--- -- Library methods for handling JSON data. It handles JSON encoding and -- decoding according to RFC 4627. -- -- There is a straightforward mapping between JSON and Lua data types. One -- exception is JSON NULL, which is not the same as Lua -- nil. (A better match for Lua nil is JavaScript -- undefined.) NULL values in JSON are represented by -- the special value json.NULL. -- -- @author Martin Holst Swende -- @author David Fifield -- @author Patrick Donnelly -- @copyright Same as Nmap--See https://nmap.org/book/man-legal.html -- Version 0.4 -- Created 01/25/2010 - v0.1 - created by Martin Holst Swende -- 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 into generate() and parse(), implemented more proper numeric parsing and added some more error checking. local stdnse = require "stdnse" local string = require "string" local table = require "table" local unicode = require "unicode" local unittest = require "unittest" _ENV = stdnse.module("json", stdnse.seeall) local lpeg = require "lpeg"; local locale = lpeg.locale; local P = lpeg.P; local R = lpeg.R; local S = lpeg.S; local V = lpeg.V; local C = lpeg.C; local Cb = lpeg.Cb; local Cc = lpeg.Cc; local Cf = lpeg.Cf; local Cg = lpeg.Cg; local Cp = lpeg.Cp; local Cs = lpeg.Cs; local Ct = lpeg.Ct; local Cmt = lpeg.Cmt; -- case sensitive keyword local function K (a) return P(a) * -(locale().alnum + "_"); end local NULL = {}; _M.NULL = NULL; --- Makes a table be treated as a JSON Array when generating JSON -- -- A table treated as an Array has all non-number indices ignored. -- @param t a table to be treated as an array function make_array(t) local mt = getmetatable(t) or {} mt["json"] = "array" setmetatable(t, mt) return t end --- Makes a table be treated as a JSON Object when generating JSON -- -- @param t a table to be treated as an object function make_object(t) local mt = getmetatable(t) or {} mt["json"] = "object" setmetatable(t, mt) return t 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. local unicode_esc = P [[\u]] * C(locale().xdigit * locale().xdigit * locale().xdigit * locale().xdigit); local function unicode16 (subject, position, hex) local cp = assert(tonumber(hex, 16)); if cp < 0xD800 or cp > 0xDFFF then return position, unicode.utf8_enc(cp); elseif cp >= 0xDC00 and cp <= 0xDFFF then error(("Not a Unicode character: U+%04X"):format(cp)); end -- Beginning of a UTF-16 surrogate. local lowhex = unicode_esc:match(subject, position); if not lowhex then error(("Bad unicode escape \\u%s (missing low surrogate)"):format(hex)) else local cp2 = assert(tonumber(lowhex, 16)); if not (cp2 >= 0xDC00 and cp2 <= 0xDFFF) then error(("Bad unicode escape \\u%s\\u%s (bad low surrogate)"):format(hex, lowhex)) end position = position+6 -- consume '\uXXXX' cp = 0x10000 + (cp & 0x3FF) * 0x400 + (cp2 & 0x3FF) return position, unicode.utf8_enc(cp); end end -- call lpeg.locale on the grammar to add V "space" local json = locale { V "json"; json = V "space"^0 * V "value" * V "space"^0 * P(-1); -- FIXME should be 'V "object" + V "array"' instead of 'V "value"' ? value = V "string" + V "number" + V "object" + V "array" + K "true" * Cc(true)+ K "false" * Cc(false)+ K "null" * Cc(NULL); object = Cf(Ct "" * P "{" * V "space"^0 * (V "members")^-1 * V "space"^0 * P "}", rawset) / make_object; members = V "pair" * (V "space"^0 * P "," * V "space"^0 * V "pair")^0; pair = Cg(V "string" * V "space"^0 * P ":" * V "space"^0 * V "value"); array = Ct(P "[" * V "space"^0 * (V "elements")^-1 * V "space"^0 * P "]") / make_array; elements = V "value" * V "space"^0 * (P "," * V "space"^0 * V "value")^0; string = Ct(P [["]] * (V "char")^0 * P [["]]) / table.concat; char = P [[\"]] * Cc [["]] + P [[\\]] * Cc [[\]] + P [[\b]] * Cc "\b" + P [[\f]] * Cc "\f" + P [[\n]] * Cc "\n" + P [[\r]] * Cc "\r" + P [[\t]] * Cc "\t" + P [[\u]] * Cmt(C(V "xdigit" * V "xdigit" * V "xdigit" * V "xdigit"), unicode16) + P [[\]] * C(1) + (C(1) - P [["]]); number = C((P "-")^-1 * V "space"^0 * (V "hexadecimal" + V "floating" + V "integer")) / function (a) return assert(tonumber(a)) end; hexadecimal = P "0x" * V "xdigit"^1; floating = (V "digit"^1 * P "." * V "digit"^0 + V "digit"^0 * P "." * V "digit"^1) * (V "exponent")^-1; integer = V "digit"^1 * (V "exponent")^-1; exponent = S "eE" * (S "-+")^-1 * V "digit"^1; }; json = P(json); -- compile the grammar --- Parses JSON data into a Lua object. -- -- 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 status, object = pcall(json.match, json, data); if not status then return false, object; elseif object then return true, object; else return false, "syntax error"; end end --Some local shortcuts local function dbg(str,...) stdnse.debug1("Json:"..str, ...) end -- 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 = { ["\x22"] = "\"", ["\x5C"] = "\\", ["\x2F"] = "/", ["\x08"] = "b", ["\x0C"] = "f", ["\x0A"] = "n", ["\x0D"] = "r", ["\x09"] = "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 --- Checks what JSON type a variable will be treated as when generating JSON -- @param var a variable to inspect -- @return a string containing the JSON type. Valid values are "array", -- "object", "number", "string", "boolean", and "null" function typeof(var) local t = type(var) if var == NULL then return "null" elseif t == "table" then local mtval = rawget(getmetatable(var) or {}, "json") if mtval == "array" or (mtval ~= "object" and #var > 0) then return "array" else return "object" end else return t end error("Unknown data type in typeof") end --- Creates json data from an object --@param obj 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 tostring(obj) elseif type(obj) == "string" then return escape(obj) elseif type(obj) == "table" then local k, v, elems, jtype elems = {} jtype = typeof(obj) if jtype == "array" then for _, v in ipairs(obj) do elems[#elems + 1] = generate(v) end return "[" .. table.concat(elems, ", ") .. "]" elseif jtype == "object" then for k, v in pairs(obj) do elems[#elems + 1] = escape(k) .. ": " .. generate(v) end return "{" .. table.concat(elems, ", ") .. "}" end end error("Unknown data type in generate") end if not unittest.testing() then return _ENV end ---------------------------------------------------------------------------------- -- Test-code for debugging purposes below ---------------------------------------------------------------------------------- local TESTS = { { '{"a":1}', generates = '{"a": 1}', is = "object", test = function(o) return o["a"] == 1 end }, { '{"a":true}', generates = '{"a": true}', is = "object", test = function(o) return o["a"] == true end }, { '{"a": false}', generates = '{"a": false}', is = "object", test = function(o) return o["a"] == false end }, { '{"a": null \r\n, \t "b" \f:"ehlo"}', is = "object", test = function(o) return o["a"] == NULL end }, { '{"a\\"a":"a\\"b\\"c\\"d"}', generates = '{"a\\"a": "a\\"b\\"c\\"d"}', is = "object", test = function(o) return o['a"a'] == 'a"b"c"d' end }, { '{"foo":"gaz\\"onk", "pi":3.14159,"hello":{ "wo":"rl\\td"}}', is = "object", test = function(o) return ( o["foo"] == 'gaz"onk' and o["pi"] == 3.14159 and o["hello"]["wo"] == "rl\td" ) end }, { '{"a":1, "b":2}', is = "object", test = function(o) local j = generate(o) return ( -- order is random j == '{"a": 1, "b": 2}' or j == '{"b": 2, "a": 1}' ) end }, { '[1,2,3,4,5,null,false,true,"\195\164\195\165\195\182\195\177","bar"]', generates = '[1, 2, 3, 4, 5, null, false, true, "\195\164\195\165\195\182\195\177", "bar"]', is = "array", test = function(o) return #o == 10 end }, { '[]', generates = '[]', is = "array", test = function(o) return not next(o) end }, { '{}', generates = '{}', is = "object", test = function(o) return not next(o) end }, {'', valid=false}, { 'null', generates = 'null', is = "null" }, { '"abc"', generates = '"abc"', is = "string", }, {'{a":1}', valid=false}, -- error {'{"a" bad :1}', valid=false}, -- error { '["a\\\\t"]', generates = '["a\\\\t"]', is = "array", test = function(o) return o[1] == "a\\t" end }, -- Should become Lua {"a\\t"} {'[0.0.0]', valid=false}, -- error { '[-1]', generates = '[-1]', is = "array", }, { '[-1.123e-2]', generates = '[-0.01123]', is = "array", }, { '[5e3]', generates = '[5000.0]', is = "array", }, { '[5e+3]', generates = '[5000.0]', is = "array", }, { '[5E-3]', generates = '[0.005]', is = "array", }, { '[5.5e3]', generates = '[5500.0]', is = "array", }, { '["a\\\\"]', generates = '["a\\\\"]', is = "array", }, -- Should become Lua {"a\\"} { ' {"a}": 1} ', generates = '{"a}": 1}', is = "object", test = function(o) return o["a}"] == 1 end }, -- Should become Lua {"a}" = 1} {'["key": "value"]', valid=false}, -- error { '["\\u0041"]', generates = '["A"]', is = "array", }, -- Should become Lua {"A"} { '["\\uD800"]', valid=false, test = function(s) return s:find("Bad unicode escape.*missing low surrogate") ~= nil end }, -- error { '["\\uD834\\uDD1EX"]', generates = '["\240\157\132\158X"]', is = "array", }, -- Should become Lua {"\240\157\132\158X"} { '1684119503', generates = '1684119503', is = "number" } } test_suite = unittest.TestSuite:new() local equal = unittest.equal local is_false = unittest.is_false local is_true = unittest.is_true for _, test in ipairs(TESTS) do local status, val = parse(test[1]) if test.valid == false then test_suite:add_test(is_false(status), "Syntax error status is false") if not test.test then test_suite:add_test(equal(val, "syntax error"), "Syntax error") end end if test.generates then test_suite:add_test(equal(generate(val), test.generates), "Generate") end if test.is then test_suite:add_test(equal(typeof(val), test.is), "JSON type") end if test.test then test_suite:add_test(is_true(test.test(val)), "Extra test") end end return _ENV;