Counter::__construct() - Code Metrics - Inspection of "Refactoring middleware and counters" - yiisoft/rate-limiter - Measure and Improve Code Quality continuously with Scrutinizer

Passed

Pull Request — master (#19)

by Vadim

created 2021-06-16 04:11 UTC

Counter::__construct() A

↳ Parent: Counter

Complexity

Conditions	3
Paths	3

Size

Total Lines	22
Code Lines	10

Duplication

Lines	0
Ratio	0 %

Code Coverage

Tests	11
CRAP Score	3

Importance

Changes	1
Bugs	0	Features	0

Metric	Value
cc	3
eloc	10
c	1
b	0
f	0
nc	3
nop	5
dl	0
loc	22
ccs	11
cts	11
cp	1
crap	3
rs	9.9332

<?php

declare(strict_types=1);

namespace Yiisoft\Yii\RateLimiter;

use InvalidArgumentException;
use Psr\SimpleCache\CacheInterface;

/**
 * Counter implements generic cell rate limit algorithm (GCRA) that ensures that after reaching the limit further
 * increments are distributed equally.
 *
 * @link https://en.wikipedia.org/wiki/Generic_cell_rate_algorithm
 */
final class Counter implements CounterInterface
{
    private const DEFAULT_TTL = 86400;

    private const ID_PREFIX = 'rate-limiter-';

    private const MILLISECONDS_PER_SECOND = 1000;

    /**
     * @var int Period to apply limit to.
     */
    private int $periodInMilliseconds;

    private int $limit;

    /**
     * @var float Maximum interval before next increment.
     * In GCRA it is known as emission interval.
     */
    private float $incrementIntervalInMilliseconds;

    private CacheInterface $storage;

    private int $ttlInSeconds;
    private string $cachePrefix;

    /**
     * @param int $limit Maximum number of increments that could be performed before increments are limited.
     * @param int $periodInSeconds Period to apply limit to.
     */
    public function __construct(
        CacheInterface $storage,
        int $limit,
        int $periodInSeconds,
        int $ttlInSeconds = self::DEFAULT_TTL,
        string $cachePrefix = self::ID_PREFIX
    ) {
        if ($limit < 1) {
            throw new InvalidArgumentException('The limit must be a positive value.');
        }

        if ($periodInSeconds < 1) {
            throw new InvalidArgumentException('The period must be a positive value.');
        }

        $this->limit = $limit;
        $this->periodInMilliseconds = $periodInSeconds * self::MILLISECONDS_PER_SECOND;
        $this->storage = $storage;
        $this->ttlInSeconds = $ttlInSeconds;
        $this->cachePrefix = $cachePrefix;

        $this->incrementIntervalInMilliseconds = (float)($this->periodInMilliseconds / $this->limit);
    }

    /**
     * {@inheritdoc}
     */
    public function hit(string $id): CounterState
    {
        // Last increment time.
        // In GCRA it's known as arrival time.
        $lastIncrementTimeInMilliseconds = $this->currentTimeInMilliseconds();

        $theoreticalNextIncrementTime = $this->calculateTheoreticalNextIncrementTime(
            $lastIncrementTimeInMilliseconds,
            $this->getLastStoredTheoreticalNextIncrementTime($id, $lastIncrementTimeInMilliseconds)
        );

        $remaining = $this->calculateRemaining($lastIncrementTimeInMilliseconds, $theoreticalNextIncrementTime);
        $resetAfter = $this->calculateResetAfter($theoreticalNextIncrementTime);

        if ($remaining >= 1) {
            $this->storeTheoreticalNextIncrementTime($id, $theoreticalNextIncrementTime);
        }

        return new CounterState($this->limit, $remaining, $resetAfter);
    }

    /**
     * @return float Theoretical increment time that would be expected from equally spaced increments at exactly rate
     * limit. In GCRA it is known as TAT, theoretical arrival time.
     */
    private function calculateTheoreticalNextIncrementTime(
        int $lastIncrementTimeInMilliseconds,
        float $storedTheoreticalNextIncrementTime
    ): float {
        return max($lastIncrementTimeInMilliseconds, $storedTheoreticalNextIncrementTime) +
            $this->incrementIntervalInMilliseconds;
    }

    /**
     * @return int The number of remaining requests in the current time period.
     */
    private function calculateRemaining(int $lastIncrementTimeInMilliseconds, float $theoreticalNextIncrementTime): int
    {
        $incrementAllowedAt = $theoreticalNextIncrementTime - $this->periodInMilliseconds;

        return (int)(
            round($lastIncrementTimeInMilliseconds - $incrementAllowedAt) /
            $this->incrementIntervalInMilliseconds
        );
    }

    private function getLastStoredTheoreticalNextIncrementTime(string $id, int $lastIncrementTimeInMilliseconds): float
    {
        return (float)$this->storage->get($this->getCacheKey($id), $lastIncrementTimeInMilliseconds);
    }

    private function storeTheoreticalNextIncrementTime(string $id, float $theoreticalNextIncrementTime): void
    {
        $this->storage->set($this->getCacheKey($id), $theoreticalNextIncrementTime, $this->ttlInSeconds);
    }

    /**
     * @return int Timestamp to wait until the rate limit resets.
     */
    private function calculateResetAfter(float $theoreticalNextIncrementTime): int
    {
        return (int)($theoreticalNextIncrementTime / self::MILLISECONDS_PER_SECOND);
    }

    private function currentTimeInMilliseconds(): int
    {
        return (int)round(microtime(true) * self::MILLISECONDS_PER_SECOND);
    }

    /**
     * @param string $id
     *
     * @return string Cache key used to store the next increment time.
     */
    private function getCacheKey(string $id): string
    {
        return $this->cachePrefix . $id;
    }
}


1		<?php
2
3		declare(strict_types=1);
4
5		namespace Yiisoft\Yii\RateLimiter;
6
7		use InvalidArgumentException;
8		use Psr\SimpleCache\CacheInterface;
9
10		/**
11		* Counter implements generic cell rate limit algorithm (GCRA) that ensures that after reaching the limit further
12		* increments are distributed equally.
13		*
14		* @link https://en.wikipedia.org/wiki/Generic_cell_rate_algorithm
15		*/
16		final class Counter implements CounterInterface
17		{
18		private const DEFAULT_TTL = 86400;
19
20		private const ID_PREFIX = 'rate-limiter-';
21
22		private const MILLISECONDS_PER_SECOND = 1000;
23
24		/**
25		* @var int Period to apply limit to.
26		*/
27		private int $periodInMilliseconds;
28
29		private int $limit;
30
31		/**
32		* @var float Maximum interval before next increment.
33		* In GCRA it is known as emission interval.
34		*/
35		private float $incrementIntervalInMilliseconds;
36
37		private CacheInterface $storage;
38
39		private int $ttlInSeconds;
40		private string $cachePrefix;
41
42		/**
43		* @param int $limit Maximum number of increments that could be performed before increments are limited.
44		* @param int $periodInSeconds Period to apply limit to.
45		*/
46	9	public function __construct(
47		CacheInterface $storage,
48		int $limit,
49		int $periodInSeconds,
50		int $ttlInSeconds = self::DEFAULT_TTL,
51		string $cachePrefix = self::ID_PREFIX
52		) {
53	9	if ($limit < 1) {
54	1	throw new InvalidArgumentException('The limit must be a positive value.');
55		}
56
57	8	if ($periodInSeconds < 1) {
58	1	throw new InvalidArgumentException('The period must be a positive value.');
59		}
60
61	7	$this->limit = $limit;
62	7	$this->periodInMilliseconds = $periodInSeconds * self::MILLISECONDS_PER_SECOND;
63	7	$this->storage = $storage;
64	7	$this->ttlInSeconds = $ttlInSeconds;
65	7	$this->cachePrefix = $cachePrefix;
66
67	7	$this->incrementIntervalInMilliseconds = (float)($this->periodInMilliseconds / $this->limit);
68	7	}
69
70		/**
71		* {@inheritdoc}
72		*/
73	7	public function hit(string $id): CounterState
74		{
75		// Last increment time.
76		// In GCRA it's known as arrival time.
77	7	$lastIncrementTimeInMilliseconds = $this->currentTimeInMilliseconds();
78
79	7	$theoreticalNextIncrementTime = $this->calculateTheoreticalNextIncrementTime(
80	7	$lastIncrementTimeInMilliseconds,
81	7	$this->getLastStoredTheoreticalNextIncrementTime($id, $lastIncrementTimeInMilliseconds)
82		);
83
84	7	$remaining = $this->calculateRemaining($lastIncrementTimeInMilliseconds, $theoreticalNextIncrementTime);
85	7	$resetAfter = $this->calculateResetAfter($theoreticalNextIncrementTime);
86
87	7	if ($remaining >= 1) {
88	6	$this->storeTheoreticalNextIncrementTime($id, $theoreticalNextIncrementTime);
89		}
90
91	7	return new CounterState($this->limit, $remaining, $resetAfter);
92		}
93
94		/**
95		* @return float Theoretical increment time that would be expected from equally spaced increments at exactly rate
96		* limit. In GCRA it is known as TAT, theoretical arrival time.
97		*/
98	7	private function calculateTheoreticalNextIncrementTime(
99		int $lastIncrementTimeInMilliseconds,
100		float $storedTheoreticalNextIncrementTime
101		): float {
102	7	return max($lastIncrementTimeInMilliseconds, $storedTheoreticalNextIncrementTime) +
103	7	$this->incrementIntervalInMilliseconds;
104		}
105
106		/**
107		* @return int The number of remaining requests in the current time period.
108		*/
109	7	private function calculateRemaining(int $lastIncrementTimeInMilliseconds, float $theoreticalNextIncrementTime): int
110		{
111	7	$incrementAllowedAt = $theoreticalNextIncrementTime - $this->periodInMilliseconds;
112
113		return (int)(
114	7	round($lastIncrementTimeInMilliseconds - $incrementAllowedAt) /
115	7	$this->incrementIntervalInMilliseconds
116		);
117		}
118
119	7	private function getLastStoredTheoreticalNextIncrementTime(string $id, int $lastIncrementTimeInMilliseconds): float
120		{
121	7	return (float)$this->storage->get($this->getCacheKey($id), $lastIncrementTimeInMilliseconds);
122		}
123
124	6	private function storeTheoreticalNextIncrementTime(string $id, float $theoreticalNextIncrementTime): void
125		{
126	6	$this->storage->set($this->getCacheKey($id), $theoreticalNextIncrementTime, $this->ttlInSeconds);
127	6	}
128
129		/**
130		* @return int Timestamp to wait until the rate limit resets.
131		*/
132	7	private function calculateResetAfter(float $theoreticalNextIncrementTime): int
133		{
134	7	return (int)($theoreticalNextIncrementTime / self::MILLISECONDS_PER_SECOND);
135		}
136
137	7	private function currentTimeInMilliseconds(): int
138		{
139	7	return (int)round(microtime(true) * self::MILLISECONDS_PER_SECOND);
140		}
141
142		/**
143		* @param string $id
144		*
145		* @return string Cache key used to store the next increment time.
146		*/
147	7	private function getCacheKey(string $id): string
148		{
149	7	return $this->cachePrefix . $id;
150		}
151		}
152

yiisoft / rate-limiter

Pull Request — master (#19)

Counter::__construct() A

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