8 |
use POSIX qw/strftime/; |
use POSIX qw/strftime/; |
9 |
use File::Slurp; |
use File::Slurp; |
10 |
use Time::HiRes; |
use Time::HiRes; |
11 |
use Data::Dump qw/dump/; |
eval "use Data::Dump qw/dump/;"; |
12 |
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|
13 |
my $dt = 3; |
my $dt = 3; |
14 |
my $acpi_every = 10; |
my $acpi_every = 10; |
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|
16 |
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my $disk_blk_size = 512; |
17 |
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|
18 |
my $debug = shift @ARGV; |
my $debug = shift @ARGV; |
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|
20 |
$|=1; |
$|=1; |
21 |
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|
22 |
sub proc2hash { |
sub proc2hash { |
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my $f = shift; |
my $f = shift; |
24 |
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return unless -f $f; |
25 |
open(my $fh, '<', $f) || die "can't open $f: $!"; |
open(my $fh, '<', $f) || die "can't open $f: $!"; |
26 |
my $h; |
my $h; |
27 |
while(<$fh>) { |
while(<$fh>) { |
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$value =~ s/ m[VW]h*$//; |
$value =~ s/ m[VW]h*$//; |
31 |
$h->{$key} = $value; |
$h->{$key} = $value; |
32 |
} |
} |
33 |
warn dump( $h ) if ( $debug ); |
warn "$f ",dump( $h ) if ( $debug ); |
34 |
return $h; |
return $h; |
35 |
} |
} |
36 |
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|
37 |
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my $proc_acpi_battery; |
38 |
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sub find_proc_acpi { |
39 |
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my ( $path, $check ) = @_; |
40 |
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|
41 |
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if ( -e "/proc/acpi/$path" ) { |
42 |
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opendir(my $items, "/proc/acpi/$path") || die "can't open /proc/acpi/$path: $!"; |
43 |
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foreach my $item ( readdir( $items ) ) { |
44 |
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$check->( $item ) && last; |
45 |
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} |
46 |
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} |
47 |
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} |
48 |
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|
49 |
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my $proc_acpi_thermal_zone_temperature; |
50 |
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find_proc_acpi('thermal_zone', sub { |
51 |
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my $thm = shift; |
52 |
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return if ( ! -e "/proc/acpi/thermal_zone/$thm/temperature" ); |
53 |
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warn "# using thermal zone $thm\n" if ( $debug ); |
54 |
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$proc_acpi_thermal_zone_temperature = "/proc/acpi/thermal_zone/$thm/temperature"; |
55 |
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}); |
56 |
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|
57 |
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find_proc_acpi('battery', sub { |
58 |
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my $bat = shift; |
59 |
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return unless $bat =~ /\w+/; |
60 |
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|
61 |
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warn "# testing battery $bat\n" if ( $debug ); |
62 |
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63 |
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if ( proc2hash( "/proc/acpi/battery/$bat/info" )->{present} eq 'yes' ) { |
64 |
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$proc_acpi_battery = "/proc/acpi/battery/$bat"; |
65 |
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warn "using $proc_acpi_battery to monitor battery\n"; |
66 |
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} |
67 |
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}); |
68 |
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|
69 |
sub unit { |
sub unit { |
70 |
my $v = shift; |
my $v = shift; |
71 |
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|
72 |
warn "unit( $v )\n" if ($debug); |
warn "unit( $v )\n" if ($debug); |
73 |
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|
74 |
my @units = qw/b k m g/; |
my @units = qw/b k M G/; |
75 |
my $o = 0; |
my $o = 0; |
76 |
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|
77 |
while ( ( $v / 1024 ) >= 1 ) { |
while ( ( $v / 10000 ) >= 1 ) { |
78 |
$o++; |
$o++; |
79 |
$v /= 1024; |
$v /= 1024; |
80 |
} |
} |
81 |
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|
82 |
if ( $v >= 1 ) { |
if ( $v >= 1 ) { |
83 |
return sprintf("%d%s/s", $v, $units[$o]); |
return sprintf("%d%s", $v, $units[$o]); |
84 |
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} elsif ( $v == 0 ) { |
85 |
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return ''; |
86 |
} else { |
} else { |
87 |
return sprintf("%.1f%s/s", $v, $units[$o]); |
return sprintf("%.1f%s", $v, $units[$o]); |
88 |
} |
} |
89 |
} |
} |
90 |
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|
91 |
my ( $lrx, $ltx ) = ( 0, 0 ); |
my ( $lrx, $ltx ) = ( 0, 0 ); |
92 |
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my ( $ld_r, $ld_w ) = ( 0, 0 ); |
93 |
my $bat; |
my $bat; |
94 |
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|
95 |
my $i = 0; |
my $i = 0; |
97 |
while ( 1 ) { |
while ( 1 ) { |
98 |
my $s = strftime("%Y-%m-%d %H:%M:%S", localtime()); |
my $s = strftime("%Y-%m-%d %H:%M:%S", localtime()); |
99 |
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|
100 |
if ( $i % $acpi_every == 0 ) { |
if ( $i % $acpi_every == 0 && $proc_acpi_battery ) { |
101 |
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|
102 |
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my $state = proc2hash( "$proc_acpi_battery/state" ); |
103 |
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|
104 |
$bat->{state} = proc2hash( '/proc/acpi/battery/BAT0/state' ); |
if ( $state->{'present rate'} != 0 ) { |
105 |
$bat->{info} = proc2hash( '/proc/acpi/battery/BAT0/info' ); |
my $info = proc2hash( "$proc_acpi_battery/info" ); |
106 |
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|
107 |
$bat->{pcnt} = $bat->{state}->{'remaining capacity'} / $bat->{info}->{'design capacity'}; |
my $pcnt = $state->{'remaining capacity'} / $info->{'design capacity'}; |
108 |
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|
109 |
my $time = ( $bat->{info}->{'design capacity'} - $bat->{state}->{'remaining capacity'} ) / $bat->{state}->{'present rate'}; |
my $time = $state->{'remaining capacity'} / ( $state->{'present rate'} ); |
110 |
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$time = ( $info->{'design capacity'} - $state->{'remaining capacity'} ) / $state->{'present rate'} if ( $state->{'charging state'} eq 'charging' ); |
111 |
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|
112 |
warn "time = $time\n" if ($debug); |
warn "time = $time\n" if ($debug); |
113 |
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|
114 |
$bat->{hh} = int( $time ); |
my $hh = int( $time ); |
115 |
$bat->{mm} = int( ( $time - $bat->{hh} ) * 60 ); |
my $mm = int( ( $time - $hh ) * 60 ); |
116 |
$bat->{ss} = ( $time * 3600 ) % 60; |
my $ss = ( $time * 3600 ) % 60; |
117 |
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|
118 |
$bat->{new} = '!'; |
$bat = sprintf("%s %2d%% %02d:%02d:%02d %3.1fW!| ", |
119 |
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substr($state->{'charging state'},0,1), |
120 |
|
$pcnt * 100, $hh, $mm, $ss, |
121 |
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$state->{'present rate'} / 1000 |
122 |
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); |
123 |
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|
124 |
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} else { |
125 |
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$bat = ''; |
126 |
|
} |
127 |
} else { |
} else { |
128 |
$bat->{new} = ' '; |
$bat =~ s/!(\|\s)$/ $1/; |
129 |
} |
} |
130 |
$i++; |
$i++; |
131 |
|
|
133 |
chomp( $load ); |
chomp( $load ); |
134 |
$load =~ s!\s\d+/\d+.*!!; |
$load =~ s!\s\d+/\d+.*!!; |
135 |
|
|
136 |
my $temp = read_file('/proc/acpi/thermal_zone/THM0/temperature'); |
my $temp = ''; |
137 |
chomp( $temp ); |
if ( $proc_acpi_thermal_zone_temperature ) { |
138 |
$temp =~ s!^.*:\s+!!; |
$temp = read_file( $proc_acpi_thermal_zone_temperature ); |
139 |
|
chomp( $temp ); |
140 |
|
$temp =~ s!^.*:\s+!!; |
141 |
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} |
142 |
|
|
143 |
my $net = read_file('/proc/net/dev'); |
my $net = read_file('/proc/net/dev'); |
144 |
my ( $rx, $tx ) = ( 0,0 ); |
my ( $rx, $tx ) = ( 0,0 ); |
145 |
|
|
146 |
foreach ( split(/\n/, $net) ) { |
foreach ( split(/\n/, $net) ) { |
147 |
s/^\s+//; |
s/^\s+//; |
148 |
|
s/:\s+/:/; |
149 |
my @n = split(/\s+/, $_, 17); |
my @n = split(/\s+/, $_, 17); |
150 |
next unless ( $n[0] =~ m!(eth\d|ath\d):! ); |
next unless ( $n[0] =~ s!(eth\d|ath\d):!! ); |
151 |
|
|
152 |
warn dump( @n ) if ($debug); |
warn dump( @n ) if ($debug); |
153 |
$rx += $n[1]; |
$rx += $n[0]; |
154 |
$tx += $n[9]; |
$tx += $n[8]; |
155 |
} |
} |
156 |
warn "rx: $rx tx: $tx\n" if ($debug); |
warn "rx: $rx tx: $tx\n" if ($debug); |
157 |
|
|
158 |
my $r = ( $rx - $lrx ) / $dt; |
my $net_rx = ( $rx - $lrx ) / $dt; |
159 |
my $t = ( $tx - $ltx ) / $dt; |
my $net_tx = ( $tx - $ltx ) / $dt; |
160 |
( $lrx, $ltx ) = ( $rx, $tx ); |
( $lrx, $ltx ) = ( $rx, $tx ); |
161 |
|
|
162 |
printf "%s | %s |%6s >> %-6s| %s %2d%% %02d:%02d:%02d %3.1fW%s| %s\n", |
my $disk = read_file('/proc/diskstats'); |
163 |
|
my ( $d_r, $d_w ) = ( 0,0 ); |
164 |
|
|
165 |
|
foreach ( split(/\n/, $disk) ) { |
166 |
|
s/^\s+//; |
167 |
|
my @d = split(/\s+/, $_, 17); |
168 |
|
next unless ( $d[2] =~ m/^[sh]d\w$/ ); |
169 |
|
|
170 |
|
warn dump( @d ) if ($debug); |
171 |
|
$d_r += $d[5] * $disk_blk_size; |
172 |
|
$d_w += $d[7] * $disk_blk_size; |
173 |
|
} |
174 |
|
warn "d_r: $d_r d_w: $d_w\n" if ($debug); |
175 |
|
|
176 |
|
my $d_read = ( $d_r - $ld_r ) / $dt; |
177 |
|
my $d_write = ( $d_w - $ld_w ) / $dt; |
178 |
|
( $ld_r, $ld_w ) = ( $d_r, $d_w ); |
179 |
|
|
180 |
|
printf("%s | %s |%5s D %-5s|%5s > %-5s| %s%s\n", |
181 |
$s, |
$s, |
182 |
$load, |
$load, |
183 |
unit( $r ), unit( $t ), |
unit( $d_read ), unit( $d_write ), |
184 |
substr($bat->{state}->{'charging state'},0,1), $bat->{pcnt} * 100, $bat->{hh}, $bat->{mm}, $bat->{ss}, |
unit( $net_rx ), unit( $net_tx ), |
185 |
$bat->{state}->{'present rate'} / 1000, $bat->{new}, |
$bat, $temp, |
186 |
$temp; |
); |
187 |
|
|
188 |
sleep $dt; |
sleep $dt; |
189 |
} |
} |