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path: root/security/manager/ssl/NSSSocketControl.cpp
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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*-
 *
 * This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

#include "NSSSocketControl.h"

#include "ssl.h"
#include "sslexp.h"

NSSSocketControl::NSSSocketControl(const nsCString& aHostName, int32_t aPort,
                                   SharedSSLState& aState,
                                   uint32_t providerFlags,
                                   uint32_t providerTlsFlags)
    : CommonSocketControl(aHostName, aPort, providerFlags),
      mFd(nullptr),
      mCertVerificationState(before_cert_verification),
      mSharedState(aState),
      mForSTARTTLS(false),
      mTLSVersionRange{0, 0},
      mHandshakePending(true),
      mPreliminaryHandshakeDone(false),
      mEarlyDataAccepted(false),
      mDenyClientCert(false),
      mFalseStartCallbackCalled(false),
      mFalseStarted(false),
      mIsFullHandshake(false),
      mNotedTimeUntilReady(false),
      mEchExtensionStatus(EchExtensionStatus::kNotPresent),
      mIsShortWritePending(false),
      mShortWritePendingByte(0),
      mShortWriteOriginalAmount(-1),
      mKEAUsed(nsITLSSocketControl::KEY_EXCHANGE_UNKNOWN),
      mKEAKeyBits(0),
      mMACAlgorithmUsed(nsITLSSocketControl::SSL_MAC_UNKNOWN),
      mProviderTlsFlags(providerTlsFlags),
      mSocketCreationTimestamp(TimeStamp::Now()),
      mPlaintextBytesRead(0) {}

NS_IMETHODIMP
NSSSocketControl::GetKEAUsed(int16_t* aKea) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  *aKea = mKEAUsed;
  return NS_OK;
}

NS_IMETHODIMP
NSSSocketControl::GetKEAKeyBits(uint32_t* aKeyBits) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  *aKeyBits = mKEAKeyBits;
  return NS_OK;
}

NS_IMETHODIMP
NSSSocketControl::GetSSLVersionOffered(int16_t* aSSLVersionOffered) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  *aSSLVersionOffered = mTLSVersionRange.max;
  return NS_OK;
}

NS_IMETHODIMP
NSSSocketControl::GetMACAlgorithmUsed(int16_t* aMac) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  *aMac = mMACAlgorithmUsed;
  return NS_OK;
}

void NSSSocketControl::NoteTimeUntilReady() {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  if (mNotedTimeUntilReady) {
    return;
  }
  mNotedTimeUntilReady = true;

  auto timestampNow = TimeStamp::Now();
  if (!(mProviderFlags & nsISocketProvider::IS_RETRY)) {
    Telemetry::AccumulateTimeDelta(Telemetry::SSL_TIME_UNTIL_READY_FIRST_TRY,
                                   mSocketCreationTimestamp, timestampNow);
  }

  if (mProviderFlags & nsISocketProvider::BE_CONSERVATIVE) {
    Telemetry::AccumulateTimeDelta(Telemetry::SSL_TIME_UNTIL_READY_CONSERVATIVE,
                                   mSocketCreationTimestamp, timestampNow);
  }

  switch (GetEchExtensionStatus()) {
    case EchExtensionStatus::kGREASE:
      Telemetry::AccumulateTimeDelta(Telemetry::SSL_TIME_UNTIL_READY_ECH_GREASE,
                                     mSocketCreationTimestamp, timestampNow);
      break;
    case EchExtensionStatus::kReal:
      Telemetry::AccumulateTimeDelta(Telemetry::SSL_TIME_UNTIL_READY_ECH,
                                     mSocketCreationTimestamp, timestampNow);
      break;
    default:
      break;
  }
  // This will include TCP and proxy tunnel wait time
  Telemetry::AccumulateTimeDelta(Telemetry::SSL_TIME_UNTIL_READY,
                                 mSocketCreationTimestamp, timestampNow);

  MOZ_LOG(gPIPNSSLog, LogLevel::Debug,
          ("[%p] NSSSocketControl::NoteTimeUntilReady\n", mFd));
}

void NSSSocketControl::SetHandshakeCompleted() {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  if (!mHandshakeCompleted) {
    enum HandshakeType {
      Resumption = 1,
      FalseStarted = 2,
      ChoseNotToFalseStart = 3,
      NotAllowedToFalseStart = 4,
    };

    HandshakeType handshakeType = !IsFullHandshake() ? Resumption
                                  : mFalseStarted    ? FalseStarted
                                  : mFalseStartCallbackCalled
                                      ? ChoseNotToFalseStart
                                      : NotAllowedToFalseStart;
    // This will include TCP and proxy tunnel wait time
    if (mKeaGroupName.isSome()) {
      Telemetry::AccumulateTimeDelta(
          Telemetry::SSL_TIME_UNTIL_HANDSHAKE_FINISHED_KEYED_BY_KA,
          *mKeaGroupName, mSocketCreationTimestamp, TimeStamp::Now());
    }

    // If the handshake is completed for the first time from just 1 callback
    // that means that TLS session resumption must have been used.
    Telemetry::Accumulate(Telemetry::SSL_RESUMED_SESSION,
                          handshakeType == Resumption);
    Telemetry::Accumulate(Telemetry::SSL_HANDSHAKE_TYPE, handshakeType);
  }

  // Remove the plaintext layer as it is not needed anymore.
  // The plaintext layer is not always present - so it's not a fatal error if it
  // cannot be removed.
  // Note that PR_PopIOLayer may modify its stack, so a pointer returned by
  // PR_GetIdentitiesLayer may not point to what we think it points to after
  // calling PR_PopIOLayer. We must operate on the pointer returned by
  // PR_PopIOLayer.
  if (PR_GetIdentitiesLayer(mFd,
                            nsSSLIOLayerHelpers::nsSSLPlaintextLayerIdentity)) {
    PRFileDesc* poppedPlaintext =
        PR_PopIOLayer(mFd, nsSSLIOLayerHelpers::nsSSLPlaintextLayerIdentity);
    poppedPlaintext->dtor(poppedPlaintext);
  }

  mHandshakeCompleted = true;

  MOZ_LOG(gPIPNSSLog, LogLevel::Debug,
          ("[%p] NSSSocketControl::SetHandshakeCompleted\n", (void*)mFd));

  mIsFullHandshake = false;  // reset for next handshake on this connection

  if (mTlsHandshakeCallback) {
    auto callback = std::move(mTlsHandshakeCallback);
    Unused << callback->HandshakeDone();
  }
}

void NSSSocketControl::SetNegotiatedNPN(const char* value, uint32_t length) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  if (!value) {
    mNegotiatedNPN.Truncate();
  } else {
    mNegotiatedNPN.Assign(value, length);
  }
  mNPNCompleted = true;
}

#define MAX_ALPN_LENGTH 255

NS_IMETHODIMP
NSSSocketControl::GetAlpnEarlySelection(nsACString& aAlpnSelected) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  aAlpnSelected.Truncate();

  SSLPreliminaryChannelInfo info;
  SECStatus rv = SSL_GetPreliminaryChannelInfo(mFd, &info, sizeof(info));
  if (rv != SECSuccess || !info.canSendEarlyData) {
    return NS_ERROR_NOT_AVAILABLE;
  }

  SSLNextProtoState alpnState;
  unsigned char chosenAlpn[MAX_ALPN_LENGTH];
  unsigned int chosenAlpnLen;
  rv = SSL_GetNextProto(mFd, &alpnState, chosenAlpn, &chosenAlpnLen,
                        AssertedCast<unsigned int>(ArrayLength(chosenAlpn)));

  if (rv != SECSuccess) {
    return NS_ERROR_NOT_AVAILABLE;
  }

  if (alpnState == SSL_NEXT_PROTO_EARLY_VALUE) {
    aAlpnSelected.Assign(BitwiseCast<char*, unsigned char*>(chosenAlpn),
                         chosenAlpnLen);
  }

  return NS_OK;
}

NS_IMETHODIMP
NSSSocketControl::GetEarlyDataAccepted(bool* aAccepted) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  *aAccepted = mEarlyDataAccepted;
  return NS_OK;
}

void NSSSocketControl::SetEarlyDataAccepted(bool aAccepted) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  mEarlyDataAccepted = aAccepted;
}

bool NSSSocketControl::GetDenyClientCert() {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  return mDenyClientCert;
}

void NSSSocketControl::SetDenyClientCert(bool aDenyClientCert) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  mDenyClientCert = aDenyClientCert;
}

NS_IMETHODIMP
NSSSocketControl::DriveHandshake() {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  if (!mFd) {
    return NS_ERROR_FAILURE;
  }
  if (IsCanceled()) {
    PRErrorCode errorCode = GetErrorCode();
    MOZ_DIAGNOSTIC_ASSERT(errorCode, "handshake cancelled without error code");
    return GetXPCOMFromNSSError(errorCode);
  }

  SECStatus rv = SSL_ForceHandshake(mFd);

  if (rv != SECSuccess) {
    PRErrorCode errorCode = PR_GetError();
    MOZ_ASSERT(errorCode, "handshake failed without error code");
    // There is a bug in NSS. Sometimes SSL_ForceHandshake will return
    // SECFailure without setting an error code. In these cases, cancel
    // the connection with SEC_ERROR_LIBRARY_FAILURE.
    if (!errorCode) {
      errorCode = SEC_ERROR_LIBRARY_FAILURE;
    }
    if (errorCode == PR_WOULD_BLOCK_ERROR) {
      return NS_BASE_STREAM_WOULD_BLOCK;
    }

    SetCanceled(errorCode);
    return GetXPCOMFromNSSError(errorCode);
  }
  return NS_OK;
}

bool NSSSocketControl::GetForSTARTTLS() {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  return mForSTARTTLS;
}

void NSSSocketControl::SetForSTARTTLS(bool aForSTARTTLS) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  mForSTARTTLS = aForSTARTTLS;
}

NS_IMETHODIMP
NSSSocketControl::ProxyStartSSL() {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  return ActivateSSL();
}

NS_IMETHODIMP
NSSSocketControl::StartTLS() {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  return ActivateSSL();
}

NS_IMETHODIMP
NSSSocketControl::SetNPNList(nsTArray<nsCString>& protocolArray) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  if (!mFd) return NS_ERROR_FAILURE;

  // the npn list is a concatenated list of 8 bit byte strings.
  nsCString npnList;

  for (uint32_t index = 0; index < protocolArray.Length(); ++index) {
    if (protocolArray[index].IsEmpty() || protocolArray[index].Length() > 255)
      return NS_ERROR_ILLEGAL_VALUE;

    npnList.Append(protocolArray[index].Length());
    npnList.Append(protocolArray[index]);
  }

  if (SSL_SetNextProtoNego(
          mFd, BitwiseCast<const unsigned char*, const char*>(npnList.get()),
          npnList.Length()) != SECSuccess)
    return NS_ERROR_FAILURE;

  return NS_OK;
}

nsresult NSSSocketControl::ActivateSSL() {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  if (SECSuccess != SSL_OptionSet(mFd, SSL_SECURITY, true))
    return NS_ERROR_FAILURE;
  if (SECSuccess != SSL_ResetHandshake(mFd, false)) return NS_ERROR_FAILURE;

  mHandshakePending = true;

  return SetResumptionTokenFromExternalCache();
}

nsresult NSSSocketControl::GetFileDescPtr(PRFileDesc** aFilePtr) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  *aFilePtr = mFd;
  return NS_OK;
}

nsresult NSSSocketControl::SetFileDescPtr(PRFileDesc* aFilePtr) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  mFd = aFilePtr;
  return NS_OK;
}

void NSSSocketControl::SetCertVerificationWaiting() {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  // mCertVerificationState may be before_cert_verification for the first
  // handshake on the connection, or after_cert_verification for subsequent
  // renegotiation handshakes.
  MOZ_ASSERT(mCertVerificationState != waiting_for_cert_verification,
             "Invalid state transition to waiting_for_cert_verification");
  mCertVerificationState = waiting_for_cert_verification;
}

// Be careful that SetCertVerificationResult does NOT get called while we are
// processing a SSL callback function, because SSL_AuthCertificateComplete will
// attempt to acquire locks that are already held by libssl when it calls
// callbacks.
void NSSSocketControl::SetCertVerificationResult(PRErrorCode errorCode) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  SetUsedPrivateDNS(GetProviderFlags() & nsISocketProvider::USED_PRIVATE_DNS);
  MOZ_ASSERT(mCertVerificationState == waiting_for_cert_verification,
             "Invalid state transition to cert_verification_finished");

  if (mFd) {
    SECStatus rv = SSL_AuthCertificateComplete(mFd, errorCode);
    // Only replace errorCode if there was originally no error.
    // SSL_AuthCertificateComplete will return SECFailure with the error code
    // set to PR_WOULD_BLOCK_ERROR if there is a pending event to select a
    // client authentication certificate. This is not an error.
    if (rv != SECSuccess && PR_GetError() != PR_WOULD_BLOCK_ERROR &&
        errorCode == 0) {
      errorCode = PR_GetError();
      if (errorCode == 0) {
        NS_ERROR("SSL_AuthCertificateComplete didn't set error code");
        errorCode = PR_INVALID_STATE_ERROR;
      }
    }
  }

  if (errorCode) {
    mFailedVerification = true;
    SetCanceled(errorCode);
  }

  if (mPlaintextBytesRead && !errorCode) {
    Telemetry::Accumulate(Telemetry::SSL_BYTES_BEFORE_CERT_CALLBACK,
                          AssertedCast<uint32_t>(mPlaintextBytesRead));
  }

  mCertVerificationState = after_cert_verification;
}

void NSSSocketControl::ClientAuthCertificateSelected(
    nsTArray<uint8_t>& certBytes, nsTArray<nsTArray<uint8_t>>& certChainBytes) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  // If mFd is nullptr, the connection has been closed already, so we don't
  // need to do anything here.
  if (!mFd) {
    return;
  }
  SECItem certItem = {
      siBuffer,
      const_cast<uint8_t*>(certBytes.Elements()),
      static_cast<unsigned int>(certBytes.Length()),
  };
  UniqueCERTCertificate cert(CERT_NewTempCertificate(
      CERT_GetDefaultCertDB(), &certItem, nullptr, false, true));
  UniqueSECKEYPrivateKey key;
  if (cert) {
    key.reset(PK11_FindKeyByAnyCert(cert.get(), nullptr));
    mClientCertChain.reset(CERT_NewCertList());
    if (key && mClientCertChain) {
      for (const auto& certBytes : certChainBytes) {
        SECItem certItem = {
            siBuffer,
            const_cast<uint8_t*>(certBytes.Elements()),
            static_cast<unsigned int>(certBytes.Length()),
        };
        UniqueCERTCertificate cert(CERT_NewTempCertificate(
            CERT_GetDefaultCertDB(), &certItem, nullptr, false, true));
        if (cert) {
          if (CERT_AddCertToListTail(mClientCertChain.get(), cert.get()) ==
              SECSuccess) {
            Unused << cert.release();
          }
        }
      }
    }
  }

  bool sendingClientAuthCert = cert && key;
  if (sendingClientAuthCert) {
    mSentClientCert = true;
    Telemetry::ScalarAdd(Telemetry::ScalarID::SECURITY_CLIENT_AUTH_CERT_USAGE,
                         u"sent"_ns, 1);
  }

  Unused << SSL_ClientCertCallbackComplete(
      mFd, sendingClientAuthCert ? SECSuccess : SECFailure,
      sendingClientAuthCert ? key.release() : nullptr,
      sendingClientAuthCert ? cert.release() : nullptr);
}

SharedSSLState& NSSSocketControl::SharedState() {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  return mSharedState;
}

void NSSSocketControl::SetSharedOwningReference(SharedSSLState* aRef) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  mOwningSharedRef = aRef;
}

NS_IMETHODIMP
NSSSocketControl::DisableEarlyData() {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  if (!mFd) {
    return NS_OK;
  }
  if (IsCanceled()) {
    return NS_OK;
  }

  if (SSL_OptionSet(mFd, SSL_ENABLE_0RTT_DATA, false) != SECSuccess) {
    return NS_ERROR_FAILURE;
  }
  return NS_OK;
}

NS_IMETHODIMP
NSSSocketControl::SetHandshakeCallbackListener(
    nsITlsHandshakeCallbackListener* callback) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  mTlsHandshakeCallback = callback;
  return NS_OK;
}

PRStatus NSSSocketControl::CloseSocketAndDestroy() {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  PRFileDesc* popped = PR_PopIOLayer(mFd, PR_TOP_IO_LAYER);
  MOZ_ASSERT(
      popped && popped->identity == nsSSLIOLayerHelpers::nsSSLIOLayerIdentity,
      "SSL Layer not on top of stack");

  // The plaintext layer is not always present - so it's not a fatal error if it
  // cannot be removed.
  // Note that PR_PopIOLayer may modify its stack, so a pointer returned by
  // PR_GetIdentitiesLayer may not point to what we think it points to after
  // calling PR_PopIOLayer. We must operate on the pointer returned by
  // PR_PopIOLayer.
  if (PR_GetIdentitiesLayer(mFd,
                            nsSSLIOLayerHelpers::nsSSLPlaintextLayerIdentity)) {
    PRFileDesc* poppedPlaintext =
        PR_PopIOLayer(mFd, nsSSLIOLayerHelpers::nsSSLPlaintextLayerIdentity);
    poppedPlaintext->dtor(poppedPlaintext);
  }

  // We need to clear the callback to make sure the ssl layer cannot call the
  // callback after mFD is nulled.
  SSL_SetResumptionTokenCallback(mFd, nullptr, nullptr);

  PRStatus status = mFd->methods->close(mFd);

  // the NSSSocketControl instance can out-live the connection, so we need some
  // indication that the connection has been closed. mFd == nullptr is that
  // indication. This is needed, for example, when the connection is closed
  // before we have finished validating the server's certificate.
  mFd = nullptr;

  if (status != PR_SUCCESS) return status;

  popped->identity = PR_INVALID_IO_LAYER;
  NS_RELEASE_THIS();
  popped->dtor(popped);

  return PR_SUCCESS;
}

NS_IMETHODIMP
NSSSocketControl::GetEsniTxt(nsACString& aEsniTxt) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  aEsniTxt = mEsniTxt;
  return NS_OK;
}

NS_IMETHODIMP
NSSSocketControl::SetEsniTxt(const nsACString& aEsniTxt) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  mEsniTxt = aEsniTxt;

  if (mEsniTxt.Length()) {
    nsAutoCString esniBin;
    if (NS_OK != Base64Decode(mEsniTxt, esniBin)) {
      MOZ_LOG(gPIPNSSLog, LogLevel::Error,
              ("[%p] Invalid ESNIKeys record. Couldn't base64 decode\n",
               (void*)mFd));
      return NS_OK;
    }

    if (SECSuccess !=
        SSL_EnableESNI(mFd, reinterpret_cast<const PRUint8*>(esniBin.get()),
                       esniBin.Length(), nullptr)) {
      MOZ_LOG(gPIPNSSLog, LogLevel::Error,
              ("[%p] Invalid ESNIKeys record %s\n", (void*)mFd,
               PR_ErrorToName(PR_GetError())));
      return NS_OK;
    }
  }

  return NS_OK;
}

NS_IMETHODIMP
NSSSocketControl::GetEchConfig(nsACString& aEchConfig) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  aEchConfig = mEchConfig;
  return NS_OK;
}

NS_IMETHODIMP
NSSSocketControl::SetEchConfig(const nsACString& aEchConfig) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  mEchConfig = aEchConfig;

  if (mEchConfig.Length()) {
    if (SECSuccess !=
        SSL_SetClientEchConfigs(
            mFd, reinterpret_cast<const PRUint8*>(aEchConfig.BeginReading()),
            aEchConfig.Length())) {
      MOZ_LOG(gPIPNSSLog, LogLevel::Error,
              ("[%p] Invalid EchConfig record %s\n", (void*)mFd,
               PR_ErrorToName(PR_GetError())));
      return NS_OK;
    }
    UpdateEchExtensionStatus(EchExtensionStatus::kReal);
  }
  return NS_OK;
}

NS_IMETHODIMP
NSSSocketControl::GetRetryEchConfig(nsACString& aEchConfig) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  if (!mFd) {
    return NS_ERROR_FAILURE;
  }

  ScopedAutoSECItem retryConfigItem;
  SECStatus rv = SSL_GetEchRetryConfigs(mFd, &retryConfigItem);
  if (rv != SECSuccess) {
    return NS_ERROR_FAILURE;
  }
  aEchConfig = nsCString(reinterpret_cast<const char*>(retryConfigItem.data),
                         retryConfigItem.len);
  return NS_OK;
}

NS_IMETHODIMP
NSSSocketControl::GetPeerId(nsACString& aResult) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  if (!mPeerId.IsEmpty()) {
    aResult.Assign(mPeerId);
    return NS_OK;
  }

  if (mProviderFlags &
      nsISocketProvider::ANONYMOUS_CONNECT) {  // See bug 466080
    mPeerId.AppendLiteral("anon:");
  }
  if (mProviderFlags & nsISocketProvider::NO_PERMANENT_STORAGE) {
    mPeerId.AppendLiteral("private:");
  }
  if (mProviderFlags & nsISocketProvider::BE_CONSERVATIVE) {
    mPeerId.AppendLiteral("beConservative:");
  }

  mPeerId.AppendPrintf("tlsflags0x%08x:", mProviderTlsFlags);

  mPeerId.Append(mHostName);
  mPeerId.Append(':');
  mPeerId.AppendInt(GetPort());
  nsAutoCString suffix;
  mOriginAttributes.CreateSuffix(suffix);
  mPeerId.Append(suffix);

  aResult.Assign(mPeerId);
  return NS_OK;
}

nsresult NSSSocketControl::SetResumptionTokenFromExternalCache() {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  if (!mFd) {
    return NS_ERROR_FAILURE;
  }

  // If SSL_NO_CACHE option was set, we must not use the cache
  PRIntn val;
  if (SSL_OptionGet(mFd, SSL_NO_CACHE, &val) != SECSuccess) {
    return NS_ERROR_FAILURE;
  }

  if (val != 0) {
    return NS_OK;
  }

  nsTArray<uint8_t> token;
  nsAutoCString peerId;
  nsresult rv = GetPeerId(peerId);
  if (NS_FAILED(rv)) {
    return rv;
  }

  uint64_t tokenId = 0;
  mozilla::net::SessionCacheInfo info;
  rv = mozilla::net::SSLTokensCache::Get(peerId, token, info, &tokenId);
  if (NS_FAILED(rv)) {
    if (rv == NS_ERROR_NOT_AVAILABLE) {
      // It's ok if we can't find the token.
      return NS_OK;
    }

    return rv;
  }

  SECStatus srv = SSL_SetResumptionToken(mFd, token.Elements(), token.Length());
  if (srv == SECFailure) {
    PRErrorCode error = PR_GetError();
    mozilla::net::SSLTokensCache::Remove(peerId, tokenId);
    MOZ_LOG(gPIPNSSLog, LogLevel::Debug,
            ("Setting token failed with NSS error %d [id=%s]", error,
             PromiseFlatCString(peerId).get()));
    // We don't consider SSL_ERROR_BAD_RESUMPTION_TOKEN_ERROR as a hard error,
    // since this error means this token is just expired or can't be decoded
    // correctly.
    if (error == SSL_ERROR_BAD_RESUMPTION_TOKEN_ERROR) {
      return NS_OK;
    }

    return NS_ERROR_FAILURE;
  }

  SetSessionCacheInfo(std::move(info));

  return NS_OK;
}

void NSSSocketControl::SetPreliminaryHandshakeInfo(
    const SSLChannelInfo& channelInfo, const SSLCipherSuiteInfo& cipherInfo) {
  COMMON_SOCKET_CONTROL_ASSERT_ON_OWNING_THREAD();
  mResumed = channelInfo.resumed;
  mCipherSuite.emplace(channelInfo.cipherSuite);
  mProtocolVersion.emplace(channelInfo.protocolVersion & 0xFF);
  mKeaGroupName.emplace(getKeaGroupName(channelInfo.keaGroup));
  mSignatureSchemeName.emplace(getSignatureName(channelInfo.signatureScheme));
  mIsDelegatedCredential.emplace(channelInfo.peerDelegCred);
  mIsAcceptedEch.emplace(channelInfo.echAccepted);
}