cros: Remove hard coded top row key mode for kiosk app.
[chromium-blink-merge.git] / third_party / codesighs / readelf_wrap.pl
blob7e2b15e1c781db9d05a86273b96180b8318b8f5b
1 #!/usr/bin/perl -w
2 # -*- Mode: perl; tab-width: 4; indent-tabs-mode: nil; -*-
3 # ***** BEGIN LICENSE BLOCK *****
4 # Version: MPL 1.1/GPL 2.0/LGPL 2.1
6 # The contents of this file are subject to the Mozilla Public License Version
7 # 1.1 (the "License"); you may not use this file except in compliance with
8 # the License. You may obtain a copy of the License at
9 # http://www.mozilla.org/MPL/
11 # Software distributed under the License is distributed on an "AS IS" basis,
12 # WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
13 # for the specific language governing rights and limitations under the
14 # License.
16 # The Original Code is readelf_wrap.pl.
18 # The Initial Developer of the Original Code is
19 # IBM Corporation.
20 # Portions created by the Initial Developer are Copyright (C) 2003
21 # the Initial Developer. All Rights Reserved.
23 # Contributor(s):
24 # Brian Ryner <bryner@brianryner.com>
26 # Alternatively, the contents of this file may be used under the terms of
27 # either the GNU General Public License Version 2 or later (the "GPL"), or
28 # the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
29 # in which case the provisions of the GPL or the LGPL are applicable instead
30 # of those above. If you wish to allow use of your version of this file only
31 # under the terms of either the GPL or the LGPL, and not to allow others to
32 # use your version of this file under the terms of the MPL, indicate your
33 # decision by deleting the provisions above and replace them with the notice
34 # and other provisions required by the GPL or the LGPL. If you do not delete
35 # the provisions above, a recipient may use your version of this file under
36 # the terms of any one of the MPL, the GPL or the LGPL.
38 # ***** END LICENSE BLOCK *****
40 use strict;
42 # Section fields (the full list of values is in <elf.h>)
43 my $SECT_NUM = 0; # section index
44 my $SECT_NAME = 1; # section name
45 my $SECT_TYPE = 2; # section type
46 my $SECT_ADDR = 3; # section virtual address
47 my $SECT_OFF = 4; # section offset in file
48 my $SECT_SIZE = 5; # size of section
49 my $SECT_ES = 6; # section entry size
50 my $SECT_FLG = 7; # section flags
51 my $SECT_LK = 8; # link to another section
52 my $SECT_INF = 9; # additional section info
53 my $SECT_AL = 10; # section alignment
56 # Symbol fields (note: the full list of possible values for each field
57 # is given in <elf.h>)
59 my $SYM_NUM = 0; # unique index of the symbol
60 my $SYM_VALUE = 1; # value of the symbol
61 my $SYM_SIZE = 2; # size of the symbol
62 my $SYM_TYPE = 3; # type (NOTYPE, OBJECT, FUNC, SECTION, FILE, ...)
63 my $SYM_BIND = 4; # binding/scope (LOCAL, GLOBAL, WEAK, ...)
64 my $SYM_VIS = 5; # visibility (DEFAULT, INTERNAL, HIDDEN, PROTECTED)
65 my $SYM_NDX = 6; # index of section the symbol is in
66 my $SYM_NAME = 7; # name of the symbol
67 my $SYM_FILE = 8; # (not part of readelf) file for symbol
69 # Tell readelf to print out the list of sections and then the symbols
70 die "Usage: $^X <binary>\n" unless ($#ARGV >= 0);
71 my $readelf = $ENV{'READELF_PROG'};
72 if (!$readelf) {
73 $readelf = 'readelf';
75 open(READELF_OUTPUT, "$readelf -Ss $ARGV[0] 2>/dev/null | c++filt |") or die "readelf failed to run on $ARGV[0]\n";
77 my @section_list;
78 my @symbol_list;
79 my ($module) = ($ARGV[0] =~ /([^\/]+)$/);
80 my $in_symbols = 0;
82 while (<READELF_OUTPUT>) {
84 if (!$in_symbols) {
85 if (/^ *\[ *(\d+)\]/) {
86 my @section;
88 # note that we strip off the leading '.' of section names for
89 # readability
90 if (! (@section = (/^ *\[ *(\d+)\] \.([\w\.\-]+) *(\w+) *(.{8}) (.{6}[0-9a-fA-F]*) (.{6}[0-9a-fA-F]*) *(\d+) ([a-zA-Z]+ +| +[a-zA-Z]+|) *(\d+) *(\w+) *(\d+)/))) {
91 # capture the 'null' section which has no name, so that the
92 # array indices are the same as the section indices.
94 @section = ($1, '', 'NULL', '00000000', '000000', '000000',
95 '00', '', '0', '0', '0');
98 push (@section_list, \@section);
99 } elsif (/^Symbol table/) {
100 $in_symbols = 1;
102 } else {
104 my @sym;
106 if (@sym = /^\s*(\d+): (\w+)\s*(\d+)\s*(\w+)\s*(\w+)\s*(\w+)\s*(\w+) (.*)/)
108 # Filter out types of symbols that we don't care about:
109 # - anything that's not of type OBJECT or FUNC
110 # - any undefined symbols (ndx = UND[EF])
111 # - any 0-size symbols
113 if (($sym[$SYM_TYPE] !~ /^(OBJECT|FUNC)$/) ||
114 $sym[$SYM_NDX] eq 'UND' || $sym[$SYM_NDX] eq 'UNDEF'
115 || $sym[$SYM_SIZE] eq '0') {
116 next;
118 push (@symbol_list, \@sym);
120 elsif (/^Symbol table .*'\.symtab'/) {
121 # We've been using .dynsym up to this point, but if we have .symtab
122 # available, it will have everything in .dynsym and more.
123 # So, reset our symbol list.
125 @symbol_list = ();
130 close(READELF_OUTPUT);
132 # spit them out in codesighs TSV format
133 my $sym;
134 my @section_sizes;
135 $#section_sizes = $#section_list;
136 foreach (@section_sizes) { $_ = 0; }
138 foreach $sym (@symbol_list) {
139 # size
140 printf "%08x\t", $sym->[$SYM_SIZE];
142 # code or data
143 if ($sym->[$SYM_TYPE] eq 'FUNC') {
144 print "CODE\t";
145 } else { # OBJECT
146 print "DATA\t";
149 # scope
150 if ($sym->[$SYM_BIND] eq 'LOCAL') {
151 print "STATIC\t";
152 } elsif ($sym->[$SYM_BIND] =~ /(GLOBAL|WEAK)/) {
153 print "PUBLIC\t";
154 } else {
155 print "UNDEF\t";
158 # module name
160 print "$module\t";
162 # section
163 my $section = $section_list[$sym->[$SYM_NDX]]->[$SECT_NAME];
164 print "$section\t";
166 # should be the object file, but for now just module/section
167 print "UNDEF:$module:$section\t";
169 # now the symbol name
170 print $sym->[$SYM_NAME]."\n";
172 # update our cumulative section sizes
173 $section_sizes[$section_list[$sym->[$SYM_NDX]]->[$SECT_NUM]] += $sym->[$SYM_SIZE];
176 # Output extra entries to make the sum of the symbol sizes equal the
177 # section size.
179 my $section;
180 foreach $section (@section_list) {
182 my $diff = hex($section->[$SECT_SIZE]) - $section_sizes[$section->[$SECT_NUM]];
183 if ($diff > 0) {
184 my $sectname = $section->[$SECT_NAME];
185 if ($section->[$SECT_NAME] =~ /^(rodata|data|text|bss)/) {
186 printf "%08x", $diff;
187 print "\tDATA\tSTATIC\t$module\t$sectname\tUNDEF:$module:$sectname\t.nosyms.$sectname\n";
188 # } else {
189 # print "ignoring $diff bytes of empty space in $sectname section\n";