bakabtw/OpenWrt_Luci_Lua
1
0
Fork 0
mirror of https://github.com/JamesonHuang/OpenWrt_Luci_Lua.git synced 2024-11-23 22:00:11 +00:00
Code Issues Actions Packages Projects Releases Wiki Activity
master
OpenWrt_Luci_Lua/1_1.mi_Lua/luci/util.lua
JamesonHuang 4039994946 adjust directory 2
2015-06-28 14:39:56 +08:00

856 lines
25 KiB
Lua
Raw Permalink Blame History

--[[
LuCI - Utility library
Description:
Several common useful Lua functions
License:
Copyright 2008 Steven Barth <steven@midlink.org>
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
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
]]--
local io = require "io"
local math = require "math"
local table = require "table"
local debug = require "debug"
local ldebug = require "luci.debug"
local string = require "string"
local coroutine = require "coroutine"
local tparser = require "luci.template.parser"
local getmetatable, setmetatable = getmetatable, setmetatable
local rawget, rawset, unpack = rawget, rawset, unpack
local tostring, type, assert = tostring, type, assert
local ipairs, pairs, next, loadstring = ipairs, pairs, next, loadstring
local require, pcall, xpcall = require, pcall, xpcall
local collectgarbage, get_memory_limit = collectgarbage, get_memory_limit
--- LuCI utility functions.
module "luci.util"
--
-- Pythonic string formatting extension
--
getmetatable("").__mod = function(a, b)
if not b then
return a
elseif type(b) == "table" then
for k, _ in pairs(b) do if type(b[k]) == "userdata" then b[k] = tostring(b[k]) end end
return a:format(unpack(b))
else
if type(b) == "userdata" then b = tostring(b) end
return a:format(b)
end
end
--
-- Class helper routines
--
-- Instantiates a class
local function _instantiate(class, ...)
local inst = setmetatable({}, {__index = class})
if inst.__init__ then
inst:__init__(...)
end
return inst
end
--- Create a Class object (Python-style object model).
-- The class object can be instantiated by calling itself.
-- Any class functions or shared parameters can be attached to this object.
-- Attaching a table to the class object makes this table shared between
-- all instances of this class. For object parameters use the __init__ function.
-- Classes can inherit member functions and values from a base class.
-- Class can be instantiated by calling them. All parameters will be passed
-- to the __init__ function of this class - if such a function exists.
-- The __init__ function must be used to set any object parameters that are not shared
-- with other objects of this class. Any return values will be ignored.
-- @param base The base class to inherit from (optional)
-- @return A class object
-- @see instanceof
-- @see clone
function class(base)
return setmetatable({}, {
__call = _instantiate,
__index = base
})
end
--- Test whether the given object is an instance of the given class.
-- @param object Object instance
-- @param class Class object to test against
-- @return Boolean indicating whether the object is an instance
-- @see class
-- @see clone
function instanceof(object, class)
local meta = getmetatable(object)
while meta and meta.__index do
if meta.__index == class then
return true
end
meta = getmetatable(meta.__index)
end
return false
end
--
-- Scope manipulation routines
--
local tl_meta = {
__mode = "k",
__index = function(self, key)
local t = rawget(self, coxpt[coroutine.running()]
or coroutine.running() or 0)
return t and t[key]
end,
__newindex = function(self, key, value)
local c = coxpt[coroutine.running()] or coroutine.running() or 0
if not rawget(self, c) then
rawset(self, c, { [key] = value })
else
rawget(self, c)[key] = value
end
end
}
--- Create a new or get an already existing thread local store associated with
-- the current active coroutine. A thread local store is private a table object
-- whose values can't be accessed from outside of the running coroutine.
-- @return Table value representing the corresponding thread local store
function threadlocal(tbl)
return setmetatable(tbl or {}, tl_meta)
end
--
-- Debugging routines
--
--- Write given object to stderr.
-- @param obj Value to write to stderr
-- @return Boolean indicating whether the write operation was successful
function perror(obj)
return io.stderr:write(tostring(obj) .. "\n")
end
--- Recursively dumps a table to stdout, useful for testing and debugging.
-- @param t Table value to dump
-- @param maxdepth Maximum depth
-- @return Always nil
function dumptable(t, maxdepth, i, seen)
i = i or 0
seen = seen or setmetatable({}, {__mode="k"})
for k,v in pairs(t) do
perror(string.rep("\t", i) .. tostring(k) .. "\t" .. tostring(v))
if type(v) == "table" and (not maxdepth or i < maxdepth) then
if not seen[v] then
seen[v] = true
dumptable(v, maxdepth, i+1, seen)
else
perror(string.rep("\t", i) .. "*** RECURSION ***")
end
end
end
end
--
-- String and data manipulation routines
--
--- Create valid XML PCDATA from given string.
-- @param value String value containing the data to escape
-- @return String value containing the escaped data
function pcdata(value)
return value and tparser.pcdata(tostring(value))
end
--- Strip HTML tags from given string.
-- @param value String containing the HTML text
-- @return String with HTML tags stripped of
function striptags(value)
return value and tparser.striptags(tostring(value))
end
--- Splits given string on a defined separator sequence and return a table
-- containing the resulting substrings. The optional max parameter specifies
-- the number of bytes to process, regardless of the actual length of the given
-- string. The optional last parameter, regex, specifies whether the separator
-- sequence is interpreted as regular expression.
-- @param str String value containing the data to split up
-- @param pat String with separator pattern (optional, defaults to "\n")
-- @param max Maximum times to split (optional)
-- @param regex Boolean indicating whether to interpret the separator
-- pattern as regular expression (optional, default is false)
-- @return Table containing the resulting substrings
function split(str, pat, max, regex)
pat = pat or "\n"
max = max or #str
local t = {}
local c = 1
if #str == 0 then
return {""}
end
if #pat == 0 then
return nil
end
if max == 0 then
return str
end
repeat
local s, e = str:find(pat, c, not regex)
max = max - 1
if s and max < 0 then
t[#t+1] = str:sub(c)
else
t[#t+1] = str:sub(c, s and s - 1)
end
c = e and e + 1 or #str + 1
until not s or max < 0
return t
end
--- Remove leading and trailing whitespace from given string value.
-- @param str String value containing whitespace padded data
-- @return String value with leading and trailing space removed
function trim(str)
return (str:gsub("^%s*(.-)%s*$", "%1"))
end
--- Count the occurences of given substring in given string.
-- @param str String to search in
-- @param pattern String containing pattern to find
-- @return Number of found occurences
function cmatch(str, pat)
local count = 0
for _ in str:gmatch(pat) do count = count + 1 end
return count
end
--- Return a matching iterator for the given value. The iterator will return
-- one token per invocation, the tokens are separated by whitespace. If the
-- input value is a table, it is transformed into a string first. A nil value
-- will result in a valid interator which aborts with the first invocation.
-- @param val The value to scan (table, string or nil)
-- @return Iterator which returns one token per call
function imatch(v)
if type(v) == "table" then
local k = nil
return function()
k = next(v, k)
return v[k]
end
elseif type(v) == "number" or type(v) == "boolean" then
local x = true
return function()
if x then
x = false
return tostring(v)
end
end
elseif type(v) == "userdata" or type(v) == "string" then
return tostring(v):gmatch("%S+")
end
return function() end
end
--- Parse certain units from the given string and return the canonical integer
-- value or 0 if the unit is unknown. Upper- or lower case is irrelevant.
-- Recognized units are:
-- o "y" - one year (60*60*24*366)
-- o "m" - one month (60*60*24*31)
-- o "w" - one week (60*60*24*7)
-- o "d" - one day (60*60*24)
-- o "h" - one hour (60*60)
-- o "min" - one minute (60)
-- o "kb" - one kilobyte (1024)
-- o "mb" - one megabyte (1024*1024)
-- o "gb" - one gigabyte (1024*1024*1024)
-- o "kib" - one si kilobyte (1000)
-- o "mib" - one si megabyte (1000*1000)
-- o "gib" - one si gigabyte (1000*1000*1000)
-- @param ustr String containing a numerical value with trailing unit
-- @return Number containing the canonical value
function parse_units(ustr)
local val = 0
-- unit map
local map = {
-- date stuff
y = 60 * 60 * 24 * 366,
m = 60 * 60 * 24 * 31,
w = 60 * 60 * 24 * 7,
d = 60 * 60 * 24,
h = 60 * 60,
min = 60,
-- storage sizes
kb = 1024,
mb = 1024 * 1024,
gb = 1024 * 1024 * 1024,
-- storage sizes (si)
kib = 1000,
mib = 1000 * 1000,
gib = 1000 * 1000 * 1000
}
-- parse input string
for spec in ustr:lower():gmatch("[0-9%.]+[a-zA-Z]*") do
local num = spec:gsub("[^0-9%.]+$","")
local spn = spec:gsub("^[0-9%.]+", "")
if map[spn] or map[spn:sub(1,1)] then
val = val + num * ( map[spn] or map[spn:sub(1,1)] )
else
val = val + num
end
end
return val
end
-- also register functions above in the central string class for convenience
string.pcdata = pcdata
string.striptags = striptags
string.split = split
string.trim = trim
string.cmatch = cmatch
string.parse_units = parse_units
--- Appends numerically indexed tables or single objects to a given table.
-- @param src Target table
-- @param ... Objects to insert
-- @return Target table
function append(src, ...)
for i, a in ipairs({...}) do
if type(a) == "table" then
for j, v in ipairs(a) do
src[#src+1] = v
end
else
src[#src+1] = a
end
end
return src
end
--- Combines two or more numerically indexed tables and single objects into one table.
-- @param tbl1 Table value to combine
-- @param tbl2 Table value to combine
-- @param ... More tables to combine
-- @return Table value containing all values of given tables
function combine(...)
return append({}, ...)
end
--- Checks whether the given table contains the given value.
-- @param table Table value
-- @param value Value to search within the given table
-- @return Boolean indicating whether the given value occurs within table
function contains(table, value)
for k, v in pairs(table) do
if value == v then
return k
end
end
return false
end
--- Update values in given table with the values from the second given table.
-- Both table are - in fact - merged together.
-- @param t Table which should be updated
-- @param updates Table containing the values to update
-- @return Always nil
function update(t, updates)
for k, v in pairs(updates) do
t[k] = v
end
end
--- Retrieve all keys of given associative table.
-- @param t Table to extract keys from
-- @return Sorted table containing the keys
function keys(t)
local keys = { }
if t then
for k, _ in kspairs(t) do
keys[#keys+1] = k
end
end
return keys
end
--- Clones the given object and return it's copy.
-- @param object Table value to clone
-- @param deep Boolean indicating whether to do recursive cloning
-- @return Cloned table value
function clone(object, deep)
local copy = {}
for k, v in pairs(object) do
if deep and type(v) == "table" then
v = clone(v, deep)
end
copy[k] = v
end
return setmetatable(copy, getmetatable(object))
end
--- Create a dynamic table which automatically creates subtables.
-- @return Dynamic Table
function dtable()
return setmetatable({}, { __index =
function(tbl, key)
return rawget(tbl, key)
or rawget(rawset(tbl, key, dtable()), key)
end
})
end
-- Serialize the contents of a table value.
function _serialize_table(t)
local data = ""
local idata = ""
local ilen = 0
for k, v in pairs(t) do
if type(k) ~= "number" or k < 1 or math.floor(k) ~= k or ( k - #t ) > 3 then
k = _serialize_data(k)
v = _serialize_data(v)
data = data .. ( #data > 0 and ", " or "" ) ..
'[' .. k .. '] = ' .. v
elseif k > ilen then
ilen = k
end
end
for i = 1, ilen do
local v = _serialize_data(t[i])
idata = idata .. ( #idata > 0 and ", " or "" ) .. v
end
return idata .. ( #data > 0 and #idata > 0 and ", " or "" ) .. data
end
--- Recursively serialize given data to lua code, suitable for restoring
-- with loadstring().
-- @param val Value containing the data to serialize
-- @return String value containing the serialized code
-- @see restore_data
-- @see get_bytecode
function serialize_data(val)
assert(not hasRecursion(val), "Recursion detected.")
return _serialize_data(val)
end
function _serialize_data(val)
if val == nil then
return "nil"
elseif type(val) == "number" then
return val
elseif type(val) == "string" then
return "%q" % val
elseif type(val) == "boolean" then
return val and "true" or "false"
elseif type(val) == "function" then
return "loadstring(%q)" % get_bytecode(val)
elseif type(val) == "table" then
return "{ " .. _serialize_table(val) .. " }"
else
return '"[unhandled data type:' .. type(val) .. ']"'
end
end
-- Check weather a table has Recursion, if true, it cant be serialized
function hasRecursion(t)
if t == nil or type(t) ~= "table" then
return false
end
local seen = {}
-- add root to seen
seen[t] = true
return hasR(t, seen)
end
function hasR(t, seen)
for k, v in pairs(t) do
if type(k) == "table" then
if seen[k] then
-- check is recursion
local tmp = t
while true do
if tmp == k then
return true
else
tmp = seen[tmp]
if not tmp then
break
end
end
end
-- check end
end
seen[k] = t
if hasR(k, seen) then
return true
end
end
if type(v) == "table" then
if seen[v] then
-- check is recursion
local tmp = t
while true do
if tmp == v then
return true
else
tmp = seen[tmp]
if not tmp then
break
end
end
end
-- check end
end
seen[v] = t
if hasR(v, seen) then
return true
end
end
end
return false
end
--- Restore data previously serialized with serialize_data().
-- @param str String containing the data to restore
-- @return Value containing the restored data structure
-- @see serialize_data
-- @see get_bytecode
function restore_data(str)
return loadstring("return " .. str)()
end
--
-- Byte code manipulation routines
--
--- Return the current runtime bytecode of the given data. The byte code
-- will be stripped before it is returned.
-- @param val Value to return as bytecode
-- @return String value containing the bytecode of the given data
function get_bytecode(val)
local code
if type(val) == "function" then
code = string.dump(val)
else
code = string.dump( loadstring( "return " .. serialize_data(val) ) )
end
return code -- and strip_bytecode(code)
end
--- Strips unnescessary lua bytecode from given string. Information like line
-- numbers and debugging numbers will be discarded. Original version by
-- Peter Cawley (http://lua-users.org/lists/lua-l/2008-02/msg01158.html)
-- @param code String value containing the original lua byte code
-- @return String value containing the stripped lua byte code
function strip_bytecode(code)
local version, format, endian, int, size, ins, num, lnum = code:byte(5, 12)
local subint
if endian == 1 then
subint = function(code, i, l)
local val = 0
for n = l, 1, -1 do
val = val * 256 + code:byte(i + n - 1)
end
return val, i + l
end
else
subint = function(code, i, l)
local val = 0
for n = 1, l, 1 do
val = val * 256 + code:byte(i + n - 1)
end
return val, i + l
end
end
local function strip_function(code)
local count, offset = subint(code, 1, size)
local stripped = { string.rep("\0", size) }
local dirty = offset + count
offset = offset + count + int * 2 + 4
offset = offset + int + subint(code, offset, int) * ins
count, offset = subint(code, offset, int)
for n = 1, count do
local t
t, offset = subint(code, offset, 1)
if t == 1 then
offset = offset + 1
elseif t == 4 then
offset = offset + size + subint(code, offset, size)
elseif t == 3 then
offset = offset + num
elseif t == 254 or t == 9 then
offset = offset + lnum
end
end
count, offset = subint(code, offset, int)
stripped[#stripped+1] = code:sub(dirty, offset - 1)
for n = 1, count do
local proto, off = strip_function(code:sub(offset, -1))
stripped[#stripped+1] = proto
offset = offset + off - 1
end
offset = offset + subint(code, offset, int) * int + int
count, offset = subint(code, offset, int)
for n = 1, count do
offset = offset + subint(code, offset, size) + size + int * 2
end
count, offset = subint(code, offset, int)
for n = 1, count do
offset = offset + subint(code, offset, size) + size
end
stripped[#stripped+1] = string.rep("\0", int * 3)
return table.concat(stripped), offset
end
return code:sub(1,12) .. strip_function(code:sub(13,-1))
end
--
-- Sorting iterator functions
--
function _sortiter( t, f )
local keys = { }
local k, v
for k, v in pairs(t) do
keys[#keys+1] = k
end
local _pos = 0
table.sort( keys, f )
return function()
_pos = _pos + 1
if _pos <= #keys then
return keys[_pos], t[keys[_pos]], _pos
end
end
end
--- Return a key, value iterator which returns the values sorted according to
-- the provided callback function.
-- @param t The table to iterate
-- @param f A callback function to decide the order of elements
-- @return Function value containing the corresponding iterator
function spairs(t,f)
return _sortiter( t, f )
end
--- Return a key, value iterator for the given table.
-- The table pairs are sorted by key.
-- @param t The table to iterate
-- @return Function value containing the corresponding iterator
function kspairs(t)
return _sortiter( t )
end
--- Return a key, value iterator for the given table.
-- The table pairs are sorted by value.
-- @param t The table to iterate
-- @return Function value containing the corresponding iterator
function vspairs(t)
return _sortiter( t, function (a,b) return t[a] < t[b] end )
end
--
-- System utility functions
--
--- Test whether the current system is operating in big endian mode.
-- @return Boolean value indicating whether system is big endian
function bigendian()
return string.byte(string.dump(function() end), 7) == 0
end
--- Execute given commandline and gather stdout.
-- @param command String containing command to execute
-- @return String containing the command's stdout
function exec(command)
local pp = io.popen(command)
local data = pp:read("*a")
pp:close()
return data
end
--- Return a line-buffered iterator over the output of given command.
-- @param command String containing the command to execute
-- @return Iterator
function execi(command)
local pp = io.popen(command)
return pp and function()
local line = pp:read()
if not line then
pp:close()
end
return line
end
end
-- Deprecated
function execl(command)
local pp = io.popen(command)
local line = ""
local data = {}
while true do
line = pp:read()
if (line == nil) then break end
data[#data+1] = line
end
pp:close()
return data
end
--- Returns the absolute path to LuCI base directory.
-- @return String containing the directory path
function libpath()
return require "nixio.fs".dirname(ldebug.__file__)
end
--
-- Coroutine safe xpcall and pcall versions modified for Luci
-- original version:
-- coxpcall 1.13 - Copyright 2005 - Kepler Project (www.keplerproject.org)
--
-- Copyright © 2005 Kepler Project.
-- Permission is hereby granted, free of charge, to any person obtaining a
-- copy of this software and associated documentation files (the "Software"),
-- to deal in the Software without restriction, including without limitation
-- the rights to use, copy, modify, merge, publish, distribute, sublicense,
-- and/or sell copies of the Software, and to permit persons to whom the
-- Software is furnished to do so, subject to the following conditions:
--
-- The above copyright notice and this permission notice shall be
-- included in all copies or substantial portions of the Software.
--
-- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
-- EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
-- OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
-- IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
-- DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
-- TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE
-- OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
local performResume, handleReturnValue
local oldpcall, oldxpcall = pcall, xpcall
coxpt = {}
setmetatable(coxpt, {__mode = "kv"})
-- Identity function for copcall
local function copcall_id(trace, ...)
return ...
end
--- This is a coroutine-safe drop-in replacement for Lua's "xpcall"-function
-- @param f Lua function to be called protected
-- @param err Custom error handler
-- @param ... Parameters passed to the function
-- @return A boolean whether the function call succeeded and the return
-- values of either the function or the error handler
function coxpcall(f, err, ...)
local res, co = oldpcall(coroutine.create, f)
if not res then
local params = {...}
local newf = function() return f(unpack(params)) end
co = coroutine.create(newf)
end
local c = coroutine.running()
coxpt[co] = coxpt[c] or c or 0
return performResume(err, co, ...)
end
--- This is a coroutine-safe drop-in replacement for Lua's "pcall"-function
-- @param f Lua function to be called protected
-- @param ... Parameters passed to the function
-- @return A boolean whether the function call succeeded and the returns
-- values of the function or the error object
function copcall(f, ...)
return coxpcall(f, copcall_id, ...)
end
-- Handle return value of protected call
function handleReturnValue(err, co, status, ...)
if not status then
return false, err(debug.traceback(co, (...)), ...)
end
if coroutine.status(co) ~= 'suspended' then
return true, ...
end
return performResume(err, co, coroutine.yield(...))
end
-- Resume execution of protected function call
function performResume(err, co, ...)
return handleReturnValue(err, co, coroutine.resume(co, ...))
end
Reference in New Issue View Git Blame Copy Permalink