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#!/usr/bin/tclsh
# Copyright (C) 2001-2020 Artifex Software, Inc.
# All Rights Reserved.
#
# This software is provided AS-IS with no warranty, either express or
# implied.
#
# This software is distributed under license and may not be copied,
# modified or distributed except as expressly authorized under the terms
# of the license contained in the file LICENSE in this distribution.
#
# Refer to licensing information at http://www.artifex.com or contact
# Artifex Software, Inc., 1305 Grant Avenue - Suite 200, Novato,
# CA 94945, U.S.A., +1(415)492-9861, for further information.
#
# This tool helps detect memory leaks in a -ZA trace from Ghostscript.
# It reads a memory trace from stdin and prints unmatched allocations on
# stdout. Currently it is slightly specialized for our PCL5 environment,
# in that it looks for the string "allocated" in the trace to mark the
# beginning of the interesting region, and the string "Final time" to
# mark the end. Usage:
# <<program>> -Z:A ... >t.log
# leaks.tcl <t.log >t.report
# We keep track of the trace in the following global arrays:
# A(<addr>) holds a string of the form line#:line of the last
# allocation event that allocated a block at address addr.
# lines(<i>) holds other interesting lines of the input trace file -
# the "allocated" and "Final" lines, and anomalous alloc/free events.
# next holds the line number of the next line.
proc init_leaks {} {
global A lines next
catch {unset A}
catch {unset lines}
set next 0
}
# The addMXN procedures handle input events as follows:
# M=1 for allocator events, M=0 for other events
# X=+ for allocation, X=- for deallocation
# N=1 if A(addr) exists, N=0 if not
proc add1+0 {il addr} {global A;set A($addr) $il}
proc add1+1 {il addr} {
global A lines
regexp {^([0-9]+):(.*)$} $A($addr) all i l
puts "**** Warning: reallocation: $il"
puts "**** Previous allocation: $A($addr)"
set lines($i) $l
set A($addr) $il
}
proc add1-1 {il addr} {global A;unset A($addr)}
proc add1-0 {il addr} {
global lines
if {$addr == "0"} {return}
regexp {^([0-9]+):(.*)$} $il ignore i l
puts "**** Warning: no alloc event: $il"
set lines($i) $l
}
proc add0+0 {il addr} {
if [regexp {Final|allocated} $il] {
uplevel {set lines($n) $l}
if [regexp "Final time" $il] {uplevel {set go 0}}
}
}
proc add0+1 {il addr} [info body add0+0]
proc add0-0 {il addr} [info body add0+0]
proc add0-1 {il addr} [info body add0+0]
proc read_trace {{fname %stdin}} {
global A lines next
set n $next
set i 0
if {$fname == "%stdin"} {
set in stdin
} else {
set in [open $fname]
}
# Skip to the first "allocated" line. See below for why we bother
# checking for EOF.
while {[gets $in l] >= 0} {
incr i
if [regexp "memory allocated" $l] break
incr n
}
if {$i == 0} {
puts stderr "Empty input file!"
if {$fname != "%stdin"} {close $in}
exit
}
set lines($n) $l
incr n
set sign + ;# arbitrary, + or -
set addr "" ;# arbitrary
set go 1
# When processing a syntactically correct trace file, add0+0 will set
# go to 0 when it detects the "Final time" line; but we add a check here
# just so invalid files won't loop forever.
while {$go && [gets $in l] >= 0} {
add[regexp {^\[a.*([+-]).*\].*0x([0-9a-f]+)} $l all sign addr]${sign}[info exists A($addr)] "$n:$l" $addr
incr n
}
if {!$go} {
# This is normal termination. The last line has not been stored.
incr n -1
set lines($n) $l
incr n
}
if {$fname != "%stdin"} {
close $in
}
set next $n
}
proc print_leaks {} {
global A lines
foreach addr [array names A] {
regexp {^([0-9]+):(.*)$} $A($addr) all i l
set lines($i) $l
}
foreach i [lsort -integer [array names lines]] {
puts "$i: $lines($i)"
}
}
if {$argv0 != "tclsh"} {
init_leaks
read_trace
print_leaks
}
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