CHips L MINI SHELL

CHips L pro

Current Path : /proc/2/root/usr/share/nmap/nselib/
Upload File :
Current File : //proc/2/root/usr/share/nmap/nselib/json.lua

---
-- Library methods for handling JSON data. It handles JSON encoding and
-- decoding according to RFC 4627.
--
-- There is a test section at the bottom which shows some example 
-- parsing. If you want to parse JSON, you can test it by pasting sample JSON
-- into the <code>TESTS</code> table and run the <code>test</code> method
--
-- There is a straightforward mapping between JSON and Lua data types. One
-- exception is JSON <code>NULL</code>, which is not the same as Lua
-- <code>nil</code>. (A better match for Lua <code>nil</code> is JavaScript
-- <code>undefined</code>.) <code>NULL</code> values in JSON are represented by
-- the special value <code>json.NULL</code>.
--
-- @author Martin Holst Swende
-- @copyright Same as Nmap--See http://nmap.org/book/man-legal.html

-- TODO: Unescape/escape unicode
-- Version 0.4
-- Created 01/25/2010 - v0.1 - created by Martin Holst Swende <martin@swende.se>
-- Heavily modified 02/22/2010 - v0.3. Rewrote the parser into an OO-form, to not have to handle
-- all kinds of state with parameters and return values. 
-- Modified 02/27/2010 - v0.4 Added unicode handling (written by David Fifield). Renamed toJson 
-- and fromJson intogenerate() and parse(), implemented more proper numeric parsing and added some more error checking. 

module("json", package.seeall)
require("bit")
require("nsedebug")
	
--Some local shortcuts
local function dbg(str,...)
	stdnse.print_debug("Json:"..str, unpack(arg))
end
local function d4(str,...)
	if nmap.debugging() > 3 then dbg(str,unpack(arg)) end
end
local function d3(str,...)
	if nmap.debugging() > 2 then dbg(str,unpack(arg)) end
end

--local dbg =stdnse.print_debug
local function dbg_err(str,...)
	stdnse.print_debug("json-ERR:"..str, unpack(arg))
end

 -- Javascript null representation, see explanation above
NULL = {}

-- See section 2.5 for escapes.
-- For convenience, ESCAPE_TABLE maps to escape sequences complete with
-- backslash, and REVERSE_ESCAPE_TABLE maps from single escape characters
-- (no backslash).
local ESCAPE_TABLE = {}
local REVERSE_ESCAPE_TABLE = {}
do
	local escapes = {
		[string.char(0x22)] = "\"",
		[string.char(0x5C)] = "\\",
		[string.char(0x2F)] = "/",
		[string.char(0x08)] = "b",
		[string.char(0x0C)] = "f",
		[string.char(0x0A)] = "n",
		[string.char(0x0D)] = "r",
		[string.char(0x09)] = "t",
	}
	for k, v in pairs(escapes) do
		ESCAPE_TABLE[k] = "\\" .. v
		REVERSE_ESCAPE_TABLE[v] = k
	end
end

-- Escapes a string 
--@param str the string
--@return a string where the special chars have been escaped
local function escape(str)
	return "\"" .. string.gsub(str, ".", ESCAPE_TABLE) .. "\""
end

-- Creates json data from an object
--@param object a table containing data
--@return a string containing valid json
function generate(obj)

	-- NULL-check must be performed before 
	-- checking type == table, since the NULL-object
	-- is a table
	if obj == NULL then
		return "null"
	elseif obj == false then
		return "false"
	elseif obj == true then
		return "true"
	elseif type(obj) == "number" then
		return string.format("%g", obj)
	elseif type(obj) == "string" then
		return escape(obj)
	elseif type(obj) == "table" then
		local k, v, elems
		elems = {}
		if #obj > 0 then
			-- Array
			for _, v in ipairs(obj) do
				elems[#elems + 1] = generate(v)
			end
			return "[" .. table.concat(elems, ", ") .. "]"
		else
			-- Object
			for k, v in pairs(obj) do
				elems[#elems + 1] = escape(k) .. ": " .. generate(v)
			end
			return "{" .. table.concat(elems, ", ") .. "}"
		end
	else
		error("Unknown data type in generate")
	end
end

-- This is the parser, implemented in OO-form to deal with state better
Json = {}
-- Constructor
function Json:new(input)
	local o = {}
	setmetatable(o, self)
	self.__index = self
	o.input = input
	o.pos = 1 -- Pos is where the NEXT letter will be read
	return o
end

-- Gets next character and ups the position
--@return next character
function Json:next()
	self.pos = self.pos+1
	return self.input:sub(self.pos-1, self.pos-1)
end
-- Updates the position to next non whitespace position
function Json:eatWhiteSpace()
	--Find next non-white char
	local a,b = self.input:find("%S",self.pos)
	if not a then 
		self:syntaxerror("Empty data")
		return
	end
	self.pos = a 
end

-- Jumps to a specified position
--@param position where to go
function Json:jumpTo(position)
	self.pos = position
end

-- Returns next character, but without upping position
--@return next character
function Json:peek()
	return self.input:sub(self.pos, self.pos)
end

--@return true if more input is in store
function Json:hasMore()
	return self.input:len() >= self.pos
end

-- Checks that the following input is equal to a string
-- and updates position so next char will be after that string
-- If false, triggers a syntax error
--@param str the string to test
function Json:assertStr(str)
	local content = self.input:sub(self.pos,self.pos+str:len()-1) 
	if(content == str) then-- All ok
		-- Jump forward
		self:jumpTo(self.pos+str:len())
		return
	end
	self:syntaxerror(("Expected '%s' but got '%s'"):format( str, content))
end

-- Trigger a syntax error
function Json:syntaxerror(reason)
	self.error = ("Syntax error near pos %d: %s input: %s"):format( self.pos, reason, self.input)
	dbg(self.error)
end
-- Check if any errors has occurred
function Json:errors()
	return self.error ~= nil
end
-- Parses a top-level JSON structure (object or array).
--@return the parsed object or puts error messages in self.error
function Json:parseStart()
	-- The top level of JSON only allows an object or an array. Only inside
	-- of the outermost container can other types appear.
	self:eatWhiteSpace()
	local c = self:peek()
	if c == '{' then 
		return self:parseObject()
	elseif c == '[' then 
		return self:parseArray()
	else
		self:syntaxerror(("JSON must start with object or array (started with %s)"):format(c))
		return
	end
end

-- Parses a value
--@return the parsed value
function Json:parseValue()
	self:eatWhiteSpace()
	local c = self:peek()
	
	local value
	if c == '{' then 
		value = self:parseObject()
	elseif c == '[' then 
		value = self:parseArray()
	elseif c == '"' then 
		value = self:parseString()
	elseif c == 'n' then
		self:assertStr("null")
		value = NULL
	elseif c == 't' then
		self:assertStr("true")
		value = true
	elseif c == 'f' then
		self:assertStr("false")
		value = false
	else -- numeric
		-- number = [ minus ] int [ frac ] [ exp ]
		local a,b =self.input:find("-?%d+%.?%d*[eE]?[+-]?%d*", self.pos)
		if not a or not b then
			self:syntaxerror("Error 1 parsing numeric value")
			return
		end
		value = tonumber(self.input:sub(a,b))
		if(value == nil) then 
			self:syntaxerror("Error 2 parsing numeric value")
			return
		end
		self:jumpTo(b+1)
	end
	return value
end
-- Parses a json object {}
--@return the object (or triggers a syntax error)
function Json:parseObject()
	local object  = {}
	local _= self:next() -- Eat {
	
	while(self:hasMore() and not self:errors()) do
		self:eatWhiteSpace()
		local c = self:peek()
		if(c == '}') then -- Empty object, probably
			self:next() -- Eat it
			return object
		end
		
		if(c ~= '"') then
			self:syntaxerror(("Expected '\"', got '%s'"):format(c))
			return
		end
		
		local key = self:parseString()
		if self:errors() then 
			return
		end
		self:eatWhiteSpace()
		c = self:next()
		if(c ~= ':') then
			self:syntaxerror("Expected ':' got "..c)
			return
		end
		local value = self:parseValue()
		
		if self:errors() then 
			return
		end
		
		object[key] = value
		
		self:eatWhiteSpace()
		c = self:next()
		-- Valid now is , or }
		if(c == '}') then 
			return object 
		end
		if(c ~= ',') then
			self:syntaxerror("Expected ',' or '}', got "..c)
			return
		end
	end
end
-- Parses a json array [] or triggers a syntax error
--@return the array object
function Json:parseArray()
	local array  = {}
	self:next()
	while(self:hasMore() and not self:errors()) do
		self:eatWhiteSpace()
		if(self:peek() == ']') then -- Empty array, probably
			self:next()
			break
		end
		local value = self:parseValue()
		if self:errors() then
			return
		end
		table.insert(array, value)
		self:eatWhiteSpace()
		local c = self:next()
		-- Valid now is , or ]
		if(c == ']') then return array end
		if(c ~= ',') then
			self:syntaxerror(("Expected ',' but got '%s'"):format(c))
			return
		end
	end
	return array
end

-- Decode a Unicode escape, assuming that self.pos starts just after the
-- initial \u. May consume an additional escape in the case of a UTF-16
-- surrogate pair. See RFC 2781 for UTF-16.
function Json:parseUnicodeEscape()
	local n, cp
	local hex, lowhex
	local s, e

	s, e, hex = self.input:find("^(....)", self.pos)
	if not hex then
		self:syntaxerror(("EOF in Unicode escape \\u%s"):format(self.input:sub(self.pos)))
		return
	end
	n = tonumber(hex, 16)
	if not n then
		self:syntaxerror(("Bad unicode escape \\u%s"):format(hex))
		return
	end
	cp = n
	self.pos = e + 1
	if n < 0xD800 or n > 0xDFFF then
		return cp
	end
	if n >= 0xDC00 and n <= 0xDFFF then
		self:syntaxerror(("Not a Unicode character: U+%04X"):format(cp))
		return
	end

	-- Beginning of a UTF-16 surrogate.
	s, e, lowhex = self.input:find("^\\u(....)", self.pos)
	if not lowhex then
		self:syntaxerror(("Bad unicode escape \\u%s (missing low surrogate)"):format(hex))
		return
	end
	n = tonumber(lowhex, 16)
	if not n or not (n >= 0xDC00 and n <= 0xDFFF) then
		self:syntaxerror(("Bad unicode escape \\u%s\\u%s (bad low surrogate)"):format(hex, lowhex))
		return
	end
	self.pos = e + 1
	cp = 0x10000 + bit.band(cp, 0x3FF) * 0x400 + bit.band(n, 0x3FF)
	-- also remove last "
	return cp
end

-- Encode a Unicode code point to UTF-8. See RFC 3629.
-- Does not check that cp is a real charaacter; that is, doesn't exclude the
-- surrogate range U+D800 - U+DFFF and a handful of others.
local function utf8_enc(cp)
	local bytes = {}
	local n, mask

	if cp % 1.0 ~= 0.0 or cp < 0 then
		-- Only defined for nonnegative integers.
		return nil
	elseif cp <= 0x7F then
		-- Special case of one-byte encoding.
		return string.char(cp)
	elseif cp <= 0x7FF then
		n = 2
		mask = 0xC0
	elseif cp <= 0xFFFF then
		n = 3
		mask = 0xE0
	elseif cp <= 0x10FFFF then
		n = 4
		mask = 0xF0
	else
		return nil
	end

	while n > 1 do
		bytes[n] = string.char(0x80 + bit.band(cp, 0x3F))
		cp = bit.rshift(cp, 6)
		n = n - 1
	end
	bytes[1] = string.char(mask + cp)

	return table.concat(bytes)
end

-- Parses a json string
-- @return the string or triggers syntax error
function Json:parseString()

	local val = ''
	local c = self:next()
	assert( c == '"')
	while(self:hasMore()) do
		local c  = self:next()
		
		if(c == '"') then -- end of string
			break
		elseif(c == '\\') then-- Escaped char
			local d = self:next()
			if REVERSE_ESCAPE_TABLE[d] ~= nil then 
				val = val .. REVERSE_ESCAPE_TABLE[d] 
			elseif d == 'u' then -- Unicode chars
				local codepoint = self:parseUnicodeEscape()
				if not codepoint then
					return
				end
				val = val .. utf8_enc(codepoint)
			else 
				self:syntaxerror(("Undefined escape character '%s'"):format(d))
				return false
			end
		else -- Char
			val = val .. c
		end
	end
	return val
end
--- Parses json data into an object form
-- This is the method you probably want to use if you 
-- use this library from a script.
--@param data a json string
--@return status true if ok, false if bad
--@return an object representing the json, or error message
function parse(data)
	local parser = Json:new(data)
	local result = parser:parseStart()
	if(parser.error) then
		return false, parser.error
	end
	return true, result
end

----------------------------------------------------------------------------------
-- Test-code for debugging purposes below
----------------------------------------------------------------------------------

local TESTS = {
	'{"a":1}',
	'{"a":true}',
	'{"a":     false}',
	'{"a":     null 		\r\n, \t "b"	\f:"ehlo"}',
	'{"a\\"a":"a\\"b\\"c\\"d"}',
        '{"foo":"gaz\\"onk", "pi":3.14159,"hello":{ "wo":"rld"}}',
	'{"a":1, "b":2}',
	'{"foo":"gazonk", "pi":3.14159,"hello":{ "wo":"rl\\td"}}',
	'[1,2,3,4,5,null,false,true,"\195\164\195\165\195\182\195\177","bar"]',
	'[]',-- This will yield {} in toJson, since in lua there is only one basic datatype - and no difference when empty
	'{}',

       '',			-- error
        'null',			-- error
        '"abc"',		-- error
        '{a":1}',		-- error
        '{"a" bad :1}',		-- error
        '["a\\\\t"]',		-- Should become Lua {"a\\t"}
	'[0.0.0]',	-- error
	'[-1]',	
	'[-1.123e-2]',
        '[5e3]',
        '[5e+3]',
        '[5E-3]',
        '[5.5e3]',
        '["a\\\\"]',		-- Should become Lua {"a\\"}
        '{"a}": 1}',		-- Should become Lua {"a}" = 1}
        '["key": "value"]',	-- error
	'["\\u0041"]',		-- Should become Lua {"A"}
	'["\\uD800"]',		-- error
	'["\\uD834\\uDD1EX"]',	-- Should become Lua {"\240\157\132\158X"}
}
function test()
	print("Tests running")
	local i,v,res,status
	for i,v in pairs(TESTS) do
		print("----------------------------")
		print(v)
		status,res = parse(v)
		if not status then print( res) end
		if(status) then 
			print(generate(res))
		else
			print("Error:".. res)
		end
	end
end

Copyright 2K16 - 2K18 Indonesian Hacker Rulez