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With LTO, the compiler doesn't necessarily obey the link order for initcalls, and initcall variables need globally unique names to avoid collisions at link time. This change exports __KBUILD_MODNAME and adds the initcall_id() macro, which uses it together with __COUNTER__ and __LINE__ to help ensure these variables have unique names, and moves each variable to its own section when LTO is enabled, so the correct order can be specified using a linker script. The generate_initcall_ordering.pl script uses nm to find initcalls from the object files passed to the linker, and generates a linker script that specifies the same order for initcalls that we would have without LTO. With LTO enabled, the script is called in link-vmlinux.sh through jobserver-exec to limit the number of jobs spawned. Signed-off-by: Sami Tolvanen <samitolvanen@google.com> Reviewed-by: Kees Cook <keescook@chromium.org> Signed-off-by: Kees Cook <keescook@chromium.org> Link: https://lore.kernel.org/r/20201211184633.3213045-8-samitolvanen@google.com
271 lines
5.9 KiB
Perl
Executable File
271 lines
5.9 KiB
Perl
Executable File
#!/usr/bin/env perl
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# SPDX-License-Identifier: GPL-2.0
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#
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# Generates a linker script that specifies the correct initcall order.
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#
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# Copyright (C) 2019 Google LLC
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use strict;
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use warnings;
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use IO::Handle;
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use IO::Select;
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use POSIX ":sys_wait_h";
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my $nm = $ENV{'NM'} || die "$0: ERROR: NM not set?";
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my $objtree = $ENV{'objtree'} || '.';
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## currently active child processes
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my $jobs = {}; # child process pid -> file handle
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## results from child processes
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my $results = {}; # object index -> [ { level, secname }, ... ]
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## reads _NPROCESSORS_ONLN to determine the maximum number of processes to
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## start
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sub get_online_processors {
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open(my $fh, "getconf _NPROCESSORS_ONLN 2>/dev/null |")
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or die "$0: ERROR: failed to execute getconf: $!";
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my $procs = <$fh>;
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close($fh);
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if (!($procs =~ /^\d+$/)) {
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return 1;
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}
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return int($procs);
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}
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## writes results to the parent process
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## format: <file index> <initcall level> <base initcall section name>
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sub write_results {
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my ($index, $initcalls) = @_;
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# sort by the counter value to ensure the order of initcalls within
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# each object file is correct
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foreach my $counter (sort { $a <=> $b } keys(%{$initcalls})) {
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my $level = $initcalls->{$counter}->{'level'};
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# section name for the initcall function
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my $secname = $initcalls->{$counter}->{'module'} . '__' .
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$counter . '_' .
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$initcalls->{$counter}->{'line'} . '_' .
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$initcalls->{$counter}->{'function'};
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print "$index $level $secname\n";
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}
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}
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## reads a result line from a child process and adds it to the $results array
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sub read_results{
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my ($fh) = @_;
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# each child prints out a full line w/ autoflush and exits after the
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# last line, so even if buffered I/O blocks here, it shouldn't block
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# very long
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my $data = <$fh>;
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if (!defined($data)) {
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return 0;
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}
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chomp($data);
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my ($index, $level, $secname) = $data =~
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/^(\d+)\ ([^\ ]+)\ (.*)$/;
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if (!defined($index) ||
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!defined($level) ||
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!defined($secname)) {
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die "$0: ERROR: child process returned invalid data: $data\n";
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}
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$index = int($index);
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if (!exists($results->{$index})) {
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$results->{$index} = [];
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}
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push (@{$results->{$index}}, {
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'level' => $level,
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'secname' => $secname
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});
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return 1;
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}
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## finds initcalls from an object file or all object files in an archive, and
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## writes results back to the parent process
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sub find_initcalls {
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my ($index, $file) = @_;
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die "$0: ERROR: file $file doesn't exist?" if (! -f $file);
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open(my $fh, "\"$nm\" --defined-only \"$file\" 2>/dev/null |")
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or die "$0: ERROR: failed to execute \"$nm\": $!";
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my $initcalls = {};
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while (<$fh>) {
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chomp;
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# check for the start of a new object file (if processing an
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# archive)
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my ($path)= $_ =~ /^(.+)\:$/;
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if (defined($path)) {
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write_results($index, $initcalls);
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$initcalls = {};
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next;
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}
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# look for an initcall
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my ($module, $counter, $line, $symbol) = $_ =~
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/[a-z]\s+__initcall__(\S*)__(\d+)_(\d+)_(.*)$/;
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if (!defined($module)) {
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$module = ''
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}
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if (!defined($counter) ||
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!defined($line) ||
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!defined($symbol)) {
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next;
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}
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# parse initcall level
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my ($function, $level) = $symbol =~
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/^(.*)((early|rootfs|con|[0-9])s?)$/;
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die "$0: ERROR: invalid initcall name $symbol in $file($path)"
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if (!defined($function) || !defined($level));
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$initcalls->{$counter} = {
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'module' => $module,
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'line' => $line,
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'function' => $function,
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'level' => $level,
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};
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}
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close($fh);
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write_results($index, $initcalls);
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}
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## waits for any child process to complete, reads the results, and adds them to
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## the $results array for later processing
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sub wait_for_results {
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my ($select) = @_;
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my $pid = 0;
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do {
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# unblock children that may have a full write buffer
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foreach my $fh ($select->can_read(0)) {
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read_results($fh);
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}
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# check for children that have exited, read the remaining data
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# from them, and clean up
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$pid = waitpid(-1, WNOHANG);
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if ($pid > 0) {
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if (!exists($jobs->{$pid})) {
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next;
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}
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my $fh = $jobs->{$pid};
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$select->remove($fh);
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while (read_results($fh)) {
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# until eof
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}
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close($fh);
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delete($jobs->{$pid});
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}
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} while ($pid > 0);
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}
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## forks a child to process each file passed in the command line and collects
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## the results
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sub process_files {
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my $index = 0;
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my $njobs = $ENV{'PARALLELISM'} || get_online_processors();
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my $select = IO::Select->new();
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while (my $file = shift(@ARGV)) {
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# fork a child process and read it's stdout
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my $pid = open(my $fh, '-|');
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if (!defined($pid)) {
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die "$0: ERROR: failed to fork: $!";
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} elsif ($pid) {
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# save the child process pid and the file handle
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$select->add($fh);
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$jobs->{$pid} = $fh;
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} else {
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# in the child process
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STDOUT->autoflush(1);
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find_initcalls($index, "$objtree/$file");
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exit;
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}
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$index++;
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# limit the number of children to $njobs
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if (scalar(keys(%{$jobs})) >= $njobs) {
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wait_for_results($select);
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}
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}
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# wait for the remaining children to complete
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while (scalar(keys(%{$jobs})) > 0) {
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wait_for_results($select);
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}
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}
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sub generate_initcall_lds() {
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process_files();
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my $sections = {}; # level -> [ secname, ...]
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# sort results to retain link order and split to sections per
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# initcall level
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foreach my $index (sort { $a <=> $b } keys(%{$results})) {
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foreach my $result (@{$results->{$index}}) {
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my $level = $result->{'level'};
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if (!exists($sections->{$level})) {
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$sections->{$level} = [];
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}
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push(@{$sections->{$level}}, $result->{'secname'});
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}
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}
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die "$0: ERROR: no initcalls?" if (!keys(%{$sections}));
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# print out a linker script that defines the order of initcalls for
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# each level
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print "SECTIONS {\n";
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foreach my $level (sort(keys(%{$sections}))) {
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my $section;
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if ($level eq 'con') {
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$section = '.con_initcall.init';
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} else {
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$section = ".initcall${level}.init";
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}
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print "\t${section} : {\n";
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foreach my $secname (@{$sections->{$level}}) {
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print "\t\t*(${section}..${secname}) ;\n";
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}
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print "\t}\n";
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}
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print "}\n";
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}
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generate_initcall_lds();
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