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scylladb/gc_clock.hh
Avi Kivity fcb8d040e8 treewide: use Software Package Data Exchange (SPDX) license identifiers 
Instead of lengthy blurbs, switch to single-line, machine-readable
standardized (https://spdx.dev) license identifiers. The Linux kernel
switched long ago, so there is strong precedent.

Three cases are handled: AGPL-only, Apache-only, and dual licensed.
For the latter case, I chose (AGPL-3.0-or-later and Apache-2.0),
reasoning that our changes are extensive enough to apply our license.

The changes we applied mechanically with a script, except to
licenses/README.md.

Closes #9937
2022-01-18 12:15:18 +01:00

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/*
* Copyright (C) 2015-present ScyllaDB
*/
/*
* SPDX-License-Identifier: AGPL-3.0-or-later
*/
#pragma once
#include "clocks-impl.hh"
#include "hashing.hh"
#include <seastar/core/lowres_clock.hh>
#include <chrono>
#include <optional>
class gc_clock final {
public:
using base = seastar::lowres_system_clock;
using rep = int64_t;
using period = std::ratio<1, 1>; // seconds
using duration = std::chrono::duration<rep, period>;
using time_point = std::chrono::time_point<gc_clock, duration>;
static constexpr auto is_steady = base::is_steady;
static constexpr std::time_t to_time_t(time_point t) {
return std::chrono::duration_cast<std::chrono::seconds>(t.time_since_epoch()).count();
}
static constexpr time_point from_time_t(std::time_t t) {
return time_point(std::chrono::duration_cast<duration>(std::chrono::seconds(t)));
}
static time_point now() {
return time_point(std::chrono::duration_cast<duration>(base::now().time_since_epoch())) + get_clocks_offset();
}
static int32_t as_int32(duration d) {
auto count = d.count();
int32_t count_32 = static_cast<int32_t>(count);
if (count_32 != count) {
throw std::runtime_error("Duration too big");
}
return count_32;
}
static int32_t as_int32(time_point tp) {
return as_int32(tp.time_since_epoch());
}
};
using expiry_opt = std::optional<gc_clock::time_point>;
using ttl_opt = std::optional<gc_clock::duration>;
// 20 years in seconds
static constexpr gc_clock::duration max_ttl = gc_clock::duration{20 * 365 * 24 * 60 * 60};
std::ostream& operator<<(std::ostream& os, gc_clock::time_point tp);
template<>
struct appending_hash<gc_clock::time_point> {
template<typename Hasher>
void operator()(Hasher& h, gc_clock::time_point t) const {
// Remain backwards-compatible with the 32-bit duration::rep (refs #4460).
uint64_t d64 = t.time_since_epoch().count();
feed_hash(h, uint32_t(d64 & 0xffff'ffff));
uint32_t msb = d64 >> 32;
if (msb) {
feed_hash(h, msb);
}
}
};
namespace ser {
// Forward-declaration - defined in serializer.hh, to avoid including it here.
template <typename Output>
void serialize_gc_clock_duration_value(Output& out, int64_t value);
template <typename Input>
int64_t deserialize_gc_clock_duration_value(Input& in);
template <typename T>
struct serializer;
template <>
struct serializer<gc_clock::duration> {
template <typename Input>
static gc_clock::duration read(Input& in) {
return gc_clock::duration(deserialize_gc_clock_duration_value(in));
}
template <typename Output>
static void write(Output& out, gc_clock::duration d) {
serialize_gc_clock_duration_value(out, d.count());
}
template <typename Input>
static void skip(Input& in) {
read(in);
}
};
}
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