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-- tests/autoscaling_test.lua
-- Тестирование автоматического масштабирования кластера
local function setup_test_environment()
print("=== Setup Test Environment ===")
-- Создаём тестовую базу данных
local result = db.execute("CREATE DATABASE IF NOT EXISTS autoscale_test")
assert(result, "Failed to create database")
result = db.execute("USE autoscale_test")
assert(result, "Failed to use database")
-- Создаём тестовую коллекцию
result = db.execute([[
CREATE COLLECTION IF NOT EXISTS metrics_collection
WITH SETTINGS {
max_documents = 1000000,
validate_schema = true
}
]])
assert(result, "Failed to create collection")
-- Получаем конфигурацию автомасштабирования
local config = db.execute("SHOW AUTOSCALING CONFIG")
print("Current autoscaling config:")
print(config)
return true
end
local function generate_test_load(duration_seconds, target_qps)
print(string.format("Generating %.2f QPS load for %d seconds", target_qps, duration_seconds))
local start_time = os.time()
local requests = 0
local errors = 0
local latencies = {}
local interval = 1.0 / target_qps
while os.time() - start_time < duration_seconds do
local req_start = os.clock()
-- Симуляция запроса на запись
local success, err = pcall(function()
local doc = {
_id = string.format("doc_%d_%d", os.time(), math.random(1, 10000)),
timestamp = os.time() * 1000,
value = math.random(1, 1000),
type = "test_metric"
}
return db.execute(string.format(
"INSERT INTO metrics_collection VALUES (%s)",
db.json_encode(doc)
))
end)
local req_end = os.clock()
local latency = (req_end - req_start) * 1000 -- в миллисекундах
table.insert(latencies, latency)
requests = requests + 1
if not success then
errors = errors + 1
print("Request failed: " .. tostring(err))
end
-- Контроль скорости
local elapsed = os.clock() - req_start
if elapsed < interval then
local sleep_time = interval - elapsed
db.sleep(sleep_time)
end
end
-- Вычисляем статистику
local total_latency = 0
for _, lat in ipairs(latencies) do
total_latency = total_latency + lat
end
local avg_latency = total_latency / #latencies
-- Сортируем для перцентилей
table.sort(latencies)
local p95_latency = latencies[math.floor(#latencies * 0.95)]
local p99_latency = latencies[math.floor(#latencies * 0.99)]
print(string.format([[
=== Load Test Results ===
Duration: %d seconds
Total Requests: %d
Successful: %d
Errors: %d
Actual QPS: %.2f
Avg Latency: %.2f ms
P95 Latency: %.2f ms
P99 Latency: %.2f ms
]], duration_seconds, requests, requests - errors, errors,
requests / duration_seconds, avg_latency, p95_latency, p99_latency))
return {
requests = requests,
errors = errors,
avg_latency = avg_latency,
p95_latency = p95_latency,
p99_latency = p99_latency,
actual_qps = requests / duration_seconds
}
end
local function monitor_cluster_size(interval_seconds, duration_seconds)
print(string.format("Monitoring cluster size every %d seconds for %d seconds",
interval_seconds, duration_seconds))
local history = {}
local start_time = os.time()
while os.time() - start_time < duration_seconds do
local status = db.execute("SHOW CLUSTER STATUS")
local cluster_info = db.json_decode(status)
table.insert(history, {
timestamp = os.time(),
nodes = cluster_info.total_nodes,
active_nodes = cluster_info.active_nodes,
leader = cluster_info.leader_id,
health = cluster_info.health
})
print(string.format("Time %ds: Nodes=%d, Active=%d, Health=%s",
os.time() - start_time,
cluster_info.total_nodes,
cluster_info.active_nodes,
cluster_info.health))
db.sleep(interval_seconds)
end
return history
end
local function test_scale_up_on_high_load()
print("\n=== Test 1: Scale Up on High Load ===")
-- Проверяем начальное состояние
local initial_status = db.execute("SHOW CLUSTER STATUS")
local initial_info = db.json_decode(initial_status)
local initial_nodes = initial_info.total_nodes
print(string.format("Initial cluster size: %d nodes", initial_nodes))
-- Запускаем мониторинг в фоне
local monitor_thread = coroutine.create(function()
return monitor_cluster_size(5, 180) -- мониторим 3 минуты
end)
-- Генерируем высокую нагрузку
local load_results = generate_test_load(60, 500) -- 60 секунд, 500 QPS
-- Ожидаем возможного масштабирования
print("Waiting for potential scale up...")
db.sleep(120) -- ждём 2 минуты
-- Проверяем результат
local final_status = db.execute("SHOW CLUSTER STATUS")
local final_info = db.json_decode(final_status)
local final_nodes = final_info.total_nodes
print(string.format("Final cluster size: %d nodes", final_nodes))
if final_nodes > initial_nodes then
print("✅ Scale Up successful: cluster expanded from " ..
initial_nodes .. " to " .. final_nodes .. " nodes")
return true
else
print("⚠️ No scale up detected (may be at max capacity or cooldown)")
return false
end
end
local function test_scale_down_on_low_load()
print("\n=== Test 2: Scale Down on Low Load ===")
local initial_status = db.execute("SHOW CLUSTER STATUS")
local initial_info = db.json_decode(initial_status)
local initial_nodes = initial_info.total_nodes
if initial_nodes <= 1 then
print("⚠️ Cannot test scale down: only one node in cluster")
return false
end
print(string.format("Initial cluster size: %d nodes", initial_nodes))
-- Ждём снижения нагрузки
print("Waiting for load to decrease and scale down...")
db.sleep(300) -- ждём 5 минут
local final_status = db.execute("SHOW CLUSTER STATUS")
local final_info = db.json_decode(final_status)
local final_nodes = final_info.total_nodes
print(string.format("Final cluster size: %d nodes", final_nodes))
if final_nodes < initial_nodes then
print("✅ Scale Down successful: cluster reduced from " ..
initial_nodes .. " to " .. final_nodes .. " nodes")
return true
else
print("⚠️ No scale down detected (may be at min capacity or cooldown)")
return false
end
end
local function test_predictive_scaling()
print("\n=== Test 3: Predictive Scaling ===")
-- Включаем прогнозирование
db.execute("SET AUTOSCALING PREDICTIVE true")
-- Создаём растущую нагрузку
print("Generating increasing load pattern...")
local function generate_ramp_load(initial_qps, final_qps, duration_seconds)
local step_duration = duration_seconds / 10
for step = 0, 9 do
local target_qps = initial_qps + (final_qps - initial_qps) * step / 10
print(string.format("Step %d/10: %.2f QPS", step + 1, target_qps))
generate_test_load(step_duration, target_qps)
end
end
generate_ramp_load(50, 600, 120)
-- Проверяем, произошло ли масштабирование до достижения пика
local scaling_history = db.execute("SHOW AUTOSCALING HISTORY")
local history = db.json_decode(scaling_history)
local scaled_before_peak = false
for _, event in ipairs(history) do
if event.decision == "scale_up" then
local load_at_scale = event.avg_load
if load_at_scale < 0.85 then -- Масштабирование до достижения 85% нагрузки
scaled_before_peak = true
break
end
end
end
if scaled_before_peak then
print("✅ Predictive scaling successful: scaled before reaching peak load")
return true
else
print("⚠️ Predictive scaling may not be working optimally")
return false
end
end
local function test_autoscaling_metrics()
print("\n=== Test 4: Autoscaling Metrics ===")
local metrics = db.execute("SHOW AUTOSCALING METRICS")
local metrics_data = db.json_decode(metrics)
print("Current autoscaling metrics:")
print(string.format(" Current nodes: %d", metrics_data.current_nodes or 0))
print(string.format(" Min nodes: %d", metrics_data.min_nodes or 0))
print(string.format(" Max nodes: %d", metrics_data.max_nodes or 0))
print(string.format(" Last scale up: %s", metrics_data.last_scale_up or "never"))
print(string.format(" Last scale down: %s", metrics_data.last_scale_down or "never"))
print(string.format(" Evaluation count: %d", metrics_data.evaluation_count or 0))
print(string.format(" Predictive enabled: %s", tostring(metrics_data.predictive_enabled)))
-- Проверяем наличие критических метрик
local required_fields = {
"current_nodes", "min_nodes", "max_nodes",
"evaluation_count", "predictive_enabled"
}
for _, field in ipairs(required_fields) do
if metrics_data[field] == nil then
print("❌ Missing metric: " .. field)
return false
end
end
print("✅ All required metrics present")
return true
end
local function test_cooldown_behavior()
print("\n=== Test 5: Cooldown Behavior ===")
-- Быстро генерируем две всплески нагрузки
for i = 1, 2 do
print(string.format("Load spike %d/2", i))
generate_test_load(30, 800)
db.sleep(10) -- Короткая пауза между всплесками
end
local history = db.execute("SHOW AUTOSCALING HISTORY")
local history_data = db.json_decode(history)
-- Проверяем, что масштабирование не происходило слишком часто
local scale_ups = {}
for _, event in ipairs(history_data) do
if event.decision == "scale_up" then
table.insert(scale_ups, event.timestamp)
end
end
local cooldown_ok = true
for i = 2, #scale_ups do
local time_diff = scale_ups[i] - scale_ups[i-1]
if time_diff < 300 then -- 5 минут cooldown
cooldown_ok = false
print(string.format("⚠️ Scale ups too close: %d seconds apart", time_diff))
end
end
if cooldown_ok then
print("✅ Cooldown mechanism working properly")
else
print("❌ Cooldown mechanism may be misconfigured")
end
return cooldown_ok
end
local function test_node_selection_for_scale_down()
print("\n=== Test 6: Node Selection for Scale Down ===")
-- Получаем нагрузку на узлах
local nodes_load = db.execute("SHOW NODES LOAD")
local load_data = db.json_decode(nodes_load)
print("Node load distribution:")
local loads = {}
for _, node in ipairs(load_data) do
table.insert(loads, node.load)
print(string.format(" %s: %.2f%%", node.id, node.load * 100))
end
-- Сортируем узлы по нагрузке
table.sort(load_data, function(a, b) return a.load < b.load end)
-- Наименее загруженный узел должен быть кандидатом на удаление
local lowest_load_node = load_data[1]
print(string.format("Lowest load node: %s (%.2f%%)",
lowest_load_node.id, lowest_load_node.load * 100))
-- Запрашиваем кандидата на удаление у системы
local scale_down_candidate = db.execute("SHOW SCALE_DOWN_CANDIDATE")
local candidate = db.json_decode(scale_down_candidate)
if candidate.id == lowest_load_node.id then
print("✅ Correct node selected for scale down")
return true
else
print(string.format("❌ Wrong node selected. Expected: %s, Got: %s",
lowest_load_node.id, candidate.id))
return false
end
end
-- Функция очистки
local function cleanup()
print("\n=== Cleanup ===")
db.execute("DROP DATABASE IF EXISTS autoscale_test")
print("Test database removed")
end
-- Запуск всех тестов
local function run_all_autoscaling_tests()
print("╔══════════════════════════════════════════════════════════════╗")
print("║ AUTOSCALING TESTS SUITE ║")
print("╚══════════════════════════════════════════════════════════════╝")
setup_test_environment()
local results = {
test_scale_up_on_high_load(),
test_scale_down_on_low_load(),
test_predictive_scaling(),
test_autoscaling_metrics(),
test_cooldown_behavior(),
test_node_selection_for_scale_down()
}
-- Подведение итогов
print("\n╔══════════════════════════════════════════════════════════════╗")
print("║ TEST RESULTS ║")
print("╚══════════════════════════════════════════════════════════════╝")
local passed = 0
for i, result in ipairs(results) do
local status = result and "✅ PASSED" or "⚠️ SKIPPED/FAILED"
print(string.format("Test %d: %s", i, status))
if result then passed = passed + 1 end
end
print(string.format("\nTotal: %d/%d tests passed", passed, #results))
cleanup()
return passed == #results
end
-- Запуск
return run_all_autoscaling_tests()

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-- tests/backpressure_test.lua
-- Тестирование механизма backpressure при перегрузке
local function setup_backpressure_test()
print("=== Setup Backpressure Test ===")
db.execute("CREATE DATABASE IF NOT EXISTS backpressure_test")
db.execute("USE backpressure_test")
db.execute([[
CREATE COLLECTION IF NOT EXISTS test_collection
WITH SETTINGS {
max_documents = 10000000
}
]])
-- Включаем backpressure с агрессивными настройками для теста
db.execute([[
SET BACKPRESSURE CONFIG {
enabled = true,
cpu_threshold = 0.50,
memory_threshold = 0.60,
queue_size_threshold = 100,
connection_threshold = 50,
low_delay_ms = 50,
medium_reject_prob = 30,
high_reject_prob = 70
}
]])
return true
end
local function test_backpressure_level_none()
print("\n=== Test 1: Backpressure Level NONE ===")
-- При нормальной нагрузке
local start_time = os.clock()
local success_count = 0
local reject_count = 0
for i = 1, 100 do
local success, err = pcall(function()
return db.execute(string.format([[
INSERT INTO test_collection VALUES {
_id = "doc_%d",
value = %d,
timestamp = %d
}
]], i, i, os.time() * 1000))
end)
if success then
success_count = success_count + 1
else
reject_count = reject_count + 1
if string.find(err, "backpressure") then
print("Unexpected rejection: " .. err)
end
end
end
local duration = os.clock() - start_time
print(string.format("Success: %d, Rejected: %d, Duration: %.3fs",
success_count, reject_count, duration))
if reject_count == 0 then
print("✅ No rejections under normal load")
return true
else
print("❌ Unexpected rejections: " .. reject_count)
return false
end
end
local function simulate_backpressure_condition()
print("Simulating high load condition...")
-- Симулируем высокую нагрузку
local threads = {}
for i = 1, 100 do
table.insert(threads, coroutine.create(function()
for j = 1, 100 do
local success = pcall(function()
db.execute(string.format([[
SELECT * FROM test_collection WHERE value > %d
]], math.random(1, 50)))
end)
if not success then
coroutine.yield(false)
end
db.sleep(0.001)
end
coroutine.yield(true)
end))
end
-- Запускаем все потоки
for _, thread in ipairs(threads) do
coroutine.resume(thread)
end
-- Ждём, пока сработает backpressure
db.sleep(5)
return true
end
local function test_backpressure_level_medium()
print("\n=== Test 2: Backpressure Level MEDIUM ===")
simulate_backpressure_condition()
local status = db.execute("SHOW BACKPRESSURE STATUS")
local bp_status = db.json_decode(status)
print(string.format("Current backpressure level: %s", bp_status.current_level))
print(string.format("Write allowed: %s", tostring(bp_status.write_allowed)))
print(string.format("Read allowed: %s", tostring(bp_status.read_allowed)))
print(string.format("Reject probability: %d%%", bp_status.reject_probability or 0))
-- Тестируем процент отказов
local total_requests = 500
local rejected = 0
for i = 1, total_requests do
local success, err = pcall(function()
return db.execute("INSERT INTO test_collection VALUES {_id = 'test_" .. i .. "', value = " .. i .. "}")
end)
if not success and string.find(err or "", "rejected") then
rejected = rejected + 1
end
end
local reject_rate = (rejected / total_requests) * 100
print(string.format("Actual reject rate: %.1f%% (expected: ~%d%%)",
reject_rate, bp_status.reject_probability or 30))
-- Проверяем, что reject_rate в разумных пределах
local expected_reject = bp_status.reject_probability or 30
if math.abs(reject_rate - expected_reject) < 20 then
print("✅ Rejection rate within acceptable range")
return true
else
print("❌ Rejection rate outside expected range")
return false
end
end
local function test_backpressure_with_delay()
print("\n=== Test 3: Backpressure with Delay ===")
-- Замеряем время выполнения при backpressure
local start_time = os.clock()
local delayed_requests = 0
for i = 1, 50 do
local req_start = os.clock()
db.execute("SELECT * FROM test_collection LIMIT 10")
local req_end = os.clock()
if req_end - req_start > 0.05 then -- больше 50ms задержки
delayed_requests = delayed_requests + 1
end
end
local total_duration = os.clock() - start_time
local avg_delay = total_duration / 50 * 1000 -- в миллисекундах
print(string.format("Avg request time: %.2f ms", avg_delay))
print(string.format("Requests with >50ms delay: %d/%d", delayed_requests, 50))
if avg_delay > 40 then
print("✅ Backpressure delays detected as expected")
return true
else
print("⚠️ Lower than expected delays")
return false
end
end
local function test_backpressure_recovery()
print("\n=== Test 4: Backpressure Recovery ===")
-- Даём системе восстановиться
print("Waiting for system recovery...")
db.sleep(30)
local status = db.execute("SHOW BACKPRESSURE STATUS")
local bp_status = db.json_decode(status)
print(string.format("Recovered backpressure level: %s", bp_status.current_level))
-- Проверяем, что запросы снова проходят
local success_count = 0
for i = 1, 100 do
local success = pcall(function()
return db.execute("INSERT INTO test_collection VALUES {_id = 'recovery_" .. i .. "', value = " .. i .. "}")
end)
if success then success_count = success_count + 1 end
end
print(string.format("Successful writes after recovery: %d/100", success_count))
if success_count > 95 then
print("✅ System recovered successfully")
return true
else
print("❌ Recovery incomplete: " .. success_count .. " successes")
return false
end
end
local function test_backpressure_metrics()
print("\n=== Test 5: Backpressure Metrics ===")
local metrics = db.execute("SHOW BACKPRESSURE METRICS")
local metrics_data = db.json_decode(metrics)
print("Backpressure metrics:")
for key, value in pairs(metrics_data) do
print(string.format(" %s: %s", key, tostring(value)))
end
local required_fields = {
"current_level", "write_allowed", "read_allowed",
"rejected_count", "delayed_count", "cpu_threshold"
}
for _, field in ipairs(required_fields) do
if metrics_data[field] == nil then
print("❌ Missing metric: " .. field)
return false
end
end
print("✅ All required metrics present")
return true
end
local function test_backpressure_burst_handling()
print("\n=== Test 6: Burst Handling ===")
-- Генерируем burst запросов
local burst_size = 1000
local start_time = os.clock()
local results = {}
-- Используем coroutines для параллельных запросов
local handlers = {}
for i = 1, burst_size do
table.insert(handlers, coroutine.create(function()
local success = pcall(function()
return db.execute(string.format([[
INSERT INTO test_collection VALUES {
_id = "burst_%d_%d",
value = %d,
timestamp = %d
}
]], os.time(), i, i, os.time() * 1000)
end)
coroutine.yield(success)
end))
end
-- Запускаем все handlers
for _, handler in ipairs(handlers) do
coroutine.resume(handler)
end
-- Собираем результаты
local success_count = 0
for _, handler in ipairs(handlers) do
local success = coroutine.resume(handler)
if success then
local result = coroutine.status(handler) == "dead" and true or false
if result then success_count = success_count + 1 end
end
end
local duration = os.clock() - start_time
local qps = burst_size / duration
print(string.format("Burst: %d requests in %.2fs (%.0f QPS)",
burst_size, duration, qps))
print(string.format("Successful: %d, Failed: %d",
success_count, burst_size - success_count))
if qps > 100 then
print("✅ Backpressure handling burst correctly")
return true
else
print("⚠️ Lower than expected QPS")
return false
end
end
local function cleanup_backpressure()
print("\n=== Cleanup ===")
db.execute("DROP DATABASE IF EXISTS backpressure_test")
-- Сбрасываем backpressure настройки
db.execute("SET BACKPRESSURE CONFIG DEFAULT")
print("Cleanup completed")
end
local function run_all_backpressure_tests()
print("╔══════════════════════════════════════════════════════════════╗")
print("║ BACKPRESSURE TESTS SUITE ║")
print("╚══════════════════════════════════════════════════════════════╝")
setup_backpressure_test()
local results = {
test_backpressure_level_none(),
test_backpressure_level_medium(),
test_backpressure_with_delay(),
test_backpressure_recovery(),
test_backpressure_metrics(),
test_backpressure_burst_handling()
}
print("\n╔══════════════════════════════════════════════════════════════╗")
print("║ TEST RESULTS ║")
print("╚══════════════════════════════════════════════════════════════╝")
local passed = 0
for i, result in ipairs(results) do
local status = result and "✅ PASSED" or "⚠️ SKIPPED/FAILED"
print(string.format("Test %d: %s", i, status))
if result then passed = passed + 1 end
end
print(string.format("\nTotal: %d/%d tests passed", passed, #results))
cleanup_backpressure()
return passed == #results
end
return run_all_backpressure_tests()

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-- tests/backup_test.lua
-- Тестирование бэкапов и восстановления
local function setup_backup_test()
print("=== Setup Backup Test ===")
db.execute("CREATE DATABASE IF NOT EXISTS backup_test")
db.execute("USE backup_test")
db.execute([[
CREATE COLLECTION IF NOT EXISTS users
]])
-- Вставляем тестовые данные
for i = 1, 100 do
db.execute(string.format([[
INSERT INTO users VALUES {
_id = "user_%d",
name = "User %d",
email = "user%d@test.com",
score = %d,
created_at = %d
}
]], i, i, i, math.random(1, 1000), os.time() * 1000))
end
print("Inserted 100 test documents")
-- Включаем планировщик бэкапов
db.execute([[
SET BACKUP SCHEDULE daily_backup
WITH CRON "0 0 * * *"
TYPE full
RETENTION 7
]])
return true
end
local function test_full_backup()
print("\n=== Test 1: Full Backup ===")
-- Запускаем полный бэкап
local result = db.execute("BACKUP DATABASE backup_test TO full_backup.msgpack")
print("Backup result: " .. tostring(result))
-- Проверяем, что файл бэкапа создан
local backup_info = db.execute("SHOW BACKUP INFO")
local info = db.json_decode(backup_info)
print(string.format("Backup ID: %s", info.id or "unknown"))
print(string.format("Backup size: %d bytes", info.size_bytes or 0))
print(string.format("Backup time: %s", info.end_time or "unknown"))
if info.id and info.size_bytes > 0 then
print("✅ Full backup completed successfully")
return info.id
else
print("❌ Full backup failed")
return nil
end
end
local function test_incremental_backup()
print("\n=== Test 2: Incremental Backup ===")
-- Добавляем новые документы после полного бэкапа
for i = 101, 150 do
db.execute(string.format([[
INSERT INTO users VALUES {
_id = "user_%d",
name = "New User %d",
email = "newuser%d@test.com",
score = %d,
created_at = %d
}
]], i, i, i, math.random(1, 1000), os.time() * 1000))
end
print("Added 50 new documents")
-- Запускаем инкрементальный бэкап
local result = db.execute("BACKUP DATABASE backup_test INCREMENTAL TO inc_backup.msgpack")
print("Incremental backup result: " .. tostring(result))
local backup_info = db.execute("SHOW BACKUP INFO inc_backup")
local info = db.json_decode(backup_info)
if info and info.type == "incremental" then
print(string.format("Incremental backup: %d entries", info.entries_count or 0))
print("✅ Incremental backup completed successfully")
return true
else
print("❌ Incremental backup failed")
return false
end
end
local function test_backup_restore()
print("\n=== Test 3: Backup Restore ===")
-- Создаём новую БД для восстановления
db.execute("CREATE DATABASE IF NOT EXISTS restore_test")
-- Восстанавливаем из полного бэкапа
local result = db.execute("RESTORE DATABASE restore_test FROM full_backup.msgpack")
print("Restore result: " .. tostring(result))
-- Проверяем количество документов
db.execute("USE restore_test")
local count = db.execute("SELECT COUNT(*) FROM users")
local count_data = db.json_decode(count)
print(string.format("Restored documents: %d", count_data[1].count or 0))
if count_data[1].count == 100 then
print("✅ Full restore successful")
return true
else
print("❌ Restore failed: expected 100 documents")
return false
end
end
local function test_incremental_restore()
print("\n=== Test 4: Incremental Restore ===")
-- Создаём другую БД для теста инкрементального восстановления
db.execute("CREATE DATABASE IF NOT EXISTS inc_restore_test")
-- Восстанавливаем сначала полный бэкап
db.execute("USE inc_restore_test")
db.execute("RESTORE DATABASE inc_restore_test FROM full_backup.msgpack")
local before_count = db.execute("SELECT COUNT(*) FROM users")
local before_data = db.json_decode(before_count)
print(string.format("After full restore: %d documents", before_data[1].count or 0))
-- Затем применяем инкрементальный
db.execute("RESTORE DATABASE inc_restore_test INCREMENTAL FROM inc_backup.msgpack")
local after_count = db.execute("SELECT COUNT(*) FROM users")
local after_data = db.json_decode(after_count)
print(string.format("After incremental restore: %d documents", after_data[1].count or 0))
if after_data[1].count == 150 then
print("✅ Incremental restore successful")
return true
else
print(string.format("❌ Expected 150 documents, got %d", after_data[1].count or 0))
return false
end
end
local function test_backup_schedule()
print("\n=== Test 5: Backup Schedule ===")
local schedules = db.execute("SHOW BACKUP SCHEDULES")
local schedules_data = db.json_decode(schedules)
print("Current backup schedules:")
for _, schedule in ipairs(schedules_data) do
print(string.format(" %s: cron='%s', type='%s', enabled=%s",
schedule.name, schedule.cron_expr, schedule.type, tostring(schedule.enabled)))
end
if #schedules_data > 0 then
print("✅ Backup schedules configured correctly")
return true
else
print("⚠️ No backup schedules found")
return false
end
end
local function test_backup_compression()
print("\n=== Test 6: Backup Compression ===")
-- Включаем сжатие
db.execute("SET BACKUP COMPRESSION true")
-- Создаём много данных для бэкапа
for i = 1, 1000 do
db.execute(string.format([[
INSERT INTO users VALUES {
_id = "compress_%d",
data = "%s"
}
]], i, string.rep("x", 1000)))
end
local start_time = os.clock()
db.execute("BACKUP DATABASE backup_test TO compressed_backup.msgpack WITH COMPRESSION")
local duration = os.clock() - start_time
local backup_info = db.execute("SHOW BACKUP INFO compressed_backup")
local info = db.json_decode(backup_info)
print(string.format("Compressed backup size: %d bytes", info.size_bytes or 0))
print(string.format("Compression time: %.2fs", duration))
if info.size_bytes and info.size_bytes > 0 then
print("✅ Backup compression working")
return true
else
print("❌ Backup compression failed")
return false
end
end
local function test_backup_retention()
print("\n=== Test 7: Backup Retention ===")
-- Создаём несколько старых бэкапов (симуляция)
for i = 1, 10 do
db.execute(string.format("BACKUP DATABASE backup_test TO old_backup_%d.msgpack", i))
end
-- Устанавливаем retention на 5 дней
db.execute("SET BACKUP RETENTION 5")
-- Запускаем очистку
db.execute("CLEANUP BACKUPS")
local backups = db.execute("SHOW BACKUPS")
local backups_data = db.json_decode(backups)
print(string.format("Remaining backups after cleanup: %d", #backups_data))
-- Проверяем, что не все бэкапы удалены
if #backups_data > 0 then
print("✅ Backup retention working")
return true
else
print("⚠️ All backups cleaned up, retention may be too aggressive")
return false
end
end
local function test_backup_verify()
print("\n=== Test 8: Backup Verification ===")
-- Проверяем целостность бэкапа
local result = db.execute("VERIFY BACKUP full_backup.msgpack")
local verify_result = db.json_decode(result)
print(string.format("Verification result: %s", verify_result.valid and "VALID" or "INVALID"))
print(string.format("Checksum match: %s", tostring(verify_result.checksum_match)))
print(string.format("Corruption detected: %s", tostring(verify_result.corrupted)))
if verify_result.valid then
print("✅ Backup verification passed")
return true
else
print("❌ Backup verification failed")
return false
end
end
local function test_backup_parallel()
print("\n=== Test 9: Parallel Backups ===")
-- Проверяем, что параллельные бэкапы блокируются
local results = {}
local function run_backup(name)
local success, err = pcall(function()
return db.execute(string.format("BACKUP DATABASE backup_test TO parallel_%s.msgpack", name))
end)
return success
end
-- Запускаем 3 параллельных бэкапа
local threads = {}
for i = 1, 3 do
table.insert(threads, coroutine.create(function()
local result = run_backup(tostring(i))
coroutine.yield(result)
end))
end
for _, thread in ipairs(threads) do
coroutine.resume(thread)
end
local success_count = 0
for _, thread in ipairs(threads) do
local success = coroutine.resume(thread)
if success then success_count = success_count + 1 end
end
print(string.format("Parallel backups completed: %d/3 succeeded", success_count))
if success_count == 1 then
print("✅ Parallel backups correctly limited to 1")
return true
else
print("⚠️ Parallel backup behavior may need tuning")
return false
end
end
local function cleanup_backup()
print("\n=== Cleanup ===")
db.execute("DROP DATABASE IF EXISTS backup_test")
db.execute("DROP DATABASE IF EXISTS restore_test")
db.execute("DROP DATABASE IF EXISTS inc_restore_test")
print("Cleanup completed")
end
local function run_all_backup_tests()
print("╔══════════════════════════════════════════════════════════════╗")
print("║ BACKUP TESTS SUITE ║")
print("╚══════════════════════════════════════════════════════════════╝")
setup_backup_test()
local full_backup_id = test_full_backup()
local results = {
full_backup_id ~= nil,
test_incremental_backup(),
test_backup_restore(),
test_incremental_restore(),
test_backup_schedule(),
test_backup_compression(),
test_backup_retention(),
test_backup_verify(),
test_backup_parallel()
}
print("\n╔══════════════════════════════════════════════════════════════╗")
print("║ TEST RESULTS ║")
print("╚══════════════════════════════════════════════════════════════╝")
local passed = 0
for i, result in ipairs(results) do
local status = result and "✅ PASSED" or "⚠️ SKIPPED/FAILED"
print(string.format("Test %d: %s", i, status))
if result then passed = passed + 1 end
end
print(string.format("\nTotal: %d/%d tests passed", passed, #results))
cleanup_backup()
return passed == #results
end
return run_all_backup_tests()

243
tests/load_test.lua Normal file
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-- tests/load_test.lua
-- Комплексное нагрузочное тестирование всех компонентов
local function run_load_test()
print("╔══════════════════════════════════════════════════════════════╗")
print("║ LOAD TEST SUITE ║")
print("╚══════════════════════════════════════════════════════════════╝")
local test_results = {}
-- Функция для замера производительности
local function measure_performance(name, fn, iterations)
print(string.format("\n📊 Measuring: %s (%d iterations)", name, iterations))
local times = {}
local errors = 0
for i = 1, iterations do
local start = os.clock()
local success, err = pcall(fn)
local duration = os.clock() - start
if success then
table.insert(times, duration)
else
errors = errors + 1
print(string.format(" Error #%d: %s", i, tostring(err)))
end
end
if #times == 0 then
print(string.format(" ❌ All %d iterations failed", iterations))
return nil
end
-- Вычисляем статистику
table.sort(times)
local min = times[1]
local max = times[#times]
local sum = 0
for _, t in ipairs(times) do sum = sum + t end
local avg = sum / #times
local p50 = times[math.floor(#times * 0.5)]
local p95 = times[math.floor(#times * 0.95)]
local p99 = times[math.floor(#times * 0.99)]
print(string.format([[
Results:
Success rate: %.1f%% (%d/%d)
Min: %.3f ms
Max: %.3f ms
Avg: %.3f ms
P50: %.3f ms
P95: %.3f ms
P99: %.3f ms
]], (iterations - errors) / iterations * 100, iterations - errors, iterations,
min * 1000, max * 1000, avg * 1000, p50 * 1000, p95 * 1000, p99 * 1000))
return {
success_rate = (iterations - errors) / iterations,
min_ms = min * 1000,
max_ms = max * 1000,
avg_ms = avg * 1000,
p50_ms = p50 * 1000,
p95_ms = p95 * 1000,
p99_ms = p99 * 1000
}
end
-- Подготовка
print("\n🔧 Preparing test environment...")
db.execute("CREATE DATABASE IF NOT EXISTS load_test")
db.execute("USE load_test")
db.execute([[
CREATE COLLECTION IF NOT EXISTS load_collection
WITH SETTINGS {
max_documents = 1000000,
auto_index_id = true
}
]])
-- Тест 1: Вставка документов
local insert_results = measure_performance("INSERT", function()
local doc = {
_id = string.format("doc_%d_%d", os.time(), math.random(1, 1000000)),
timestamp = os.time() * 1000,
value = math.random(1, 10000),
data = string.rep("x", 100)
}
db.execute(string.format(
"INSERT INTO load_collection VALUES (%s)",
db.json_encode(doc)
))
end, 1000)
-- Тест 2: Чтение по ID
local read_results = measure_performance("SELECT BY ID", function()
db.execute(string.format("SELECT * FROM load_collection WHERE _id = 'doc_%d'",
math.random(1, 1000)))
end, 1000)
-- Тест 3: Обновление
local update_results = measure_performance("UPDATE", function()
db.execute(string.format([[
UPDATE load_collection
SET value = %d, updated_at = %d
WHERE _id = 'doc_%d'
]], math.random(1, 10000), os.time() * 1000, math.random(1, 1000)))
end, 1000)
-- Тест 4: Удаление
local delete_results = measure_performance("DELETE", function()
db.execute(string.format("DELETE FROM load_collection WHERE _id = 'temp_%d'",
math.random(1, 100)))
end, 500)
-- Тест 5: Сложный запрос с фильтром
local query_results = measure_performance("COMPLEX QUERY", function()
db.execute([[
SELECT * FROM load_collection
WHERE value > 5000
AND value < 8000
LIMIT 50
]])
end, 500)
-- Тест 6: Агрегация
local agg_results = measure_performance("AGGREGATION", function()
db.execute([[
SELECT
COUNT(*) as total,
AVG(value) as avg_value,
MIN(value) as min_value,
MAX(value) as max_value
FROM load_collection
WHERE value > 1000
]])
end, 200)
-- Тест 7: Пакетная вставка
local batch_results = measure_performance("BATCH INSERT", function()
local docs = {}
for i = 1, 10 do
table.insert(docs, {
_id = string.format("batch_%d_%d", os.time(), i),
value = i
})
end
db.execute(string.format(
"INSERT INTO load_collection VALUES %s",
db.json_encode(docs)
))
end, 100)
-- Тест 8: Транзакция
local tx_results = measure_performance("TRANSACTION", function()
db.execute("BEGIN TRANSACTION")
db.execute("INSERT INTO load_collection VALUES {_id = 'tx1', value = 1}")
db.execute("INSERT INTO load_collection VALUES {_id = 'tx2', value = 2}")
db.execute("COMMIT")
end, 100)
-- Тест 9: Поиск по индексу
db.execute("CREATE INDEX idx_value ON load_collection(value)")
local index_results = measure_performance("INDEX SEARCH", function()
db.execute("SELECT * FROM load_collection WHERE value = 5000")
end, 500)
-- Тест 10: Сканирование с лимитом
local scan_results = measure_performance("SCAN WITH LIMIT", function()
db.execute("SELECT * FROM load_collection LIMIT 1000")
end, 100)
-- Сводка
print("\n╔══════════════════════════════════════════════════════════════╗")
print("║ PERFORMANCE SUMMARY ║")
print("╚══════════════════════════════════════════════════════════════╝")
local function print_summary(name, results)
if results then
local status = results.success_rate > 0.99 and "" or "⚠️"
print(string.format("%s %-15s: avg=%.2fms, p95=%.2fms, success=%.1f%%",
status, name, results.avg_ms, results.p95_ms, results.success_rate * 100))
else
print(string.format("❌ %-15s: FAILED", name))
end
end
print_summary("INSERT", insert_results)
print_summary("SELECT", read_results)
print_summary("UPDATE", update_results)
print_summary("DELETE", delete_results)
print_summary("QUERY", query_results)
print_summary("AGGREGATE", agg_results)
print_summary("BATCH", batch_results)
print_summary("TRANSACTION", tx_results)
print_summary("INDEX SEARCH", index_results)
print_summary("SCAN", scan_results)
-- Общий вердикт
local success_rate = (insert_results and insert_results.success_rate or 0) +
(read_results and read_results.success_rate or 0) +
(update_results and update_results.success_rate or 0) +
(delete_results and delete_results.success_rate or 0) +
(query_results and query_results.success_rate or 0) +
(agg_results and agg_results.success_rate or 0) +
(batch_results and batch_results.success_rate or 0) +
(tx_results and tx_results.success_rate or 0) +
(index_results and index_results.success_rate or 0) +
(scan_results and scan_results.success_rate or 0)
success_rate = success_rate / 10 * 100
print("\n╔══════════════════════════════════════════════════════════════╗")
print("║ FINAL VERDICT ║")
print("╚══════════════════════════════════════════════════════════════╝")
if success_rate > 99 then
print("✅ EXCELLENT: All operations performing optimally")
elseif success_rate > 95 then
print("✅ GOOD: Most operations performing well")
elseif success_rate > 90 then
print("⚠️ ACCEPTABLE: Some operations need optimization")
else
print("❌ POOR: Significant performance issues detected")
end
print(string.format("Overall success rate: %.1f%%", success_rate))
-- Очистка
print("\n🧹 Cleaning up...")
db.execute("DROP DATABASE IF EXISTS load_test")
return success_rate > 90
end
-- Запуск всех тестов
local function run_all_tests()
print("🚀 STARTING FULL TEST SUITE\n")

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-- tests/runtime_limits_test.lua
-- Тестирование runtime-ограничений на размер коллекции и документа
local function setup_limits_test()
print("=== Setup Runtime Limits Test ===")
db.execute("CREATE DATABASE IF NOT EXISTS limits_test")
db.execute("USE limits_test")
-- Устанавливаем тестовые ограничения
db.execute([[
SET RUNTIME_LIMITS {
global_max_doc_size_mb = 1,
global_max_coll_size_mb = 10,
global_max_docs_per_coll = 1000
}
]])
db.execute([[
CREATE COLLECTION IF NOT EXISTS test_collection
]])
return true
end
local function test_max_document_size()
print("\n=== Test 1: Max Document Size ===")
-- Создаём документ меньше лимита (0.5 MB)
local small_doc = {
_id = "small_doc",
data = string.rep("x", 500 * 1024) -- 500KB
}
local success, err = pcall(function()
return db.execute(string.format(
"INSERT INTO test_collection VALUES (%s)",
db.json_encode(small_doc)
))
end)
if success then
print("✅ Small document (500KB) inserted successfully")
else
print("❌ Small document rejected: " .. tostring(err))
return false
end
-- Создаём документ больше лимита (2 MB)
local large_doc = {
_id = "large_doc",
data = string.rep("x", 2 * 1024 * 1024) -- 2MB
}
success, err = pcall(function()
return db.execute(string.format(
"INSERT INTO test_collection VALUES (%s)",
db.json_encode(large_doc)
))
end)
if not success and string.find(err or "", "exceeds limit") then
print("✅ Large document (2MB) correctly rejected")
return true
else
print("❌ Large document should have been rejected: " .. tostring(err))
return false
end
end
local function test_max_collection_size()
print("\n=== Test 2: Max Collection Size ===")
local inserted = 0
local rejected = 0
for i = 1, 20 do
-- Каждый документ ~1MB
local doc = {
_id = string.format("doc_%d", i),
data = string.rep("x", 900 * 1024), -- 900KB
index = i
}
local success, err = pcall(function()
return db.execute(string.format(
"INSERT INTO test_collection VALUES (%s)",
db.json_encode(doc)
))
end)
if success then
inserted = inserted + 1
print(string.format(" Inserted doc %d, total inserted: %d", i, inserted))
else
rejected = rejected + 1
if string.find(err or "", "exceeds limit") then
print(string.format(" Doc %d rejected: collection size limit reached", i))
end
end
end
print(string.format("Final: %d inserted, %d rejected", inserted, rejected))
-- Должно быть вставлено не более 10 документов (~10MB)
if inserted <= 11 and inserted >= 8 then
print("✅ Collection size limit working correctly")
return true
else
print(string.format("❌ Unexpected number of inserts: %d", inserted))
return false
end
end
local function test_max_document_count()
print("\n=== Test 3: Max Document Count ===")
-- Создаём новую коллекцию для этого теста
db.execute("CREATE COLLECTION IF NOT EXISTS count_test")
-- Устанавливаем лимит в 50 документов
db.execute([[
ALTER COLLECTION count_test SET LIMITS {
max_documents = 50
}
]])
local inserted = 0
local rejected = 0
for i = 1, 60 do
local doc = {
_id = string.format("count_doc_%d", i),
value = i
}
local success, err = pcall(function()
return db.execute(string.format(
"INSERT INTO count_test VALUES (%s)",
db.json_encode(doc)
))
end)
if success then
inserted = inserted + 1
else
rejected = rejected + 1
end
end
print(string.format("Inserted: %d, Rejected: %d", inserted, rejected))
if inserted == 50 and rejected == 10 then
print("✅ Document count limit working correctly")
return true
else
print(string.format("❌ Expected 50 inserts, got %d", inserted))
return false
end
db.execute("DROP COLLECTION count_test")
end
local function test_collection_override_limits()
print("\n=== Test 4: Collection Override Limits ===")
-- Создаём коллекцию с собственными лимитами
db.execute([[
CREATE COLLECTION override_test
WITH LIMITS {
max_doc_size_mb = 5,
max_docs = 200
}
]])
-- Проверяем, что можно вставить 4MB документ
local large_doc = {
_id = "large_override",
data = string.rep("y", 4 * 1024 * 1024)
}
local success, err = pcall(function()
return db.execute(string.format(
"INSERT INTO override_test VALUES (%s)",
db.json_encode(large_doc)
))
end)
if not success then
print("❌ Failed to insert 4MB document with 5MB limit: " .. tostring(err))
return false
end
print("✅ Collection override limits working correctly")
db.execute("DROP COLLECTION override_test")
return true
end
local function test_runtime_limits_metrics()
print("\n=== Test 5: Runtime Limits Metrics ===")
local metrics = db.execute("SHOW RUNTIME_LIMITS METRICS")
local metrics_data = db.json_decode(metrics)
print("Runtime limits metrics:")
for key, value in pairs(metrics_data) do
print(string.format(" %s: %s", key, tostring(value)))
end
local required_fields = {
"rejected_by_size",
"rejected_by_doc_count",
"rejected_by_coll_size",
"global_max_doc_size_mb",
"global_max_coll_size_mb",
"global_max_docs_per_coll",
"enabled"
}
for _, field in ipairs(required_fields) do
if metrics_data[field] == nil then
print("❌ Missing metric: " .. field)
return false
end
end
print("✅ All required metrics present")
return true
end
local function test_dynamic_limit_change()
print("\n=== Test 6: Dynamic Limit Change ===")
-- Создаём коллекцию
db.execute("CREATE COLLECTION dynamic_test")
-- Меняем лимиты динамически
db.execute("ALTER COLLECTION dynamic_test SET LIMITS { max_docs = 10 }")
-- Вставляем 10 документов
for i = 1, 10 do
db.execute(string.format(
"INSERT INTO dynamic_test VALUES {_id = 'dyn_%d'}", i
))
end
-- Пытаемся вставить 11-й
local success, err = pcall(function()
return db.execute("INSERT INTO dynamic_test VALUES {_id = 'dyn_11'}")
end)
if success then
print("❌ Should have rejected after dynamic limit change")
return false
end
-- Увеличиваем лимит
db.execute("ALTER COLLECTION dynamic_test SET LIMITS { max_docs = 20 }")
-- Теперь 11-й должен пройти
success, err = pcall(function()
return db.execute("INSERT INTO dynamic_test VALUES {_id = 'dyn_11'}")
end)
if not success then
print("❌ Should have accepted after limit increase")
return false
end
print("✅ Dynamic limit change working correctly")
db.execute("DROP COLLECTION dynamic_test")
return true
end
local function cleanup_limits()
print("\n=== Cleanup ===")
db.execute("DROP DATABASE IF EXISTS limits_test")
db.execute("SET RUNTIME_LIMITS DEFAULT")
print("Cleanup completed")
end
local function run_all_runtime_limits_tests()
print("╔══════════════════════════════════════════════════════════════╗")
print("║ RUNTIME LIMITS TESTS SUITE ║")
print("╚══════════════════════════════════════════════════════════════╝")
setup_limits_test()
local results = {
test_max_document_size(),
test_max_collection_size(),
test_max_document_count(),
test_collection_override_limits(),
test_runtime_limits_metrics(),
test_dynamic_limit_change()
}
print("\n╔══════════════════════════════════════════════════════════════╗")
print("║ TEST RESULTS ║")
print("╚══════════════════════════════════════════════════════════════╝")
local passed = 0
for i, result in ipairs(results) do
local status = result and "✅ PASSED" or "⚠️ SKIPPED/FAILED"
print(string.format("Test %d: %s", i, status))
if result then passed = passed + 1 end
end
print(string.format("\nTotal: %d/%d tests passed", passed, #results))
cleanup_limits()
return passed == #results
end
return run_all_runtime_limits_tests()