mirror of
https://github.com/facebookincubator/mvfst.git
synced 2025-08-09 20:42:44 +03:00
d2f005dc00
Summary: Previously, we only had support for notifying observers when a QUIC socket became application rate limited. This change adds a similar notification when a socket does not become application rate limited, i.e when the application *starts* writing data to the socket - either for the first time on a newly established socket or after a previous block of writes were written and the app had no more to write. In addition, we include the number of outstanding packets (only those that are carrying app data in them) so that observers can use this data to timestamp the start and end of periods where the socket performs app data writes. Reviewed By: yangchi Differential Revision: D26559598 fbshipit-source-id: 0a8df7082b83e2ffad9b5addceca29cc03897243
796 lines
26 KiB
C++
796 lines
26 KiB
C++
/*
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* Copyright (c) Facebook, Inc. and its affiliates.
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*
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* This source code is licensed under the MIT license found in the
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* LICENSE file in the root directory of this source tree.
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*
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*/
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#include <quic/common/test/TestUtils.h>
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#include <fizz/crypto/test/TestUtil.h>
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#include <fizz/protocol/clock/test/Mocks.h>
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#include <fizz/protocol/test/Mocks.h>
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#include <quic/api/QuicTransportFunctions.h>
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#include <quic/codec/DefaultConnectionIdAlgo.h>
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#include <quic/fizz/handshake/QuicFizzFactory.h>
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#include <quic/fizz/server/handshake/AppToken.h>
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#include <quic/handshake/test/Mocks.h>
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#include <quic/server/handshake/StatelessResetGenerator.h>
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#include <quic/state/stream/StreamSendHandlers.h>
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#include "quic/codec/QuicConnectionId.h"
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using namespace testing;
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namespace quic {
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namespace test {
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std::function<MockClock::time_point()> MockClock::mockNow;
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const RegularQuicWritePacket& writeQuicPacket(
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QuicServerConnectionState& conn,
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ConnectionId srcConnId,
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ConnectionId dstConnId,
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folly::test::MockAsyncUDPSocket& sock,
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QuicStreamState& stream,
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const folly::IOBuf& data,
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bool eof) {
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auto version = conn.version.value_or(*conn.originalVersion);
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auto aead = createNoOpAead();
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auto headerCipher = createNoOpHeaderCipher();
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writeDataToQuicStream(stream, data.clone(), eof);
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writeQuicDataToSocket(
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sock,
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conn,
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srcConnId,
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dstConnId,
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*aead,
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*headerCipher,
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version,
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conn.transportSettings.writeConnectionDataPacketsLimit);
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CHECK(
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conn.outstandings.packets.rend() !=
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getLastOutstandingPacket(conn, PacketNumberSpace::AppData));
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return getLastOutstandingPacket(conn, PacketNumberSpace::AppData)->packet;
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}
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PacketNum rstStreamAndSendPacket(
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QuicServerConnectionState& conn,
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folly::AsyncUDPSocket& sock,
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QuicStreamState& stream,
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ApplicationErrorCode errorCode) {
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auto aead = createNoOpAead();
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auto headerCipher = createNoOpHeaderCipher();
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auto version = conn.version.value_or(*conn.originalVersion);
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sendRstSMHandler(stream, errorCode);
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writeQuicDataToSocket(
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sock,
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conn,
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*conn.clientConnectionId,
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*conn.serverConnectionId,
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*aead,
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*headerCipher,
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version,
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conn.transportSettings.writeConnectionDataPacketsLimit);
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for (const auto& packet : conn.outstandings.packets) {
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for (const auto& frame : packet.packet.frames) {
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auto rstFrame = frame.asRstStreamFrame();
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if (!rstFrame) {
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continue;
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}
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if (rstFrame->streamId == stream.id) {
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return packet.packet.header.getPacketSequenceNum();
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}
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}
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}
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CHECK(false) << "no packet with reset stream";
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// some compilers are weird.
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return 0;
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}
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RegularQuicPacketBuilder::Packet createAckPacket(
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QuicConnectionStateBase& dstConn,
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PacketNum pn,
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AckBlocks& acks,
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PacketNumberSpace pnSpace,
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const Aead* aead) {
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// This function sends ACK to dstConn
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auto srcConnId =
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(dstConn.nodeType == QuicNodeType::Client ? *dstConn.serverConnectionId
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: *dstConn.clientConnectionId);
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auto dstConnId =
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(dstConn.nodeType == QuicNodeType::Client ? *dstConn.clientConnectionId
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: *dstConn.serverConnectionId);
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folly::Optional<PacketHeader> header;
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if (pnSpace == PacketNumberSpace::Initial) {
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header = LongHeader(
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LongHeader::Types::Initial,
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srcConnId,
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dstConnId,
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pn,
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QuicVersion::MVFST);
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} else if (pnSpace == PacketNumberSpace::Handshake) {
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header = LongHeader(
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LongHeader::Types::Handshake,
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srcConnId,
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dstConnId,
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pn,
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QuicVersion::MVFST);
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} else {
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header = ShortHeader(ProtectionType::KeyPhaseZero, dstConnId, pn);
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}
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RegularQuicPacketBuilder builder(
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dstConn.udpSendPacketLen,
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std::move(*header),
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getAckState(dstConn, pnSpace).largestAckScheduled.value_or(0));
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builder.encodePacketHeader();
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if (aead) {
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builder.accountForCipherOverhead(aead->getCipherOverhead());
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}
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DCHECK(builder.canBuildPacket());
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AckFrameMetaData ackData(
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acks, 0us, dstConn.transportSettings.ackDelayExponent);
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writeAckFrame(ackData, builder);
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return std::move(builder).buildPacket();
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}
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std::shared_ptr<fizz::SelfCert> readCert() {
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auto certificate = fizz::test::getCert(fizz::test::kP256Certificate);
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auto privKey = fizz::test::getPrivateKey(fizz::test::kP256Key);
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std::vector<folly::ssl::X509UniquePtr> certs;
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certs.emplace_back(std::move(certificate));
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return std::make_shared<fizz::SelfCertImpl<fizz::KeyType::P256>>(
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std::move(privKey), std::move(certs));
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}
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std::shared_ptr<fizz::server::FizzServerContext> createServerCtx() {
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auto cert = readCert();
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auto certManager = std::make_unique<fizz::server::CertManager>();
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certManager->addCert(std::move(cert), true);
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auto serverCtx = std::make_shared<fizz::server::FizzServerContext>();
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serverCtx->setFactory(std::make_shared<QuicFizzFactory>());
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serverCtx->setCertManager(std::move(certManager));
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serverCtx->setOmitEarlyRecordLayer(true);
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serverCtx->setClock(std::make_shared<NiceMock<fizz::test::MockClock>>());
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return serverCtx;
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}
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class AcceptingTicketCipher : public fizz::server::TicketCipher {
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public:
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~AcceptingTicketCipher() override = default;
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folly::Future<folly::Optional<
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std::pair<std::unique_ptr<folly::IOBuf>, std::chrono::seconds>>>
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encrypt(fizz::server::ResumptionState) const override {
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// Fake handshake, no need todo anything here.
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return std::make_pair(folly::IOBuf::create(0), 2s);
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}
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void setPsk(const QuicCachedPsk& cachedPsk) {
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cachedPsk_ = cachedPsk;
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}
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fizz::server::ResumptionState createResumptionState() const {
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fizz::server::ResumptionState resState;
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resState.version = cachedPsk_.cachedPsk.version;
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resState.cipher = cachedPsk_.cachedPsk.cipher;
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resState.resumptionSecret =
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folly::IOBuf::copyBuffer(cachedPsk_.cachedPsk.secret);
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resState.serverCert = cachedPsk_.cachedPsk.serverCert;
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resState.alpn = cachedPsk_.cachedPsk.alpn;
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resState.ticketAgeAdd = 0;
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resState.ticketIssueTime = std::chrono::system_clock::time_point();
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resState.handshakeTime = std::chrono::system_clock::time_point();
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AppToken appToken;
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appToken.transportParams = createTicketTransportParameters(
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kDefaultIdleTimeout.count(),
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kDefaultUDPReadBufferSize,
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kDefaultConnectionWindowSize,
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kDefaultStreamWindowSize,
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kDefaultStreamWindowSize,
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kDefaultStreamWindowSize,
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kDefaultMaxStreamsBidirectional,
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kDefaultMaxStreamsUnidirectional);
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appToken.version = QuicVersion::MVFST;
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resState.appToken = encodeAppToken(appToken);
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return resState;
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}
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folly::Future<
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std::pair<fizz::PskType, folly::Optional<fizz::server::ResumptionState>>>
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decrypt(std::unique_ptr<folly::IOBuf>) const override {
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return std::make_pair(fizz::PskType::Resumption, createResumptionState());
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}
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private:
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QuicCachedPsk cachedPsk_;
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};
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void setupZeroRttOnServerCtx(
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fizz::server::FizzServerContext& serverCtx,
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const QuicCachedPsk& cachedPsk) {
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serverCtx.setEarlyDataSettings(
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true,
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fizz::server::ClockSkewTolerance{-100000ms, 100000ms},
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std::make_shared<fizz::server::AllowAllReplayReplayCache>());
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auto ticketCipher = std::make_shared<AcceptingTicketCipher>();
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ticketCipher->setPsk(cachedPsk);
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serverCtx.setTicketCipher(ticketCipher);
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}
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QuicCachedPsk setupZeroRttOnClientCtx(
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fizz::client::FizzClientContext& clientCtx,
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std::string hostname) {
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clientCtx.setSendEarlyData(true);
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QuicCachedPsk quicCachedPsk;
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auto& psk = quicCachedPsk.cachedPsk;
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psk.psk = std::string("psk");
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psk.secret = std::string("secret");
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psk.type = fizz::PskType::Resumption;
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psk.version = clientCtx.getSupportedVersions()[0];
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psk.cipher = clientCtx.getSupportedCiphers()[0];
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psk.group = clientCtx.getSupportedGroups()[0];
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auto mockCert = std::make_shared<NiceMock<fizz::test::MockCert>>();
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ON_CALL(*mockCert, getIdentity()).WillByDefault(Return(hostname));
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psk.serverCert = mockCert;
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psk.alpn = clientCtx.getSupportedAlpns()[0];
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psk.ticketAgeAdd = 1;
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psk.ticketIssueTime = std::chrono::system_clock::time_point();
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psk.ticketExpirationTime =
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std::chrono::system_clock::time_point(std::chrono::minutes(100));
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psk.ticketHandshakeTime = std::chrono::system_clock::time_point();
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psk.maxEarlyDataSize = 2;
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quicCachedPsk.transportParams.idleTimeout = kDefaultIdleTimeout.count();
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quicCachedPsk.transportParams.maxRecvPacketSize = kDefaultUDPReadBufferSize;
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quicCachedPsk.transportParams.initialMaxData = kDefaultConnectionWindowSize;
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quicCachedPsk.transportParams.initialMaxStreamDataBidiLocal =
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kDefaultStreamWindowSize;
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quicCachedPsk.transportParams.initialMaxStreamDataBidiRemote =
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kDefaultStreamWindowSize;
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quicCachedPsk.transportParams.initialMaxStreamDataUni =
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kDefaultStreamWindowSize;
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quicCachedPsk.transportParams.initialMaxStreamsBidi =
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kDefaultMaxStreamsBidirectional;
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quicCachedPsk.transportParams.initialMaxStreamsUni =
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kDefaultMaxStreamsUnidirectional;
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return quicCachedPsk;
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}
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void setupCtxWithTestCert(fizz::server::FizzServerContext& ctx) {
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auto cert = readCert();
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auto certManager = std::make_unique<fizz::server::CertManager>();
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certManager->addCert(std::move(cert), true);
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ctx.setCertManager(std::move(certManager));
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}
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template <class T>
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std::unique_ptr<T> createNoOpAeadImpl() {
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// Fake that the handshake has already occured
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auto aead = std::make_unique<NiceMock<T>>();
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ON_CALL(*aead, _inplaceEncrypt(_, _, _))
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.WillByDefault(Invoke([&](auto& buf, auto, auto) {
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if (buf) {
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return std::move(buf);
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} else {
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return folly::IOBuf::create(0);
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}
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}));
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// Fake that the handshake has already occured and fix the keys.
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ON_CALL(*aead, _decrypt(_, _, _))
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.WillByDefault(
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Invoke([&](auto& buf, auto, auto) { return buf->clone(); }));
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ON_CALL(*aead, _tryDecrypt(_, _, _))
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.WillByDefault(
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Invoke([&](auto& buf, auto, auto) { return buf->clone(); }));
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ON_CALL(*aead, getCipherOverhead()).WillByDefault(Return(0));
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return aead;
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}
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std::unique_ptr<MockAead> createNoOpAead() {
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return createNoOpAeadImpl<MockAead>();
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}
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std::unique_ptr<PacketNumberCipher> createNoOpHeaderCipher() {
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auto headerCipher = std::make_unique<NiceMock<MockPacketNumberCipher>>();
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ON_CALL(*headerCipher, mask(_)).WillByDefault(Return(HeaderProtectionMask{}));
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ON_CALL(*headerCipher, keyLength()).WillByDefault(Return(16));
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return headerCipher;
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}
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RegularQuicPacketBuilder::Packet createStreamPacket(
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ConnectionId srcConnId,
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ConnectionId dstConnId,
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PacketNum packetNum,
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StreamId streamId,
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folly::IOBuf& data,
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uint8_t cipherOverhead,
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PacketNum largestAcked,
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folly::Optional<std::pair<LongHeader::Types, QuicVersion>>
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longHeaderOverride,
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bool eof,
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folly::Optional<ProtectionType> shortHeaderOverride,
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uint64_t offset,
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uint64_t packetSizeLimit) {
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std::unique_ptr<RegularQuicPacketBuilder> builder;
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if (longHeaderOverride) {
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LongHeader header(
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longHeaderOverride->first,
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srcConnId,
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dstConnId,
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packetNum,
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longHeaderOverride->second);
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builder.reset(new RegularQuicPacketBuilder(
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packetSizeLimit, std::move(header), largestAcked));
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} else {
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ProtectionType protectionType = ProtectionType::KeyPhaseZero;
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if (shortHeaderOverride) {
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protectionType = *shortHeaderOverride;
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}
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ShortHeader header(protectionType, dstConnId, packetNum);
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builder.reset(new RegularQuicPacketBuilder(
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packetSizeLimit, std::move(header), largestAcked));
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}
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builder->encodePacketHeader();
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builder->accountForCipherOverhead(cipherOverhead);
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writeStreamFrameHeader(
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*builder,
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streamId,
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offset,
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data.computeChainDataLength(),
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data.computeChainDataLength(),
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eof,
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folly::none /* skipLenHint */);
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writeStreamFrameData(*builder, data.clone(), data.computeChainDataLength());
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return std::move(*builder).buildPacket();
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}
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RegularQuicPacketBuilder::Packet createInitialCryptoPacket(
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ConnectionId srcConnId,
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ConnectionId dstConnId,
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PacketNum packetNum,
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QuicVersion version,
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folly::IOBuf& data,
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const Aead& aead,
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PacketNum largestAcked,
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uint64_t offset,
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const BuilderProvider& builderProvider) {
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LongHeader header(
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LongHeader::Types::Initial, srcConnId, dstConnId, packetNum, version);
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LongHeader copyHeader(header);
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PacketBuilderInterface* builder = nullptr;
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if (builderProvider) {
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builder = builderProvider(std::move(header), largestAcked);
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}
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RegularQuicPacketBuilder fallbackBuilder(
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kDefaultUDPSendPacketLen, std::move(copyHeader), largestAcked);
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if (!builder) {
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builder = &fallbackBuilder;
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}
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builder->encodePacketHeader();
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builder->accountForCipherOverhead(aead.getCipherOverhead());
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writeCryptoFrame(offset, data.clone(), *builder);
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return std::move(*builder).buildPacket();
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}
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RegularQuicPacketBuilder::Packet createCryptoPacket(
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ConnectionId srcConnId,
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ConnectionId dstConnId,
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PacketNum packetNum,
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QuicVersion version,
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ProtectionType protectionType,
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folly::IOBuf& data,
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const Aead& aead,
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PacketNum largestAcked,
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uint64_t offset,
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uint64_t packetSizeLimit) {
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folly::Optional<PacketHeader> header;
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switch (protectionType) {
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case ProtectionType::Initial:
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header = LongHeader(
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LongHeader::Types::Initial, srcConnId, dstConnId, packetNum, version);
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break;
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case ProtectionType::Handshake:
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header = LongHeader(
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LongHeader::Types::Handshake,
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srcConnId,
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dstConnId,
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packetNum,
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version);
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break;
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case ProtectionType::ZeroRtt:
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header = LongHeader(
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LongHeader::Types::ZeroRtt, srcConnId, dstConnId, packetNum, version);
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break;
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case ProtectionType::KeyPhaseOne:
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case ProtectionType::KeyPhaseZero:
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header = ShortHeader(protectionType, dstConnId, packetNum);
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break;
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}
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RegularQuicPacketBuilder builder(
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packetSizeLimit, std::move(*header), largestAcked);
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builder.encodePacketHeader();
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builder.accountForCipherOverhead(aead.getCipherOverhead());
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writeCryptoFrame(offset, data.clone(), builder);
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return std::move(builder).buildPacket();
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}
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Buf packetToBuf(const RegularQuicPacketBuilder::Packet& packet) {
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auto packetBuf = packet.header->clone();
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if (packet.body) {
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packetBuf->prependChain(packet.body->clone());
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}
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return packetBuf;
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}
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Buf packetToBufCleartext(
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const RegularQuicPacketBuilder::Packet& packet,
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const Aead& cleartextCipher,
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const PacketNumberCipher& headerCipher,
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PacketNum packetNum) {
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VLOG(10) << __func__ << " packet header: "
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<< folly::hexlify(packet.header->clone()->moveToFbString());
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auto packetBuf = packet.header->clone();
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Buf body;
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if (packet.body) {
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packet.body->coalesce();
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body = packet.body->clone();
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} else {
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body = folly::IOBuf::create(0);
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}
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auto headerForm = packet.packet.header.getHeaderForm();
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packet.header->coalesce();
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auto tagLen = cleartextCipher.getCipherOverhead();
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if (body->tailroom() < tagLen) {
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body->prependChain(folly::IOBuf::create(tagLen));
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}
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body->coalesce();
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auto encryptedBody = cleartextCipher.inplaceEncrypt(
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std::move(body), packet.header.get(), packetNum);
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encryptedBody->coalesce();
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encryptPacketHeader(
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headerForm,
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packet.header->writableData(),
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packet.header->length(),
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encryptedBody->data(),
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encryptedBody->length(),
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headerCipher);
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packetBuf->prependChain(std::move(encryptedBody));
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return packetBuf;
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}
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uint64_t computeExpectedDelay(
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std::chrono::microseconds ackDelay,
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uint8_t ackDelayExponent) {
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uint64_t divide = uint64_t(ackDelay.count()) >> ackDelayExponent;
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return divide << ackDelayExponent;
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}
|
|
|
|
ConnectionId getTestConnectionId(uint32_t hostId, ConnectionIdVersion version) {
|
|
ServerConnectionIdParams params(version, hostId, 0, 0);
|
|
DefaultConnectionIdAlgo connIdAlgo;
|
|
auto connId = *connIdAlgo.encodeConnectionId(params);
|
|
// Clear random part of CID, some existing tests expect same CID value
|
|
// when repeatedly calling with the same hostId.
|
|
if (version == ConnectionIdVersion::V1) {
|
|
connId.data()[3] = 3;
|
|
connId.data()[4] = 4;
|
|
connId.data()[5] = 5;
|
|
connId.data()[6] = 6;
|
|
connId.data()[7] = 7;
|
|
} else if (version == ConnectionIdVersion::V2) {
|
|
connId.data()[0] &= 0xC0;
|
|
connId.data()[5] = 5;
|
|
connId.data()[6] = 6;
|
|
connId.data()[7] = 7;
|
|
} else {
|
|
CHECK(false) << "Unsupported CID version";
|
|
}
|
|
|
|
return connId;
|
|
}
|
|
|
|
class TestCertificateVerifier : public fizz::CertificateVerifier {
|
|
public:
|
|
~TestCertificateVerifier() override = default;
|
|
|
|
void verify(const std::vector<std::shared_ptr<const fizz::PeerCert>>&)
|
|
const override {
|
|
return;
|
|
}
|
|
|
|
std::vector<fizz::Extension> getCertificateRequestExtensions()
|
|
const override {
|
|
return std::vector<fizz::Extension>();
|
|
}
|
|
};
|
|
|
|
std::unique_ptr<fizz::CertificateVerifier> createTestCertificateVerifier() {
|
|
return std::make_unique<TestCertificateVerifier>();
|
|
}
|
|
|
|
ProtectionType encryptionLevelToProtectionType(
|
|
fizz::EncryptionLevel encryptionLevel) {
|
|
switch (encryptionLevel) {
|
|
case fizz::EncryptionLevel::Plaintext:
|
|
return ProtectionType::Initial;
|
|
case fizz::EncryptionLevel::Handshake:
|
|
// TODO: change this in draft-14
|
|
return ProtectionType::Initial;
|
|
case fizz::EncryptionLevel::EarlyData:
|
|
return ProtectionType::ZeroRtt;
|
|
case fizz::EncryptionLevel::AppTraffic:
|
|
return ProtectionType::KeyPhaseZero;
|
|
}
|
|
folly::assume_unreachable();
|
|
}
|
|
|
|
void updateAckState(
|
|
QuicConnectionStateBase& conn,
|
|
PacketNumberSpace pnSpace,
|
|
PacketNum packetNum,
|
|
bool pkHasRetransmittableData,
|
|
bool pkHasCryptoData,
|
|
TimePoint receivedTime) {
|
|
bool outOfOrder = updateLargestReceivedPacketNum(
|
|
getAckState(conn, pnSpace), packetNum, receivedTime);
|
|
updateAckSendStateOnRecvPacket(
|
|
conn,
|
|
getAckState(conn, pnSpace),
|
|
outOfOrder,
|
|
pkHasRetransmittableData,
|
|
pkHasCryptoData);
|
|
}
|
|
|
|
std::unique_ptr<folly::IOBuf> buildRandomInputData(size_t length) {
|
|
auto buf = folly::IOBuf::create(length);
|
|
buf->append(length);
|
|
folly::Random::secureRandom(buf->writableData(), buf->length());
|
|
return buf;
|
|
}
|
|
|
|
void addAckStatesWithCurrentTimestamps(
|
|
AckState& ackState,
|
|
PacketNum start,
|
|
PacketNum end) {
|
|
ackState.acks.insert(start, end);
|
|
ackState.largestRecvdPacketTime = Clock::now();
|
|
}
|
|
|
|
OutstandingPacket makeTestingWritePacket(
|
|
PacketNum desiredPacketSeqNum,
|
|
size_t desiredSize,
|
|
uint64_t totalBytesSent,
|
|
TimePoint sentTime /* = Clock::now() */,
|
|
uint64_t inflightBytes /* = 0 */,
|
|
uint64_t writeCount /* = 0 */) {
|
|
LongHeader longHeader(
|
|
LongHeader::Types::ZeroRtt,
|
|
getTestConnectionId(1),
|
|
getTestConnectionId(),
|
|
desiredPacketSeqNum,
|
|
QuicVersion::MVFST);
|
|
RegularQuicWritePacket packet(std::move(longHeader));
|
|
return OutstandingPacket(
|
|
packet,
|
|
sentTime,
|
|
desiredSize,
|
|
false,
|
|
totalBytesSent,
|
|
inflightBytes,
|
|
0,
|
|
LossState(),
|
|
writeCount);
|
|
}
|
|
|
|
CongestionController::AckEvent makeAck(
|
|
PacketNum seq,
|
|
uint64_t ackedSize,
|
|
TimePoint ackedTime,
|
|
TimePoint sentTime) {
|
|
CHECK(sentTime < ackedTime);
|
|
RegularQuicWritePacket packet(
|
|
ShortHeader(ProtectionType::KeyPhaseZero, getTestConnectionId(), seq));
|
|
CongestionController::AckEvent ack;
|
|
ack.ackedBytes = ackedSize;
|
|
ack.ackTime = ackedTime;
|
|
ack.largestAckedPacket = seq;
|
|
ack.ackedPackets.emplace_back(
|
|
CongestionController::AckEvent::AckPacket::Builder()
|
|
.setSentTime(sentTime)
|
|
.setEncodedSize(ackedSize)
|
|
.build());
|
|
ack.largestAckedPacketSentTime = sentTime;
|
|
return ack;
|
|
}
|
|
|
|
BufQueue bufToQueue(Buf buf) {
|
|
BufQueue queue;
|
|
buf->coalesce();
|
|
queue.append(std::move(buf));
|
|
return queue;
|
|
}
|
|
|
|
StatelessResetToken generateStatelessResetToken() {
|
|
StatelessResetSecret secret;
|
|
folly::Random::secureRandom(secret.data(), secret.size());
|
|
folly::SocketAddress address("1.2.3.4", 8080);
|
|
StatelessResetGenerator generator(secret, address.getFullyQualified());
|
|
|
|
return generator.generateToken(ConnectionId({0x14, 0x35, 0x22, 0x11}));
|
|
}
|
|
|
|
std::array<uint8_t, kStatelessResetTokenSecretLength> getRandSecret() {
|
|
std::array<uint8_t, kStatelessResetTokenSecretLength> secret;
|
|
folly::Random::secureRandom(secret.data(), secret.size());
|
|
return secret;
|
|
}
|
|
|
|
RegularQuicWritePacket createNewPacket(
|
|
PacketNum packetNum,
|
|
PacketNumberSpace pnSpace) {
|
|
switch (pnSpace) {
|
|
case PacketNumberSpace::Initial:
|
|
return RegularQuicWritePacket(LongHeader(
|
|
LongHeader::Types::Initial,
|
|
getTestConnectionId(1),
|
|
getTestConnectionId(2),
|
|
packetNum,
|
|
QuicVersion::QUIC_DRAFT));
|
|
case PacketNumberSpace::Handshake:
|
|
return RegularQuicWritePacket(LongHeader(
|
|
LongHeader::Types::Handshake,
|
|
getTestConnectionId(0),
|
|
getTestConnectionId(4),
|
|
packetNum,
|
|
QuicVersion::QUIC_DRAFT));
|
|
case PacketNumberSpace::AppData:
|
|
return RegularQuicWritePacket(ShortHeader(
|
|
ProtectionType::KeyPhaseOne, getTestConnectionId(), packetNum));
|
|
}
|
|
|
|
folly::assume_unreachable();
|
|
}
|
|
|
|
std::vector<QuicVersion> versionList(
|
|
std::initializer_list<QuicVersionType> types) {
|
|
std::vector<QuicVersion> versions;
|
|
for (auto type : types) {
|
|
versions.push_back(static_cast<QuicVersion>(type));
|
|
}
|
|
return versions;
|
|
}
|
|
|
|
RegularQuicWritePacket createRegularQuicWritePacket(
|
|
StreamId streamId,
|
|
uint64_t offset,
|
|
uint64_t len,
|
|
bool fin) {
|
|
auto regularWritePacket = createNewPacket(10, PacketNumberSpace::Initial);
|
|
WriteStreamFrame frame(streamId, offset, len, fin);
|
|
regularWritePacket.frames.emplace_back(frame);
|
|
return regularWritePacket;
|
|
}
|
|
|
|
VersionNegotiationPacket createVersionNegotiationPacket() {
|
|
auto versions = {QuicVersion::VERSION_NEGOTIATION, QuicVersion::MVFST};
|
|
auto packet = VersionNegotiationPacketBuilder(
|
|
getTestConnectionId(0), getTestConnectionId(1), versions)
|
|
.buildPacket()
|
|
.first;
|
|
return packet;
|
|
}
|
|
|
|
RegularQuicWritePacket createPacketWithAckFrames() {
|
|
RegularQuicWritePacket packet =
|
|
createNewPacket(100, PacketNumberSpace::Initial);
|
|
WriteAckFrame ackFrame;
|
|
ackFrame.ackDelay = 111us;
|
|
ackFrame.ackBlocks.emplace_back(900, 1000);
|
|
ackFrame.ackBlocks.emplace_back(500, 700);
|
|
|
|
packet.frames.emplace_back(std::move(ackFrame));
|
|
return packet;
|
|
}
|
|
|
|
RegularQuicWritePacket createPacketWithPaddingFrames() {
|
|
RegularQuicWritePacket packet =
|
|
createNewPacket(100, PacketNumberSpace::Initial);
|
|
for (int i = 0; i < 20; ++i) {
|
|
PaddingFrame paddingFrame;
|
|
packet.frames.emplace_back(paddingFrame);
|
|
}
|
|
return packet;
|
|
}
|
|
|
|
std::vector<int> getQLogEventIndices(
|
|
QLogEventType type,
|
|
const std::shared_ptr<FileQLogger>& q) {
|
|
std::vector<int> indices;
|
|
for (uint64_t i = 0; i < q->logs.size(); ++i) {
|
|
if (q->logs[i]->eventType == type) {
|
|
indices.push_back(i);
|
|
}
|
|
}
|
|
return indices;
|
|
}
|
|
|
|
bool matchError(
|
|
std::pair<QuicErrorCode, folly::Optional<folly::StringPiece>> errorCode,
|
|
LocalErrorCode error) {
|
|
return errorCode.first.type() == QuicErrorCode::Type::LocalErrorCode &&
|
|
*errorCode.first.asLocalErrorCode() == error;
|
|
}
|
|
|
|
bool matchError(
|
|
std::pair<QuicErrorCode, folly::Optional<folly::StringPiece>> errorCode,
|
|
TransportErrorCode error) {
|
|
return errorCode.first.type() == QuicErrorCode::Type::TransportErrorCode &&
|
|
*errorCode.first.asTransportErrorCode() == error;
|
|
}
|
|
|
|
bool matchError(
|
|
std::pair<QuicErrorCode, folly::Optional<folly::StringPiece>> errorCode,
|
|
ApplicationErrorCode error) {
|
|
return errorCode.first.type() == QuicErrorCode::Type::ApplicationErrorCode &&
|
|
*errorCode.first.asApplicationErrorCode() == error;
|
|
}
|
|
|
|
bool matchError(
|
|
std::pair<QuicErrorCode, std::string> errorCode,
|
|
ApplicationErrorCode error) {
|
|
return errorCode.first.type() == QuicErrorCode::Type::ApplicationErrorCode &&
|
|
*errorCode.first.asApplicationErrorCode() == error;
|
|
}
|
|
|
|
bool matchError(
|
|
std::pair<QuicErrorCode, std::string> errorCode,
|
|
TransportErrorCode error) {
|
|
return errorCode.first.type() == QuicErrorCode::Type::TransportErrorCode &&
|
|
*errorCode.first.asTransportErrorCode() == error;
|
|
}
|
|
|
|
CongestionController::AckEvent::AckPacket makeAckPacketFromOutstandingPacket(
|
|
OutstandingPacket outstandingPacket) {
|
|
return CongestionController::AckEvent::AckPacket::Builder()
|
|
.setSentTime(outstandingPacket.metadata.time)
|
|
.setEncodedSize(outstandingPacket.metadata.encodedSize)
|
|
.setLastAckedPacketInfo(std::move(outstandingPacket.lastAckedPacketInfo))
|
|
.setTotalBytesSentThen(outstandingPacket.metadata.totalBytesSent)
|
|
.setAppLimited(outstandingPacket.isAppLimited)
|
|
.build();
|
|
}
|
|
|
|
folly::Optional<WriteCryptoFrame>
|
|
writeCryptoFrame(uint64_t offsetIn, Buf data, PacketBuilderInterface& builder) {
|
|
BufQueue bufQueue(std::move(data));
|
|
return writeCryptoFrame(offsetIn, bufQueue, builder);
|
|
}
|
|
|
|
void overridePacketWithToken(
|
|
PacketBuilderInterface::Packet& packet,
|
|
const StatelessResetToken& token) {
|
|
overridePacketWithToken(*packet.body, token);
|
|
}
|
|
|
|
void overridePacketWithToken(
|
|
folly::IOBuf& bodyBuf,
|
|
const StatelessResetToken& token) {
|
|
bodyBuf.coalesce();
|
|
CHECK(bodyBuf.length() > sizeof(StatelessResetToken));
|
|
memcpy(
|
|
bodyBuf.writableData() + bodyBuf.length() - sizeof(StatelessResetToken),
|
|
token.data(),
|
|
token.size());
|
|
}
|
|
|
|
bool writableContains(QuicStreamManager& streamManager, StreamId streamId) {
|
|
return streamManager.writableStreams().count(streamId) > 0 ||
|
|
streamManager.writableControlStreams().count(streamId) > 0;
|
|
}
|
|
|
|
} // namespace test
|
|
} // namespace quic
|