conky-config/module/ReadWrite.lua

143 lines
3.6 KiB
Lua

local Widget = require 'Widget'
local Text = require 'Text'
local Line = require 'Line'
local ScalePlot = require 'ScalePlot'
local util = require 'util'
local schema = require 'default_patterns'
local _TONUMBER = tonumber
local _STRING_MATCH = string.match
local HW_BLOCK_SIZE = 512 --bytes
local STAT_FILE = '/sys/block/sda/stat'
local RW_REGEX = '%s+%d+%s+%d+%s+(%d+)%s+%d+%s+%d+%s+%d+%s+(%d+)' --fields 3 and 7 (sectors read and written)
--construction params
local PLOT_SEC_BREAK = 20
local PLOT_HEIGHT = 56
local __read_stat_file = function()
local bytes_read, bytes_written = _STRING_MATCH(util.read_file(STAT_FILE), RW_REGEX)
return _TONUMBER(bytes_read) * HW_BLOCK_SIZE, _TONUMBER(bytes_written) * HW_BLOCK_SIZE
end
local __update_stat = function(cr, stat, cumulative, update_frequency)
local bytes = (cumulative - stat.prev_cumulative) * update_frequency
stat.prev_cumulative = cumulative
if bytes < 0 then bytes = 0 end --mask wrap
local unit = util.get_unit(bytes)
stat.rate.append_end = ' '..unit..'/s'
Text.set(stat.rate, cr, util.precision_convert_bytes(bytes, 'B', unit, 3))
ScalePlot.update(stat.plot, cr, bytes)
end
local __io_label_function = function(bytes)
local new_unit = util.get_unit(bytes)
local converted = util.convert_bytes(bytes, 'B', new_unit)
local precision = 0
if converted < 10 then precision = 1 end
return util.round_to_string(converted, precision)..' '..new_unit..'/s'
end
local header = Widget.Header{
x = CONSTRUCTION_GLOBAL.CENTER_LEFT_X,
y = CONSTRUCTION_GLOBAL.TOP_Y,
width = CONSTRUCTION_GLOBAL.SECTION_WIDTH,
header = "INPUT / OUTPUT"
}
local HEADER_BOTTOM_Y = header.bottom_y
local RIGHT_X = CONSTRUCTION_GLOBAL.CENTER_LEFT_X + CONSTRUCTION_GLOBAL.SECTION_WIDTH
local READS_PLOT_Y = header.bottom_y + PLOT_SEC_BREAK
local reads = {
label = Widget.Text{
x = CONSTRUCTION_GLOBAL.CENTER_LEFT_X,
y = HEADER_BOTTOM_Y,
text = 'Reads',
},
rate = Widget.Text{
x = RIGHT_X,
y = HEADER_BOTTOM_Y,
x_align = 'right',
append_end=' B/s',
text_color = schema.blue
},
plot = Widget.ScalePlot{
x = CONSTRUCTION_GLOBAL.CENTER_LEFT_X,
y = READS_PLOT_Y,
width = CONSTRUCTION_GLOBAL.SECTION_WIDTH,
height = PLOT_HEIGHT,
y_label_func = __io_label_function,
}
}
local WRITE_Y = READS_PLOT_Y + PLOT_HEIGHT + PLOT_SEC_BREAK
local WRITES_PLOT_Y = WRITE_Y + PLOT_SEC_BREAK
local writes = {
label = Widget.Text{
x = CONSTRUCTION_GLOBAL.CENTER_LEFT_X,
y = WRITE_Y,
text = 'Writes',
},
rate = Widget.Text{
x = RIGHT_X,
y = WRITE_Y,
x_align = 'right',
append_end =' B/s',
text_color = schema.blue
},
plot = Widget.ScalePlot{
x = CONSTRUCTION_GLOBAL.CENTER_LEFT_X,
y = WRITES_PLOT_Y,
width = CONSTRUCTION_GLOBAL.SECTION_WIDTH,
height = PLOT_HEIGHT,
y_label_func = __io_label_function,
}
}
Widget = nil
schema = nil
PLOT_SEC_BREAK = nil
PLOT_HEIGHT = nil
HEADER_BOTTOM_Y = nil
RIGHT_X = nil
READS_PLOT_Y = nil
WRITE_Y = nil
WRITES_PLOT_Y = nil
reads.cumulative = 0
writes.cumulative = 0
reads.prev_cumulative, writes.prev_cumulative = __read_stat_file()
local __update = function(cr, update_frequency)
local cumulative_reads, cumulative_writes = __read_stat_file()
__update_stat(cr, reads, cumulative_reads, update_frequency)
__update_stat(cr, writes, cumulative_writes, update_frequency)
end
local draw = function(cr, current_interface, update_frequency)
__update(cr, update_frequency)
if current_interface == 0 then
Text.draw(header.text, cr)
Line.draw(header.underline, cr)
Text.draw(reads.label, cr)
Text.draw(reads.rate, cr)
ScalePlot.draw(reads.plot, cr)
Text.draw(writes.label, cr)
Text.draw(writes.rate, cr)
ScalePlot.draw(writes.plot, cr)
end
end
return draw