pw_multisink/multisink.cc - pigweed/pigweed - Git at Google

 // Copyright 2021 The Pigweed Authors
 //
 // Licensed under the Apache License, Version 2.0 (the "License"); you may not
 // use this file except in compliance with the License. You may obtain a copy of
 // the License at
 //
 //     https://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
 // WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
 // License for the specific language governing permissions and limitations under
 // the License.
 #include "pw_multisink/multisink.h"

 #include <cstring>

 #include "pw_assert/check.h"
 #include "pw_status/try.h"
 #include "pw_varint/varint.h"

 namespace pw {
 namespace multisink {

 void MultiSink::HandleEntry(ConstByteSpan entry) {
   std::lock_guard lock(lock_);
   PW_DCHECK_OK(ring_buffer_.PushBack(entry, sequence_id_++));
   NotifyListeners();
 }

 void MultiSink::HandleDropped(uint32_t drop_count) {
   std::lock_guard lock(lock_);
   sequence_id_ += drop_count;
   NotifyListeners();
 }

 Result<ConstByteSpan> MultiSink::GetEntry(Drain& drain,
                                           ByteSpan buffer,
                                           uint32_t& drop_count_out) {
   size_t bytes_read = 0;
   uint32_t entry_sequence_id = 0;
   drop_count_out = 0;

   std::lock_guard lock(lock_);
   PW_DCHECK_PTR_EQ(drain.multisink_, this);

   const Status peek_status = drain.reader_.PeekFrontWithPreamble(
       buffer, entry_sequence_id, bytes_read);
   if (peek_status.IsOutOfRange()) {
     // If the drain has caught up, report the last handled sequence ID so that
     // it can still process any dropped entries.
     entry_sequence_id = sequence_id_ - 1;
   } else if (!peek_status.ok()) {
     // Exit immediately if the result isn't OK or OUT_OF_RANGE, as the
     // entry_entry_sequence_id cannot be used for computation. Later invocations
     // to GetEntry will permit readers to determine how far the sequence ID
     // moved forward.
     return peek_status;
   }

   // Compute the drop count delta by comparing this entry's sequence ID with the
   // last sequence ID this drain successfully read.
   //
   // The drop count calculation simply computes the difference between the
   // current and last sequence IDs. Consecutive successful reads will always
   // differ by one at least, so it is subtracted out. If the read was not
   // successful, the difference is not adjusted.
   drop_count_out = entry_sequence_id - drain.last_handled_sequence_id_ -
                    (peek_status.ok() ? 1 : 0);
   drain.last_handled_sequence_id_ = entry_sequence_id;

   // The Peek above may have failed due to OutOfRange, now that we've set the
   // drop count see if we should return before attempting to pop.
   if (peek_status.IsOutOfRange()) {
     return peek_status;
   }

   // Success, pop the oldest entry!
   PW_CHECK(drain.reader_.PopFront().ok());
   return std::as_bytes(buffer.first(bytes_read));
 }

 void MultiSink::AttachDrain(Drain& drain) {
   std::lock_guard lock(lock_);
   PW_DCHECK_PTR_EQ(drain.multisink_, nullptr);
   drain.multisink_ = this;
   drain.last_handled_sequence_id_ = sequence_id_ - 1;
   PW_CHECK_OK(ring_buffer_.AttachReader(drain.reader_));
 }

 void MultiSink::DetachDrain(Drain& drain) {
   std::lock_guard lock(lock_);
   PW_DCHECK_PTR_EQ(drain.multisink_, this);
   drain.multisink_ = nullptr;
   PW_CHECK_OK(ring_buffer_.DetachReader(drain.reader_),
               "The drain wasn't already attached.");
 }

 void MultiSink::AttachListener(Listener& listener) {
   std::lock_guard lock(lock_);
   listeners_.push_back(listener);
 }

 void MultiSink::DetachListener(Listener& listener) {
   std::lock_guard lock(lock_);
   [[maybe_unused]] bool was_detached = listeners_.remove(listener);
   PW_DCHECK(was_detached, "The listener was already attached.");
 }

 void MultiSink::Clear() {
   std::lock_guard lock(lock_);
   ring_buffer_.Clear();
 }

 void MultiSink::NotifyListeners() {
   for (auto& listener : listeners_) {
     listener.OnNewEntryAvailable();
   }
 }

 Result<ConstByteSpan> MultiSink::Drain::GetEntry(ByteSpan buffer,
                                                  uint32_t& drop_count_out) {
   PW_DCHECK_NOTNULL(multisink_);
   return multisink_->GetEntry(*this, buffer, drop_count_out);
 }

 }  // namespace multisink
 }  // namespace pw
	// Copyright 2021 The Pigweed Authors
	//
	// Licensed under the Apache License, Version 2.0 (the "License"); you may not
	// use this file except in compliance with the License. You may obtain a copy of
	// the License at
	//
	// https://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
	// WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
	// License for the specific language governing permissions and limitations under
	// the License.
	#include "pw_multisink/multisink.h"

	#include <cstring>

	#include "pw_assert/check.h"
	#include "pw_status/try.h"
	#include "pw_varint/varint.h"

	namespace pw {
	namespace multisink {

	void MultiSink::HandleEntry(ConstByteSpan entry) {
	std::lock_guard lock(lock_);
	PW_DCHECK_OK(ring_buffer_.PushBack(entry, sequence_id_++));
	NotifyListeners();
	}

	void MultiSink::HandleDropped(uint32_t drop_count) {
	std::lock_guard lock(lock_);
	sequence_id_ += drop_count;
	NotifyListeners();
	}

	Result<ConstByteSpan> MultiSink::GetEntry(Drain& drain,
	ByteSpan buffer,
	uint32_t& drop_count_out) {
	size_t bytes_read = 0;
	uint32_t entry_sequence_id = 0;
	drop_count_out = 0;

	std::lock_guard lock(lock_);
	PW_DCHECK_PTR_EQ(drain.multisink_, this);

	const Status peek_status = drain.reader_.PeekFrontWithPreamble(
	buffer, entry_sequence_id, bytes_read);
	if (peek_status.IsOutOfRange()) {
	// If the drain has caught up, report the last handled sequence ID so that
	// it can still process any dropped entries.
	entry_sequence_id = sequence_id_ - 1;
	} else if (!peek_status.ok()) {
	// Exit immediately if the result isn't OK or OUT_OF_RANGE, as the
	// entry_entry_sequence_id cannot be used for computation. Later invocations
	// to GetEntry will permit readers to determine how far the sequence ID
	// moved forward.
	return peek_status;
	}

	// Compute the drop count delta by comparing this entry's sequence ID with the
	// last sequence ID this drain successfully read.
	//
	// The drop count calculation simply computes the difference between the
	// current and last sequence IDs. Consecutive successful reads will always
	// differ by one at least, so it is subtracted out. If the read was not
	// successful, the difference is not adjusted.
	drop_count_out = entry_sequence_id - drain.last_handled_sequence_id_ -
	(peek_status.ok() ? 1 : 0);
	drain.last_handled_sequence_id_ = entry_sequence_id;

	// The Peek above may have failed due to OutOfRange, now that we've set the
	// drop count see if we should return before attempting to pop.
	if (peek_status.IsOutOfRange()) {
	return peek_status;
	}

	// Success, pop the oldest entry!
	PW_CHECK(drain.reader_.PopFront().ok());
	return std::as_bytes(buffer.first(bytes_read));
	}

	void MultiSink::AttachDrain(Drain& drain) {
	std::lock_guard lock(lock_);
	PW_DCHECK_PTR_EQ(drain.multisink_, nullptr);
	drain.multisink_ = this;
	drain.last_handled_sequence_id_ = sequence_id_ - 1;
	PW_CHECK_OK(ring_buffer_.AttachReader(drain.reader_));
	}

	void MultiSink::DetachDrain(Drain& drain) {
	std::lock_guard lock(lock_);
	PW_DCHECK_PTR_EQ(drain.multisink_, this);
	drain.multisink_ = nullptr;
	PW_CHECK_OK(ring_buffer_.DetachReader(drain.reader_),
	"The drain wasn't already attached.");
	}

	void MultiSink::AttachListener(Listener& listener) {
	std::lock_guard lock(lock_);
	listeners_.push_back(listener);
	}

	void MultiSink::DetachListener(Listener& listener) {
	std::lock_guard lock(lock_);
	[[maybe_unused]] bool was_detached = listeners_.remove(listener);
	PW_DCHECK(was_detached, "The listener was already attached.");
	}

	void MultiSink::Clear() {
	std::lock_guard lock(lock_);
	ring_buffer_.Clear();
	}

	void MultiSink::NotifyListeners() {
	for (auto& listener : listeners_) {
	listener.OnNewEntryAvailable();
	}
	}

	Result<ConstByteSpan> MultiSink::Drain::GetEntry(ByteSpan buffer,
	uint32_t& drop_count_out) {
	PW_DCHECK_NOTNULL(multisink_);
	return multisink_->GetEntry(*this, buffer, drop_count_out);
	}

	} // namespace multisink
	} // namespace pw