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Merge bitcoin/bitcoin#24974: refactor: Make FEELER_SLEEP_WINDOW type safe (std::chrono)
fa74e726c414f5f7a1e63126a69463491f66e0ec refactor: Make FEELER_SLEEP_WINDOW type safe (std::chrono) (MacroFake) fa3b3cb9b5d944d34b1d5ac3e102ac333482a475 Expose underlying clock in CThreadInterrupt (MacroFake) Pull request description: This gets rid of the `value*1000` manual conversion. ACKs for top commit: naumenkogs: utACK fa74e726c414f5f7a1e63126a69463491f66e0ec dergoegge: Code review ACK fa74e726c414f5f7a1e63126a69463491f66e0ec Tree-SHA512: 90409c05c25f0dd2f1c4dead78f707ebfd78b7d84ea4db9fcefd9c4958a1a3338ac657cd9e99eb8b47d52d4485fa3c947dce4ee1559fb56ae65878685e1ed9a3
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10
src/net.cpp
10
src/net.cpp
@ -93,8 +93,8 @@ static constexpr int DNSSEEDS_DELAY_PEER_THRESHOLD = 1000; // "many" vs "few" pe
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/** The default timeframe for -maxuploadtarget. 1 day. */
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static constexpr std::chrono::seconds MAX_UPLOAD_TIMEFRAME{60 * 60 * 24};
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// We add a random period time (0 to 1 seconds) to feeler connections to prevent synchronization.
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#define FEELER_SLEEP_WINDOW 1
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// A random time period (0 to 1 seconds) is added to feeler connections to prevent synchronization.
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static constexpr auto FEELER_SLEEP_WINDOW{1s};
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/** Used to pass flags to the Bind() function */
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enum BindFlags {
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@ -2219,6 +2219,7 @@ int CConnman::GetExtraOutboundCount()
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void CConnman::ThreadOpenConnections(const std::vector<std::string> connect)
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{
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FastRandomContext rng;
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// Connect to specific addresses
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if (!connect.empty())
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{
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@ -2409,12 +2410,11 @@ void CConnman::ThreadOpenConnections(const std::vector<std::string> connect)
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}
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if (addrConnect.IsValid()) {
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if (fFeeler) {
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// Add small amount of random noise before connection to avoid synchronization.
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int randsleep = GetRandInt(FEELER_SLEEP_WINDOW * 1000);
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if (!interruptNet.sleep_for(std::chrono::milliseconds(randsleep)))
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if (!interruptNet.sleep_for(rng.rand_uniform_duration<CThreadInterrupt::Clock>(FEELER_SLEEP_WINDOW))) {
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return;
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}
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if (fLogIPs) {
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LogPrint(BCLog::NET, "Making feeler connection to %s\n", addrConnect.ToString());
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} else {
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17
src/random.h
17
src/random.h
@ -10,6 +10,7 @@
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#include <crypto/common.h>
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#include <uint256.h>
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#include <cassert>
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#include <chrono> // For std::chrono::microseconds
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#include <cstdint>
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#include <limits>
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@ -213,13 +214,19 @@ public:
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template <typename Tp>
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Tp rand_uniform_delay(const Tp& time, typename Tp::duration range)
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{
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using Dur = typename Tp::duration;
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Dur dur{range.count() > 0 ? /* interval [0..range) */ Dur{randrange(range.count())} :
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range.count() < 0 ? /* interval (range..0] */ -Dur{randrange(-range.count())} :
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/* interval [0..0] */ Dur{0}};
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return time + dur;
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return time + rand_uniform_duration<Tp>(range);
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}
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/** Generate a uniform random duration in the range from 0 (inclusive) to range (exclusive). */
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template <typename Chrono>
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typename Chrono::duration rand_uniform_duration(typename Chrono::duration range) noexcept
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{
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using Dur = typename Chrono::duration;
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return range.count() > 0 ? /* interval [0..range) */ Dur{randrange(range.count())} :
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range.count() < 0 ? /* interval (range..0] */ -Dur{randrange(-range.count())} :
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/* interval [0..0] */ Dur{0};
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};
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// Compatibility with the C++11 UniformRandomBitGenerator concept
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typedef uint64_t result_type;
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static constexpr uint64_t min() { return 0; }
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@ -50,6 +50,16 @@ BOOST_AUTO_TEST_CASE(fastrandom_tests)
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BOOST_CHECK_EQUAL(ctx1.randbits(3), ctx2.randbits(3));
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BOOST_CHECK(ctx1.rand256() == ctx2.rand256());
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BOOST_CHECK(ctx1.randbytes(50) == ctx2.randbytes(50));
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{
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struct MicroClock {
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using duration = std::chrono::microseconds;
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};
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FastRandomContext ctx{true};
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// Check with clock type
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BOOST_CHECK_EQUAL(47222, ctx.rand_uniform_duration<MicroClock>(1s).count());
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// Check with time-point type
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BOOST_CHECK_EQUAL(2782, ctx.rand_uniform_duration<SteadySeconds>(9h).count());
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}
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// Check that a nondeterministic ones are not
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g_mock_deterministic_tests = false;
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@ -27,18 +27,8 @@ void CThreadInterrupt::operator()()
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cond.notify_all();
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}
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bool CThreadInterrupt::sleep_for(std::chrono::milliseconds rel_time)
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bool CThreadInterrupt::sleep_for(Clock::duration rel_time)
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{
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WAIT_LOCK(mut, lock);
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return !cond.wait_for(lock, rel_time, [this]() { return flag.load(std::memory_order_acquire); });
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}
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bool CThreadInterrupt::sleep_for(std::chrono::seconds rel_time)
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{
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return sleep_for(std::chrono::duration_cast<std::chrono::milliseconds>(rel_time));
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}
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bool CThreadInterrupt::sleep_for(std::chrono::minutes rel_time)
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{
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return sleep_for(std::chrono::duration_cast<std::chrono::milliseconds>(rel_time));
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}
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@ -19,13 +19,12 @@
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class CThreadInterrupt
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{
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public:
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using Clock = std::chrono::steady_clock;
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CThreadInterrupt();
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explicit operator bool() const;
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void operator()();
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void reset();
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bool sleep_for(std::chrono::milliseconds rel_time);
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bool sleep_for(std::chrono::seconds rel_time);
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bool sleep_for(std::chrono::minutes rel_time);
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bool sleep_for(Clock::duration rel_time) EXCLUSIVE_LOCKS_REQUIRED(!mut);
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private:
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std::condition_variable cond;
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