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module("luci.statistics.rrdtool", package.seeall)
require("luci.statistics.datatree")
require("luci.statistics.rrdtool.colors")
require("luci.statistics.rrdtool.definitions")
require("luci.statistics.i18n")
require("luci.util")
require("luci.fs")
Graph = luci.util.class()
function Graph.__init__( self, timespan, opts )
opts = opts or { }
self.colors = luci.statistics.rrdtool.colors.Instance()
self.defs = luci.statistics.rrdtool.definitions.Instance()
self.tree = luci.statistics.datatree.Instance()
self.i18n = luci.statistics.i18n.Instance( self )
-- options
opts.rrasingle = opts.rrasingle or true -- XXX: fixme (uci)
opts.host = opts.host or "OpenWrt" -- XXX: fixme (uci)
opts.timespan = opts.timespan or 900 -- XXX: fixme (uci)
opts.width = opts.width or 400 -- XXX: fixme (uci)
-- rrdtool default args
self.args = {
"-a", "PNG",
"-s", "NOW-" .. opts.timespan,
"-w", opts.width
}
-- store options
self.opts = opts
end
function Graph._mkpath( self, plugin, plugin_instance, dtype, dtype_instance )
local t = self.opts.host .. "/" .. plugin
if type(plugin_instance) == "string" and plugin_instance:len() > 0 then
t = t .. "-" .. plugin_instance
end
t = t .. "/" .. dtype
if type(dtype_instance) == "string" and dtype_instance:len() > 0 then
t = t .. "-" .. dtype_instance
end
return t
end
function Graph.mkrrdpath( self, ... )
return string.format( "/tmp/%s.rrd", self:_mkpath( ... ) )
end
function Graph.mkpngpath( self, ... )
return string.format( "/tmp/rrdimg/%s.png", self:_mkpath( ... ) )
end
function Graph.mktitle( self, plugin, plugin_instance, dtype, dtype_instance )
-- try various strings to retrieve a diagram title from the langfile
return "XXX"
end
function Graph._forcelol( self, list )
if type(list[1]) ~= "table" then
return( { list } )
end
return( list )
end
function Graph._rrdtool( self, def, rrd )
-- prepare directory
local dir = def[1]:gsub("/[^/]+$","")
luci.fs.mkdir( dir, true )
-- construct commandline
local cmdline = "rrdtool graph"
-- copy default arguments to def stack
for i, opt in ipairs(self.args) do
table.insert( def, 1 + i, opt )
end
-- construct commandline from def stack
for i, opt in ipairs(def) do
opt = opt .. "" -- force string
if rrd then
opt = opt:gsub( "{file}", rrd )
end
if opt:match("[^%w]") then
cmdline = cmdline .. " '" .. opt .. "'"
else
cmdline = cmdline .. " " .. opt
end
end
-- execute rrdtool
local rrdtool = io.popen( cmdline )
rrdtool:close()
end
function Graph._generic( self, opts, plugin, plugin_instance, dtype, index )
-- generated graph defs
local defs = { }
-- internal state variables
local _args = { }
local _sources = { }
local _stack_neg = { }
local _stack_pos = { }
local _longest_name = 0
local _has_totals = false
-- some convenient aliases
local _ti = table.insert
local _sf = string.format
-- local helper: append a string.format() formatted string to given table
function _tif( list, fmt, ... )
table.insert( list, string.format( fmt, ... ) )
end
-- local helper: create definitions for min, max, avg and create *_nnl (not null) variable from avg
function __def(source)
local inst = source.sname
local rrd = source.rrd
local ds = source.ds
if not ds or ds:len() == 0 then ds = "value" end
_tif( _args, "DEF:%s_avg=%s:%s:AVERAGE", inst, rrd, ds )
if not self.opts.rrasingle then
_tif( _args, "DEF:%s_min=%s:%s:MIN", inst, rrd, ds )
_tif( _args, "DEF:%s_max=%s:%s:MAX", inst, rrd, ds )
end
_tif( _args, "CDEF:%s_nnl=%s_avg,UN,0,%s_avg,IF", inst, inst, inst )
end
-- local helper: create cdefs depending on source options like flip and overlay
function __cdef(source)
local prev
-- find previous source, choose stack depending on flip state
if source.flip then
prev = _stack_neg[#_stack_neg]
else
prev = _stack_pos[#_stack_pos]
end
-- is first source in stack or overlay source: source_stk = source_nnl
if not prev or source.overlay then
-- create cdef statement
_tif( _args, "CDEF:%s_stk=%s_nnl", source.sname, source.sname )
-- is subsequent source without overlay: source_stk = source_nnl + previous_stk
else
-- create cdef statement
_tif( _args, "CDEF:%s_stk=%s_nnl,%s_stk,+", source.sname, source.sname, prev )
end
-- create multiply by minus one cdef if flip is enabled
if source.flip then
-- create cdef statement: source_stk = source_stk * -1
_tif( _args, "CDEF:%s_neg=%s_stk,-1,*", source.sname, source.sname )
-- push to negative stack if overlay is disabled
if not source.overlay then
_ti( _stack_neg, source.sname )
end
-- no flipping, push to positive stack if overlay is disabled
elseif not source.overlay then
-- push to positive stack
_ti( _stack_pos, source.sname )
end
-- calculate total amount of data if requested
if source.total then
_tif( _args,
"CDEF:%s_avg_sample=%s_avg,UN,0,%s_avg,IF,sample_len,*",
source.sname, source.sname, source.sname
)
_tif( _args,
"CDEF:%s_avg_sum=PREV,UN,0,PREV,IF,%s_avg_sample,+",
source.sname, source.sname, source.sname
)
end
end
-- local helper: create cdefs required for calculating total values
function __cdef_totals()
if _has_totals then
_tif( _args, "CDEF:mytime=%s_avg,TIME,TIME,IF", _sources[1].sname )
_ti( _args, "CDEF:sample_len_raw=mytime,PREV(mytime),-" )
_ti( _args, "CDEF:sample_len=sample_len_raw,UN,0,sample_len_raw,IF" )
end
end
-- local helper: create line and area statements
function __line(source)
local line_color
local area_color
local legend
local var
-- find colors: try source, then opts.colors; fall back to random color
if type(source.color) == "string" then
line_color = source.color
area_color = self.colors:from_string( line_color )
elseif type(opts.colors[source.name:gsub("[^%w]","_")]) == "string" then
line_color = opts.colors[source.name:gsub("[^%w]","_")]
area_color = self.colors:from_string( line_color )
else
area_color = self.colors:random()
line_color = self.colors:to_string( area_color )
end
-- derive area background color from line color
area_color = self.colors:to_string( self.colors:faded( area_color ) )
-- choose source_stk or source_neg variable depending on flip state
if source.flip then
var = "neg"
else
var = "stk"
end
-- create legend
legend = _sf( "%-" .. _longest_name .. "s", source.title )
-- create area if not disabled
if not source.noarea then
_tif( _args, "AREA:%s_%s#%s", source.sname, var, area_color )
end
-- create line1 statement
_tif( _args, "LINE1:%s_%s#%s:%s", source.sname, var, line_color, legend )
end
-- local helper: create gprint statements
function __gprint(source)
local numfmt = opts.number_format or "%6.1lf"
local totfmt = opts.totals_format or "%5.1lf%s"
-- don't include MIN if rrasingle is enabled
if not self.opts.rrasingle then
_tif( _args, "GPRINT:%s_min:MIN:%s Min", source.sname, numfmt )
end
-- always include AVERAGE
_tif( _args, "GPRINT:%s_avg:AVERAGE:%s Avg", source.sname, numfmt )
-- don't include MAX if rrasingle is enabled
if not self.opts.rrasingle then
_tif( _args, "GPRINT:%s_max:MAX:%s Max", source.sname, numfmt )
end
-- include total count if requested else include LAST
if source.total then
_tif( _args, "GPRINT:%s_avg_sum:LAST:(ca. %s Total)\\l", source.sname, totfmt )
else
_tif( _args, "GPRINT:%s_avg:LAST:%s Last\\l", source.sname, numfmt )
end
end
--
-- find all data sources
--
-- find data types
local data_types
if dtype then
data_types = { dtype }
else
data_types = opts.data.types or { }
end
if not ( dtype or opts.data.types ) then
if opts.data.instances then
for k, v in pairs(opts.data.instances) do
_ti( data_types, k )
end
elseif opts.data.sources then
for k, v in pairs(opts.data.sources) do
_ti( data_types, k )
end
end
end
-- iterate over data types
for i, dtype in ipairs(data_types) do
-- find instances
local data_instances
if not opts.per_instance then
if type(opts.data.instances) == "table" and type(opts.data.instances[dtype]) == "table" then
data_instances = opts.data.instances[dtype]
else
data_instances = self.tree:data_instances( plugin, plugin_instance, dtype )
end
end
if type(data_instances) ~= "table" or #data_instances == 0 then data_instances = { "" } end
-- iterate over data instances
for i, dinst in ipairs(data_instances) do
-- construct combined data type / instance name
local dname = dtype
if dinst:len() > 0 then
dname = dname .. "_" .. dinst
end
-- find sources
local data_sources = { "value" }
if type(opts.data.sources) == "table" then
if type(opts.data.sources[dname]) == "table" then
data_sources = opts.data.sources[dname]
elseif type(opts.data.sources[dtype]) == "table" then
data_sources = opts.data.sources[dtype]
end
end
-- iterate over data sources
for i, dsource in ipairs(data_sources) do
local dsname = dtype .. "_" .. dinst:gsub("[^%w]","_") .. "_" .. dsource
local altname = dtype .. "__" .. dsource
-- find datasource options
local dopts = { }
if type(opts.data.options) == "table" then
if type(opts.data.options[dsname]) == "table" then
dopts = opts.data.options[dsname]
elseif type(opts.data.options[altname]) == "table" then
dopts = opts.data.options[altname]
elseif type(opts.data.options[dname]) == "table" then
dopts = opts.data.options[dname]
elseif type(opts.data.options[dtype]) == "table" then
dopts = opts.data.options[dtype]
end
end
-- store values
_ti( _sources, {
rrd = dopts.rrd or self:mkrrdpath( plugin, plugin_instance, dtype, dinst ),
color = dopts.color or self.colors:to_string( self.colors:random() ),
flip = dopts.flip or false,
total = dopts.total or false,
overlay = dopts.overlay or false,
noarea = dopts.noarea or false,
ds = dsource,
type = dtype,
instance = dinst,
index = #_sources + 1,
sname = ( #_sources + 1 ) .. dtype
} )
-- generate datasource title
_sources[#_sources].title = self.i18n:ds( _sources[#_sources] )
-- find longest name ...
if _sources[#_sources].title:len() > _longest_name then
_longest_name = _sources[#_sources].title:len()
end
-- has totals?
if _sources[#_sources].total then
_has_totals = true
end
end
end
end
--
-- construct diagrams
--
-- if per_instance is enabled then find all instances from the first datasource in diagram
-- if per_instance is disabled then use an empty pseudo instance and use model provided values
local instances = { "" }
if opts.per_instance then
instances = self.tree:data_instances( plugin, plugin_instance, _sources[1].type )
end
-- iterate over instances
for i, instance in ipairs(instances) do
-- store title and vlabel
-- XXX: i18n
_ti( _args, "-t" )
_ti( _args, opts.title or self.i18n:title( plugin, plugin_instance, _sources[1].type, instance ) )
_ti( _args, "-v" )
_ti( _args, opts.vlabel or self.i18n:label( plugin, plugin_instance, _sources[1].type, instance ) )
-- store additional rrd options
if opts.rrdopts then
for i, o in ipairs(opts.rrdopts) do _ti( _args, o ) end
end
-- create DEF statements for each instance
for i, source in ipairs(_sources) do
-- fixup properties for per instance mode...
if opts.per_instance then
source.instance = instance
source.rrd = self:mkrrdpath( plugin, plugin_instance, source.type, instance )
end
__def( source )
end
-- create CDEF required for calculating totals
__cdef_totals()
-- create CDEF statements for each instance in reversed order
for i, source in ipairs(_sources) do
__cdef( _sources[1 + #_sources - i] )
end
-- create LINE1, AREA and GPRINT statements for each instance
for i, source in ipairs(_sources) do
__line( source )
__gprint( source )
end
-- prepend image path to arg stack
_ti( _args, 1, self:mkpngpath( plugin, plugin_instance, index .. instance ) )
-- push arg stack to definition list
_ti( defs, _args )
-- reset stacks
_args = { }
_stack_pos = { }
_stack_neg = { }
end
return defs
end
function Graph.render( self, plugin, plugin_instance )
dtype_instances = dtype_instances or { "" }
local pngs = { }
-- check for a whole graph handler
local plugin_def = "luci.statistics.rrdtool.definitions." .. plugin
local stat, def = pcall( require, plugin_def )
if stat and def and type(def.rrdargs) == "function" then
-- temporary image matrix
local _images = { }
-- get diagram definitions
for i, opts in ipairs( self:_forcelol( def.rrdargs( self, plugin, plugin_instance ) ) ) do
_images[i] = { }
-- get diagram definition instances
local diagrams = self:_generic( opts, plugin, plugin_instance, nil, i )
-- render all diagrams
for j, def in ipairs( diagrams ) do
-- remember image
_images[i][j] = def[1]
-- exec
self:_rrdtool( def )
end
end
-- remember images - XXX: fixme (will cause probs with asymmetric data)
for y = 1, #_images[1] do
for x = 1, #_images do
table.insert( pngs, _images[x][y] )
end
end
else
-- no graph handler, iterate over data types
for i, dtype in ipairs( self.tree:data_types( plugin, plugin_instance ) ) do
-- check for data type handler
local dtype_def = plugin_def .. "." .. dtype
local stat, def = pcall( require, dtype_def )
if stat and def and type(def.rrdargs) == "function" then
-- temporary image matrix
local _images = { }
-- get diagram definitions
for i, opts in ipairs( self:_forcelol( def.rrdargs( self, plugin, plugin_instance, dtype ) ) ) do
_images[i] = { }
-- get diagram definition instances
local diagrams = self:_generic( opts, plugin, plugin_instance, dtype, i )
-- render all diagrams
for j, def in ipairs( diagrams ) do
-- remember image
_images[i][j] = def[1]
-- exec
self:_rrdtool( def )
end
end
-- remember images - XXX: fixme (will cause probs with asymmetric data)
for y = 1, #_images[1] do
for x = 1, #_images do
table.insert( pngs, _images[x][y] )
end
end
else
-- no data type handler, fall back to builtin definition
if type(self.defs.definitions[dtype]) == "table" then
-- iterate over data type instances
for i, inst in ipairs( self.tree:data_instances( plugin, plugin_instance, dtype ) ) do
local title = self:mktitle( plugin, plugin_instance, dtype, inst )
local png = self:mkpngpath( plugin, plugin_instance, dtype, inst )
local rrd = self:mkrrdpath( plugin, plugin_instance, dtype, inst )
local args = { png, "-t", title }
for i, o in ipairs(self.defs.definitions[dtype]) do
table.insert( args, o )
end
-- remember image
table.insert( pngs, png )
-- exec
self:_rrdtool( args, rrd )
end
end
end
end
end
return pngs
end
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