rocksdb/tools/block_cache_analyzer/block_cache_pysim_test.py

#!/usr/bin/env python3
# Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved.

import random

from block_cache_pysim import (
    HashTable,
    LFUPolicy,
    LinUCBCache,
    LRUPolicy,
    MRUPolicy,
    ThompsonSamplingCache,
    TraceRecord,
    kSampleSize,
)


def test_hash_table():
    print("Test hash table")
    table = HashTable()
    data_size = 10000
    for i in range(data_size):
        table.insert("k{}".format(i), i, "v{}".format(i))
    for i in range(data_size):
        assert table.lookup("k{}".format(i), i) is not None
    for i in range(data_size):
        table.delete("k{}".format(i), i)
    for i in range(data_size):
        assert table.lookup("k{}".format(i), i) is None

    truth_map = {}
    n = 1000000
    records = 100
    for i in range(n):
        key_id = random.randint(0, records)
        key = "k{}".format(key_id)
        value = "v{}".format(key_id)
        action = random.randint(0, 2)
        # print "{}:{}:{}".format(action, key, value)
        assert len(truth_map) == table.elements, "{} {} {}".format(
            len(truth_map), table.elements, i
        )
        if action == 0:
            table.insert(key, key_id, value)
            truth_map[key] = value
        elif action == 1:
            if key in truth_map:
                assert table.lookup(key, key_id) is not None
                assert truth_map[key] == table.lookup(key, key_id)
            else:
                assert table.lookup(key, key_id) is None
        else:
            table.delete(key, key_id)
            if key in truth_map:
                del truth_map[key]
    print("Test hash table: Success")


def assert_metrics(cache, expected_value):
    assert cache.used_size == expected_value[0], "Expected {}, Actual {}".format(
        expected_value[0], cache.used_size
    )
    assert (
        cache.miss_ratio_stats.num_accesses == expected_value[1]
    ), "Expected {}, Actual {}".format(
        expected_value[1], cache.miss_ratio_stats.num_accesses
    )
    assert (
        cache.miss_ratio_stats.num_misses == expected_value[2]
    ), "Expected {}, Actual {}".format(
        expected_value[2], cache.miss_ratio_stats.num_misses
    )
    assert cache.table.elements == len(expected_value[3]) + len(
        expected_value[4]
    ), "Expected {}, Actual {}".format(
        len(expected_value[3]) + len(expected_value[4]), cache.table.elements
    )
    for expeceted_k in expected_value[3]:
        val = cache.table.lookup("b{}".format(expeceted_k), expeceted_k)
        assert val is not None
        assert val.value_size == 1
    for expeceted_k in expected_value[4]:
        val = cache.table.lookup("g{}".format(expeceted_k), expeceted_k)
        assert val is not None
        assert val.value_size == 1


# Access k1, k1, k2, k3, k3, k3, k4
def test_cache(policies, expected_value):
    cache = ThompsonSamplingCache(3, False, policies)
    k1 = TraceRecord(
        access_time=0,
        block_id=1,
        block_type=1,
        block_size=1,
        cf_id=0,
        cf_name="",
        level=0,
        fd=0,
        caller=1,
        no_insert=0,
        get_id=1,
        key_id=1,
        kv_size=5,
        is_hit=1,
    )
    k2 = TraceRecord(
        access_time=1,
        block_id=2,
        block_type=1,
        block_size=1,
        cf_id=0,
        cf_name="",
        level=0,
        fd=0,
        caller=1,
        no_insert=0,
        get_id=1,
        key_id=1,
        kv_size=5,
        is_hit=1,
    )
    k3 = TraceRecord(
        access_time=2,
        block_id=3,
        block_type=1,
        block_size=1,
        cf_id=0,
        cf_name="",
        level=0,
        fd=0,
        caller=1,
        no_insert=0,
        get_id=1,
        key_id=1,
        kv_size=5,
        is_hit=1,
    )
    k4 = TraceRecord(
        access_time=3,
        block_id=4,
        block_type=1,
        block_size=1,
        cf_id=0,
        cf_name="",
        level=0,
        fd=0,
        caller=1,
        no_insert=0,
        get_id=1,
        key_id=1,
        kv_size=5,
        is_hit=1,
    )
    sequence = [k1, k1, k2, k3, k3, k3]
    index = 0
    expected_values = []
    # Access k1, miss.
    expected_values.append([1, 1, 1, [1], []])
    # Access k1, hit.
    expected_values.append([1, 2, 1, [1], []])
    # Access k2, miss.
    expected_values.append([2, 3, 2, [1, 2], []])
    # Access k3, miss.
    expected_values.append([3, 4, 3, [1, 2, 3], []])
    # Access k3, hit.
    expected_values.append([3, 5, 3, [1, 2, 3], []])
    # Access k3, hit.
    expected_values.append([3, 6, 3, [1, 2, 3], []])
    for access in sequence:
        cache.access(access)
        assert_metrics(cache, expected_values[index])
        index += 1
    cache.access(k4)
    assert_metrics(cache, expected_value)


def test_lru_cache():
    print("Test LRU cache")
    policies = []
    policies.append(LRUPolicy())
    # Access k4, miss. evict k1
    test_cache(policies, [3, 7, 4, [2, 3, 4], []])
    print("Test LRU cache: Success")


def test_mru_cache():
    print("Test MRU cache")
    policies = []
    policies.append(MRUPolicy())
    # Access k4, miss. evict k3
    test_cache(policies, [3, 7, 4, [1, 2, 4], []])
    print("Test MRU cache: Success")


def test_lfu_cache():
    print("Test LFU cache")
    policies = []
    policies.append(LFUPolicy())
    # Access k4, miss. evict k2
    test_cache(policies, [3, 7, 4, [1, 3, 4], []])
    print("Test LFU cache: Success")


def test_mix(cache):
    print("Test Mix {} cache".format(cache.cache_name()))
    n = 100000
    records = 199
    for i in range(n):
        key_id = random.randint(0, records)
        vs = random.randint(0, 10)
        k = TraceRecord(
            access_time=i,
            block_id=key_id,
            block_type=1,
            block_size=vs,
            cf_id=0,
            cf_name="",
            level=0,
            fd=0,
            caller=1,
            no_insert=0,
            get_id=key_id,
            key_id=key_id,
            kv_size=5,
            is_hit=1,
        )
        cache.access(k)
    assert cache.miss_ratio_stats.miss_ratio() > 0
    print("Test Mix {} cache: Success".format(cache.cache_name()))


def test_hybrid(cache):
    print("Test {} cache".format(cache.cache_name()))
    k = TraceRecord(
        access_time=0,
        block_id=1,
        block_type=1,
        block_size=1,
        cf_id=0,
        cf_name="",
        level=0,
        fd=0,
        caller=1,
        no_insert=0,
        get_id=1,  # the first get request.
        key_id=1,
        kv_size=0,  # no size.
        is_hit=1,
    )
    cache.access(k)  # Expect a miss.
    # used size, num accesses, num misses, hash table size, blocks, get keys.
    assert_metrics(cache, [1, 1, 1, [1], []])
    k.access_time += 1
    k.kv_size = 1
    k.block_id = 2
    cache.access(k)  # k should be inserted.
    assert_metrics(cache, [3, 2, 2, [1, 2], [1]])
    k.access_time += 1
    k.block_id = 3
    cache.access(k)  # k should not be inserted again.
    assert_metrics(cache, [4, 3, 3, [1, 2, 3], [1]])
    # A second get request referencing the same key.
    k.access_time += 1
    k.get_id = 2
    k.block_id = 4
    k.kv_size = 0
    cache.access(k)  # k should observe a hit. No block access.
    assert_metrics(cache, [4, 4, 3, [1, 2, 3], [1]])

    # A third get request searches three files, three different keys.
    # And the second key observes a hit.
    k.access_time += 1
    k.kv_size = 1
    k.get_id = 3
    k.block_id = 3
    k.key_id = 2
    cache.access(k)  # k should observe a miss. block 3 observes a hit.
    assert_metrics(cache, [5, 5, 3, [1, 2, 3], [1, 2]])

    k.access_time += 1
    k.kv_size = 1
    k.get_id = 3
    k.block_id = 4
    k.kv_size = 1
    k.key_id = 1
    cache.access(k)  # k1 should observe a hit.
    assert_metrics(cache, [5, 6, 3, [1, 2, 3], [1, 2]])

    k.access_time += 1
    k.kv_size = 1
    k.get_id = 3
    k.block_id = 4
    k.kv_size = 1
    k.key_id = 3
    # k3 should observe a miss.
    # However, as the get already complete, we should not access k3 any more.
    cache.access(k)
    assert_metrics(cache, [5, 7, 3, [1, 2, 3], [1, 2]])

    # A fourth get request searches one file and two blocks. One row key.
    k.access_time += 1
    k.get_id = 4
    k.block_id = 5
    k.key_id = 4
    k.kv_size = 1
    cache.access(k)
    assert_metrics(cache, [7, 8, 4, [1, 2, 3, 5], [1, 2, 4]])

    # A bunch of insertions which evict cached row keys.
    for i in range(6, 100):
        k.access_time += 1
        k.get_id = 0
        k.block_id = i
        cache.access(k)

    k.get_id = 4
    k.block_id = 100  # A different block.
    k.key_id = 4  # Same row key and should not be inserted again.
    k.kv_size = 1
    cache.access(k)
    assert_metrics(cache, [16, 103, 99, [i for i in range(101 - kSampleSize, 101)], []])
    print("Test {} cache: Success".format(cache.cache_name()))


if __name__ == "__main__":
    policies = []
    policies.append(MRUPolicy())
    policies.append(LRUPolicy())
    policies.append(LFUPolicy())
    test_hash_table()
    test_lru_cache()
    test_mru_cache()
    test_lfu_cache()
    test_mix(ThompsonSamplingCache(100, False, policies))
    test_mix(ThompsonSamplingCache(100, True, policies))
    test_mix(LinUCBCache(100, False, policies))
    test_mix(LinUCBCache(100, True, policies))
    test_hybrid(ThompsonSamplingCache(kSampleSize, True, [LRUPolicy()]))
    test_hybrid(LinUCBCache(kSampleSize, True, [LRUPolicy()]))
Block cache simulator: Add pysim to simulate caches using reinforcement learning. (#5610) Summary: This PR implements cache eviction using reinforcement learning. It includes two implementations: 1. An implementation of Thompson Sampling for the Bernoulli Bandit [1]. 2. An implementation of LinUCB with disjoint linear models [2]. The idea is that a cache uses multiple eviction policies, e.g., MRU, LRU, and LFU. The cache learns which eviction policy is the best and uses it upon a cache miss. Thompson Sampling is contextless and does not include any features. LinUCB includes features such as level, block type, caller, column family id to decide which eviction policy to use. [1] Daniel J. Russo, Benjamin Van Roy, Abbas Kazerouni, Ian Osband, and Zheng Wen. 2018. A Tutorial on Thompson Sampling. Found. Trends Mach. Learn. 11, 1 (July 2018), 1-96. DOI: https://doi.org/10.1561/2200000070 [2] Lihong Li, Wei Chu, John Langford, and Robert E. Schapire. 2010. A contextual-bandit approach to personalized news article recommendation. In Proceedings of the 19th international conference on World wide web (WWW '10). ACM, New York, NY, USA, 661-670. DOI=http://dx.doi.org/10.1145/1772690.1772758 Pull Request resolved: https://github.com/facebook/rocksdb/pull/5610 Differential Revision: D16435067 Pulled By: HaoyuHuang fbshipit-source-id: 6549239ae14115c01cb1e70548af9e46d8dc21bb 2019-07-26 23:36:16 +02:00			`#!/usr/bin/env python3`
			`# Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved.`

			`import random`

			`from block_cache_pysim import (`
			`HashTable,`
			`LFUPolicy,`
			`LinUCBCache,`
			`LRUPolicy,`
			`MRUPolicy,`
			`ThompsonSamplingCache,`
			`TraceRecord,`
			`kSampleSize,`
			`)`


			`def test_hash_table():`
			`print("Test hash table")`
			`table = HashTable()`
			`data_size = 10000`
			`for i in range(data_size):`
			`table.insert("k{}".format(i), i, "v{}".format(i))`
			`for i in range(data_size):`
			`assert table.lookup("k{}".format(i), i) is not None`
			`for i in range(data_size):`
			`table.delete("k{}".format(i), i)`
			`for i in range(data_size):`
			`assert table.lookup("k{}".format(i), i) is None`

			`truth_map = {}`
			`n = 1000000`
			`records = 100`
			`for i in range(n):`
			`key_id = random.randint(0, records)`
			`key = "k{}".format(key_id)`
			`value = "v{}".format(key_id)`
			`action = random.randint(0, 2)`
			`# print "{}:{}:{}".format(action, key, value)`
			`assert len(truth_map) == table.elements, "{} {} {}".format(`
			`len(truth_map), table.elements, i`
			`)`
			`if action == 0:`
			`table.insert(key, key_id, value)`
			`truth_map[key] = value`
			`elif action == 1:`
			`if key in truth_map:`
			`assert table.lookup(key, key_id) is not None`
			`assert truth_map[key] == table.lookup(key, key_id)`
			`else:`
			`assert table.lookup(key, key_id) is None`
			`else:`
			`table.delete(key, key_id)`
			`if key in truth_map:`
			`del truth_map[key]`
			`print("Test hash table: Success")`


			`def assert_metrics(cache, expected_value):`
			`assert cache.used_size == expected_value[0], "Expected {}, Actual {}".format(`
			`expected_value[0], cache.used_size`
			`)`
			`assert (`
			`cache.miss_ratio_stats.num_accesses == expected_value[1]`
			`), "Expected {}, Actual {}".format(`
			`expected_value[1], cache.miss_ratio_stats.num_accesses`
			`)`
			`assert (`
			`cache.miss_ratio_stats.num_misses == expected_value[2]`
			`), "Expected {}, Actual {}".format(`
			`expected_value[2], cache.miss_ratio_stats.num_misses`
			`)`
			`assert cache.table.elements == len(expected_value[3]) + len(`
			`expected_value[4]`
			`), "Expected {}, Actual {}".format(`
			`len(expected_value[3]) + len(expected_value[4]), cache.table.elements`
			`)`
			`for expeceted_k in expected_value[3]:`
			`val = cache.table.lookup("b{}".format(expeceted_k), expeceted_k)`
			`assert val is not None`
			`assert val.value_size == 1`
			`for expeceted_k in expected_value[4]:`
			`val = cache.table.lookup("g{}".format(expeceted_k), expeceted_k)`
			`assert val is not None`
			`assert val.value_size == 1`


			`# Access k1, k1, k2, k3, k3, k3, k4`
			`def test_cache(policies, expected_value):`
			`cache = ThompsonSamplingCache(3, False, policies)`
			`k1 = TraceRecord(`
			`access_time=0,`
			`block_id=1,`
			`block_type=1,`
			`block_size=1,`
			`cf_id=0,`
			`cf_name="",`
			`level=0,`
			`fd=0,`
			`caller=1,`
			`no_insert=0,`
			`get_id=1,`
			`key_id=1,`
			`kv_size=5,`
			`is_hit=1,`
			`)`
			`k2 = TraceRecord(`
			`access_time=1,`
			`block_id=2,`
			`block_type=1,`
			`block_size=1,`
			`cf_id=0,`
			`cf_name="",`
			`level=0,`
			`fd=0,`
			`caller=1,`
			`no_insert=0,`
			`get_id=1,`
			`key_id=1,`
			`kv_size=5,`
			`is_hit=1,`
			`)`
			`k3 = TraceRecord(`
			`access_time=2,`
			`block_id=3,`
			`block_type=1,`
			`block_size=1,`
			`cf_id=0,`
			`cf_name="",`
			`level=0,`
			`fd=0,`
			`caller=1,`
			`no_insert=0,`
			`get_id=1,`
			`key_id=1,`
			`kv_size=5,`
			`is_hit=1,`
			`)`
			`k4 = TraceRecord(`
			`access_time=3,`
			`block_id=4,`
			`block_type=1,`
			`block_size=1,`
			`cf_id=0,`
			`cf_name="",`
			`level=0,`
			`fd=0,`
			`caller=1,`
			`no_insert=0,`
			`get_id=1,`
			`key_id=1,`
			`kv_size=5,`
			`is_hit=1,`
			`)`
			`sequence = [k1, k1, k2, k3, k3, k3]`
			`index = 0`
			`expected_values = []`
			`# Access k1, miss.`
			`expected_values.append([1, 1, 1, [1], []])`
			`# Access k1, hit.`
			`expected_values.append([1, 2, 1, [1], []])`
			`# Access k2, miss.`
			`expected_values.append([2, 3, 2, [1, 2], []])`
			`# Access k3, miss.`
			`expected_values.append([3, 4, 3, [1, 2, 3], []])`
			`# Access k3, hit.`
			`expected_values.append([3, 5, 3, [1, 2, 3], []])`
			`# Access k3, hit.`
			`expected_values.append([3, 6, 3, [1, 2, 3], []])`
			`for access in sequence:`
			`cache.access(access)`
			`assert_metrics(cache, expected_values[index])`
			`index += 1`
			`cache.access(k4)`
			`assert_metrics(cache, expected_value)`


			`def test_lru_cache():`
			`print("Test LRU cache")`
			`policies = []`
			`policies.append(LRUPolicy())`
			`# Access k4, miss. evict k1`
			`test_cache(policies, [3, 7, 4, [2, 3, 4], []])`
			`print("Test LRU cache: Success")`


			`def test_mru_cache():`
			`print("Test MRU cache")`
			`policies = []`
			`policies.append(MRUPolicy())`
			`# Access k4, miss. evict k3`
			`test_cache(policies, [3, 7, 4, [1, 2, 4], []])`
			`print("Test MRU cache: Success")`


			`def test_lfu_cache():`
			`print("Test LFU cache")`
			`policies = []`
			`policies.append(LFUPolicy())`
			`# Access k4, miss. evict k2`
			`test_cache(policies, [3, 7, 4, [1, 3, 4], []])`
			`print("Test LFU cache: Success")`


			`def test_mix(cache):`
			`print("Test Mix {} cache".format(cache.cache_name()))`
			`n = 100000`
			`records = 199`
			`for i in range(n):`
			`key_id = random.randint(0, records)`
			`vs = random.randint(0, 10)`
			`k = TraceRecord(`
			`access_time=i,`
			`block_id=key_id,`
			`block_type=1,`
			`block_size=vs,`
			`cf_id=0,`
			`cf_name="",`
			`level=0,`
			`fd=0,`
			`caller=1,`
			`no_insert=0,`
			`get_id=key_id,`
			`key_id=key_id,`
			`kv_size=5,`
			`is_hit=1,`
			`)`
			`cache.access(k)`
			`assert cache.miss_ratio_stats.miss_ratio() > 0`
			`print("Test Mix {} cache: Success".format(cache.cache_name()))`


			`def test_hybrid(cache):`
			`print("Test {} cache".format(cache.cache_name()))`
			`k = TraceRecord(`
			`access_time=0,`
			`block_id=1,`
			`block_type=1,`
			`block_size=1,`
			`cf_id=0,`
			`cf_name="",`
			`level=0,`
			`fd=0,`
			`caller=1,`
			`no_insert=0,`
			`get_id=1, # the first get request.`
			`key_id=1,`
			`kv_size=0, # no size.`
			`is_hit=1,`
			`)`
			`cache.access(k) # Expect a miss.`
			`# used size, num accesses, num misses, hash table size, blocks, get keys.`
			`assert_metrics(cache, [1, 1, 1, [1], []])`
			`k.access_time += 1`
			`k.kv_size = 1`
			`k.block_id = 2`
			`cache.access(k) # k should be inserted.`
			`assert_metrics(cache, [3, 2, 2, [1, 2], [1]])`
			`k.access_time += 1`
			`k.block_id = 3`
			`cache.access(k) # k should not be inserted again.`
			`assert_metrics(cache, [4, 3, 3, [1, 2, 3], [1]])`
			`# A second get request referencing the same key.`
			`k.access_time += 1`
			`k.get_id = 2`
			`k.block_id = 4`
			`k.kv_size = 0`
			`cache.access(k) # k should observe a hit. No block access.`
			`assert_metrics(cache, [4, 4, 3, [1, 2, 3], [1]])`

			`# A third get request searches three files, three different keys.`
			`# And the second key observes a hit.`
			`k.access_time += 1`
			`k.kv_size = 1`
			`k.get_id = 3`
			`k.block_id = 3`
			`k.key_id = 2`
			`cache.access(k) # k should observe a miss. block 3 observes a hit.`
			`assert_metrics(cache, [5, 5, 3, [1, 2, 3], [1, 2]])`

			`k.access_time += 1`
			`k.kv_size = 1`
			`k.get_id = 3`
			`k.block_id = 4`
			`k.kv_size = 1`
			`k.key_id = 1`
			`cache.access(k) # k1 should observe a hit.`
			`assert_metrics(cache, [5, 6, 3, [1, 2, 3], [1, 2]])`

			`k.access_time += 1`
			`k.kv_size = 1`
			`k.get_id = 3`
			`k.block_id = 4`
			`k.kv_size = 1`
			`k.key_id = 3`
			`# k3 should observe a miss.`
			`# However, as the get already complete, we should not access k3 any more.`
			`cache.access(k)`
			`assert_metrics(cache, [5, 7, 3, [1, 2, 3], [1, 2]])`

			`# A fourth get request searches one file and two blocks. One row key.`
			`k.access_time += 1`
			`k.get_id = 4`
			`k.block_id = 5`
			`k.key_id = 4`
			`k.kv_size = 1`
			`cache.access(k)`
			`assert_metrics(cache, [7, 8, 4, [1, 2, 3, 5], [1, 2, 4]])`

			`# A bunch of insertions which evict cached row keys.`
			`for i in range(6, 100):`
			`k.access_time += 1`
			`k.get_id = 0`
			`k.block_id = i`
			`cache.access(k)`

			`k.get_id = 4`
			`k.block_id = 100 # A different block.`
			`k.key_id = 4 # Same row key and should not be inserted again.`
			`k.kv_size = 1`
			`cache.access(k)`
			`assert_metrics(cache, [16, 103, 99, [i for i in range(101 - kSampleSize, 101)], []])`
			`print("Test {} cache: Success".format(cache.cache_name()))`


			`if __name__ == "__main__":`
			`policies = []`
			`policies.append(MRUPolicy())`
			`policies.append(LRUPolicy())`
			`policies.append(LFUPolicy())`
			`test_hash_table()`
			`test_lru_cache()`
			`test_mru_cache()`
			`test_lfu_cache()`
			`test_mix(ThompsonSamplingCache(100, False, policies))`
			`test_mix(ThompsonSamplingCache(100, True, policies))`
			`test_mix(LinUCBCache(100, False, policies))`
			`test_mix(LinUCBCache(100, True, policies))`
			`test_hybrid(ThompsonSamplingCache(kSampleSize, True, [LRUPolicy()]))`
			`test_hybrid(LinUCBCache(kSampleSize, True, [LRUPolicy()]))`