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scylladb/main.cc
Piotr Sarna f912122072 main: log unexpected errors thrown on shutdown (#4993) 
Shutdown routines are usually implemented via the deferred_action
mechanism, which runs a function in its destructor. We thus expect
the function to be noexcept, but unfortunately it's not always
the case. Throwing in the destructor results in terminating the program
anyway, but before we do that, the exception can be logged so it's
easier to investigate and pinpoint the issue.

Example output before the patch:
INFO  2019-09-10 12:49:05,858 [shard 0] view - Stopping view builder
terminate called without an active exception
Aborting on shard 0.
Backtrace:
  0x000000000184a9ad
(...)

Example output after the patch:
INFO  2019-09-10 12:49:05,858 [shard 0] view - Stopping view builder
ERROR 2019-09-10 12:49:05,858 [shard 0] init - Unexpected error on shutdown: std::runtime_error (Hello there!)
terminate called without an active exception
Aborting on shard 0.
Backtrace:
  0x000000000184a9ad
(...)
2019-09-16 09:42:55 +03:00

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/*
* Copyright (C) 2014 ScyllaDB
*/
/*
* This file is part of Scylla.
*
* Scylla is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Scylla is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Scylla. If not, see <http://www.gnu.org/licenses/>.
*/
#include "supervisor.hh"
#include "database.hh"
#include <seastar/core/app-template.hh>
#include <seastar/core/distributed.hh>
#include "thrift/server.hh"
#include "transport/server.hh"
#include <seastar/http/httpd.hh>
#include "api/api_init.hh"
#include "db/config.hh"
#include "db/extensions.hh"
#include "db/legacy_schema_migrator.hh"
#include "service/storage_service.hh"
#include "service/migration_manager.hh"
#include "service/load_broadcaster.hh"
#include "service/view_update_backlog_broker.hh"
#include "streaming/stream_session.hh"
#include "db/system_keyspace.hh"
#include "db/system_distributed_keyspace.hh"
#include "db/batchlog_manager.hh"
#include "db/commitlog/commitlog.hh"
#include "db/hints/manager.hh"
#include "db/commitlog/commitlog_replayer.hh"
#include "db/view/view_builder.hh"
#include "utils/runtime.hh"
#include "utils/file_lock.hh"
#include "log.hh"
#include "debug.hh"
#include "init.hh"
#include "release.hh"
#include "repair/repair.hh"
#include "repair/row_level.hh"
#include <cstdio>
#include <seastar/core/file.hh>
#include <sys/time.h>
#include <sys/resource.h>
#include "disk-error-handler.hh"
#include "tracing/tracing.hh"
#include "tracing/tracing_backend_registry.hh"
#include <seastar/core/prometheus.hh>
#include "message/messaging_service.hh"
#include <seastar/net/dns.hh>
#include <seastar/core/memory.hh>
#include <seastar/util/log-cli.hh>
#include "db/view/view_update_generator.hh"
#include "service/cache_hitrate_calculator.hh"
#include "sstables/compaction_manager.hh"
#include "sstables/sstables.hh"
#include "gms/feature_service.hh"
#include "distributed_loader.hh"
#include "cql3/cql_config.hh"
#include "alternator/server.hh"
namespace fs = std::filesystem;
seastar::metrics::metric_groups app_metrics;
using namespace std::chrono_literals;
namespace bpo = boost::program_options;
namespace tracing {
void register_tracing_keyspace_backend(backend_registry& br);
}
// Must live in a seastar::thread
class stop_signal {
bool _caught = false;
condition_variable _cond;
sharded<abort_source> _abort_sources;
future<> _broadcasts_to_abort_sources_done = make_ready_future<>();
private:
void signaled() {
if (_caught) {
return;
}
_caught = true;
_cond.broadcast();
_broadcasts_to_abort_sources_done = _broadcasts_to_abort_sources_done.then([this] {
return _abort_sources.invoke_on_all(&abort_source::request_abort);
});
}
public:
stop_signal() {
_abort_sources.start().get();
engine().handle_signal(SIGINT, [this] { signaled(); });
engine().handle_signal(SIGTERM, [this] { signaled(); });
}
~stop_signal() {
// There's no way to unregister a handler yet, so register a no-op handler instead.
engine().handle_signal(SIGINT, [] {});
engine().handle_signal(SIGTERM, [] {});
_broadcasts_to_abort_sources_done.get();
_abort_sources.stop().get();
}
future<> wait() {
return _cond.wait([this] { return _caught; });
}
bool stopping() const {
return _caught;
}
abort_source& as_local_abort_source() { return _abort_sources.local(); }
sharded<abort_source>& as_sharded_abort_source() { return _abort_sources; }
};
template<typename K, typename V, typename... Args, typename K2, typename V2 = V>
V get_or_default(const std::unordered_map<K, V, Args...>& ss, const K2& key, const V2& def = V()) {
const auto iter = ss.find(key);
if (iter != ss.end()) {
return iter->second;
}
return def;
}
static fs::path relative_conf_dir(fs::path path) {
static auto conf_dir = db::config::get_conf_dir(); // this is not gonna change in our life time
return conf_dir / path;
}
static future<>
read_config(bpo::variables_map& opts, db::config& cfg) {
sstring file;
if (opts.count("options-file") > 0) {
file = opts["options-file"].as<sstring>();
} else {
file = relative_conf_dir("scylla.yaml").string();
}
return check_direct_io_support(file).then([file, &cfg] {
return cfg.read_from_file(file, [](auto & opt, auto & msg, auto status) {
auto level = log_level::warn;
if (status.value_or(db::config::value_status::Invalid) != db::config::value_status::Invalid) {
level = log_level::error;
}
startlog.log(level, "{} : {}", msg, opt);
});
}).handle_exception([file](auto ep) {
startlog.error("Could not read configuration file {}: {}", file, ep);
return make_exception_future<>(ep);
});
}
// Handles SIGHUP, using it to trigger re-reading of the configuration file. Should
// only be constructed on shard 0.
class sighup_handler {
bpo::variables_map& _opts;
db::config& _cfg;
condition_variable _cond;
bool _pending = false; // if asked to reread while already reading
bool _stopping = false;
future<> _done = do_work(); // Launch main work loop, capture completion future
public:
// Installs the signal handler. Must call stop() (and wait for it) before destruction.
sighup_handler(bpo::variables_map& opts, db::config& cfg) : _opts(opts), _cfg(cfg) {
startlog.info("installing SIGHUP handler");
engine().handle_signal(SIGHUP, [this] { reread_config(); });
}
private:
void reread_config() {
if (_stopping) {
return;
}
_pending = true;
_cond.broadcast();
}
// Main work loop. Waits for either _stopping or _pending to be raised, and
// re-reads the configuration file if _pending. We use a repeat loop here to
// avoid having multiple reads of the configuration file happening in parallel
// (this can cause an older read to overwrite the results of a younger read).
future<> do_work() {
return repeat([this] {
return _cond.wait([this] { return _pending || _stopping; }).then([this] {
return async([this] {
if (_stopping) {
return stop_iteration::yes;
} else if (_pending) {
_pending = false;
try {
startlog.info("re-reading configuration file");
read_config(_opts, _cfg).get();
_cfg.broadcast_to_all_shards().get();
startlog.info("completed re-reading configuration file");
} catch (...) {
startlog.error("failed to re-read configuration file: {}", std::current_exception());
}
}
return stop_iteration::no;
});
});
});
}
public:
// Signals the main work loop to stop, and waits for it (and any in-progress work)
// to complete. After this is waited for, the object can be destroyed.
future<> stop() {
// No way to unregister yet
engine().handle_signal(SIGHUP, [] {});
_pending = false;
_stopping = true;
_cond.broadcast();
return std::move(_done);
}
};
static future<> disk_sanity(sstring path, bool developer_mode) {
return check_direct_io_support(path).then([] {
return make_ready_future<>();
}).handle_exception([path](auto ep) {
startlog.error("Could not access {}: {}", path, ep);
return make_exception_future<>(ep);
});
};
class directories {
public:
future<> touch_and_lock(sstring path) {
return io_check([path] { return recursive_touch_directory(path); }).then_wrapped([this, path] (future<> f) {
try {
f.get();
return utils::file_lock::acquire(path + "/.lock").then([this](utils::file_lock lock) {
_locks.emplace_back(std::move(lock));
}).handle_exception([path](auto ep) {
// only do this because "normal" unhandled exception exit in seastar
// _drops_ system_error message ("what()") and thus does not quite deliver
// the relevant info to the user
try {
std::rethrow_exception(ep);
} catch (std::exception& e) {
startlog.error("Could not initialize {}: {}", path, e.what());
throw;
} catch (...) {
throw;
}
});
} catch (...) {
startlog.error("Directory '{}' cannot be initialized. Tried to do it but failed with: {}", path, std::current_exception());
throw;
}
});
}
template<typename _Iter>
future<> touch_and_lock(_Iter i, _Iter e) {
return parallel_for_each(i, e, [this](sstring path) {
return touch_and_lock(std::move(path));
});
}
template<typename _Range>
future<> touch_and_lock(_Range&& r) {
return touch_and_lock(std::begin(r), std::end(r));
}
private:
std::vector<utils::file_lock>
_locks;
};
static
void
verify_rlimit(bool developer_mode) {
struct rlimit lim;
int r = getrlimit(RLIMIT_NOFILE, &lim);
if (r == -1) {
throw std::system_error(errno, std::system_category());
}
auto recommended = 200'000U;
auto min = 10'000U;
if (lim.rlim_cur < min) {
if (developer_mode) {
startlog.warn("NOFILE rlimit too low (recommended setting {}, minimum setting {};"
" you may run out of file descriptors.", recommended, min);
} else {
startlog.error("NOFILE rlimit too low (recommended setting {}, minimum setting {};"
" refusing to start.", recommended, min);
throw std::runtime_error("NOFILE rlimit too low");
}
}
}
static bool cpu_sanity() {
#if defined(__x86_64__) || defined(__i386__)
if (!__builtin_cpu_supports("sse4.2") || !__builtin_cpu_supports("pclmul")) {
std::cerr << "Scylla requires a processor with SSE 4.2 and PCLMUL support\n";
return false;
}
#endif
return true;
}
static void tcp_syncookies_sanity() {
try {
auto f = file_desc::open("/proc/sys/net/ipv4/tcp_syncookies", O_RDONLY | O_CLOEXEC);
char buf[128] = {};
f.read(buf, 128);
if (sstring(buf) == "0\n") {
startlog.warn("sysctl entry net.ipv4.tcp_syncookies is set to 0.\n"
"For better performance, set following parameter on sysctl is strongly recommended:\n"
"net.ipv4.tcp_syncookies=1");
}
} catch (const std::system_error& e) {
startlog.warn("Unable to check if net.ipv4.tcp_syncookies is set {}", e);
}
}
static future<>
verify_seastar_io_scheduler(bool has_max_io_requests, bool has_properties, bool developer_mode) {
auto note_bad_conf = [developer_mode] (sstring cause) {
sstring msg = "I/O Scheduler is not properly configured! This is a non-supported setup, and performance is expected to be unpredictably bad.\n Reason found: "
+ cause + "\n"
+ "To properly configure the I/O Scheduler, run the scylla_io_setup utility shipped with Scylla.\n";
sstring devmode_msg = msg + "To ignore this, see the developer-mode configuration option.";
if (developer_mode) {
startlog.warn(msg.c_str());
} else {
startlog.error(devmode_msg.c_str());
throw std::runtime_error("Bad I/O Scheduler configuration");
}
};
if (!has_max_io_requests && !has_properties) {
note_bad_conf("none of --max-io-requests, --io-properties and --io-properties-file are set.");
}
return smp::invoke_on_all([developer_mode, note_bad_conf, has_max_io_requests] {
if (has_max_io_requests) {
auto capacity = engine().get_io_queue().capacity();
if (capacity < 4) {
auto cause = format("I/O Queue capacity for this shard is too low ({:d}, minimum 4 expected).", capacity);
note_bad_conf(cause);
}
}
});
}
static
void
verify_adequate_memory_per_shard(bool developer_mode) {
auto shard_mem = memory::stats().total_memory();
if (shard_mem >= (1 << 30)) {
return;
}
if (developer_mode) {
startlog.warn("Only {} MiB per shard; this is below the recommended minimum of 1 GiB/shard;"
" continuing since running in developer mode", shard_mem >> 20);
} else {
startlog.error("Only {} MiB per shard; this is below the recommended minimum of 1 GiB/shard; terminating."
"Configure more memory (--memory option) or decrease shard count (--smp option).", shard_mem >> 20);
throw std::runtime_error("configuration (memory per shard too low)");
}
}
class memory_threshold_guard {
seastar::memory::scoped_large_allocation_warning_threshold _slawt;
public:
explicit memory_threshold_guard(size_t threshold) : _slawt(threshold) {}
future<> stop() { return make_ready_future<>(); }
};
static std::optional<std::vector<sstring>> parse_hinted_handoff_enabled(sstring opt) {
using namespace boost::algorithm;
if (boost::iequals(opt, "false") || opt == "0") {
return std::nullopt;
} else if (boost::iequals(opt, "true") || opt == "1") {
return std::vector<sstring>{};
}
std::vector<sstring> dcs;
split(dcs, opt, is_any_of(","));
std::for_each(dcs.begin(), dcs.end(), [] (sstring& dc) {
trim(dc);
if (dc.empty()) {
startlog.error("hinted_handoff_enabled: DC name may not be an empty string");
throw bad_configuration_error();
}
});
return dcs;
}
// Formats parsed program options into a string as follows:
// "[key1: value1_1 value1_2 ..., key2: value2_1 value 2_2 ..., (positional) value3, ...]"
std::string format_parsed_options(const std::vector<bpo::option>& opts) {
return fmt::format("[{}]",
boost::algorithm::join(opts | boost::adaptors::transformed([] (const bpo::option& opt) {
if (opt.value.empty()) {
return opt.string_key;
}
return (opt.string_key.empty() ? "(positional) " : fmt::format("{}: ", opt.string_key)) +
boost::algorithm::join(opt.value, " ");
}), ", ")
);
}
void print_starting_message(int ac, char** av, const bpo::parsed_options& opts) {
fmt::print("Scylla version {} starting ...\n", scylla_version());
if (ac) {
fmt::print("command used: \"{}", av[0]);
for (int i = 1; i < ac; ++i) {
fmt::print(" {}", av[i]);
}
fmt::print("\"\n");
}
fmt::print("parsed command line options: {}\n", format_parsed_options(opts.options));
}
// Glue logic between db::config and cql3::cql_config
class cql_config_updater {
cql3::cql_config& _cql_config;
const db::config& _cfg;
std::vector<std::any> _observers;
private:
template <typename T>
void tie(T& dest, const db::config::named_value<T>& src) {
dest = src();
_observers.emplace_back(make_lw_shared<utils::observer<T>>(src.observe([&dest] (const T& value) { dest = value; })));
}
public:
cql_config_updater(cql3::cql_config& cql_config, const db::config& cfg)
: _cql_config(cql_config), _cfg(cfg) {
tie(_cql_config.restrictions.partition_key_restrictions_max_cartesian_product_size, _cfg.max_partition_key_restrictions_per_query);
tie(_cql_config.restrictions.clustering_key_restrictions_max_cartesian_product_size, _cfg.max_clustering_key_restrictions_per_query);
}
};
template <typename Func>
inline auto defer_with_log_on_error(Func&& func) {
auto func_with_log = [func = std::forward<Func>(func)] () mutable {
try {
std::forward<Func>(func)();
} catch (...) {
startlog.error("Unexpected error on shutdown from {}: {}", typeid(func).name(), std::current_exception());
throw;
}
};
return deferred_action(std::move(func_with_log));
}
int main(int ac, char** av) {
int return_value = 0;
try {
// early check to avoid triggering
if (!cpu_sanity()) {
_exit(71);
}
runtime::init_uptime();
std::setvbuf(stdout, nullptr, _IOLBF, 1000);
app_template::config app_cfg;
app_cfg.name = "Scylla";
app_cfg.default_task_quota = 500us;
app_cfg.auto_handle_sigint_sigterm = false;
app_template app(std::move(app_cfg));
auto ext = std::make_shared<db::extensions>();
auto cfg = make_lw_shared<db::config>(ext);
auto init = app.get_options_description().add_options();
init("version", bpo::bool_switch(), "print version number and exit");
bpo::options_description deprecated("Deprecated options - ignored");
deprecated.add_options()
("background-writer-scheduling-quota", bpo::value<float>())
("auto-adjust-flush-quota", bpo::value<bool>());
app.get_options_description().add(deprecated);
// TODO : default, always read?
init("options-file", bpo::value<sstring>(), "configuration file (i.e. <SCYLLA_HOME>/conf/scylla.yaml)");
configurable::append_all(*cfg, init);
cfg->add_options(init);
// If --version is requested, print it out and exit immediately to avoid
// Seastar-specific warnings that may occur when running the app
bpo::variables_map vm;
auto parsed_opts = bpo::command_line_parser(ac, av).options(app.get_options_description()).allow_unregistered().run();
bpo::store(parsed_opts, vm);
if (vm["version"].as<bool>()) {
fmt::print("{}\n", scylla_version());
return 0;
}
print_starting_message(ac, av, parsed_opts);
distributed<database> db;
seastar::sharded<service::cache_hitrate_calculator> cf_cache_hitrate_calculator;
debug::db = &db;
auto& qp = cql3::get_query_processor();
auto& proxy = service::get_storage_proxy();
auto& mm = service::get_migration_manager();
api::http_context ctx(db, proxy);
httpd::http_server_control prometheus_server;
prometheus::config pctx;
directories dirs;
sharded<gms::feature_service> feature_service;
return app.run(ac, av, [&] () -> future<int> {
auto&& opts = app.configuration();
namespace sm = seastar::metrics;
app_metrics.add_group("scylladb", {
sm::make_gauge("current_version", sm::description("Current ScyllaDB version."), { sm::label_instance("version", scylla_version()), sm::shard_label("") }, [] { return 0; })
});
const std::unordered_set<sstring> ignored_options = { "auto-adjust-flush-quota", "background-writer-scheduling-quota" };
for (auto& opt: ignored_options) {
if (opts.count(opt)) {
fmt::print("{} option ignored (deprecated)\n", opt);
}
}
// Check developer mode before even reading the config file, because we may not be
// able to read it if we need to disable strict dma mode.
// We'll redo this later and apply it to all reactors.
if (opts.count("developer-mode")) {
engine().set_strict_dma(false);
}
tcp_syncookies_sanity();
return seastar::async([cfg, ext, &db, &qp, &proxy, &mm, &ctx, &opts, &dirs, &pctx, &prometheus_server, &return_value, &cf_cache_hitrate_calculator,
&feature_service] {
try {
::stop_signal stop_signal; // we can move this earlier to support SIGINT during initialization
read_config(opts, *cfg).get();
configurable::init_all(opts, *cfg, *ext).get();
cfg->broadcast_to_all_shards().get();
::sighup_handler sigup_handler(opts, *cfg);
auto stop_sighup_handler = defer_with_log_on_error([&] {
sigup_handler.stop().get();
});
logalloc::prime_segment_pool(memory::stats().total_memory(), memory::min_free_memory()).get();
logging::apply_settings(cfg->logging_settings(opts));
startlog.info("Scylla version {} starting.", scylla_version());
verify_rlimit(cfg->developer_mode());
verify_adequate_memory_per_shard(cfg->developer_mode());
if (cfg->partitioner() != "org.apache.cassandra.dht.Murmur3Partitioner") {
if (cfg->enable_deprecated_partitioners()) {
startlog.warn("The partitioner {} is deprecated and will be removed in a future version."
" Contact scylladb-users@googlegroups.com if you are using it in production", cfg->partitioner());
} else {
startlog.error("The partitioner {} is deprecated and will be removed in a future version."
" To enable it, add \"enable_deprecated_partitioners: true\" to scylla.yaml"
" Contact scylladb-users@googlegroups.com if you are using it in production", cfg->partitioner());
throw bad_configuration_error();
}
}
feature_service.start().get();
// FIXME: feature_service.stop(), when we fix up shutdown
dht::set_global_partitioner(cfg->partitioner(), cfg->murmur3_partitioner_ignore_msb_bits());
auto make_sched_group = [&] (sstring name, unsigned shares) {
if (cfg->cpu_scheduler()) {
return seastar::create_scheduling_group(name, shares).get0();
} else {
return seastar::scheduling_group();
}
};
auto maintenance_scheduling_group = make_sched_group("streaming", 200);
auto start_thrift = cfg->start_rpc();
uint16_t api_port = cfg->api_port();
ctx.api_dir = cfg->api_ui_dir();
ctx.api_doc = cfg->api_doc_dir();
auto preferred = cfg->listen_interface_prefer_ipv6() ? std::make_optional(net::inet_address::family::INET6) : std::nullopt;
auto family = cfg->enable_ipv6_dns_lookup() || preferred ? std::nullopt : std::make_optional(net::inet_address::family::INET);
sstring listen_address = cfg->listen_address();
sstring rpc_address = cfg->rpc_address();
sstring api_address = cfg->api_address() != "" ? cfg->api_address() : rpc_address;
sstring broadcast_address = cfg->broadcast_address();
sstring broadcast_rpc_address = cfg->broadcast_rpc_address();
std::optional<std::vector<sstring>> hinted_handoff_enabled = parse_hinted_handoff_enabled(cfg->hinted_handoff_enabled());
auto prom_addr = [&] {
try {
return gms::inet_address::lookup(cfg->prometheus_address(), family, preferred).get0();
} catch (...) {
std::throw_with_nested(std::runtime_error(fmt::format("Unable to resolve prometheus_address {}", cfg->prometheus_address())));
}
}();
supervisor::notify("starting prometheus API server");
uint16_t pport = cfg->prometheus_port();
std::any stop_prometheus;
if (pport) {
pctx.metric_help = "Scylla server statistics";
pctx.prefix = cfg->prometheus_prefix();
prometheus_server.start("prometheus").get();
stop_prometheus = ::make_shared(defer([&prometheus_server] {
startlog.info("stopping prometheus API server");
prometheus_server.stop().get();
}));
//FIXME discarded future
(void)prometheus::start(prometheus_server, pctx);
with_scheduling_group(maintenance_scheduling_group, [&] {
return prometheus_server.listen(socket_address{prom_addr, pport}).handle_exception([pport, &cfg] (auto ep) {
startlog.error("Could not start Prometheus API server on {}:{}: {}", cfg->prometheus_address(), pport, ep);
return make_exception_future<>(ep);
});
}).get();
}
if (!broadcast_address.empty()) {
try {
utils::fb_utilities::set_broadcast_address(gms::inet_address::lookup(broadcast_address, family, preferred).get0());
} catch (...) {
startlog.error("Bad configuration: invalid 'broadcast_address': {}: {}", broadcast_address, std::current_exception());
throw bad_configuration_error();
}
} else if (!listen_address.empty()) {
try {
utils::fb_utilities::set_broadcast_address(gms::inet_address::lookup(listen_address, family, preferred).get0());
} catch (...) {
startlog.error("Bad configuration: invalid 'listen_address': {}: {}", listen_address, std::current_exception());
throw bad_configuration_error();
}
} else {
startlog.error("Bad configuration: neither listen_address nor broadcast_address are defined\n");
throw bad_configuration_error();
}
if (!broadcast_rpc_address.empty()) {
utils::fb_utilities::set_broadcast_rpc_address(gms::inet_address::lookup(broadcast_rpc_address, family, preferred).get0());
} else {
if (rpc_address == "0.0.0.0") {
startlog.error("If rpc_address is set to a wildcard address {}, then you must set broadcast_rpc_address to a value other than {}", rpc_address, rpc_address);
throw bad_configuration_error();
}
utils::fb_utilities::set_broadcast_rpc_address(gms::inet_address::lookup(rpc_address, family, preferred).get0());
}
// TODO: lib.
auto is_true = [](sstring val) {
std::transform(val.begin(), val.end(), val.begin(), ::tolower);
return val == "true" || val == "1";
};
// The start_native_transport method is invoked by API as well, and uses the config object
// (through db) directly. Lets fixup default valued right here instead then, so it in turn can be
// kept simple
// TODO: make intrinsic part of config defaults instead
auto ceo = cfg->client_encryption_options();
if (is_true(get_or_default(ceo, "enabled", "false"))) {
ceo["enabled"] = "true";
ceo["certificate"] = get_or_default(ceo, "certificate", relative_conf_dir("scylla.crt").string());
ceo["keyfile"] = get_or_default(ceo, "keyfile", relative_conf_dir("scylla.key").string());
ceo["require_client_auth"] = is_true(get_or_default(ceo, "require_client_auth", "false")) ? "true" : "false";
} else {
ceo["enabled"] = "false";
}
cfg->client_encryption_options(std::move(ceo), cfg->client_encryption_options.source());
using namespace locator;
// Re-apply strict-dma after we've read the config file, this time
// to all reactors
if (opts.count("developer-mode")) {
smp::invoke_on_all([] { engine().set_strict_dma(false); }).get();
}
auto abort_on_internal_error_observer = cfg->abort_on_internal_error.observe([] (bool val) {
set_abort_on_internal_error(val);
});
set_abort_on_internal_error(cfg->abort_on_internal_error());
supervisor::notify("creating tracing");
tracing::backend_registry tracing_backend_registry;
tracing::register_tracing_keyspace_backend(tracing_backend_registry);
tracing::tracing::create_tracing(tracing_backend_registry, "trace_keyspace_helper").get();
supervisor::notify("creating snitch");
i_endpoint_snitch::create_snitch(cfg->endpoint_snitch()).get();
// #293 - do not stop anything
// engine().at_exit([] { return i_endpoint_snitch::stop_snitch(); });
supervisor::notify("determining DNS name");
auto ip = [&] {
try {
return gms::inet_address::lookup(api_address, family, preferred).get0();
} catch (...) {
std::throw_with_nested(std::runtime_error(fmt::format("Unable to resolve api_address {}", api_address)));
}
}();
supervisor::notify("starting API server");
ctx.http_server.start("API").get();
api::set_server_init(ctx).get();
with_scheduling_group(maintenance_scheduling_group, [&] {
return ctx.http_server.listen(socket_address{ip, api_port});
}).get();
startlog.info("Scylla API server listening on {}:{} ...", api_address, api_port);
static sharded<auth::service> auth_service;
static sharded<db::system_distributed_keyspace> sys_dist_ks;
static sharded<db::view::view_update_generator> view_update_generator;
static sharded<cql3::cql_config> cql_config;
static sharded<::cql_config_updater> cql_config_updater;
cql_config.start().get();
//FIXME: discarded future
(void)cql_config_updater.start(std::ref(cql_config), std::ref(*cfg));
auto stop_cql_config_updater = defer([&] { cql_config_updater.stop().get(); });
auto& gossiper = gms::get_gossiper();
gossiper.start(std::ref(feature_service), std::ref(*cfg)).get();
// #293 - do not stop anything
//engine().at_exit([]{ return gms::get_gossiper().stop(); });
supervisor::notify("initializing storage service");
service::storage_service_config sscfg;
sscfg.available_memory = memory::stats().total_memory();
//FIXME: discarded future
(void)init_storage_service(stop_signal.as_sharded_abort_source(), db, gossiper, auth_service, cql_config, sys_dist_ks, view_update_generator, feature_service, sscfg);
supervisor::notify("starting per-shard database core");
// Note: changed from using a move here, because we want the config object intact.
database_config dbcfg;
dbcfg.compaction_scheduling_group = make_sched_group("compaction", 1000);
dbcfg.memory_compaction_scheduling_group = make_sched_group("mem_compaction", 1000);
dbcfg.streaming_scheduling_group = maintenance_scheduling_group;
dbcfg.statement_scheduling_group = make_sched_group("statement", 1000);
dbcfg.memtable_scheduling_group = make_sched_group("memtable", 1000);
dbcfg.memtable_to_cache_scheduling_group = make_sched_group("memtable_to_cache", 200);
dbcfg.available_memory = memory::stats().total_memory();
db.start(std::ref(*cfg), dbcfg).get();
auto stop_database_and_sstables = defer_with_log_on_error([&db] {
// #293 - do not stop anything - not even db (for real)
//return db.stop();
// call stop on each db instance, but leave the shareded<database> pointers alive.
startlog.info("Shutdown database started");
stop_database(db).then([&db] {
return db.invoke_on_all([](auto& db) {
return db.stop();
});
}).then([] {
startlog.info("Shutdown database finished");
return sstables::await_background_jobs_on_all_shards();
}).get();
});
verify_seastar_io_scheduler(opts.count("max-io-requests"), opts.count("io-properties") || opts.count("io-properties-file"),
db.local().get_config().developer_mode()).get();
supervisor::notify("creating data directories");
dirs.touch_and_lock(db.local().get_config().data_file_directories()).get();
supervisor::notify("creating commitlog directory");
dirs.touch_and_lock(db.local().get_config().commitlog_directory()).get();
std::unordered_set<sstring> directories;
directories.insert(db.local().get_config().data_file_directories().cbegin(),
db.local().get_config().data_file_directories().cend());
directories.insert(db.local().get_config().commitlog_directory());
supervisor::notify("creating hints directories");
if (hinted_handoff_enabled) {
fs::path hints_base_dir(db.local().get_config().hints_directory());
dirs.touch_and_lock(db.local().get_config().hints_directory()).get();
directories.insert(db.local().get_config().hints_directory());
for (unsigned i = 0; i < smp::count; ++i) {
sstring shard_dir((hints_base_dir / seastar::to_sstring(i).c_str()).native());
dirs.touch_and_lock(shard_dir).get();
directories.insert(std::move(shard_dir));
}
}
fs::path view_pending_updates_base_dir = fs::path(db.local().get_config().view_hints_directory());
sstring view_pending_updates_base_dir_str = view_pending_updates_base_dir.native();
dirs.touch_and_lock(view_pending_updates_base_dir_str).get();
directories.insert(view_pending_updates_base_dir_str);
for (unsigned i = 0; i < smp::count; ++i) {
sstring shard_dir((view_pending_updates_base_dir / seastar::to_sstring(i).c_str()).native());
dirs.touch_and_lock(shard_dir).get();
directories.insert(std::move(shard_dir));
}
supervisor::notify("verifying directories");
parallel_for_each(directories, [&db] (sstring pathname) {
return disk_sanity(pathname, db.local().get_config().developer_mode()).then([dir = std::move(pathname)] {
return distributed_loader::verify_owner_and_mode(fs::path(dir)).handle_exception([](auto ep) {
startlog.error("Failed owner and mode verification: {}", ep);
return make_exception_future<>(ep);
});
});
}).get();
// Initialization of a keyspace is done by shard 0 only. For system
// keyspace, the procedure will go through the hardcoded column
// families, and in each of them, it will load the sstables for all
// shards using distributed database object.
// Iteration through column family directory for sstable loading is
// done only by shard 0, so we'll no longer face race conditions as
// described here: https://github.com/scylladb/scylla/issues/1014
distributed_loader::init_system_keyspace(db).get();
supervisor::notify("starting gossip");
// Moved local parameters here, esp since with the
// ssl stuff it gets to be a lot.
uint16_t storage_port = cfg->storage_port();
uint16_t ssl_storage_port = cfg->ssl_storage_port();
double phi = cfg->phi_convict_threshold();
auto seed_provider= cfg->seed_provider();
sstring cluster_name = cfg->cluster_name();
const auto& ssl_opts = cfg->server_encryption_options();
auto tcp_nodelay_inter_dc = cfg->inter_dc_tcp_nodelay();
auto encrypt_what = get_or_default(ssl_opts, "internode_encryption", "none");
auto trust_store = get_or_default(ssl_opts, "truststore");
auto cert = get_or_default(ssl_opts, "certificate", relative_conf_dir("scylla.crt").string());
auto key = get_or_default(ssl_opts, "keyfile", relative_conf_dir("scylla.key").string());
auto prio = get_or_default(ssl_opts, "priority_string", sstring());
auto clauth = is_true(get_or_default(ssl_opts, "require_client_auth", "false"));
if (cluster_name.empty()) {
cluster_name = "Test Cluster";
startlog.warn("Using default cluster name is not recommended. Using a unique cluster name will reduce the chance of adding nodes to the wrong cluster by mistake");
}
init_scheduling_config scfg;
scfg.statement = dbcfg.statement_scheduling_group;
scfg.streaming = dbcfg.streaming_scheduling_group;
scfg.gossip = scheduling_group();
init_ms_fd_gossiper(gossiper
, feature_service
, *cfg
, listen_address
, storage_port
, ssl_storage_port
, tcp_nodelay_inter_dc
, encrypt_what
, trust_store
, cert
, key
, prio
, clauth
, cfg->internode_compression()
, seed_provider
, memory::stats().total_memory()
, scfg
, cluster_name
, phi
, cfg->listen_on_broadcast_address());
supervisor::notify("starting storage proxy");
service::storage_proxy::config spcfg;
spcfg.hinted_handoff_enabled = hinted_handoff_enabled;
spcfg.available_memory = memory::stats().total_memory();
smp_service_group_config storage_proxy_smp_service_group_config;
// Assuming less than 1kB per queued request, this limits storage_proxy submit_to() queues to 5MB or less
storage_proxy_smp_service_group_config.max_nonlocal_requests = 5000;
spcfg.read_smp_service_group = create_smp_service_group(storage_proxy_smp_service_group_config).get0();
spcfg.write_smp_service_group = create_smp_service_group(storage_proxy_smp_service_group_config).get0();
spcfg.write_ack_smp_service_group = create_smp_service_group(storage_proxy_smp_service_group_config).get0();
static db::view::node_update_backlog node_backlog(smp::count, 10ms);
proxy.start(std::ref(db), spcfg, std::ref(node_backlog)).get();
// #293 - do not stop anything
// engine().at_exit([&proxy] { return proxy.stop(); });
supervisor::notify("starting migration manager");
mm.start().get();
// #293 - do not stop anything
// engine().at_exit([&mm] { return mm.stop(); });
supervisor::notify("starting query processor");
cql3::query_processor::memory_config qp_mcfg = {memory::stats().total_memory() / 256, memory::stats().total_memory() / 2560};
qp.start(std::ref(proxy), std::ref(db), qp_mcfg).get();
// #293 - do not stop anything
// engine().at_exit([&qp] { return qp.stop(); });
supervisor::notify("initializing batchlog manager");
db::batchlog_manager_config bm_cfg;
bm_cfg.write_request_timeout = cfg->write_request_timeout_in_ms() * 1ms;
bm_cfg.replay_rate = cfg->batchlog_replay_throttle_in_kb() * 1000;
db::get_batchlog_manager().start(std::ref(qp), bm_cfg).get();
// #293 - do not stop anything
// engine().at_exit([] { return db::get_batchlog_manager().stop(); });
sstables::init_metrics().get();
db::system_keyspace::minimal_setup(db, qp);
service::read_sstables_format(service::get_storage_service()).get();
// schema migration, if needed, is also done on shard 0
db::legacy_schema_migrator::migrate(proxy, db, qp.local()).get();
// truncation record migration
db::system_keyspace::migrate_truncation_records().get();
supervisor::notify("loading system sstables");
distributed_loader::ensure_system_table_directories(db).get();
supervisor::notify("loading non-system sstables");
distributed_loader::init_non_system_keyspaces(db, proxy).get();
supervisor::notify("starting view update generator");
view_update_generator.start(std::ref(db), std::ref(proxy)).get();
supervisor::notify("discovering staging sstables");
db.invoke_on_all([] (database& db) {
for (auto& x : db.get_column_families()) {
table& t = *(x.second);
for (sstables::shared_sstable sst : *t.get_sstables()) {
if (sst->requires_view_building()) {
// FIXME: discarded future.
(void)view_update_generator.local().register_staging_sstable(std::move(sst), t.shared_from_this());
}
}
}
}).get();
// register connection drop notification to update cf's cache hit rate data
db.invoke_on_all([] (database& db) {
db.register_connection_drop_notifier(netw::get_local_messaging_service());
}).get();
supervisor::notify("setting up system keyspace");
db::system_keyspace::setup(db, qp, service::get_storage_service()).get();
supervisor::notify("starting commit log");
auto cl = db.local().commitlog();
if (cl != nullptr) {
auto paths = cl->get_segments_to_replay();
if (!paths.empty()) {
supervisor::notify("replaying commit log");
auto rp = db::commitlog_replayer::create_replayer(db).get0();
rp.recover(paths, db::commitlog::descriptor::FILENAME_PREFIX).get();
supervisor::notify("replaying commit log - flushing memtables");
db.invoke_on_all([] (database& db) {
return db.flush_all_memtables();
}).get();
supervisor::notify("replaying commit log - removing old commitlog segments");
//FIXME: discarded future
(void)cl->delete_segments(std::move(paths));
}
}
db.invoke_on_all([&proxy] (database& db) {
db.get_compaction_manager().start();
}).get();
// If the same sstable is shared by several shards, it cannot be
// deleted until all shards decide to compact it. So we want to
// start these compactions now. Note we start compacting only after
// all sstables in this CF were loaded on all shards - otherwise
// we will have races between the compaction and loading processes
// We also want to trigger regular compaction on boot.
for (auto& x : db.local().get_column_families()) {
column_family& cf = *(x.second);
distributed_loader::reshard(db, cf.schema()->ks_name(), cf.schema()->cf_name());
}
db.invoke_on_all([&proxy] (database& db) {
for (auto& x : db.get_column_families()) {
column_family& cf = *(x.second);
cf.trigger_compaction();
}
}).get();
api::set_server_gossip(ctx).get();
api::set_server_snitch(ctx).get();
api::set_server_storage_proxy(ctx).get();
api::set_server_load_sstable(ctx).get();
static seastar::sharded<memory_threshold_guard> mtg;
//FIXME: discarded future
(void)mtg.start(cfg->large_memory_allocation_warning_threshold());
supervisor::notify("initializing migration manager RPC verbs");
service::get_migration_manager().invoke_on_all([] (auto& mm) {
mm.init_messaging_service();
}).get();
supervisor::notify("initializing storage proxy RPC verbs");
proxy.invoke_on_all([] (service::storage_proxy& p) {
p.init_messaging_service();
}).get();
supervisor::notify("starting streaming service");
streaming::stream_session::init_streaming_service(db, sys_dist_ks, view_update_generator).get();
api::set_server_stream_manager(ctx).get();
supervisor::notify("starting hinted handoff manager");
if (hinted_handoff_enabled) {
db::hints::manager::rebalance(cfg->hints_directory()).get();
}
db::hints::manager::rebalance(cfg->view_hints_directory()).get();
proxy.invoke_on_all([] (service::storage_proxy& local_proxy) {
auto& ss = service::get_local_storage_service();
ss.register_subscriber(&local_proxy);
//FIXME: discarded future
(void)local_proxy.start_hints_manager(gms::get_local_gossiper().shared_from_this(), ss.shared_from_this());
}).get();
supervisor::notify("starting messaging service");
// Start handling REPAIR_CHECKSUM_RANGE messages
netw::get_messaging_service().invoke_on_all([&db] (auto& ms) {
ms.register_repair_checksum_range([&db] (sstring keyspace, sstring cf, dht::token_range range, rpc::optional<repair_checksum> hash_version) {
auto hv = hash_version ? *hash_version : repair_checksum::legacy;
return do_with(std::move(keyspace), std::move(cf), std::move(range),
[&db, hv] (auto& keyspace, auto& cf, auto& range) {
return checksum_range(db, keyspace, cf, range, hv);
});
});
}).get();
auto max_memory_repair = db.local().get_available_memory() * 0.1;
repair_service rs(gossiper, max_memory_repair);
repair_init_messaging_service_handler(rs, sys_dist_ks, view_update_generator).get();
supervisor::notify("starting storage service", true);
auto& ss = service::get_local_storage_service();
ss.init_messaging_service_part().get();
api::set_server_messaging_service(ctx).get();
api::set_server_storage_service(ctx).get();
ss.init_server_without_the_messaging_service_part().get();
supervisor::notify("starting batchlog manager");
db::get_batchlog_manager().invoke_on_all([] (db::batchlog_manager& b) {
return b.start();
}).get();
supervisor::notify("starting load broadcaster");
// should be unique_ptr, but then lambda passed to at_exit will be non copieable and
// casting to std::function<> will fail to compile
auto lb = make_shared<service::load_broadcaster>(db, gms::get_local_gossiper());
lb->start_broadcasting();
service::get_local_storage_service().set_load_broadcaster(lb);
auto stop_load_broadcater = defer_with_log_on_error([lb = std::move(lb)] () {
startlog.info("stopping load broadcaster");
lb->stop_broadcasting().get();
});
supervisor::notify("starting cf cache hit rate calculator");
cf_cache_hitrate_calculator.start(std::ref(db), std::ref(cf_cache_hitrate_calculator)).get();
auto stop_cache_hitrate_calculator = defer_with_log_on_error([&cf_cache_hitrate_calculator] {
startlog.info("stopping cf cache hit rate calculator");
return cf_cache_hitrate_calculator.stop().get();
});
cf_cache_hitrate_calculator.local().run_on(engine().cpu_id());
supervisor::notify("starting view update backlog broker");
static sharded<service::view_update_backlog_broker> view_backlog_broker;
view_backlog_broker.start(std::ref(proxy), std::ref(gms::get_gossiper())).get();
view_backlog_broker.invoke_on_all(&service::view_update_backlog_broker::start).get();
auto stop_view_backlog_broker = defer_with_log_on_error([] {
startlog.info("stopping view update backlog broker");
view_backlog_broker.stop().get();
});
//FIXME: discarded future
(void)api::set_server_cache(ctx);
startlog.info("Waiting for gossip to settle before accepting client requests...");
gms::get_local_gossiper().wait_for_gossip_to_settle().get();
api::set_server_gossip_settle(ctx).get();
supervisor::notify("allow replaying hints");
proxy.invoke_on_all([] (service::storage_proxy& local_proxy) {
local_proxy.allow_replaying_hints();
}).get();
if (cfg->view_building()) {
supervisor::notify("Launching generate_mv_updates for non system tables");
view_update_generator.invoke_on_all(&db::view::view_update_generator::start).get();
}
static sharded<db::view::view_builder> view_builder;
if (cfg->view_building()) {
supervisor::notify("starting the view builder");
view_builder.start(std::ref(db), std::ref(sys_dist_ks), std::ref(mm)).get();
view_builder.invoke_on_all(&db::view::view_builder::start).get();
}
supervisor::notify("starting native transport");
with_scheduling_group(dbcfg.statement_scheduling_group, [] {
return service::get_local_storage_service().start_native_transport();
}).get();
if (start_thrift) {
with_scheduling_group(dbcfg.statement_scheduling_group, [] {
return service::get_local_storage_service().start_rpc_server();
}).get();
}
if (cfg->alternator_port()) {
net::inet_address addr;
try {
addr = net::dns::get_host_by_name(cfg->alternator_address(), family).get0().addr_list.front();
} catch (...) {
std::throw_with_nested(std::runtime_error(fmt::format("Unable to resolve alternator_address {}", cfg->alternator_address())));
}
static sharded<alternator::executor> alternator_executor;
alternator_executor.start(std::ref(proxy), std::ref(mm)).get();
static alternator::server alternator_server(alternator_executor);
alternator_server.init(addr, cfg->alternator_port()).get();
startlog.info("Alternator server listening on {} port {}", addr, cfg->alternator_port());
}
if (cfg->defragment_memory_on_idle()) {
smp::invoke_on_all([] () {
engine().set_idle_cpu_handler([] (reactor::work_waiting_on_reactor check_for_work) {
return logalloc::shard_tracker().compact_on_idle(check_for_work);
});
}).get();
}
smp::invoke_on_all([&cfg] () {
return logalloc::shard_tracker().set_reclamation_step(cfg->lsa_reclamation_step());
}).get();
if (cfg->abort_on_lsa_bad_alloc()) {
smp::invoke_on_all([&cfg]() {
return logalloc::shard_tracker().enable_abort_on_bad_alloc();
}).get();
}
api::set_server_done(ctx).get();
supervisor::notify("serving");
// Register at_exit last, so that storage_service::drain_on_shutdown will be called first
auto stop_repair = defer_with_log_on_error([] {
startlog.info("stopping repair");
repair_shutdown(service::get_local_storage_service().db()).get();
});
auto stop_view_update_generator = defer_with_log_on_error([] {
startlog.info("stopping view update generator");
view_update_generator.stop().get();
});
auto do_drain = defer_with_log_on_error([] {
startlog.info("draining local storage");
service::get_local_storage_service().drain_on_shutdown().get();
});
auto stop_view_builder = defer_with_log_on_error([cfg] {
if (cfg->view_building()) {
startlog.info("stopping view builder");
view_builder.stop().get();
}
});
auto stop_compaction_manager = defer_with_log_on_error([&db] {
db.invoke_on_all([](auto& db) {
startlog.info("stopping compaction manager");
return db.get_compaction_manager().stop();
}).get();
});
startlog.info("Scylla version {} initialization completed.", scylla_version());
stop_signal.wait().get();
startlog.info("Signal received; shutting down");
// At this point, all objects destructors and all shutdown hooks registered with defer() are executed
} catch (...) {
startlog.info("Startup failed: {}", std::current_exception());
// We should be returning 1 here, but the system is not yet prepared for orderly rollback of main() objects
// and thread_local variables.
_exit(1);
return 1;
}
startlog.info("Scylla version {} shutdown complete.", scylla_version());
// We should be returning 0 here, but the system is not yet prepared for orderly rollback of main() objects
// and thread_local variables.
_exit(0);
return 0;
});
});
} catch (...) {
// reactor may not have been initialized, so can't use logger
fprint(std::cerr, "FATAL: Exception during startup, aborting: %s\n", std::current_exception());
return 7; // 1 has a special meaning for upstart
}
}
namespace debug {
seastar::sharded<database>* db;
}
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