prosody
5f15ab7c6ae5
util/ip.lua
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util/ip.lua @ 11523:5f15ab7c6ae5
Statistics: Rewrite statistics backends to use OpenMetrics
The metric subsystem of Prosody has had some shortcomings from
the perspective of the current state-of-the-art in metric
observability.
The OpenMetrics standard [0] is a formalization of the data
model (and serialization format) of the well-known and
widely-used Prometheus [1] software stack.
The previous stats subsystem of Prosody did not map well to that
format (see e.g. [2] and [3]); the key reason is that it was
trying to do too much math on its own ([2]) while lacking
first-class support for "families" of metrics ([3]) and
structured metric metadata (despite the `extra` argument to
metrics, there was no standard way of representing common things
like "tags" or "labels").
Even though OpenMetrics has grown from the Prometheus world of
monitoring, it maps well to other popular monitoring stacks
such as:
- InfluxDB (labels can be mapped to tags and fields as necessary)
- Carbon/Graphite (labels can be attached to the metric name with
dot-separation)
- StatsD (see graphite when assuming that graphite is used as
backend, which is the default)
The util.statsd module has been ported to use the OpenMetrics
model as a proof of concept. An implementation which exposes
the util.statistics backend data as Prometheus metrics is
ready for publishing in prosody-modules (most likely as
mod_openmetrics_prometheus to avoid breaking existing 0.11
deployments).
At the same time, the previous measure()-based API had one major
advantage: It is really simple and easy to use without requiring
lots of knowledge about OpenMetrics or similar concepts. For that
reason as well as compatibility with existing code, it is preserved
and may even be extended in the future.
However, code relying on the `stats-updated` event as well as
`get_stats` from `statsmanager` will break because the data
model has changed completely; in case of `stats-updated`, the
code will simply not run (as the event was renamed in order
to avoid conflicts); the `get_stats` function has been removed
completely (so it will cause a traceback when it is attempted
to be used).
Note that the measure_*_event methods have been removed from
the module API. I was unable to find any uses or documentation
and thus deemed they should not be ported. Re-implementation is
possible when necessary.
[0]: https://openmetrics.io/
[1]: https://prometheus.io/
[2]: #959
[3]: #960
| author | Jonas Schäfer <jonas@wielicki.name> |
|---|---|
| date | Sun, 18 Apr 2021 11:47:41 +0200 |
| parent | 10593:079b31c8dbf2 |
| child | 11650:a227bc35771e |
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-- Prosody IM -- Copyright (C) 2008-2011 Florian Zeitz -- -- This project is MIT/X11 licensed. Please see the -- COPYING file in the source package for more information. -- local net = require "util.net"; local hex = require "util.hex"; local ip_methods = {}; local ip_mt = { __index = function (ip, key) local method = ip_methods[key]; if not method then return nil; end local ret = method(ip); ip[key] = ret; return ret; end, __tostring = function (ip) return ip.addr; end, }; ip_mt.__eq = function (ipA, ipB) if getmetatable(ipA) ~= ip_mt or getmetatable(ipB) ~= ip_mt then -- Lua 5.3+ calls this if both operands are tables, even if metatables differ return false; end return ipA.packed == ipB.packed; end local hex2bits = { ["0"] = "0000", ["1"] = "0001", ["2"] = "0010", ["3"] = "0011", ["4"] = "0100", ["5"] = "0101", ["6"] = "0110", ["7"] = "0111", ["8"] = "1000", ["9"] = "1001", ["A"] = "1010", ["B"] = "1011", ["C"] = "1100", ["D"] = "1101", ["E"] = "1110", ["F"] = "1111", }; local function new_ip(ipStr, proto) local zone; if (not proto or proto == "IPv6") and ipStr:find('%', 1, true) then ipStr, zone = ipStr:match("^(.-)%%(.*)"); end local packed, err = net.pton(ipStr); if not packed then return packed, err end if proto == "IPv6" and #packed ~= 16 then return nil, "invalid-ipv6"; elseif proto == "IPv4" and #packed ~= 4 then return nil, "invalid-ipv4"; elseif not proto then if #packed == 16 then proto = "IPv6"; elseif #packed == 4 then proto = "IPv4"; else return nil, "unknown protocol"; end elseif proto ~= "IPv6" and proto ~= "IPv4" then return nil, "invalid protocol"; end return setmetatable({ addr = ipStr, packed = packed, proto = proto, zone = zone }, ip_mt); end function ip_methods:normal() return net.ntop(self.packed); end function ip_methods.bits(ip) return hex.to(ip.packed):upper():gsub(".", hex2bits); end function ip_methods.bits_full(ip) if ip.proto == "IPv4" then ip = ip.toV4mapped; end return ip.bits; end local match; local function commonPrefixLength(ipA, ipB) ipA, ipB = ipA.bits_full, ipB.bits_full; for i = 1, 128 do if ipA:sub(i,i) ~= ipB:sub(i,i) then return i-1; end end return 128; end -- Instantiate once local loopback = new_ip("::1"); local loopback4 = new_ip("127.0.0.0"); local sixtofour = new_ip("2002::"); local teredo = new_ip("2001::"); local linklocal = new_ip("fe80::"); local linklocal4 = new_ip("169.254.0.0"); local uniquelocal = new_ip("fc00::"); local sitelocal = new_ip("fec0::"); local sixbone = new_ip("3ffe::"); local defaultunicast = new_ip("::"); local multicast = new_ip("ff00::"); local ipv6mapped = new_ip("::ffff:0:0"); local function v4scope(ip) if match(ip, loopback4, 8) then return 0x2; elseif match(ip, linklocal4) then return 0x2; else -- Global unicast return 0xE; end end local function v6scope(ip) if ip == loopback then return 0x2; elseif match(ip, linklocal, 10) then return 0x2; elseif match(ip, sitelocal, 10) then return 0x5; elseif match(ip, multicast, 10) then return ip.packed:byte(2) % 0x10; else -- Global unicast return 0xE; end end local function label(ip) if ip == loopback then return 0; elseif match(ip, sixtofour, 16) then return 2; elseif match(ip, teredo, 32) then return 5; elseif match(ip, uniquelocal, 7) then return 13; elseif match(ip, sitelocal, 10) then return 11; elseif match(ip, sixbone, 16) then return 12; elseif match(ip, defaultunicast, 96) then return 3; elseif match(ip, ipv6mapped, 96) then return 4; else return 1; end end local function precedence(ip) if ip == loopback then return 50; elseif match(ip, sixtofour, 16) then return 30; elseif match(ip, teredo, 32) then return 5; elseif match(ip, uniquelocal, 7) then return 3; elseif match(ip, sitelocal, 10) then return 1; elseif match(ip, sixbone, 16) then return 1; elseif match(ip, defaultunicast, 96) then return 1; elseif match(ip, ipv6mapped, 96) then return 35; else return 40; end end function ip_methods:toV4mapped() if self.proto ~= "IPv4" then return nil, "No IPv4 address" end local value = new_ip("::ffff:" .. self.normal); return value; end function ip_methods:label() if self.proto == "IPv4" then return label(self.toV4mapped); else return label(self); end end function ip_methods:precedence() if self.proto == "IPv4" then return precedence(self.toV4mapped); else return precedence(self); end end function ip_methods:scope() if self.proto == "IPv4" then return v4scope(self); else return v6scope(self); end end local rfc1918_8 = new_ip("10.0.0.0"); local rfc1918_12 = new_ip("172.16.0.0"); local rfc1918_16 = new_ip("192.168.0.0"); local rfc6598 = new_ip("100.64.0.0"); function ip_methods:private() local private = self.scope ~= 0xE; if not private and self.proto == "IPv4" then return match(self, rfc1918_8, 8) or match(self, rfc1918_12, 12) or match(self, rfc1918_16, 16) or match(self, rfc6598, 10); end return private; end local function parse_cidr(cidr) local bits; local ip_len = cidr:find("/", 1, true); if ip_len then bits = tonumber(cidr:sub(ip_len+1, -1)); cidr = cidr:sub(1, ip_len-1); end return new_ip(cidr), bits; end function match(ipA, ipB, bits) if not bits or bits >= 128 or ipB.proto == "IPv4" and bits >= 32 then return ipA == ipB; elseif bits < 1 then return true; end if ipA.proto ~= ipB.proto then if ipA.proto == "IPv4" then ipA = ipA.toV4mapped; elseif ipB.proto == "IPv4" then ipB = ipB.toV4mapped; bits = bits + (128 - 32); end end return ipA.bits:sub(1, bits) == ipB.bits:sub(1, bits); end return { new_ip = new_ip, commonPrefixLength = commonPrefixLength, parse_cidr = parse_cidr, match = match, };
