prosody
83822be7704d
util/statistics.lua

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util/statistics.lua @ 11516:83822be7704d

util.xmppstream: Send <?xml?> declaration in same call as stream open If network_settings.opportunistic_writes is enabled then this would previously have resulted in two socket writes, and possibly two packets being sent. This caused some issues in older versions of Gajim, which apparently expected the stream opening in the first packet, and thus it could not connect. With this change and opportunistic_writes enabled, the first packet should contain both the xml declaration and the stream open tag. Without opportunistic_writes, there should be no observable change. Tested with Gajim 1.1.2 (on same machine). Unsure if loopback behaves differently than the network here.
author Kim Alvefur <zash@zash.se>
date Wed, 14 Apr 2021 15:21:13 +0200
parent 10883:d75d805c852f
child 11523:5f15ab7c6ae5
line wrap: on
line source

local t_sort = table.sort
local m_floor = math.floor;
local time = require "util.time".now;

local function nop_function() end

local function percentile(arr, length, pc)
	local n = pc/100 * (length + 1);
	local k, d = m_floor(n), n%1;
	if k == 0 then
		return arr[1] or 0;
	elseif k >= length then
		return arr[length];
	end
	return arr[k] + d*(arr[k+1] - arr[k]);
end

local function new_registry(config)
	config = config or {};
	local duration_sample_interval = config.duration_sample_interval or 5;
	local duration_max_samples = config.duration_max_stored_samples or 5000;

	local function get_distribution_stats(events, n_actual_events, since, new_time, units)
		local n_stored_events = #events;
		t_sort(events);
		local sum = 0;
		for i = 1, n_stored_events do
			sum = sum + events[i];
		end

		return {
			samples = events;
			sample_count = n_stored_events;
			count = n_actual_events,
			rate = n_actual_events/(new_time-since);
			average = n_stored_events > 0 and sum/n_stored_events or 0,
			min = events[1] or 0,
			max = events[n_stored_events] or 0,
			units = units,
		};
	end


	local registry = {};
	local methods;
	methods = {
		amount = function (name, conf)
			local v = conf and conf.initial or 0;
			registry[name..":amount"] = function ()
				return "amount", v, conf;
			end
			return function (new_v) v = new_v; end
		end;
		counter = function (name, conf)
			local v = conf and conf.initial or 0;
			registry[name..":amount"] = function ()
				return "amount", v, conf;
			end
			return function (delta)
				v = v + delta;
			end;
		end;
		rate = function (name, conf)
			local since, n, total = time(), 0, 0;
			registry[name..":rate"] = function ()
				total = total + n;
				local t = time();
				local stats = {
					rate = n/(t-since);
					count = n;
					total = total;
					units = conf and conf.units;
					type = conf and conf.type;
				};
				since, n = t, 0;
				return "rate", stats.rate, stats;
			end;
			return function ()
				n = n + 1;
			end;
		end;
		distribution = function (name, conf)
			local units = conf and conf.units;
			local type = conf and conf.type or "distribution";
			local events, last_event = {}, 0;
			local n_actual_events = 0;
			local since = time();

			registry[name..":"..type] = function ()
				local new_time = time();
				local stats = get_distribution_stats(events, n_actual_events, since, new_time, units);
				events, last_event = {}, 0;
				n_actual_events = 0;
				since = new_time;
				return type, stats.average, stats;
			end;

			return function (value)
				n_actual_events = n_actual_events + 1;
				if n_actual_events%duration_sample_interval == 1 then
					last_event = (last_event%duration_max_samples) + 1;
					events[last_event] = value;
				end
			end;
		end;
		sizes = function (name, conf)
			conf = conf or { units = "bytes", type = "size" }
			return methods.distribution(name, conf);
		end;
		times = function (name, conf)
			local units = conf and conf.units or "seconds";
			local events, last_event = {}, 0;
			local n_actual_events = 0;
			local since = time();

			registry[name..":duration"] = function ()
				local new_time = time();
				local stats = get_distribution_stats(events, n_actual_events, since, new_time, units);
				events, last_event = {}, 0;
				n_actual_events = 0;
				since = new_time;
				return "duration", stats.average, stats;
			end;

			return function ()
				n_actual_events = n_actual_events + 1;
				if n_actual_events%duration_sample_interval ~= 1 then
					return nop_function;
				end

				local start_time = time();
				return function ()
					local end_time = time();
					local duration = end_time - start_time;
					last_event = (last_event%duration_max_samples) + 1;
					events[last_event] = duration;
				end
			end;
		end;

		get_stats = function ()
			return registry;
		end;
	};
	return methods;
end

return {
	new = new_registry;
	get_histogram = function (duration, n_buckets)
		n_buckets = n_buckets or 100;
		local events, n_events = duration.samples, duration.sample_count;
		if not (events and n_events) then
			return nil, "not a valid distribution stat";
		end
		local histogram = {};

		for i = 1, 100, 100/n_buckets do
			histogram[i] = percentile(events, n_events, i);
		end
		return histogram;
	end;

	get_percentile = function (duration, pc)
		local events, n_events = duration.samples, duration.sample_count;
		if not (events and n_events) then
			return nil, "not a valid distribution stat";
		end
		return percentile(events, n_events, pc);
	end;
}