--[[ UCI Validation Layer - Main Library (c) 2008 Jo-Philipp Wich (c) 2008 Steven Barth Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 $Id$ ]]-- --- UVL - UCI Validation Layer -- @class module -- @cstyle instance local fs = require "luci.fs" local uci = require "luci.model.uci" local util = require "luci.util" local table = require "table" local string = require "string" local require, pcall, ipairs, pairs = require, pcall, ipairs, pairs local type, error, tonumber, tostring = type, error, tonumber, tostring local unpack, loadfile = unpack, loadfile module "luci.uvl" local ERR = require "luci.uvl.errors" local datatypes = require "luci.uvl.datatypes" local validation = require "luci.uvl.validation" local dependencies = require "luci.uvl.dependencies" local TYPE_SCHEME = 0x00 local TYPE_CONFIG = 0x01 local TYPE_SECTION = 0x02 local TYPE_OPTION = 0x03 local TYPE_ENUM = 0x04 --- Boolean; default true; -- treat sections found in config but not in scheme as error STRICT_UNKNOWN_SECTIONS = true --- Boolean; default true; -- treat options found in config but not in scheme as error STRICT_UNKNOWN_OPTIONS = true --- Boolean; default true; -- treat failed external validators as error STRICT_EXTERNAL_VALIDATORS = true --- Boolean; default true; -- treat list values stored as options like errors STRICT_LIST_TYPE = true local default_schemedir = "/lib/uci/schema" local default_savedir = "/tmp/.uvl" --- Object constructor -- @class function -- @name UVL -- @param schemedir Path to the scheme directory (optional) -- @return Instance object UVL = util.class() function UVL.__init__( self, schemedir ) self.schemedir = schemedir or default_schemedir self.packages = { } self.beenthere = { } self.depseen = { } self.uci = uci self.err = ERR self.dep = dependencies self.datatypes = datatypes end --- Parse given scheme and return the scheme tree. -- @param scheme Name of the scheme to parse -- @return Table containing the parsed scheme or nil on error -- @return String containing the reason for errors (if any) function UVL.get_scheme( self, scheme ) if not self.packages[scheme] then local ok, err = self:read_scheme( scheme ) if not ok then return nil, err end end return self.packages[scheme], nil end --- Validate given configuration, section or option. -- @param config Name of the configuration to validate -- @param section Name of the section to validate (optional) -- @param option Name of the option to validate (optional) -- @return Boolean indicating whether the given config validates -- @return String containing the reason for errors (if any) function UVL.validate( self, config, section, option ) if config and section and option then return self:validate_option( config, section, option ) elseif config and section then return self:validate_section( config, section ) elseif config then return self:validate_config( config ) end end --- Validate given configuration. -- @param cfg Name of the configuration to validate -- @return Boolean indicating whether the given config validates -- @return String containing the reason for errors (if any) function UVL.validate_config( self, cfg, uci ) if not self.packages[cfg] then local ok, err = self:read_scheme(cfg) if not ok then return false, err end end local co = config( self, uci or cfg, uci and cfg ) local sc = { } self.beenthere = { } self.depseen = { } if not co:config() then return false, co:errors() end local function _uci_foreach( type, func ) for k, v in pairs(co:config()) do if v['.type'] == type then sc[type] = sc[type] + 1 local ok, err = func( k, v ) if not ok then co:error(err) end end end end for k, v in pairs( self.packages[cfg].sections ) do sc[k] = 0 _uci_foreach( k, function(s) return self:_validate_section( co:section(s) ) end ) end if STRICT_UNKNOWN_SECTIONS then for k, v in pairs(co:config()) do local so = co:section(k) if not self.beenthere[so:cid()] then co:error(ERR.SECT_UNKNOWN(so)) end end end for _, k in ipairs(util.keys(sc)) do local so = co:section(k) if so:scheme('required') and sc[k] == 0 then co:error(ERR.SECT_REQUIRED(so)) elseif so:scheme('unique') and sc[k] > 1 then co:error(ERR.SECT_UNIQUE(so)) end end return co:ok(), co:errors() end --- Validate given config section. -- @param config Name of the configuration to validate -- @param section Name of the section to validate -- @return Boolean indicating whether the given config validates -- @return String containing the reason for errors (if any) function UVL.validate_section( self, cfg, section, uci ) if not self.packages[cfg] then local ok, err = self:read_scheme( cfg ) if not ok then return false, err end end local co = config( self, uci or cfg, uci and cfg ) local so = co:section( section ) self.beenthere = { } self.depseen = { } if not co:config() then return false, co:errors() end if so:config() then return self:_validate_section( so ) else return false, ERR.SECT_NOTFOUND(so) end end --- Validate given config option. -- @param config Name of the configuration to validate -- @param section Name of the section to validate -- @param option Name of the option to validate -- @return Boolean indicating whether the given config validates -- @return String containing the reason for errors (if any) function UVL.validate_option( self, cfg, section, option, uci ) if not self.packages[cfg] then local ok, err = self:read_scheme( cfg ) if not ok then return false, err end end local co = config( self, uci or cfg, uci and cfg ) local so = co:section( section ) local oo = so:option( option ) if not co:config() then return false, co:errors() end if so:config() and oo:config() then return self:_validate_option( oo ) else return false, ERR.OPT_NOTFOUND(oo) end end function UVL._validate_section( self, section ) self.beenthere[section:cid()] = true if section:config() then if section:scheme('named') == true and section:config('.anonymous') == true then return false, ERR.SECT_NAMED(section) end for _, v in ipairs(section:variables()) do local ok, err = self:_validate_option( v ) if not ok and ( v:scheme('required') or v:scheme('type') == "enum" or ( not err:is(ERR.ERR_DEP_NOTEQUAL) and not err:is(ERR.ERR_DEP_NOVALUE) ) ) then section:error(err) end end local ok, err = dependencies.check( self, section ) if not ok then section:error(err) end else return false, ERR.SECT_NOTFOUND(section) end if STRICT_UNKNOWN_OPTIONS and not section:scheme('dynamic') then for k, v in pairs(section:config()) do local oo = section:option(k) if k:sub(1,1) ~= "." and not self.beenthere[oo:cid()] then section:error(ERR.OPT_UNKNOWN(oo)) end end end return section:ok(), section:errors() end function UVL._validate_option( self, option, nodeps ) self.beenthere[option:cid()] = true if not option:scheme() and not option:parent():scheme('dynamic') then if STRICT_UNKNOWN_OPTIONS then return false, option:error(ERR.OPT_UNKNOWN(option)) else return true end elseif option:scheme() then if option:scheme('required') and not option:value() then return false, option:error(ERR.OPT_REQUIRED(option)) elseif option:value() then local val = option:value() if option:scheme('type') == "reference" or option:scheme('type') == "enum" then local scheme_values = option:scheme('values') or { } local config_values = ( type(val) == "table" and val or { val } ) for _, v in ipairs(config_values) do if not scheme_values[v] then return false, option:error( ERR.OPT_BADVALUE( option, { v, util.serialize_data( util.keys(scheme_values) ) } ) ) end end elseif option:scheme('type') == "list" then if type(val) ~= "table" and STRICT_LIST_TYPE then return false, option:error(ERR.OPT_NOTLIST(option)) end end if option:scheme('datatype') then local dt = option:scheme('datatype') if self.datatypes[dt] then val = ( type(val) == "table" and val or { val } ) for i, v in ipairs(val) do if not self.datatypes[dt]( v ) then return false, option:error( ERR.OPT_INVVALUE(option, { v, dt }) ) end end else return false, option:error(ERR.OPT_DATATYPE(option, dt)) end end if option:scheme('minlength') then if #val < option:scheme('minlength') then return false, option:error(ERR.OPT_RANGE(option)) end end if option:scheme('maxlength') then if #val > option:scheme('maxlength') then return false, option:error(ERR.OPT_RANGE(option)) end end if option:scheme('minimum') then if val < option:scheme('minimum') then return false, option:error(ERR.OPT_RANGE(option)) end end if option:scheme('maximum') then if val > option:scheme('maximum') then return false, option:error(ERR.OPT_RANGE(option)) end end if not nodeps then local ok, err = dependencies.check( self, option ) if not ok then option:error(err) end end end local ok, err = validation.check( self, option ) if not ok and STRICT_EXTERNAL_VALIDATORS then return false, option:error(err) end end return option:ok(), option:errors() end --- Find all parts of given scheme and construct validation tree. -- This is normally done on demand, so you don't have to call this function -- by yourself. -- @param shm Name of the scheme to parse -- @param alias Create an alias for the loaded scheme function UVL.read_scheme( self, shm, alias ) local so = scheme( self, shm ) local bc = "%s/bytecode/%s.lua" %{ self.schemedir, shm } if not fs.access(bc) then local files = fs.glob(self.schemedir .. '/*/' .. shm) if files then local ok, err for i, file in ipairs( files ) do if not fs.access(file) then return false, so:error(ERR.SME_READ(so,file)) end local uci = uci.cursor( fs.dirname(file), default_savedir ) local sname = fs.basename(file) local sd, err = uci:load( sname ) if not sd then return false, ERR.UCILOAD(so, err) end ok, err = pcall(function() uci:foreach(sname, "package", function(s) self:_parse_package(so, s[".name"], s) end) uci:foreach(sname, "section", function(s) self:_parse_section(so, s[".name"], s) end) uci:foreach(sname, "variable", function(s) self:_parse_var(so, s[".name"], s) end) uci:foreach(sname, "enum", function(s) self:_parse_enum(so, s[".name"], s) end) end) end if ok and alias then self.packages[alias] = self.packages[shm] end return ok and self, err else return false, so:error(ERR.SME_FIND(so, self.schemedir)) end else local sc = loadfile(bc) if sc then self.packages[shm] = sc() return true else return false, so:error(ERR.SME_READ(so,bc)) end end end -- helper function to check for required fields local function _req( t, n, c, r ) for i, v in ipairs(r) do if not c[v] then local p, o = scheme:sid(), nil if t == TYPE_SECTION then o = section( scheme, nil, p, n ) elseif t == TYPE_OPTION then o = option( scheme, nil, p, '(nil)', n ) elseif t == TYPE_ENUM then o = enum( scheme, nil, p, '(nil)', '(nil)', n ) end return false, ERR.SME_REQFLD(o,v) end end return true end -- helper function to validate references local function _ref( c, t ) local r, k, n = {} if c == TYPE_SECTION then k = "package" n = 1 elseif c == TYPE_OPTION then k = "section" n = 2 elseif c == TYPE_ENUM then k = "variable" n = 3 end for o in t[k]:gmatch("[^.]+") do r[#r+1] = o end r[1] = ( #r[1] > 0 and r[1] or scheme:sid() ) if #r ~= n then return false, ERR.SME_BADREF(scheme, k) end return r end -- helper function to read bools local function _bool( v ) return ( v == "true" or v == "yes" or v == "on" or v == "1" ) end -- Step 0: get package meta information function UVL._parse_package(self, scheme, k, v) local sid = scheme:sid() local pkg = self.packages[sid] or { ["name"] = sid; ["sections"] = { }; ["variables"] = { }; } pkg.title = v.title pkg.description = v.description self.packages[sid] = pkg end -- Step 1: get all sections function UVL._parse_section(self, scheme, k, v) local ok, err = _req( TYPE_SECTION, k, v, { "name", "package" } ) if err then error(scheme:error(err)) end local r, err = _ref( TYPE_SECTION, v ) if err then error(scheme:error(err)) end local p = self.packages[r[1]] or { ["name"] = r[1]; ["sections"] = { }; ["variables"] = { }; } p.sections[v.name] = p.sections[v.name] or { } p.variables[v.name] = p.variables[v.name] or { } self.packages[r[1]] = p local s = p.sections[v.name] local so = scheme:section(v.name) for k, v2 in pairs(v) do if k ~= "name" and k ~= "package" and k:sub(1,1) ~= "." then if k == "depends" then s.depends = self:_read_dependency( v2, s.depends ) if not s.depends then return false, scheme:error( ERR.SME_BADDEP(so, util.serialize_data(s.depends)) ) end elseif k == "dynamic" or k == "unique" or k == "required" or k == "named" then s[k] = _bool(v2) else s[k] = v2 end end end s.dynamic = s.dynamic or false s.unique = s.unique or false s.required = s.required or false s.named = s.named or false end -- Step 2: get all variables function UVL._parse_var(self, scheme, k, v) local ok, err = _req( TYPE_OPTION, k, v, { "name", "section" } ) if err then error(scheme:error(err)) end local r, err = _ref( TYPE_OPTION, v ) if err then error(scheme:error(err)) end local p = self.packages[r[1]] if not p then error(scheme:error( ERR.SME_VBADPACK({scheme:sid(), '', v.name}, r[1]) )) end local s = p.variables[r[2]] if not s then error(scheme:error( ERR.SME_VBADSECT({scheme:sid(), '', v.name}, r[2]) )) end s[v.name] = s[v.name] or { } local t = s[v.name] local so = scheme:section(r[2]) local to = so:option(v.name) for k, v2 in pairs(v) do if k ~= "name" and k ~= "section" and k:sub(1,1) ~= "." then if k == "depends" then t.depends = self:_read_dependency( v2, t.depends ) if not t.depends then error(scheme:error(so:error( ERR.SME_BADDEP(to, util.serialize_data(v2)) ))) end elseif k == "validator" then t.validators = self:_read_validator( v2, t.validators ) if not t.validators then error(scheme:error(so:error( ERR.SME_BADVAL(to, util.serialize_data(v2)) ))) end elseif k == "valueof" then local values, err = self:_read_reference( v2 ) if err then error(scheme:error(so:error( ERR.REFERENCE(to, util.serialize_data(v2)):child(err) ))) end t.type = "reference" t.values = values t.valueof = type(v2) == "table" and v2 or {v2} elseif k == "required" then t[k] = _bool(v2) elseif k == "minlength" or k == "maxlength" or k == "minimum" or k == "maximum" then t[k] = tonumber(v2) else t[k] = t[k] or v2 end end end t.type = t.type or "variable" t.datatype = t.datatype or "string" t.required = t.required or false end -- Step 3: get all enums function UVL._parse_enum(self, scheme, k, v) local ok, err = _req( TYPE_ENUM, k, v, { "value", "variable" } ) if err then error(scheme:error(err)) end local r, err = _ref( TYPE_ENUM, v ) if err then error(scheme:error(err)) end local p = self.packages[r[1]] if not p then error(scheme:error( ERR.SME_EBADPACK({scheme:sid(), '', '', v.value}, r[1]) )) end local s = p.variables[r[2]] if not s then error(scheme:error( ERR.SME_EBADSECT({scheme:sid(), '', '', v.value}, r[2]) )) end local t = s[r[3]] if not t then error(scheme:error( ERR.SME_EBADOPT({scheme:sid(), '', '', v.value}, r[3]) )) end local so = scheme:section(r[2]) local oo = so:option(r[3]) local eo = oo:enum(v.value) if t.type ~= "enum" and t.type ~= "reference" then error(scheme:error(ERR.SME_EBADTYPE(eo))) end if not t.values then t.values = { [v.value] = v.title or v.value } t.valuelist = { {value = v.value, title = v.title} } else t.values[v.value] = v.title or v.value t.valuelist[#t.valuelist + 1] = {value = v.value, title = v.title} end if not t.enum_depends then t.enum_depends = { } end if v.default then if t.default then error(scheme:error(ERR.SME_EBADDEF(eo))) end t.default = v.value end if v.depends then t.enum_depends[v.value] = self:_read_dependency( v.depends, t.enum_depends[v.value] ) if not t.enum_depends[v.value] then error(scheme:error(so:error(oo:error( ERR.SME_BADDEP(eo, util.serialize_data(v.depends)) )))) end end end -- Read a dependency specification function UVL._read_dependency( self, values, deps ) local expr = "%$?[%w_]+" if values then values = ( type(values) == "table" and values or { values } ) for _, value in ipairs(values) do local condition = { } for val in value:gmatch("[^,]+") do local k, e, v = val:match("%s*([%w$_.]+)%s*(=?)%s*(.*)") if k and ( k:match("^"..expr.."%."..expr.."%."..expr.."$") or k:match("^"..expr.."%."..expr.."$") or k:match("^"..expr.."$") ) then condition[k] = (e == '=') and v or true else return nil end end if not deps then deps = { condition } else deps[#deps+1] = condition end end end return deps end -- Read a validator specification function UVL._read_validator( self, values, validators ) if values then values = ( type(values) == "table" and values or { values } ) for _, value in ipairs(values) do local validator if value:match("^exec:") then validator = value:gsub("^exec:","") elseif value:match("^lua:") then validator = self:_resolve_function( (value:gsub("^lua:","") ) ) elseif value:match("^regexp:") then local pattern = value:gsub("^regexp:","") validator = function( type, dtype, pack, sect, optn, ... ) local values = { ... } for _, v in ipairs(values) do local ok, match = pcall( string.match, v, pattern ) if not ok then return false, match elseif not match then return false, 'Value "%s" does not match pattern "%s"' % { v, pattern } end end return true end end if validator then if not validators then validators = { validator } else validators[#validators+1] = validator end else return nil end end return validators end end -- Read a reference specification (XXX: We should validate external configs too...) function UVL._read_reference( self, values ) local val = { } values = ( type(values) == "table" and values or { values } ) for _, value in ipairs(values) do local ref = util.split(value, ".") if #ref == 2 or #ref == 3 then local co = config( self, ref[1] ) if not co:config() then return false, co:errors() end for k, v in pairs(co:config()) do if v['.type'] == ref[2] then if #ref == 2 then if v['.anonymous'] == true then return false, ERR.SME_INVREF('', value) end val[k] = k -- XXX: title/description would be nice elseif v[ref[3]] then val[v[ref[3]]] = v[ref[3]] -- XXX: dito end end end else return false, ERR.SME_BADREF('', value) end end return val, nil end -- Resolve given path function UVL._resolve_function( self, value ) local path = util.split(value, ".") for i=1, #path-1 do local stat, mod = pcall( require, table.concat(path, ".", 1, i) ) if stat and mod then for j=i+1, #path-1 do if not type(mod) == "table" then break end mod = mod[path[j]] if not mod then break end end mod = type(mod) == "table" and mod[path[#path]] or nil if type(mod) == "function" then return mod end end end end --- Object representation of an uvl item - base class. uvlitem = util.class() function uvlitem.cid(self) if #self.cref == 1 then return self.cref[1] else local r = { unpack(self.cref) } local c = self.c if c and c[r[2]] and c[r[2]]['.anonymous'] and c[r[2]]['.index'] then r[2] = '@' .. c[r[2]]['.type'] .. '[' .. tostring(c[r[2]]['.index']) .. ']' end return table.concat( r, '.' ) end end function uvlitem.sid(self) return table.concat( self.sref, '.' ) end function uvlitem.scheme(self, opt) local s = self.s and self.s.packages s = s and s[self.sref[1]] if #self.sref == 4 or #self.sref == 3 then s = s and s.variables s = s and s[self.sref[2]] s = s and s[self.sref[3]] elseif #self.sref == 2 then s = s and s.sections s = s and s[self.sref[2]] end if s and opt then return s[opt] elseif s then return s end end function uvlitem.config(self, opt) local c = self.c if #self.cref >= 2 and #self.cref <= 4 then c = c and self.c[self.cref[2]] or nil if #self.cref >= 3 then c = c and c[self.cref[3]] or nil end end if c and opt then return c[opt] elseif c then return c end end function uvlitem.title(self) return self:scheme() and self:scheme('title') or self.cref[3] or self.cref[2] or self.cref[1] end function uvlitem.type(self) if self.t == TYPE_CONFIG then return 'config' elseif self.t == TYPE_SECTION then return 'section' elseif self.t == TYPE_OPTION then return 'option' elseif self.t == TYPE_ENUM then return 'enum' end end function uvlitem.error(self, ...) if not self.e then local errconst = { ERR.CONFIG, ERR.SECTION, ERR.OPTION, ERR.OPTION } self.e = errconst[#self.cref]( self ) end return self.e:child( ... ) end function uvlitem.errors(self) return self.e end function uvlitem.ok(self) return not self:errors() end function uvlitem.parent(self) if self.p then return self.p elseif #self.cref == 3 or #self.cref == 4 then return section( self.s, self.c, self.cref[1], self.cref[2] ) elseif #self.cref == 2 then return config( self.s, self.c, self.cref[1] ) else return nil end end function uvlitem._loadconf(self, co, c) co = co or self._configcache if not co then local err co, err = uci.cursor():get_all(c) if err then self:error(ERR.UCILOAD(self, err)) end self._configcache = co end return co end --- Object representation of a scheme. -- @class scheme -- @cstyle instance -- @name luci.uvl.scheme --- Scheme instance constructor. -- @class function -- @name scheme -- @param scheme Scheme instance -- @param co Configuration data -- @param c Configuration name -- @return Config instance scheme = util.class(uvlitem) function scheme.__init__(self, scheme, co, c) if not c then c, co = co, nil end self.cref = { c } self.sref = { c } self.c = self:_loadconf(co, c) self.s = scheme self.t = TYPE_SCHEME end --- Add an error to scheme. -- @return Scheme error context function scheme.error(self, ...) if not self.e then self.e = ERR.SCHEME( self ) end return self.e:child( ... ) end --- Get an associated config object. -- @return Config instance function scheme.config(self) local co = config( self.s, self.cref[1] ) co.p = self return co end --- Get all section objects associated with this scheme. -- @return Table containing all associated luci.uvl.section instances function scheme.sections(self) local v = { } if self.s.packages[self.sref[1]].sections then for o, _ in pairs( self.s.packages[self.sref[1]].sections ) do v[#v+1] = option( self.s, self.c, self.cref[1], self.cref[2], o ) end end return v end --- Get an associated section object. -- @param s Section to select -- @return Section instance function scheme.section(self, s) local so = section( self.s, self.c, self.cref[1], s ) so.p = self return so end --- Object representation of a config. -- @class config -- @cstyle instance -- @name luci.uvl.config --- Config instance constructor. -- @class function -- @name config -- @param scheme Scheme instance -- @param co Configuration data -- @param c Configuration name -- @return Config instance config = util.class(uvlitem) function config.__init__(self, scheme, co, c) if not c then c, co = co, nil end self.cref = { c } self.sref = { c } self.c = self:_loadconf(co, c) self.s = scheme self.t = TYPE_CONFIG end --- Get all section objects associated with this config. -- @return Table containing all associated luci.uvl.section instances function config.sections(self) local v = { } if self.s.packages[self.sref[1]].sections then for o, _ in pairs( self.s.packages[self.sref[1]].sections ) do v[#v+1] = option( self.s, self.c, self.cref[1], self.cref[2], o ) end end return v end --- Get an associated section object. -- @param s Section to select -- @return Section instance function config.section(self, s) local so = section( self.s, self.c, self.cref[1], s ) so.p = self return so end --- Object representation of a scheme/config section. -- @class module -- @cstyle instance -- @name luci.uvl.section --- Section instance constructor. -- @class function -- @name section -- @param scheme Scheme instance -- @param co Configuration data -- @param c Configuration name -- @param s Section name -- @return Section instance section = util.class(uvlitem) function section.__init__(self, scheme, co, c, s) self.cref = { c, s } self.sref = { c, co and co[s] and co[s]['.type'] or s } self.c = self:_loadconf(co, c) self.s = scheme self.t = TYPE_SECTION end --- Get all option objects associated with this section. -- @return Table containing all associated luci.uvl.option instances function section.variables(self) local v = { } if self.s.packages[self.sref[1]].variables[self.sref[2]] then for o, _ in pairs( self.s.packages[self.sref[1]].variables[self.sref[2]] ) do v[#v+1] = option( self.s, self.c, self.cref[1], self.cref[2], o ) end end return v end --- Get an associated option object. -- @param o Option to select -- @return Option instance function section.option(self, o) local oo = option( self.s, self.c, self.cref[1], self.cref[2], o ) oo.p = self return oo end --- Object representation of a scheme/config option. -- @class module -- @cstyle instance -- @name luci.uvl.option --- Section instance constructor. -- @class function -- @name option -- @param scheme Scheme instance -- @param co Configuration data -- @param c Configuration name -- @param s Section name -- @param o Option name -- @return Option instance option = util.class(uvlitem) function option.__init__(self, scheme, co, c, s, o) self.cref = { c, s, o } self.sref = { c, co and co[s] and co[s]['.type'] or s, o } self.c = self:_loadconf(co, c) self.s = scheme self.t = TYPE_OPTION end --- Get the value of this option. -- @return The associated configuration value function option.value(self) local v = self:config() or self:scheme('default') if v and self:scheme('multival') then v = util.split( v, "%s+", nil, true ) end return v end --- Get the associated section information in scheme. -- @return Table containing the scheme properties function option.section(self) return self.s.packages[self.sref[1]].sections[self.sref[2]] end --- Construct an enum object instance from given or default value. -- @param v Value to select -- @return Enum instance for selected value function option.enum(self, val) return enum( self.s, self.c, self.cref[1], self.cref[2], self.cref[3], val or self:value() ) end --- Object representation of a enum value. -- @class module -- @cstyle instance -- @name luci.uvl.enum --- Section instance constructor. -- @class function -- @name enum -- @param scheme Scheme instance -- @param co Configuration data -- @param c Configuration name -- @param s Section name -- @param o Enum name -- @param v Enum value -- @return Enum value instance enum = util.class(option) function enum.__init__(self, scheme, co, c, s, o, v) self.cref = { c, s, o, v } self.sref = { c, co and co[s] and co[s]['.type'] or s, o, v } self.c = self:_loadconf(co, c) self.s = scheme self.t = TYPE_ENUM end