GIF89a;
Direktori : /lib/modules/3.10.0-1160.80.1.el7.centos.plus.x86_64/source/scripts/kconfig/ |
Current File : //lib/modules/3.10.0-1160.80.1.el7.centos.plus.x86_64/source/scripts/kconfig/streamline_config.pl |
#!/usr/bin/perl -w # # Copyright 2005-2009 - Steven Rostedt # Licensed under the terms of the GNU GPL License version 2 # # It's simple enough to figure out how this works. # If not, then you can ask me at stripconfig@goodmis.org # # What it does? # # If you have installed a Linux kernel from a distribution # that turns on way too many modules than you need, and # you only want the modules you use, then this program # is perfect for you. # # It gives you the ability to turn off all the modules that are # not loaded on your system. # # Howto: # # 1. Boot up the kernel that you want to stream line the config on. # 2. Change directory to the directory holding the source of the # kernel that you just booted. # 3. Copy the configuraton file to this directory as .config # 4. Have all your devices that you need modules for connected and # operational (make sure that their corresponding modules are loaded) # 5. Run this script redirecting the output to some other file # like config_strip. # 6. Back up your old config (if you want too). # 7. copy the config_strip file to .config # 8. Run "make oldconfig" # # Now your kernel is ready to be built with only the modules that # are loaded. # # Here's what I did with my Debian distribution. # # cd /usr/src/linux-2.6.10 # cp /boot/config-2.6.10-1-686-smp .config # ~/bin/streamline_config > config_strip # mv .config config_sav # mv config_strip .config # make oldconfig # use strict; use Getopt::Long; # set the environment variable LOCALMODCONFIG_DEBUG to get # debug output. my $debugprint = 0; $debugprint = 1 if (defined($ENV{LOCALMODCONFIG_DEBUG})); sub dprint { return if (!$debugprint); print STDERR @_; } my $config = ".config"; my $uname = `uname -r`; chomp $uname; my @searchconfigs = ( { "file" => ".config", "exec" => "cat", }, { "file" => "/proc/config.gz", "exec" => "zcat", }, { "file" => "/boot/config-$uname", "exec" => "cat", }, { "file" => "/boot/vmlinuz-$uname", "exec" => "scripts/extract-ikconfig", "test" => "scripts/extract-ikconfig", }, { "file" => "vmlinux", "exec" => "scripts/extract-ikconfig", "test" => "scripts/extract-ikconfig", }, { "file" => "/lib/modules/$uname/kernel/kernel/configs.ko", "exec" => "scripts/extract-ikconfig", "test" => "scripts/extract-ikconfig", }, { "file" => "kernel/configs.ko", "exec" => "scripts/extract-ikconfig", "test" => "scripts/extract-ikconfig", }, { "file" => "kernel/configs.o", "exec" => "scripts/extract-ikconfig", "test" => "scripts/extract-ikconfig", }, ); sub read_config { foreach my $conf (@searchconfigs) { my $file = $conf->{"file"}; next if ( ! -f "$file"); if (defined($conf->{"test"})) { `$conf->{"test"} $conf->{"file"} 2>/dev/null`; next if ($?); } my $exec = $conf->{"exec"}; print STDERR "using config: '$file'\n"; open(my $infile, '-|', "$exec $file") || die "Failed to run $exec $file"; my @x = <$infile>; close $infile; return @x; } die "No config file found"; } my @config_file = read_config; # Parse options my $localmodconfig = 0; my $localyesconfig = 0; GetOptions("localmodconfig" => \$localmodconfig, "localyesconfig" => \$localyesconfig); # Get the build source and top level Kconfig file (passed in) my $ksource = ($ARGV[0] ? $ARGV[0] : '.'); my $kconfig = $ARGV[1]; my $lsmod_file = $ENV{'LSMOD'}; my @makefiles = `find $ksource -name Makefile 2>/dev/null`; chomp @makefiles; my %depends; my %selects; my %prompts; my %objects; my $var; my $iflevel = 0; my @ifdeps; # prevent recursion my %read_kconfigs; sub read_kconfig { my ($kconfig) = @_; my $state = "NONE"; my $config; my $cont = 0; my $line; my $source = "$ksource/$kconfig"; my $last_source = ""; # Check for any environment variables used while ($source =~ /\$(\w+)/ && $last_source ne $source) { my $env = $1; $last_source = $source; $source =~ s/\$$env/$ENV{$env}/; } open(my $kinfile, '<', $source) || die "Can't open $kconfig"; while (<$kinfile>) { chomp; # Make sure that lines ending with \ continue if ($cont) { $_ = $line . " " . $_; } if (s/\\$//) { $cont = 1; $line = $_; next; } $cont = 0; # collect any Kconfig sources if (/^source\s*"(.*)"/) { my $kconfig = $1; # prevent reading twice. if (!defined($read_kconfigs{$kconfig})) { $read_kconfigs{$kconfig} = 1; read_kconfig($kconfig); } next; } # configs found if (/^\s*(menu)?config\s+(\S+)\s*$/) { $state = "NEW"; $config = $2; # Add depends for 'if' nesting for (my $i = 0; $i < $iflevel; $i++) { if ($i) { $depends{$config} .= " " . $ifdeps[$i]; } else { $depends{$config} = $ifdeps[$i]; } $state = "DEP"; } # collect the depends for the config } elsif ($state eq "NEW" && /^\s*depends\s+on\s+(.*)$/) { $state = "DEP"; $depends{$config} = $1; } elsif ($state eq "DEP" && /^\s*depends\s+on\s+(.*)$/) { $depends{$config} .= " " . $1; # Get the configs that select this config } elsif ($state ne "NONE" && /^\s*select\s+(\S+)/) { my $conf = $1; if (defined($selects{$conf})) { $selects{$conf} .= " " . $config; } else { $selects{$conf} = $config; } # configs without prompts must be selected } elsif ($state ne "NONE" && /^\s*tristate\s\S/) { # note if the config has a prompt $prompts{$config} = 1; # Check for if statements } elsif (/^if\s+(.*\S)\s*$/) { my $deps = $1; # remove beginning and ending non text $deps =~ s/^[^a-zA-Z0-9_]*//; $deps =~ s/[^a-zA-Z0-9_]*$//; my @deps = split /[^a-zA-Z0-9_]+/, $deps; $ifdeps[$iflevel++] = join ':', @deps; } elsif (/^endif/) { $iflevel-- if ($iflevel); # stop on "help" } elsif (/^\s*help\s*$/) { $state = "NONE"; } } close($kinfile); } if ($kconfig) { read_kconfig($kconfig); } # Makefiles can use variables to define their dependencies sub convert_vars { my ($line, %vars) = @_; my $process = ""; while ($line =~ s/^(.*?)(\$\((.*?)\))//) { my $start = $1; my $variable = $2; my $var = $3; if (defined($vars{$var})) { $process .= $start . $vars{$var}; } else { $process .= $start . $variable; } } $process .= $line; return $process; } # Read all Makefiles to map the configs to the objects foreach my $makefile (@makefiles) { my $line = ""; my %make_vars; open(my $infile, '<', $makefile) || die "Can't open $makefile"; while (<$infile>) { # if this line ends with a backslash, continue chomp; if (/^(.*)\\$/) { $line .= $1; next; } $line .= $_; $_ = $line; $line = ""; my $objs; # Convert variables in a line (could define configs) $_ = convert_vars($_, %make_vars); # collect objects after obj-$(CONFIG_FOO_BAR) if (/obj-\$\((CONFIG_[^\)]*)\)\s*[+:]?=\s*(.*)/) { $var = $1; $objs = $2; # check if variables are set } elsif (/^\s*(\S+)\s*[:]?=\s*(.*\S)/) { $make_vars{$1} = $2; } if (defined($objs)) { foreach my $obj (split /\s+/,$objs) { $obj =~ s/-/_/g; if ($obj =~ /(.*)\.o$/) { # Objects may be enabled by more than one config. # Store configs in an array. my @arr; if (defined($objects{$1})) { @arr = @{$objects{$1}}; } $arr[$#arr+1] = $var; # The objects have a hash mapping to a reference # of an array of configs. $objects{$1} = \@arr; } } } } close($infile); } my %modules; my $linfile; if (defined($lsmod_file)) { if ( ! -f $lsmod_file) { if ( -f $ENV{'objtree'}."/".$lsmod_file) { $lsmod_file = $ENV{'objtree'}."/".$lsmod_file; } else { die "$lsmod_file not found"; } } my $otype = ( -x $lsmod_file) ? '-|' : '<'; open($linfile, $otype, $lsmod_file); } else { # see what modules are loaded on this system my $lsmod; foreach my $dir ( ("/sbin", "/bin", "/usr/sbin", "/usr/bin") ) { if ( -x "$dir/lsmod" ) { $lsmod = "$dir/lsmod"; last; } } if (!defined($lsmod)) { # try just the path $lsmod = "lsmod"; } open($linfile, '-|', $lsmod) || die "Can not call lsmod with $lsmod"; } while (<$linfile>) { next if (/^Module/); # Skip the first line. if (/^(\S+)/) { $modules{$1} = 1; } } close ($linfile); # add to the configs hash all configs that are needed to enable # a loaded module. This is a direct obj-${CONFIG_FOO} += bar.o # where we know we need bar.o so we add FOO to the list. my %configs; foreach my $module (keys(%modules)) { if (defined($objects{$module})) { my @arr = @{$objects{$module}}; foreach my $conf (@arr) { $configs{$conf} = $module; dprint "$conf added by direct ($module)\n"; if ($debugprint) { my $c=$conf; $c =~ s/^CONFIG_//; if (defined($depends{$c})) { dprint " deps = $depends{$c}\n"; } else { dprint " no deps\n"; } } } } else { # Most likely, someone has a custom (binary?) module loaded. print STDERR "$module config not found!!\n"; } } # Read the current config, and see what is enabled. We want to # ignore configs that we would not enable anyway. my %orig_configs; my $valid = "A-Za-z_0-9"; foreach my $line (@config_file) { $_ = $line; if (/(CONFIG_[$valid]*)=(m|y)/) { $orig_configs{$1} = $2; } } my $repeat = 1; my $depconfig; # # Note, we do not care about operands (like: &&, ||, !) we want to add any # config that is in the depend list of another config. This script does # not enable configs that are not already enabled. If we come across a # config A that depends on !B, we can still add B to the list of depends # to keep on. If A was on in the original config, B would not have been # and B would not be turned on by this script. # sub parse_config_depends { my ($p) = @_; while ($p =~ /[$valid]/) { if ($p =~ /^[^$valid]*([$valid]+)/) { my $conf = "CONFIG_" . $1; $p =~ s/^[^$valid]*[$valid]+//; # We only need to process if the depend config is a module if (!defined($orig_configs{$conf}) || !$orig_configs{conf} eq "m") { next; } if (!defined($configs{$conf})) { # We must make sure that this config has its # dependencies met. $repeat = 1; # do again dprint "$conf selected by depend $depconfig\n"; $configs{$conf} = 1; } } else { die "this should never happen"; } } } # Select is treated a bit differently than depends. We call this # when a config has no prompt and requires another config to be # selected. We use to just select all configs that selected this # config, but found that that can balloon into enabling hundreds # of configs that we do not care about. # # The idea is we look at all the configs that select it. If one # is already in our list of configs to enable, then there's nothing # else to do. If there isn't, we pick the first config that was # enabled in the orignal config and use that. sub parse_config_selects { my ($config, $p) = @_; my $next_config; while ($p =~ /[$valid]/) { if ($p =~ /^[^$valid]*([$valid]+)/) { my $conf = "CONFIG_" . $1; $p =~ s/^[^$valid]*[$valid]+//; # Make sure that this config exists in the current .config file if (!defined($orig_configs{$conf})) { dprint "$conf not set for $config select\n"; next; } # Check if something other than a module selects this config if (defined($orig_configs{$conf}) && $orig_configs{$conf} ne "m") { dprint "$conf (non module) selects config, we are good\n"; # we are good with this return; } if (defined($configs{$conf})) { dprint "$conf selects $config so we are good\n"; # A set config selects this config, we are good return; } # Set this config to be selected if (!defined($next_config)) { $next_config = $conf; } } else { die "this should never happen"; } } # If no possible config selected this, then something happened. if (!defined($next_config)) { print STDERR "WARNING: $config is required, but nothing in the\n"; print STDERR " current config selects it.\n"; return; } # If we are here, then we found no config that is set and # selects this config. Repeat. $repeat = 1; # Make this config need to be selected $configs{$next_config} = 1; dprint "$next_config selected by select $config\n"; } my %process_selects; # loop through all configs, select their dependencies. sub loop_depend { $repeat = 1; while ($repeat) { $repeat = 0; forloop: foreach my $config (keys %configs) { # If this config is not a module, we do not need to process it if (defined($orig_configs{$config}) && $orig_configs{$config} ne "m") { next forloop; } $config =~ s/^CONFIG_//; $depconfig = $config; if (defined($depends{$config})) { # This config has dependencies. Make sure they are also included parse_config_depends $depends{$config}; } # If the config has no prompt, then we need to check if a config # that is enabled selected it. Or if we need to enable one. if (!defined($prompts{$config}) && defined($selects{$config})) { $process_selects{$config} = 1; } } } } sub loop_select { foreach my $config (keys %process_selects) { $config =~ s/^CONFIG_//; dprint "Process select $config\n"; # config has no prompt and must be selected. parse_config_selects $config, $selects{$config}; } } while ($repeat) { # Get the first set of configs and their dependencies. loop_depend; $repeat = 0; # Now we need to see if we have to check selects; loop_select; } my %setconfigs; # Finally, read the .config file and turn off any module enabled that # we could not find a reason to keep enabled. foreach my $line (@config_file) { $_ = $line; if (/CONFIG_IKCONFIG/) { if (/# CONFIG_IKCONFIG is not set/) { # enable IKCONFIG at least as a module print "CONFIG_IKCONFIG=m\n"; # don't ask about PROC print "# CONFIG_IKCONFIG_PROC is not set\n"; } else { print; } next; } if (/^(CONFIG.*)=(m|y)/) { if (defined($configs{$1})) { if ($localyesconfig) { $setconfigs{$1} = 'y'; print "$1=y\n"; next; } else { $setconfigs{$1} = $2; } } elsif ($2 eq "m") { print "# $1 is not set\n"; next; } } print; } # Integrity check, make sure all modules that we want enabled do # indeed have their configs set. loop: foreach my $module (keys(%modules)) { if (defined($objects{$module})) { my @arr = @{$objects{$module}}; foreach my $conf (@arr) { if (defined($setconfigs{$conf})) { next loop; } } print STDERR "module $module did not have configs"; foreach my $conf (@arr) { print STDERR " " , $conf; } print STDERR "\n"; } }