1*f6aab3d8Srobert //===-- ThreadedCommunication.cpp -----------------------------------------===//
2*f6aab3d8Srobert //
3*f6aab3d8Srobert // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4*f6aab3d8Srobert // See https://llvm.org/LICENSE.txt for license information.
5*f6aab3d8Srobert // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6*f6aab3d8Srobert //
7*f6aab3d8Srobert //===----------------------------------------------------------------------===//
8*f6aab3d8Srobert
9*f6aab3d8Srobert #include "lldb/Core/ThreadedCommunication.h"
10*f6aab3d8Srobert
11*f6aab3d8Srobert #include "lldb/Host/ThreadLauncher.h"
12*f6aab3d8Srobert #include "lldb/Utility/Connection.h"
13*f6aab3d8Srobert #include "lldb/Utility/ConstString.h"
14*f6aab3d8Srobert #include "lldb/Utility/Event.h"
15*f6aab3d8Srobert #include "lldb/Utility/LLDBLog.h"
16*f6aab3d8Srobert #include "lldb/Utility/Listener.h"
17*f6aab3d8Srobert #include "lldb/Utility/Log.h"
18*f6aab3d8Srobert #include "lldb/Utility/Status.h"
19*f6aab3d8Srobert
20*f6aab3d8Srobert #include "llvm/Support/Compiler.h"
21*f6aab3d8Srobert
22*f6aab3d8Srobert #include <algorithm>
23*f6aab3d8Srobert #include <chrono>
24*f6aab3d8Srobert #include <cstring>
25*f6aab3d8Srobert #include <memory>
26*f6aab3d8Srobert
27*f6aab3d8Srobert #include <cerrno>
28*f6aab3d8Srobert #include <cinttypes>
29*f6aab3d8Srobert #include <cstdio>
30*f6aab3d8Srobert
31*f6aab3d8Srobert using namespace lldb;
32*f6aab3d8Srobert using namespace lldb_private;
33*f6aab3d8Srobert
GetStaticBroadcasterClass()34*f6aab3d8Srobert ConstString &ThreadedCommunication::GetStaticBroadcasterClass() {
35*f6aab3d8Srobert static ConstString class_name("lldb.communication");
36*f6aab3d8Srobert return class_name;
37*f6aab3d8Srobert }
38*f6aab3d8Srobert
ThreadedCommunication(const char * name)39*f6aab3d8Srobert ThreadedCommunication::ThreadedCommunication(const char *name)
40*f6aab3d8Srobert : Communication(), Broadcaster(nullptr, name), m_read_thread_enabled(false),
41*f6aab3d8Srobert m_read_thread_did_exit(false), m_bytes(), m_bytes_mutex(),
42*f6aab3d8Srobert m_synchronize_mutex(), m_callback(nullptr), m_callback_baton(nullptr) {
43*f6aab3d8Srobert LLDB_LOG(GetLog(LLDBLog::Object | LLDBLog::Communication),
44*f6aab3d8Srobert "{0} ThreadedCommunication::ThreadedCommunication (name = {1})",
45*f6aab3d8Srobert this, name);
46*f6aab3d8Srobert
47*f6aab3d8Srobert SetEventName(eBroadcastBitDisconnected, "disconnected");
48*f6aab3d8Srobert SetEventName(eBroadcastBitReadThreadGotBytes, "got bytes");
49*f6aab3d8Srobert SetEventName(eBroadcastBitReadThreadDidExit, "read thread did exit");
50*f6aab3d8Srobert SetEventName(eBroadcastBitReadThreadShouldExit, "read thread should exit");
51*f6aab3d8Srobert SetEventName(eBroadcastBitPacketAvailable, "packet available");
52*f6aab3d8Srobert SetEventName(eBroadcastBitNoMorePendingInput, "no more pending input");
53*f6aab3d8Srobert
54*f6aab3d8Srobert CheckInWithManager();
55*f6aab3d8Srobert }
56*f6aab3d8Srobert
~ThreadedCommunication()57*f6aab3d8Srobert ThreadedCommunication::~ThreadedCommunication() {
58*f6aab3d8Srobert LLDB_LOG(GetLog(LLDBLog::Object | LLDBLog::Communication),
59*f6aab3d8Srobert "{0} ThreadedCommunication::~ThreadedCommunication (name = {1})",
60*f6aab3d8Srobert this, GetBroadcasterName().AsCString());
61*f6aab3d8Srobert }
62*f6aab3d8Srobert
Clear()63*f6aab3d8Srobert void ThreadedCommunication::Clear() {
64*f6aab3d8Srobert SetReadThreadBytesReceivedCallback(nullptr, nullptr);
65*f6aab3d8Srobert StopReadThread(nullptr);
66*f6aab3d8Srobert Communication::Clear();
67*f6aab3d8Srobert }
68*f6aab3d8Srobert
Disconnect(Status * error_ptr)69*f6aab3d8Srobert ConnectionStatus ThreadedCommunication::Disconnect(Status *error_ptr) {
70*f6aab3d8Srobert assert((!m_read_thread_enabled || m_read_thread_did_exit) &&
71*f6aab3d8Srobert "Disconnecting while the read thread is running is racy!");
72*f6aab3d8Srobert return Communication::Disconnect(error_ptr);
73*f6aab3d8Srobert }
74*f6aab3d8Srobert
Read(void * dst,size_t dst_len,const Timeout<std::micro> & timeout,ConnectionStatus & status,Status * error_ptr)75*f6aab3d8Srobert size_t ThreadedCommunication::Read(void *dst, size_t dst_len,
76*f6aab3d8Srobert const Timeout<std::micro> &timeout,
77*f6aab3d8Srobert ConnectionStatus &status,
78*f6aab3d8Srobert Status *error_ptr) {
79*f6aab3d8Srobert Log *log = GetLog(LLDBLog::Communication);
80*f6aab3d8Srobert LLDB_LOG(
81*f6aab3d8Srobert log,
82*f6aab3d8Srobert "this = {0}, dst = {1}, dst_len = {2}, timeout = {3}, connection = {4}",
83*f6aab3d8Srobert this, dst, dst_len, timeout, m_connection_sp.get());
84*f6aab3d8Srobert
85*f6aab3d8Srobert if (m_read_thread_enabled) {
86*f6aab3d8Srobert // We have a dedicated read thread that is getting data for us
87*f6aab3d8Srobert size_t cached_bytes = GetCachedBytes(dst, dst_len);
88*f6aab3d8Srobert if (cached_bytes > 0) {
89*f6aab3d8Srobert status = eConnectionStatusSuccess;
90*f6aab3d8Srobert return cached_bytes;
91*f6aab3d8Srobert }
92*f6aab3d8Srobert if (timeout && timeout->count() == 0) {
93*f6aab3d8Srobert if (error_ptr)
94*f6aab3d8Srobert error_ptr->SetErrorString("Timed out.");
95*f6aab3d8Srobert status = eConnectionStatusTimedOut;
96*f6aab3d8Srobert return 0;
97*f6aab3d8Srobert }
98*f6aab3d8Srobert
99*f6aab3d8Srobert if (!m_connection_sp) {
100*f6aab3d8Srobert if (error_ptr)
101*f6aab3d8Srobert error_ptr->SetErrorString("Invalid connection.");
102*f6aab3d8Srobert status = eConnectionStatusNoConnection;
103*f6aab3d8Srobert return 0;
104*f6aab3d8Srobert }
105*f6aab3d8Srobert
106*f6aab3d8Srobert // No data yet, we have to start listening.
107*f6aab3d8Srobert ListenerSP listener_sp(
108*f6aab3d8Srobert Listener::MakeListener("ThreadedCommunication::Read"));
109*f6aab3d8Srobert listener_sp->StartListeningForEvents(
110*f6aab3d8Srobert this, eBroadcastBitReadThreadGotBytes | eBroadcastBitReadThreadDidExit);
111*f6aab3d8Srobert
112*f6aab3d8Srobert // Re-check for data, as it might have arrived while we were setting up our
113*f6aab3d8Srobert // listener.
114*f6aab3d8Srobert cached_bytes = GetCachedBytes(dst, dst_len);
115*f6aab3d8Srobert if (cached_bytes > 0) {
116*f6aab3d8Srobert status = eConnectionStatusSuccess;
117*f6aab3d8Srobert return cached_bytes;
118*f6aab3d8Srobert }
119*f6aab3d8Srobert
120*f6aab3d8Srobert EventSP event_sp;
121*f6aab3d8Srobert // Explicitly check for the thread exit, for the same reason.
122*f6aab3d8Srobert if (m_read_thread_did_exit) {
123*f6aab3d8Srobert // We've missed the event, lets just conjure one up.
124*f6aab3d8Srobert event_sp = std::make_shared<Event>(eBroadcastBitReadThreadDidExit);
125*f6aab3d8Srobert } else {
126*f6aab3d8Srobert if (!listener_sp->GetEvent(event_sp, timeout)) {
127*f6aab3d8Srobert if (error_ptr)
128*f6aab3d8Srobert error_ptr->SetErrorString("Timed out.");
129*f6aab3d8Srobert status = eConnectionStatusTimedOut;
130*f6aab3d8Srobert return 0;
131*f6aab3d8Srobert }
132*f6aab3d8Srobert }
133*f6aab3d8Srobert const uint32_t event_type = event_sp->GetType();
134*f6aab3d8Srobert if (event_type & eBroadcastBitReadThreadGotBytes) {
135*f6aab3d8Srobert return GetCachedBytes(dst, dst_len);
136*f6aab3d8Srobert }
137*f6aab3d8Srobert
138*f6aab3d8Srobert if (event_type & eBroadcastBitReadThreadDidExit) {
139*f6aab3d8Srobert // If the thread exited of its own accord, it either means it
140*f6aab3d8Srobert // hit an end-of-file condition or an error.
141*f6aab3d8Srobert status = m_pass_status;
142*f6aab3d8Srobert if (error_ptr)
143*f6aab3d8Srobert *error_ptr = std::move(m_pass_error);
144*f6aab3d8Srobert
145*f6aab3d8Srobert if (GetCloseOnEOF())
146*f6aab3d8Srobert Disconnect(nullptr);
147*f6aab3d8Srobert return 0;
148*f6aab3d8Srobert }
149*f6aab3d8Srobert llvm_unreachable("Got unexpected event type!");
150*f6aab3d8Srobert }
151*f6aab3d8Srobert
152*f6aab3d8Srobert // We aren't using a read thread, just read the data synchronously in this
153*f6aab3d8Srobert // thread.
154*f6aab3d8Srobert return Communication::Read(dst, dst_len, timeout, status, error_ptr);
155*f6aab3d8Srobert }
156*f6aab3d8Srobert
StartReadThread(Status * error_ptr)157*f6aab3d8Srobert bool ThreadedCommunication::StartReadThread(Status *error_ptr) {
158*f6aab3d8Srobert if (error_ptr)
159*f6aab3d8Srobert error_ptr->Clear();
160*f6aab3d8Srobert
161*f6aab3d8Srobert if (m_read_thread.IsJoinable())
162*f6aab3d8Srobert return true;
163*f6aab3d8Srobert
164*f6aab3d8Srobert LLDB_LOG(GetLog(LLDBLog::Communication),
165*f6aab3d8Srobert "{0} ThreadedCommunication::StartReadThread ()", this);
166*f6aab3d8Srobert
167*f6aab3d8Srobert const std::string thread_name =
168*f6aab3d8Srobert llvm::formatv("<lldb.comm.{0}>", GetBroadcasterName());
169*f6aab3d8Srobert
170*f6aab3d8Srobert m_read_thread_enabled = true;
171*f6aab3d8Srobert m_read_thread_did_exit = false;
172*f6aab3d8Srobert auto maybe_thread = ThreadLauncher::LaunchThread(
173*f6aab3d8Srobert thread_name, [this] { return ReadThread(); });
174*f6aab3d8Srobert if (maybe_thread) {
175*f6aab3d8Srobert m_read_thread = *maybe_thread;
176*f6aab3d8Srobert } else {
177*f6aab3d8Srobert if (error_ptr)
178*f6aab3d8Srobert *error_ptr = Status(maybe_thread.takeError());
179*f6aab3d8Srobert else {
180*f6aab3d8Srobert LLDB_LOG(GetLog(LLDBLog::Host), "failed to launch host thread: {}",
181*f6aab3d8Srobert llvm::toString(maybe_thread.takeError()));
182*f6aab3d8Srobert }
183*f6aab3d8Srobert }
184*f6aab3d8Srobert
185*f6aab3d8Srobert if (!m_read_thread.IsJoinable())
186*f6aab3d8Srobert m_read_thread_enabled = false;
187*f6aab3d8Srobert
188*f6aab3d8Srobert return m_read_thread_enabled;
189*f6aab3d8Srobert }
190*f6aab3d8Srobert
StopReadThread(Status * error_ptr)191*f6aab3d8Srobert bool ThreadedCommunication::StopReadThread(Status *error_ptr) {
192*f6aab3d8Srobert if (!m_read_thread.IsJoinable())
193*f6aab3d8Srobert return true;
194*f6aab3d8Srobert
195*f6aab3d8Srobert LLDB_LOG(GetLog(LLDBLog::Communication),
196*f6aab3d8Srobert "{0} ThreadedCommunication::StopReadThread ()", this);
197*f6aab3d8Srobert
198*f6aab3d8Srobert m_read_thread_enabled = false;
199*f6aab3d8Srobert
200*f6aab3d8Srobert BroadcastEvent(eBroadcastBitReadThreadShouldExit, nullptr);
201*f6aab3d8Srobert
202*f6aab3d8Srobert // error = m_read_thread.Cancel();
203*f6aab3d8Srobert
204*f6aab3d8Srobert Status error = m_read_thread.Join(nullptr);
205*f6aab3d8Srobert return error.Success();
206*f6aab3d8Srobert }
207*f6aab3d8Srobert
JoinReadThread(Status * error_ptr)208*f6aab3d8Srobert bool ThreadedCommunication::JoinReadThread(Status *error_ptr) {
209*f6aab3d8Srobert if (!m_read_thread.IsJoinable())
210*f6aab3d8Srobert return true;
211*f6aab3d8Srobert
212*f6aab3d8Srobert Status error = m_read_thread.Join(nullptr);
213*f6aab3d8Srobert return error.Success();
214*f6aab3d8Srobert }
215*f6aab3d8Srobert
GetCachedBytes(void * dst,size_t dst_len)216*f6aab3d8Srobert size_t ThreadedCommunication::GetCachedBytes(void *dst, size_t dst_len) {
217*f6aab3d8Srobert std::lock_guard<std::recursive_mutex> guard(m_bytes_mutex);
218*f6aab3d8Srobert if (!m_bytes.empty()) {
219*f6aab3d8Srobert // If DST is nullptr and we have a thread, then return the number of bytes
220*f6aab3d8Srobert // that are available so the caller can call again
221*f6aab3d8Srobert if (dst == nullptr)
222*f6aab3d8Srobert return m_bytes.size();
223*f6aab3d8Srobert
224*f6aab3d8Srobert const size_t len = std::min<size_t>(dst_len, m_bytes.size());
225*f6aab3d8Srobert
226*f6aab3d8Srobert ::memcpy(dst, m_bytes.c_str(), len);
227*f6aab3d8Srobert m_bytes.erase(m_bytes.begin(), m_bytes.begin() + len);
228*f6aab3d8Srobert
229*f6aab3d8Srobert return len;
230*f6aab3d8Srobert }
231*f6aab3d8Srobert return 0;
232*f6aab3d8Srobert }
233*f6aab3d8Srobert
AppendBytesToCache(const uint8_t * bytes,size_t len,bool broadcast,ConnectionStatus status)234*f6aab3d8Srobert void ThreadedCommunication::AppendBytesToCache(const uint8_t *bytes, size_t len,
235*f6aab3d8Srobert bool broadcast,
236*f6aab3d8Srobert ConnectionStatus status) {
237*f6aab3d8Srobert LLDB_LOG(GetLog(LLDBLog::Communication),
238*f6aab3d8Srobert "{0} ThreadedCommunication::AppendBytesToCache (src = {1}, src_len "
239*f6aab3d8Srobert "= {2}, "
240*f6aab3d8Srobert "broadcast = {3})",
241*f6aab3d8Srobert this, bytes, (uint64_t)len, broadcast);
242*f6aab3d8Srobert if ((bytes == nullptr || len == 0) &&
243*f6aab3d8Srobert (status != lldb::eConnectionStatusEndOfFile))
244*f6aab3d8Srobert return;
245*f6aab3d8Srobert if (m_callback) {
246*f6aab3d8Srobert // If the user registered a callback, then call it and do not broadcast
247*f6aab3d8Srobert m_callback(m_callback_baton, bytes, len);
248*f6aab3d8Srobert } else if (bytes != nullptr && len > 0) {
249*f6aab3d8Srobert std::lock_guard<std::recursive_mutex> guard(m_bytes_mutex);
250*f6aab3d8Srobert m_bytes.append((const char *)bytes, len);
251*f6aab3d8Srobert if (broadcast)
252*f6aab3d8Srobert BroadcastEventIfUnique(eBroadcastBitReadThreadGotBytes);
253*f6aab3d8Srobert }
254*f6aab3d8Srobert }
255*f6aab3d8Srobert
ReadThreadIsRunning()256*f6aab3d8Srobert bool ThreadedCommunication::ReadThreadIsRunning() {
257*f6aab3d8Srobert return m_read_thread_enabled;
258*f6aab3d8Srobert }
259*f6aab3d8Srobert
ReadThread()260*f6aab3d8Srobert lldb::thread_result_t ThreadedCommunication::ReadThread() {
261*f6aab3d8Srobert Log *log = GetLog(LLDBLog::Communication);
262*f6aab3d8Srobert
263*f6aab3d8Srobert LLDB_LOG(log, "Communication({0}) thread starting...", this);
264*f6aab3d8Srobert
265*f6aab3d8Srobert uint8_t buf[1024];
266*f6aab3d8Srobert
267*f6aab3d8Srobert Status error;
268*f6aab3d8Srobert ConnectionStatus status = eConnectionStatusSuccess;
269*f6aab3d8Srobert bool done = false;
270*f6aab3d8Srobert bool disconnect = false;
271*f6aab3d8Srobert while (!done && m_read_thread_enabled) {
272*f6aab3d8Srobert size_t bytes_read = ReadFromConnection(
273*f6aab3d8Srobert buf, sizeof(buf), std::chrono::seconds(5), status, &error);
274*f6aab3d8Srobert if (bytes_read > 0 || status == eConnectionStatusEndOfFile)
275*f6aab3d8Srobert AppendBytesToCache(buf, bytes_read, true, status);
276*f6aab3d8Srobert
277*f6aab3d8Srobert switch (status) {
278*f6aab3d8Srobert case eConnectionStatusSuccess:
279*f6aab3d8Srobert break;
280*f6aab3d8Srobert
281*f6aab3d8Srobert case eConnectionStatusEndOfFile:
282*f6aab3d8Srobert done = true;
283*f6aab3d8Srobert disconnect = GetCloseOnEOF();
284*f6aab3d8Srobert break;
285*f6aab3d8Srobert case eConnectionStatusError: // Check GetError() for details
286*f6aab3d8Srobert if (error.GetType() == eErrorTypePOSIX && error.GetError() == EIO) {
287*f6aab3d8Srobert // EIO on a pipe is usually caused by remote shutdown
288*f6aab3d8Srobert disconnect = GetCloseOnEOF();
289*f6aab3d8Srobert done = true;
290*f6aab3d8Srobert }
291*f6aab3d8Srobert if (error.Fail())
292*f6aab3d8Srobert LLDB_LOG(log, "error: {0}, status = {1}", error,
293*f6aab3d8Srobert ThreadedCommunication::ConnectionStatusAsString(status));
294*f6aab3d8Srobert break;
295*f6aab3d8Srobert case eConnectionStatusInterrupted: // Synchronization signal from
296*f6aab3d8Srobert // SynchronizeWithReadThread()
297*f6aab3d8Srobert // The connection returns eConnectionStatusInterrupted only when there is
298*f6aab3d8Srobert // no input pending to be read, so we can signal that.
299*f6aab3d8Srobert BroadcastEvent(eBroadcastBitNoMorePendingInput);
300*f6aab3d8Srobert break;
301*f6aab3d8Srobert case eConnectionStatusNoConnection: // No connection
302*f6aab3d8Srobert case eConnectionStatusLostConnection: // Lost connection while connected to
303*f6aab3d8Srobert // a valid connection
304*f6aab3d8Srobert done = true;
305*f6aab3d8Srobert [[fallthrough]];
306*f6aab3d8Srobert case eConnectionStatusTimedOut: // Request timed out
307*f6aab3d8Srobert if (error.Fail())
308*f6aab3d8Srobert LLDB_LOG(log, "error: {0}, status = {1}", error,
309*f6aab3d8Srobert ThreadedCommunication::ConnectionStatusAsString(status));
310*f6aab3d8Srobert break;
311*f6aab3d8Srobert }
312*f6aab3d8Srobert }
313*f6aab3d8Srobert m_pass_status = status;
314*f6aab3d8Srobert m_pass_error = std::move(error);
315*f6aab3d8Srobert LLDB_LOG(log, "Communication({0}) thread exiting...", this);
316*f6aab3d8Srobert
317*f6aab3d8Srobert // Start shutting down. We need to do this in a very specific order to ensure
318*f6aab3d8Srobert // we don't race with threads wanting to read/synchronize with us.
319*f6aab3d8Srobert
320*f6aab3d8Srobert // First, we signal our intent to exit. This ensures no new thread start
321*f6aab3d8Srobert // waiting on events from us.
322*f6aab3d8Srobert m_read_thread_did_exit = true;
323*f6aab3d8Srobert
324*f6aab3d8Srobert // Unblock any existing thread waiting for the synchronization signal.
325*f6aab3d8Srobert BroadcastEvent(eBroadcastBitNoMorePendingInput);
326*f6aab3d8Srobert
327*f6aab3d8Srobert {
328*f6aab3d8Srobert // Wait for the synchronization thread to finish...
329*f6aab3d8Srobert std::lock_guard<std::mutex> guard(m_synchronize_mutex);
330*f6aab3d8Srobert // ... and disconnect.
331*f6aab3d8Srobert if (disconnect)
332*f6aab3d8Srobert Disconnect();
333*f6aab3d8Srobert }
334*f6aab3d8Srobert
335*f6aab3d8Srobert // Finally, unblock any readers waiting for us to exit.
336*f6aab3d8Srobert BroadcastEvent(eBroadcastBitReadThreadDidExit);
337*f6aab3d8Srobert return {};
338*f6aab3d8Srobert }
339*f6aab3d8Srobert
SetReadThreadBytesReceivedCallback(ReadThreadBytesReceived callback,void * callback_baton)340*f6aab3d8Srobert void ThreadedCommunication::SetReadThreadBytesReceivedCallback(
341*f6aab3d8Srobert ReadThreadBytesReceived callback, void *callback_baton) {
342*f6aab3d8Srobert m_callback = callback;
343*f6aab3d8Srobert m_callback_baton = callback_baton;
344*f6aab3d8Srobert }
345*f6aab3d8Srobert
SynchronizeWithReadThread()346*f6aab3d8Srobert void ThreadedCommunication::SynchronizeWithReadThread() {
347*f6aab3d8Srobert // Only one thread can do the synchronization dance at a time.
348*f6aab3d8Srobert std::lock_guard<std::mutex> guard(m_synchronize_mutex);
349*f6aab3d8Srobert
350*f6aab3d8Srobert // First start listening for the synchronization event.
351*f6aab3d8Srobert ListenerSP listener_sp(Listener::MakeListener(
352*f6aab3d8Srobert "ThreadedCommunication::SyncronizeWithReadThread"));
353*f6aab3d8Srobert listener_sp->StartListeningForEvents(this, eBroadcastBitNoMorePendingInput);
354*f6aab3d8Srobert
355*f6aab3d8Srobert // If the thread is not running, there is no point in synchronizing.
356*f6aab3d8Srobert if (!m_read_thread_enabled || m_read_thread_did_exit)
357*f6aab3d8Srobert return;
358*f6aab3d8Srobert
359*f6aab3d8Srobert // Notify the read thread.
360*f6aab3d8Srobert m_connection_sp->InterruptRead();
361*f6aab3d8Srobert
362*f6aab3d8Srobert // Wait for the synchronization event.
363*f6aab3d8Srobert EventSP event_sp;
364*f6aab3d8Srobert listener_sp->GetEvent(event_sp, std::nullopt);
365*f6aab3d8Srobert }
366*f6aab3d8Srobert
SetConnection(std::unique_ptr<Connection> connection)367*f6aab3d8Srobert void ThreadedCommunication::SetConnection(
368*f6aab3d8Srobert std::unique_ptr<Connection> connection) {
369*f6aab3d8Srobert StopReadThread(nullptr);
370*f6aab3d8Srobert Communication::SetConnection(std::move(connection));
371*f6aab3d8Srobert }
372