prosody
d043834f15d2
util/format.lua
Software / code / prosody
File
util/format.lua @ 13126:d043834f15d2
mod_http: Use RFC 7239 Forwarded header to find original client IP
Prefer over X-Forwarded-* since it has an actual specification.
Main practical difference is that Forwarded may carry more properties
than only the IP address since it is a structured header.
Since we parse it into an array, it is easier to do the logical thing
and iterate backwards trough proxies until an untrusted one is
encountered. Compare the handling of X-Forwarded-For.
The 'secure' field now accounts for the full chain of proxies, which
must be secure all the way to be considered secure.
| author | Kim Alvefur <zash@zash.se> |
|---|---|
| date | Sat, 03 Jun 2023 17:10:04 +0200 |
| parent | 12984:f08125a8be34 |
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-- -- A string.format wrapper that gracefully handles invalid arguments since -- certain format string and argument combinations may cause errors or other -- issues like log spoofing -- -- Provides some protection from e.g. CAPEC-135, CWE-117, CWE-134, CWE-93 local tostring = tostring; local unpack = table.unpack; local pack = table.pack; local valid_utf8 = require "prosody.util.encodings".utf8.valid; local type = type; local dump = require"prosody.util.serialization".new({ preset = "compact"; fallback = function(v, why) return "_[[" .. (why or tostring(v)) .. "]] "; end; freeze = true; fatal = false; maxdepth = 5; }); local num_type = math.type; -- In Lua 5.3+ these formats throw an error if given a float local expects_integer = { c = true, d = true, i = true, o = true, u = true, X = true, x = true, }; -- In Lua 5.2 these throw an error given a negative number local expects_positive = { o = true; u = true; x = true; X = true }; -- Printable Unicode replacements for control characters local control_symbols = { -- 0x00 .. 0x1F --> U+2400 .. U+241F, 0x7F --> U+2421 ["\000"] = "\226\144\128", ["\001"] = "\226\144\129", ["\002"] = "\226\144\130", ["\003"] = "\226\144\131", ["\004"] = "\226\144\132", ["\005"] = "\226\144\133", ["\006"] = "\226\144\134", ["\007"] = "\226\144\135", ["\008"] = "\226\144\136", ["\009"] = "\226\144\137", ["\010"] = "\226\144\138", ["\011"] = "\226\144\139", ["\012"] = "\226\144\140", ["\013"] = "\226\144\141", ["\014"] = "\226\144\142", ["\015"] = "\226\144\143", ["\016"] = "\226\144\144", ["\017"] = "\226\144\145", ["\018"] = "\226\144\146", ["\019"] = "\226\144\147", ["\020"] = "\226\144\148", ["\021"] = "\226\144\149", ["\022"] = "\226\144\150", ["\023"] = "\226\144\151", ["\024"] = "\226\144\152", ["\025"] = "\226\144\153", ["\026"] = "\226\144\154", ["\027"] = "\226\144\155", ["\028"] = "\226\144\156", ["\029"] = "\226\144\157", ["\030"] = "\226\144\158", ["\031"] = "\226\144\159", ["\127"] = "\226\144\161", }; local supports_p = pcall(string.format, "%p", ""); -- >= Lua 5.4 local function format(formatstring, ...) local args = pack(...); local args_length = args.n; -- format specifier spec: -- 1. Start: '%%' -- 2. Flags: '[%-%+ #0]' -- 3. Width: '%d?%d?' -- 4. Precision: '%.?%d?%d?' -- 5. Option: '[cdiouxXaAeEfgGqs%%]' -- -- The options c, d, E, e, f, g, G, i, o, u, X, and x all expect a number as argument, whereas q and s expect a string. -- This function does not accept string values containing embedded zeros, except as arguments to the q option. -- a and A are only in Lua 5.2+ -- Lua 5.4 adds a p format that produces a pointer -- process each format specifier local i = 0; formatstring = formatstring:gsub("%%[^cdiouxXaAeEfgGpqs%%]*[cdiouxXaAeEfgGpqs%%]", function(spec) if spec == "%%" then return end i = i + 1; local arg = args[i]; if arg == nil then args[i] = "nil"; return "(%s)"; end local option = spec:sub(-1); local t = type(arg); if option == "s" and t == "string" and not arg:find("[%z\1-\31\128-\255]") then -- No UTF-8 or control characters, assumed to be the common case. return elseif t == "number" then if option == "g" or (option == "d" and num_type(arg) == "integer") then return end elseif option == "s" and t ~= "string" then arg = tostring(arg); t = "string"; end if option ~= "s" and option ~= "q" and option ~= "p" then -- all other options expect numbers if t ~= "number" then -- arg isn't number as expected? arg = tostring(arg); option = "s"; spec = "[%s]"; t = "string"; elseif expects_integer[option] and num_type(arg) ~= "integer" then args[i] = tostring(arg); return "[%s]"; elseif expects_positive[option] and arg < 0 then args[i] = tostring(arg); return "[%s]"; else return -- acceptable number end end if option == "p" and not supports_p then arg = tostring(arg); option = "s"; spec = "[%s]"; t = "string"; end if t == "string" and option ~= "p" then if not valid_utf8(arg) then option = "q"; elseif option ~= "q" then -- gets fully escaped in the next block -- Prevent funny things with ASCII control characters and ANSI escape codes (CWE-117) -- Also ensure embedded newlines can't look like another log line (CWE-93) args[i] = arg:gsub("[%z\1-\8\11-\31\127]", control_symbols):gsub("\n\t?", "\n\t"); return spec; end end if option == "q" then args[i] = dump(arg); return "%s"; end if option == "p" and (t == "boolean" or t == "number") then args[i] = tostring(arg); return "[%s]"; end end); -- process extra args while i < args_length do i = i + 1; local arg = args[i]; if arg == nil then args[i] = "(nil)"; else args[i] = tostring(arg):gsub("[%z\1-\8\11-\31\127]", control_symbols):gsub("\n\t?", "\n\t"); end formatstring = formatstring .. " [%s]" end return formatstring:format(unpack(args)); end return { format = format; };
