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simulator.zig
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simulator.zig
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const std = @import("std");
const builtin = @import("builtin");
const assert = std.debug.assert;
const mem = std.mem;
const config = @import("config.zig");
const Client = @import("test/cluster.zig").Client;
const Cluster = @import("test/cluster.zig").Cluster;
const Header = @import("vsr.zig").Header;
const Replica = @import("test/cluster.zig").Replica;
const StateChecker = @import("test/state_checker.zig").StateChecker;
const StateMachine = @import("test/cluster.zig").StateMachine;
const PartitionMode = @import("test/packet_simulator.zig").PartitionMode;
/// The `log` namespace in this root file is required to implement our custom `log` function.
const output = std.log.scoped(.state_checker);
/// Set this to `false` if you want to see how literally everything works.
/// This will run much slower but will trace all logic across the cluster.
const log_state_transitions_only = builtin.mode != .Debug;
/// You can fine tune your log levels even further (debug/info/notice/warn/err/crit/alert/emerg):
pub const log_level: std.log.Level = if (log_state_transitions_only) .info else .debug;
var cluster: *Cluster = undefined;
pub fn main() !void {
// TODO Use std.testing.allocator when all deinit() leaks are fixed.
const allocator = std.heap.page_allocator;
var args = std.process.args();
// Skip argv[0] which is the name of this executable:
_ = args_next(&args, allocator);
const seed_random = std.crypto.random.int(u64);
const seed = seed_from_arg: {
const arg_two = args_next(&args, allocator) orelse break :seed_from_arg seed_random;
defer allocator.free(arg_two);
break :seed_from_arg parse_seed(arg_two);
};
if (builtin.mode == .ReleaseFast or builtin.mode == .ReleaseSmall) {
// We do not support ReleaseFast or ReleaseSmall because they disable assertions.
@panic("the simulator must be run with -OReleaseSafe");
}
if (seed == seed_random) {
if (builtin.mode != .ReleaseSafe) {
// If no seed is provided, than Debug is too slow and ReleaseSafe is much faster.
@panic("no seed provided: the simulator must be run with -OReleaseSafe");
}
if (log_level == .debug) {
output.warn("no seed provided: full debug logs are enabled, this will be slow", .{});
}
}
var prng = std.rand.DefaultPrng.init(seed);
const random = prng.random();
const replica_count = 1 + random.uintLessThan(u8, config.replicas_max);
const client_count = 1 + random.uintLessThan(u8, config.clients_max);
const node_count = replica_count + client_count;
const ticks_max = 100_000_000;
const transitions_max = config.journal_size_max / config.message_size_max;
const request_probability = 1 + random.uintLessThan(u8, 99);
const idle_on_probability = random.uintLessThan(u8, 20);
const idle_off_probability = 10 + random.uintLessThan(u8, 10);
cluster = try Cluster.create(allocator, random, .{
.cluster = 0,
.replica_count = replica_count,
.client_count = client_count,
.seed = random.int(u64),
.network_options = .{
.packet_simulator_options = .{
.replica_count = replica_count,
.client_count = client_count,
.node_count = node_count,
.seed = random.int(u64),
.one_way_delay_mean = 3 + random.uintLessThan(u16, 10),
.one_way_delay_min = random.uintLessThan(u16, 3),
.packet_loss_probability = random.uintLessThan(u8, 30),
.path_maximum_capacity = 2 + random.uintLessThan(u8, 19),
.path_clog_duration_mean = random.uintLessThan(u16, 500),
.path_clog_probability = random.uintLessThan(u8, 2),
.packet_replay_probability = random.uintLessThan(u8, 50),
.partition_mode = random_partition_mode(random),
.partition_probability = random.uintLessThan(u8, 3),
.unpartition_probability = 1 + random.uintLessThan(u8, 10),
.partition_stability = 100 + random.uintLessThan(u32, 100),
.unpartition_stability = random.uintLessThan(u32, 20),
},
},
.storage_options = .{
.seed = random.int(u64),
.read_latency_min = random.uintLessThan(u16, 3),
.read_latency_mean = 3 + random.uintLessThan(u16, 10),
.write_latency_min = random.uintLessThan(u16, 3),
.write_latency_mean = 3 + random.uintLessThan(u16, 10),
.read_fault_probability = random.uintLessThan(u8, 10),
.write_fault_probability = random.uintLessThan(u8, 10),
},
});
defer cluster.destroy();
cluster.state_checker = try StateChecker.init(allocator, cluster);
defer cluster.state_checker.deinit();
for (cluster.replicas) |*replica| {
replica.on_change_state = on_change_replica;
}
cluster.on_change_state = on_change_replica;
output.info(
\\
\\ SEED={}
\\
\\ replicas={}
\\ clients={}
\\ request_probability={}%
\\ idle_on_probability={}%
\\ idle_off_probability={}%
\\ one_way_delay_mean={} ticks
\\ one_way_delay_min={} ticks
\\ packet_loss_probability={}%
\\ path_maximum_capacity={} messages
\\ path_clog_duration_mean={} ticks
\\ path_clog_probability={}%
\\ packet_replay_probability={}%
\\ partition_mode={}
\\ partition_probability={}%
\\ unpartition_probability={}%
\\ partition_stability={} ticks
\\ unpartition_stability={} ticks
\\ read_latency_min={}
\\ read_latency_mean={}
\\ write_latency_min={}
\\ write_latency_mean={}
\\ read_fault_probability={}%
\\ write_fault_probability={}%
\\
, .{
seed,
replica_count,
client_count,
request_probability,
idle_on_probability,
idle_off_probability,
cluster.options.network_options.packet_simulator_options.one_way_delay_mean,
cluster.options.network_options.packet_simulator_options.one_way_delay_min,
cluster.options.network_options.packet_simulator_options.packet_loss_probability,
cluster.options.network_options.packet_simulator_options.path_maximum_capacity,
cluster.options.network_options.packet_simulator_options.path_clog_duration_mean,
cluster.options.network_options.packet_simulator_options.path_clog_probability,
cluster.options.network_options.packet_simulator_options.packet_replay_probability,
cluster.options.network_options.packet_simulator_options.partition_mode,
cluster.options.network_options.packet_simulator_options.partition_probability,
cluster.options.network_options.packet_simulator_options.unpartition_probability,
cluster.options.network_options.packet_simulator_options.partition_stability,
cluster.options.network_options.packet_simulator_options.unpartition_stability,
cluster.options.storage_options.read_latency_min,
cluster.options.storage_options.read_latency_mean,
cluster.options.storage_options.write_latency_min,
cluster.options.storage_options.write_latency_mean,
cluster.options.storage_options.read_fault_probability,
cluster.options.storage_options.write_fault_probability,
});
var requests_sent: u64 = 0;
var idle = false;
var tick: u64 = 0;
while (tick < ticks_max) : (tick += 1) {
for (cluster.storages) |*storage| storage.tick();
for (cluster.replicas) |*replica, i| {
replica.tick();
cluster.state_checker.check_state(@intCast(u8, i));
}
cluster.network.packet_simulator.tick();
for (cluster.clients) |*client| client.tick();
if (cluster.state_checker.transitions == transitions_max) {
if (cluster.state_checker.convergence()) break;
continue;
} else {
assert(cluster.state_checker.transitions < transitions_max);
}
if (requests_sent < transitions_max) {
if (idle) {
if (chance(random, idle_off_probability)) idle = false;
} else {
if (chance(random, request_probability)) {
if (send_request(random)) requests_sent += 1;
}
if (chance(random, idle_on_probability)) idle = true;
}
}
}
if (cluster.state_checker.transitions < transitions_max) {
output.err("you can reproduce this failure with seed={}", .{seed});
@panic("unable to complete transitions_max before ticks_max");
}
assert(cluster.state_checker.convergence());
output.info("\n PASSED ({} ticks)", .{tick});
}
/// Returns true, `p` percent of the time, else false.
fn chance(random: std.rand.Random, p: u8) bool {
assert(p <= 100);
return random.uintLessThan(u8, 100) < p;
}
/// Returns the next argument for the simulator or null (if none available)
fn args_next(args: *std.process.ArgIterator, allocator: std.mem.Allocator) ?[:0]const u8 {
const err_or_bytes = args.next(allocator) orelse return null;
return err_or_bytes catch @panic("Unable to extract next value from args");
}
fn on_change_replica(replica: *Replica) void {
assert(cluster.state_machines[replica.replica].state == replica.state_machine.state);
cluster.state_checker.check_state(replica.replica);
}
fn send_request(random: std.rand.Random) bool {
const client_index = random.uintLessThan(u8, cluster.options.client_count);
const client = &cluster.clients[client_index];
const checker_request_queue = &cluster.state_checker.client_requests[client_index];
// Ensure that we don't shortchange testing of the full client request queue length:
assert(client.request_queue.buffer.len <= checker_request_queue.buffer.len);
if (client.request_queue.full()) return false;
if (checker_request_queue.full()) return false;
const message = client.get_message();
defer client.unref(message);
const body_size_max = config.message_size_max - @sizeOf(Header);
const body_size: u32 = switch (random.uintLessThan(u8, 100)) {
0...10 => 0,
11...89 => random.uintLessThan(u32, body_size_max),
90...99 => body_size_max,
else => unreachable,
};
const body = message.buffer[@sizeOf(Header)..][0..body_size];
if (chance(random, 10)) {
std.mem.set(u8, body, 0);
} else {
random.bytes(body);
}
// While hashing the client ID with the request body prevents input collisions across clients,
// it's still possible for the same client to generate the same body, and therefore input hash.
const client_input = StateMachine.hash(client.id, body);
checker_request_queue.push_assume_capacity(client_input);
std.log.scoped(.test_client).debug("client {} sending input={x}", .{
client_index,
client_input,
});
client.request(0, client_callback, .hash, message, body_size);
return true;
}
fn client_callback(
user_data: u128,
operation: StateMachine.Operation,
results: Client.Error![]const u8,
) void {
_ = operation;
_ = results catch unreachable;
assert(user_data == 0);
}
/// Returns a random partitioning mode, excluding .custom
fn random_partition_mode(random: std.rand.Random) PartitionMode {
const typeInfo = @typeInfo(PartitionMode).Enum;
var enumAsInt = random.uintAtMost(typeInfo.tag_type, typeInfo.fields.len - 2);
if (enumAsInt >= @enumToInt(PartitionMode.custom)) enumAsInt += 1;
return @intToEnum(PartitionMode, enumAsInt);
}
fn parse_seed(bytes: []const u8) u64 {
return std.fmt.parseUnsigned(u64, bytes, 10) catch |err| switch (err) {
error.Overflow => @panic("seed exceeds a 64-bit unsigned integer"),
error.InvalidCharacter => @panic("seed contains an invalid character"),
};
}
pub fn log(
comptime level: std.log.Level,
comptime scope: @TypeOf(.EnumLiteral),
comptime format: []const u8,
args: anytype,
) void {
if (log_state_transitions_only and scope != .state_checker) return;
const prefix_default = "[" ++ @tagName(level) ++ "] " ++ "(" ++ @tagName(scope) ++ "): ";
const prefix = if (log_state_transitions_only) "" else prefix_default;
// Print the message to stdout, silently ignoring any errors
const stderr = std.io.getStdErr().writer();
std.debug.getStderrMutex().lock();
defer std.debug.getStderrMutex().unlock();
nosuspend stderr.print(prefix ++ format ++ "\n", args) catch return;
}