rwoeber · June 28, 2011 06:58
diff --git a/free.pl b/free.pl
 #!/usr/bin/perl
 ##
 ##  freebsd-memory -- List Total System Memory Usage
 ##  Copyright (c) 2003-2004 Ralf S. Engelschall <rse@engelschall.com>
 ##  
 ##  Redistribution and use in source and binary forms, with or without
 ##  modification, are permitted provided that the following conditions
 ##  are met:
 ##  1. Redistributions of source code must retain the above copyright
 ##     notice, this list of conditions and the following disclaimer.
 ##  2. Redistributions in binary form must reproduce the above copyright
 ##     notice, this list of conditions and the following disclaimer in the
 ##     documentation and/or other materials provided with the distribution.
 ##  
 ##  THIS SOFTWARE IS PROVIDED BY AUTHOR AND CONTRIBUTORS ``AS IS'' AND
 ##  ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 ##  IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 ##  ARE DISCLAIMED.  IN NO EVENT SHALL AUTHOR OR CONTRIBUTORS BE LIABLE
 ##  FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 ##  DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
 ##  OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 ##  HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 ##  LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 ##  OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 ##  SUCH DAMAGE.
 ##

 #   query the system through the generic sysctl(8) interface
 #   (this does not require special priviledges)
 my $sysctl = {};
 my $sysctl_output = `/sbin/sysctl -a`;
 foreach my $line (split(/\n/, $sysctl_output)) {
    if ($line =~ m/^([^:]+):\s+(.+)\s*$/s) {
        $sysctl->{$1} = $2;
    }
 }

 #   round the physical memory size to the next power of two which is
 #   reasonable for memory cards. We do this by first determining the
 #   guessed memory card size under the assumption that usual computer
 #   hardware has an average of a maximally eight memory cards installed
 #   and those are usually of equal size.
 sub mem_rounded {
    my ($mem_size) = @_;
    my $chip_size  = 1;
    my $chip_guess = ($mem_size / 8) - 1;
    while ($chip_guess != 0) {
        $chip_guess >>= 1;
        $chip_size  <<= 1;
    }
    my $mem_round = (int($mem_size / $chip_size) + 1) * $chip_size;
    return $mem_round;
 }

 #   determine the individual known information
 #   NOTICE: forget hw.usermem, it is just (hw.physmem - vm.stats.vm.v_wire_count).
 #   NOTICE: forget vm.stats.misc.zero_page_count, it is just the subset of
 #           vm.stats.vm.v_free_count which is already pre-zeroed.
 my $mem_hw        = &mem_rounded($sysctl->{"hw.physmem"});
 my $mem_phys      = $sysctl->{"hw.physmem"};
 my $mem_all       = $sysctl->{"vm.stats.vm.v_page_count"}      * $sysctl->{"hw.pagesize"};
 my $mem_wire      = $sysctl->{"vm.stats.vm.v_wire_count"}      * $sysctl->{"hw.pagesize"};
 my $mem_active    = $sysctl->{"vm.stats.vm.v_active_count"}    * $sysctl->{"hw.pagesize"};
 my $mem_inactive  = $sysctl->{"vm.stats.vm.v_inactive_count"}  * $sysctl->{"hw.pagesize"};
 my $mem_cache     = $sysctl->{"vm.stats.vm.v_cache_count"}     * $sysctl->{"hw.pagesize"};
 my $mem_free      = $sysctl->{"vm.stats.vm.v_free_count"}      * $sysctl->{"hw.pagesize"};

 #   determine the individual unknown information
 my $mem_gap_vm    = $mem_all - ($mem_wire + $mem_active + $mem_inactive + $mem_cache + $mem_free);
 my $mem_gap_sys   = $mem_phys - $mem_all;
 my $mem_gap_hw    = $mem_hw   - $mem_phys;

 #   determine logical summary information
 my $mem_total = $mem_hw;
 my $mem_avail = $mem_inactive + $mem_cache + $mem_free;
 my $mem_used  = $mem_total - $mem_avail;

 #   information annotations
 my $info = {
    "mem_wire"     => 'Wired: disabled for paging out',
    "mem_active"   => 'Active: recently referenced',
    "mem_inactive" => 'Inactive: recently not referenced',
    "mem_cache"    => 'Cached: almost avail. for allocation',
    "mem_free"     => 'Free: fully available for allocation',
    "mem_gap_vm"   => 'Memory gap: UNKNOWN',
    "mem_all"      => 'Total real memory managed',
    "mem_gap_sys"  => 'Memory gap: Kernel?!',
    "mem_phys"     => 'Total real memory available',
    "mem_gap_hw"   => 'Memory gap: Segment Mappings?!',
    "mem_hw"       => 'Total real memory installed',
    "mem_used"     => 'Logically used memory',
    "mem_avail"    => 'Logically available memory',
    "mem_total"    => 'Logically total memory',
 };

 #   print system results
 printf("SYSTEM MEMORY INFORMATION:\n");
 printf("mem_wire:      %12d (%7dMB) [%3d%%] %s\n", $mem_wire,     $mem_wire     / (1024*1024), ($mem_wire     / $mem_all) * 100, $info->{"mem_wire"});
 printf("mem_active:  + %12d (%7dMB) [%3d%%] %s\n", $mem_active,   $mem_active   / (1024*1024), ($mem_active   / $mem_all) * 100, $info->{"mem_active"});
 printf("mem_inactive:+ %12d (%7dMB) [%3d%%] %s\n", $mem_inactive, $mem_inactive / (1024*1024), ($mem_inactive / $mem_all) * 100, $info->{"mem_inactive"});
 printf("mem_cache:   + %12d (%7dMB) [%3d%%] %s\n", $mem_cache,    $mem_cache    / (1024*1024), ($mem_cache    / $mem_all) * 100, $info->{"mem_cache"});
 printf("mem_free:    + %12d (%7dMB) [%3d%%] %s\n", $mem_free,     $mem_free     / (1024*1024), ($mem_free     / $mem_all) * 100, $info->{"mem_free"});
 printf("mem_gap_vm:  + %12d (%7dMB) [%3d%%] %s\n", $mem_gap_vm,   $mem_gap_vm   / (1024*1024), ($mem_gap_vm   / $mem_all) * 100, $info->{"mem_gap_vm"});
 printf("-------------- ------------ ----------- ------\n");
 printf("mem_all:     = %12d (%7dMB) [100%%] %s\n", $mem_all,      $mem_all      / (1024*1024), $info->{"mem_all"});
 printf("mem_gap_sys: + %12d (%7dMB)        %s\n",  $mem_gap_sys,  $mem_gap_sys  / (1024*1024), $info->{"mem_gap_sys"});
 printf("-------------- ------------ -----------\n");
 printf("mem_phys:    = %12d (%7dMB)        %s\n",  $mem_phys,     $mem_phys     / (1024*1024), $info->{"mem_phys"});
 printf("mem_gap_hw:  + %12d (%7dMB)        %s\n",  $mem_gap_hw,   $mem_gap_hw   / (1024*1024), $info->{"mem_gap_hw"});     
 printf("-------------- ------------ -----------\n");
 printf("mem_hw:      = %12d (%7dMB)        %s\n",  $mem_hw,       $mem_hw       / (1024*1024), $info->{"mem_hw"});     

 #   print logical results
 printf("\n");
 printf("SYSTEM MEMORY SUMMARY:\n");
 printf("mem_used:      %12d (%7dMB) [%3d%%] %s\n", $mem_used,  $mem_used  / (1024*1024), ($mem_used  / $mem_total) * 100, $info->{"mem_used"});
 printf("mem_avail:   + %12d (%7dMB) [%3d%%] %s\n", $mem_avail, $mem_avail / (1024*1024), ($mem_avail / $mem_total) * 100, $info->{"mem_avail"});
 printf("-------------- ------------ ----------- ------\n");
 printf("mem_total:   = %12d (%7dMB) [100%%] %s\n", $mem_total, $mem_total / (1024*1024), $info->{"mem_total"});
	#!/usr/bin/perl
	##
	## freebsd-memory -- List Total System Memory Usage
	## Copyright (c) 2003-2004 Ralf S. Engelschall <rse@engelschall.com>
	##
	## Redistribution and use in source and binary forms, with or without
	## modification, are permitted provided that the following conditions
	## are met:
	## 1. Redistributions of source code must retain the above copyright
	## notice, this list of conditions and the following disclaimer.
	## 2. Redistributions in binary form must reproduce the above copyright
	## notice, this list of conditions and the following disclaimer in the
	## documentation and/or other materials provided with the distribution.
	##
	## THIS SOFTWARE IS PROVIDED BY AUTHOR AND CONTRIBUTORS ``AS IS'' AND
	## ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	## IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
	## ARE DISCLAIMED. IN NO EVENT SHALL AUTHOR OR CONTRIBUTORS BE LIABLE
	## FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
	## DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
	## OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
	## HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
	## LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
	## OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
	## SUCH DAMAGE.
	##

	# query the system through the generic sysctl(8) interface
	# (this does not require special priviledges)
	my $sysctl = {};
	my $sysctl_output = `/sbin/sysctl -a`;
	foreach my $line (split(/\n/, $sysctl_output)) {
	if ($line =~ m/^([^:]+):\s+(.+)\s*$/s) {
	$sysctl->{$1} = $2;
	}
	}

	# round the physical memory size to the next power of two which is
	# reasonable for memory cards. We do this by first determining the
	# guessed memory card size under the assumption that usual computer
	# hardware has an average of a maximally eight memory cards installed
	# and those are usually of equal size.
	sub mem_rounded {
	my ($mem_size) = @_;
	my $chip_size = 1;
	my $chip_guess = ($mem_size / 8) - 1;
	while ($chip_guess != 0) {
	$chip_guess >>= 1;
	$chip_size <<= 1;
	}
	my $mem_round = (int($mem_size / $chip_size) + 1) * $chip_size;
	return $mem_round;
	}

	# determine the individual known information
	# NOTICE: forget hw.usermem, it is just (hw.physmem - vm.stats.vm.v_wire_count).
	# NOTICE: forget vm.stats.misc.zero_page_count, it is just the subset of
	# vm.stats.vm.v_free_count which is already pre-zeroed.
	my $mem_hw = &mem_rounded($sysctl->{"hw.physmem"});
	my $mem_phys = $sysctl->{"hw.physmem"};
	my $mem_all = $sysctl->{"vm.stats.vm.v_page_count"} * $sysctl->{"hw.pagesize"};
	my $mem_wire = $sysctl->{"vm.stats.vm.v_wire_count"} * $sysctl->{"hw.pagesize"};
	my $mem_active = $sysctl->{"vm.stats.vm.v_active_count"} * $sysctl->{"hw.pagesize"};
	my $mem_inactive = $sysctl->{"vm.stats.vm.v_inactive_count"} * $sysctl->{"hw.pagesize"};
	my $mem_cache = $sysctl->{"vm.stats.vm.v_cache_count"} * $sysctl->{"hw.pagesize"};
	my $mem_free = $sysctl->{"vm.stats.vm.v_free_count"} * $sysctl->{"hw.pagesize"};

	# determine the individual unknown information
	my $mem_gap_vm = $mem_all - ($mem_wire + $mem_active + $mem_inactive + $mem_cache + $mem_free);
	my $mem_gap_sys = $mem_phys - $mem_all;
	my $mem_gap_hw = $mem_hw - $mem_phys;

	# determine logical summary information
	my $mem_total = $mem_hw;
	my $mem_avail = $mem_inactive + $mem_cache + $mem_free;
	my $mem_used = $mem_total - $mem_avail;

	# information annotations
	my $info = {
	"mem_wire" => 'Wired: disabled for paging out',
	"mem_active" => 'Active: recently referenced',
	"mem_inactive" => 'Inactive: recently not referenced',
	"mem_cache" => 'Cached: almost avail. for allocation',
	"mem_free" => 'Free: fully available for allocation',
	"mem_gap_vm" => 'Memory gap: UNKNOWN',
	"mem_all" => 'Total real memory managed',
	"mem_gap_sys" => 'Memory gap: Kernel?!',
	"mem_phys" => 'Total real memory available',
	"mem_gap_hw" => 'Memory gap: Segment Mappings?!',
	"mem_hw" => 'Total real memory installed',
	"mem_used" => 'Logically used memory',
	"mem_avail" => 'Logically available memory',
	"mem_total" => 'Logically total memory',
	};

	# print system results
	printf("SYSTEM MEMORY INFORMATION:\n");
	printf("mem_wire: %12d (%7dMB) [%3d%%] %s\n", $mem_wire, $mem_wire / (10241024), ($mem_wire / $mem_all) 100, $info->{"mem_wire"});
	printf("mem_active: + %12d (%7dMB) [%3d%%] %s\n", $mem_active, $mem_active / (10241024), ($mem_active / $mem_all) 100, $info->{"mem_active"});
	printf("mem_inactive:+ %12d (%7dMB) [%3d%%] %s\n", $mem_inactive, $mem_inactive / (10241024), ($mem_inactive / $mem_all) 100, $info->{"mem_inactive"});
	printf("mem_cache: + %12d (%7dMB) [%3d%%] %s\n", $mem_cache, $mem_cache / (10241024), ($mem_cache / $mem_all) 100, $info->{"mem_cache"});
	printf("mem_free: + %12d (%7dMB) [%3d%%] %s\n", $mem_free, $mem_free / (10241024), ($mem_free / $mem_all) 100, $info->{"mem_free"});
	printf("mem_gap_vm: + %12d (%7dMB) [%3d%%] %s\n", $mem_gap_vm, $mem_gap_vm / (10241024), ($mem_gap_vm / $mem_all) 100, $info->{"mem_gap_vm"});
	printf("-------------- ------------ ----------- ------\n");
	printf("mem_all: = %12d (%7dMB) [100%%] %s\n", $mem_all, $mem_all / (1024*1024), $info->{"mem_all"});
	printf("mem_gap_sys: + %12d (%7dMB) %s\n", $mem_gap_sys, $mem_gap_sys / (1024*1024), $info->{"mem_gap_sys"});
	printf("-------------- ------------ -----------\n");
	printf("mem_phys: = %12d (%7dMB) %s\n", $mem_phys, $mem_phys / (1024*1024), $info->{"mem_phys"});
	printf("mem_gap_hw: + %12d (%7dMB) %s\n", $mem_gap_hw, $mem_gap_hw / (1024*1024), $info->{"mem_gap_hw"});
	printf("-------------- ------------ -----------\n");
	printf("mem_hw: = %12d (%7dMB) %s\n", $mem_hw, $mem_hw / (1024*1024), $info->{"mem_hw"});

	# print logical results
	printf("\n");
	printf("SYSTEM MEMORY SUMMARY:\n");
	printf("mem_used: %12d (%7dMB) [%3d%%] %s\n", $mem_used, $mem_used / (10241024), ($mem_used / $mem_total) 100, $info->{"mem_used"});
	printf("mem_avail: + %12d (%7dMB) [%3d%%] %s\n", $mem_avail, $mem_avail / (10241024), ($mem_avail / $mem_total) 100, $info->{"mem_avail"});
	printf("-------------- ------------ ----------- ------\n");
	printf("mem_total: = %12d (%7dMB) [100%%] %s\n", $mem_total, $mem_total / (1024*1024), $info->{"mem_total"});
No results found