursor].
	# The first argument is the name of an array variable that exists in
	# the scope of the caller. If the third argument is non-zero, then
	# info is returned for the page that lies $up entries upwards in the
	# tree-structure. (i.e. $up==1 returns the parent page, $up==2 the
	# grandparent etc.)
	#
	# The following entries in that array are filled in with information retrieved
	# using [btree_cursor_info]:
	#
	# $arrayvar(page_no) = The page number
	# $arrayvar(entry_no) = The entry number
	# $arrayvar(page_entries) = Total number of entries on this page
	# $arrayvar(cell_size) = Cell size (local payload + header)
	# $arrayvar(page_freebytes) = Number of free bytes on this page
	# $arrayvar(page_freeblocks) = Number of free blocks on the page
	# $arrayvar(payload_bytes) = Total payload size (local + overflow)
	# $arrayvar(header_bytes) = Header size in bytes
	# $arrayvar(local_payload_bytes) = Local payload size
	# $arrayvar(parent) = Parent page number
	#
	proc cursor_info {arrayvar csr {up 0}} {
	upvar $arrayvar a
	foreach [list a(page_no) \
	a(entry_no) \
	a(page_entries) \
	a(cell_size) \
	a(page_freebytes) \
	a(page_freeblocks) \
	a(payload_bytes) \
	a(header_bytes) \
	a(local_payload_bytes) \
	a(parent) \
	a(first_ovfl) ] [btree_cursor_info $csr $up] break
	}

	# Determine the page-size of the database. This global variable is used
	# throughout the script.
	#
	set pageSize [db eval {PRAGMA page_size}]

	# Find the root page of table or index to be analyzed. Also find out
	# if the object is a table or an index.
	#
	if {$objname=="sqlite_master"} {
	set rootpage 1
	set type table
	} else {
	db eval {
	SELECT rootpage, type FROM sqlite_master
	WHERE name=$objname
	} break
	if {![info exists rootpage]} {
	puts stderr "no such table or index: $objname"
	exit 1
	}
	if {$type!="table" && $type!="index"} {
	puts stderr "$objname is something other than a table or index"
	exit 1
	}
	if {![string is integer -strict $rootpage]} {
	puts stderr "invalid root page for $objname: $rootpage"
	exit 1
	}
	}

	# The cursor $csr is pointing to an entry. Print out information
	# about the page that $up levels above that page that contains
	# the entry. If $up==0 use the page that contains the entry.
	#
	# If information about the page has been printed already, then
	# this is a no-op.
	#
	proc page_info {csr up} {
	global seen
	cursor_info ci $csr $up
	set pg $ci(page_no)
	if {[info exists seen($pg)]} return
	set seen($pg) 1

	# Do parent pages first
	#
	if {$ci(parent)} {
	page_info $csr [expr {$up+1}]
	}

	# Find the depth of this page
	#
	set depth 1
	set i $up
	while {$ci(parent)} {
	incr i
	incr depth
	cursor_info ci $csr $i
	}

	# print the results
	#
	puts [format {LEVEL %d: %6d} $depth $pg]
	}




	# Loop through the object and print out page numbers
	#
	set csr [btree_cursor $DB $rootpage 0]
	for {btree_first $csr} {![btree_eof $csr]} {btree_next $csr} {
	page_info $csr 0
	set i 1
	foreach pg [btree_ovfl_info $DB $csr] {
	puts [format {OVFL %3d: %6d} $i $pg]
	incr i
	}
	}
	exit 0