------------- -- lua sandboxed environment -- function to cross out functions and userdata. -- modified from dump() function atlatc.remove_invalid_data(o, nested) if o==nil then return nil end local valid_dt={["nil"]=true, boolean=true, number=true, string=true} if type(o) ~= "table" then --check valid data type if not valid_dt[type(o)] then return nil end return o end -- Contains table -> true/nil of currently nested tables nested = nested or {} if nested[o] then return nil end nested[o] = true for k, v in pairs(o) do v = atlatc.remove_invalid_data(v, nested) end nested[o] = nil return o end local env_proto={ load = function(self, envname, data) self.name=envname self.sdata=data.sdata and atlatc.remove_invalid_data(data.sdata) or {} self.fdata={} self.init_code=data.init_code or "" self.subscribers=data.subscribers or {} end, save = function(self) -- throw any function values out of the sdata table self.sdata = atlatc.remove_invalid_data(self.sdata) return {sdata = self.sdata, init_code=self.init_code, subscribers=self.subscribers} end, } --Environment --Code modified from mesecons_luacontroller (credit goes to Jeija and mesecons contributors) local safe_globals = { "assert", "error", "ipairs", "next", "pairs", "select", "tonumber", "tostring", "type", "unpack", "_VERSION" } local function safe_date(f, t) if not f then -- fall back to old behavior return(os.date("*t",os.time())) else --pass parameters return os.date(f,t) end end -- string.rep(str, n) with a high value for n can be used to DoS -- the server. Therefore, limit max. length of generated string. local function safe_string_rep(str, n) if #str * n > 2000 then debug.sethook() -- Clear hook error("string.rep: string length overflow", 2) end return string.rep(str, n) end -- string.find with a pattern can be used to DoS the server. -- Therefore, limit string.find to patternless matching. -- Note: Disabled security since there are enough security leaks and this would be unneccessary anyway to DoS the server local function safe_string_find(...) --if (select(4, ...)) ~= true then -- debug.sethook() -- Clear hook -- error("string.find: 'plain' (fourth parameter) must always be true for security reasons.") --end return string.find(...) end local mp=minetest.get_modpath("advtrains_luaautomation") local static_env = { --core LUA functions string = { byte = string.byte, char = string.char, format = string.format, len = string.len, lower = string.lower, upper = string.upper, rep = safe_string_rep, reverse = string.reverse, sub = string.sub, find = safe_string_find, }, math = { abs = math.abs, acos = math.acos, asin = math.asin, atan = math.atan, atan2 = math.atan2, ceil = math.ceil, cos = math.cos, cosh = math.cosh, deg = math.deg, exp = math.exp, floor = math.floor, fmod = math.fmod, frexp = math.frexp, huge = math.huge, ldexp = math.ldexp, log = math.log, log10 = math.log10, max = math.max, min = math.min, modf = math.modf, pi = math.pi, pow = math.pow, rad = math.rad, random = math.random, sin = math.sin, sinh = math.sinh, sqrt = math.sqrt, tan = math.tan, tanh = math.tanh, }, table = { concat = table.concat, insert = table.insert, maxn = table.maxn, remove = table.remove, sort = table.sort, }, os = { clock = os.clock, difftime = os.difftime, time = os.time, date = safe_date, }, POS = function(x,y,z) return {x=x, y=y, z=z} end, getstate = advtrains.getstate, setstate = advtrains.setstate, is_passive = advtrains.is_passive, --interrupts are handled per node, position unknown. (same goes for digilines) --however external interrupts can be set here. interrupt_pos = function(parpos, imesg) local pos=atlatc.pcnaming.resolve_pos(parpos) atlatc.interrupt.add(0, pos, {type="ext_int", ext_int=true, message=imesg}) end, -- sends an atc command to train regardless of where it is in the world atc_send_to_train = function(train_id, command) assertt(command, "string") local train = advtrains.trains[train_id] if train then advtrains.atc.train_set_command(train, command, true) return true else return false end end, } -- If interlocking is present, enable route setting functions if advtrains.interlocking then local function gen_checks(signal, route_name, noroutesearch) assertt(route_name, "string") local pos = atlatc.pcnaming.resolve_pos(signal) local sigd = advtrains.interlocking.db.get_sigd_for_signal(pos) if not sigd then error("There's no signal at "..minetest.pos_to_string(pos)) end local tcbs = advtrains.interlocking.db.get_tcbs(sigd) if not tcbs then error("Inconsistent configuration, no tcbs for signal at "..minetest.pos_to_string(pos)) end local routeid, route if not noroutesearch then for routeidt, routet in ipairs(tcbs.routes) do if routet.name == route_name then routeid = routeidt route = routet break end end if not route then error("No route called "..route_name.." at "..minetest.pos_to_string(pos)) end end return pos, sigd, tcbs, routeid, route end static_env.can_set_route = function(signal, route_name) local pos, sigd, tcbs, routeid, route = gen_checks(signal, route_name) -- if route is already set on signal, return whether it's committed if tcbs.routeset == routeid then return tcbs.route_committed end -- actually try setting route (parameter 'true' designates try-run local ok = advtrains.interlocking.route.set_route(sigd, route, true) return ok end static_env.set_route = function(signal, route_name) local pos, sigd, tcbs, routeid, route = gen_checks(signal, route_name) return advtrains.interlocking.route.update_route(sigd, tcbs, routeid) end static_env.cancel_route = function(signal) local pos, sigd, tcbs, routeid, route = gen_checks(signal, "", true) return advtrains.interlocking.route.update_route(sigd, tcbs, nil, true) end static_env.get_aspect = function(signal) local pos = atlatc.pcnaming.resolve_pos(signal) return advtrains.interlocking.signal_get_aspect(pos) end static_env.set_aspect = function(signal, asp) local pos = atlatc.pcnaming.resolve_pos(signal) return advtrains.interlocking.signal_set_aspect(pos) end end -- Lines-specific: if advtrains.lines then local atlrwt = advtrains.lines.rwt static_env.rwt = { now = atlrwt.now, new = atlrwt.new, copy = atlrwt.copy, to_table = atlrwt.to_table, to_secs = atlrwt.to_secs, to_string = atlrwt.to_string, add = atlrwt.add, diff = atlrwt.diff, sub = atlrwt.sub, adj_diff = atlrwt.adj_diff, adjust_cycle = atlrwt.adjust_cycle, adjust = atlrwt.adjust, to_string = atlrwt.to_string, get_time_until = atlrwt.get_time_until, next_rpt = atlrwt.next_rpt, last_rpt = atlrwt.last_rpt, time_from_last_rpt = atlrwt.time_from_last_rpt, time_to_next_rpt = atlrwt.time_to_next_rpt, } end for _, name in pairs(safe_globals) do static_env[name] = _G[name] end --The environment all code calls get is a table that has set static_env as metatable. --In general, every variable is local to a single code chunk, but kept persistent over code re-runs. Data is also saved, but functions and userdata and circular references are removed --Init code and step code's environments are not saved -- S - Table that can contain any save data global to the environment. Will be saved statically. Can't contain functions or userdata or circular references. -- F - Table global to the environment, can contain volatile data that is deleted when server quits. -- The init code should populate this table with functions and other definitions. local proxy_env={} --proxy_env gets a new metatable in every run, but is the shared environment of all functions ever defined. -- returns: true, fenv if successful; nil, error if error function env_proto:execute_code(localenv, code, evtdata, customfct) -- create us a print function specific for this environment if not self.safe_print_func then local myenv = self self.safe_print_func = function(...) myenv:log("info", ...) end end local metatbl ={ __index = function(t, i) if i=="S" then return self.sdata elseif i=="F" then return self.fdata elseif i=="event" then return evtdata elseif customfct and customfct[i] then return customfct[i] elseif localenv and localenv[i] then return localenv[i] elseif i=="print" then return self.safe_print_func end return static_env[i] end, __newindex = function(t, i, v) if i=="S" or i=="F" or i=="event" or (customfct and customfct[i]) or static_env[i] then debug.sethook() error("Trying to overwrite environment contents") end localenv[i]=v end, } setmetatable(proxy_env, metatbl) local fun, err=loadstring(code) if not fun then return false, err end setfenv(fun, proxy_env) local succ, data = pcall(fun) if succ then data=localenv end return succ, data end function env_proto:run_initcode() if self.init_code and self.init_code~="" then local old_fdata=self.fdata self.fdata = {} --atprint("[atlatc]Running initialization code for environment '"..self.name.."'") local succ, err = self:execute_code({}, self.init_code, {type="init", init=true}) if not succ then self:log("error", "Executing InitCode for '"..self.name.."' failed:"..err) self.init_err=err if old_fdata then self.fdata=old_fdata self:log("warning", "The 'F' table has been restored to the previous state.") end end end end -- log to environment subscribers. severity can be "error", "warning" or "info" (used by internal print) function env_proto:log(severity, ...) local text=advtrains.print_concat_table({"[atlatc "..self.name.." "..severity.."]", ...}) minetest.log("action", text) for _, pname in ipairs(self.subscribers) do minetest.chat_send_player(pname, text) end end -- env.subscribers table may be directly altered by callers. --- class interface function atlatc.env_new(name) local newenv={ name=name, init_code="", sdata={}, subscribers={}, } setmetatable(newenv, {__index=env_proto}) return newenv end function atlatc.env_load(name, data) local newenv={} setmetatable(newenv, {__index=env_proto}) newenv:load(name, data) return newenv end function atlatc.run_initcode() for envname, env in pairs(atlatc.envs) do env:run_initcode() end end