zircon/system/ulib/io-scheduler/include/io-scheduler/stream.h - fuchsia - Git at Google

 // Copyright 2019 The Fuchsia Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef IO_SCHEDULER_STREAM_H_
 #define IO_SCHEDULER_STREAM_H_

 #include <zircon/types.h>

 #include <fbl/intrusive_double_list.h>
 #include <fbl/intrusive_wavl_tree.h>
 #include <fbl/macros.h>
 #include <fbl/mutex.h>
 #include <fbl/ref_counted.h>
 #include <fbl/ref_ptr.h>
 #include <io-scheduler/scheduler-client.h>
 #include <io-scheduler/stream-op.h>

 namespace ioscheduler {

 constexpr uint32_t kStreamFlagIsClosed = (1u << 0);
 constexpr uint32_t kStreamFlagHasDeferred = (1u << 1);

 class Scheduler;
 class Stream;
 using StreamRef = fbl::RefPtr<Stream>;

 // Tag Types used to manage the different intrusive containers that a Stream can
 // exist in.
 namespace internal {
 struct StreamMapTag {};
 struct StreamReadyListTag {};
 struct StreamDeferredListTag {};
 }  // namespace internal

 // Stream - a logical sequence of ops.
 // The Stream class is not thread safe, streams depend on the scheduler for synchronization.
 class Stream : public fbl::RefCounted<Stream>,
                public fbl::ContainableBaseClasses<
                    fbl::TaggedWAVLTreeContainable<StreamRef, internal::StreamMapTag>,
                    fbl::TaggedDoublyLinkedListable<StreamRef, internal::StreamReadyListTag>,
                    fbl::TaggedDoublyLinkedListable<StreamRef, internal::StreamDeferredListTag>> {
  public:
   struct KeyTraitsSortById {
     static const uint32_t& GetKey(const Stream& s) { return s.id_; }
     static bool LessThan(const uint32_t s1, const uint32_t s2) { return (s1 < s2); }
     static bool EqualTo(const uint32_t s1, const uint32_t s2) { return (s1 == s2); }
   };

   using MapTag = internal::StreamMapTag;
   using ReadyListTag = internal::StreamReadyListTag;
   using DeferredListTag = internal::StreamDeferredListTag;

   using WAVLTreeSortById = fbl::TaggedWAVLTree<uint32_t, StreamRef, MapTag, KeyTraitsSortById>;
   using ReadyStreamList = fbl::TaggedDoublyLinkedList<StreamRef, ReadyListTag>;
   using DeferredStreamList = fbl::TaggedDoublyLinkedList<StreamRef, DeferredListTag>;

   Stream() = delete;
   Stream(uint32_t id, uint32_t pri);
   ~Stream();
   DISALLOW_COPY_ASSIGN_AND_MOVE(Stream);

   uint32_t id() { return id_; }
   uint32_t priority() { return priority_; }
   bool is_closed() { return (flags_ & kStreamFlagIsClosed); }

   inline uint32_t flags() { return flags_; }
   inline void set_flags(uint32_t flags) { flags_ |= flags; }
   inline void clear_flags(uint32_t flags) { flags_ &= ~flags; }

   inline bool IsEmpty() { return ready_ops_.is_empty() && issued_ops_.is_empty(); }
   inline bool HasReady() { return !ready_ops_.is_empty(); }
   inline bool HasDefered() { return !deferred_ops_.is_empty(); }

   // Close a stream.
   // Returns:
   //    ZX_OK if stream is empty and ready for immediate release.
   //    ZX_ERR_SHOULD_WAIT is stream has pending operations. It will be released by worker threads
   //       or the shutdown routine.
   zx_status_t Close();

   // Insert an op into the tail of the stream (subject to reordering).
   // On error op's error status is set and it is moved to |*op_err|.
   zx_status_t Insert(UniqueOp op, UniqueOp* op_err);

   // Fetch a pointer to an op from the head of the stream.
   // The stream maintains ownership of the op. All fetched op must be returned via ReleaseOp().
   void GetNext(UniqueOp* op_out);

   // Set an op as deferred for later completion.
   void Defer(UniqueOp op);

   // Get an op pending completion.
   void GetDeferred(UniqueOp* op_out);

   // Marks an op obtained via GetNext() or GetDeferred() as complete.
   // Op is not consumed.
   void Complete(StreamOp* op);

  private:
   friend struct KeyTraitsSortById;

   uint32_t id_;
   uint32_t priority_;

   uint32_t flags_ = 0;
   StreamOp::OpList ready_ops_;           // Ops ready to be issued.
   StreamOp::OpList issued_ops_;          // Issued ops pending completion.
   StreamOp::DeferredList deferred_ops_;  // Ops whose completion has been deferred.
 };

 }  // namespace ioscheduler

 #endif  // IO_SCHEDULER_STREAM_H_
	// Copyright 2019 The Fuchsia Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef IO_SCHEDULER_STREAM_H_
	#define IO_SCHEDULER_STREAM_H_

	#include <zircon/types.h>

	#include <fbl/intrusive_double_list.h>
	#include <fbl/intrusive_wavl_tree.h>
	#include <fbl/macros.h>
	#include <fbl/mutex.h>
	#include <fbl/ref_counted.h>
	#include <fbl/ref_ptr.h>
	#include <io-scheduler/scheduler-client.h>
	#include <io-scheduler/stream-op.h>

	namespace ioscheduler {

	constexpr uint32_t kStreamFlagIsClosed = (1u << 0);
	constexpr uint32_t kStreamFlagHasDeferred = (1u << 1);

	class Scheduler;
	class Stream;
	using StreamRef = fbl::RefPtr<Stream>;

	// Tag Types used to manage the different intrusive containers that a Stream can
	// exist in.
	namespace internal {
	struct StreamMapTag {};
	struct StreamReadyListTag {};
	struct StreamDeferredListTag {};
	} // namespace internal

	// Stream - a logical sequence of ops.
	// The Stream class is not thread safe, streams depend on the scheduler for synchronization.
	class Stream : public fbl::RefCounted<Stream>,
	public fbl::ContainableBaseClasses<
	fbl::TaggedWAVLTreeContainable<StreamRef, internal::StreamMapTag>,
	fbl::TaggedDoublyLinkedListable<StreamRef, internal::StreamReadyListTag>,
	fbl::TaggedDoublyLinkedListable<StreamRef, internal::StreamDeferredListTag>> {
	public:
	struct KeyTraitsSortById {
	static const uint32_t& GetKey(const Stream& s) { return s.id_; }
	static bool LessThan(const uint32_t s1, const uint32_t s2) { return (s1 < s2); }
	static bool EqualTo(const uint32_t s1, const uint32_t s2) { return (s1 == s2); }
	};

	using MapTag = internal::StreamMapTag;
	using ReadyListTag = internal::StreamReadyListTag;
	using DeferredListTag = internal::StreamDeferredListTag;

	using WAVLTreeSortById = fbl::TaggedWAVLTree<uint32_t, StreamRef, MapTag, KeyTraitsSortById>;
	using ReadyStreamList = fbl::TaggedDoublyLinkedList<StreamRef, ReadyListTag>;
	using DeferredStreamList = fbl::TaggedDoublyLinkedList<StreamRef, DeferredListTag>;

	Stream() = delete;
	Stream(uint32_t id, uint32_t pri);
	~Stream();
	DISALLOW_COPY_ASSIGN_AND_MOVE(Stream);

	uint32_t id() { return id_; }
	uint32_t priority() { return priority_; }
	bool is_closed() { return (flags_ & kStreamFlagIsClosed); }

	inline uint32_t flags() { return flags_; }
	inline void set_flags(uint32_t flags) { flags_ \|= flags; }
	inline void clear_flags(uint32_t flags) { flags_ &= ~flags; }

	inline bool IsEmpty() { return ready_ops_.is_empty() && issued_ops_.is_empty(); }
	inline bool HasReady() { return !ready_ops_.is_empty(); }
	inline bool HasDefered() { return !deferred_ops_.is_empty(); }

	// Close a stream.
	// Returns:
	// ZX_OK if stream is empty and ready for immediate release.
	// ZX_ERR_SHOULD_WAIT is stream has pending operations. It will be released by worker threads
	// or the shutdown routine.
	zx_status_t Close();

	// Insert an op into the tail of the stream (subject to reordering).
	// On error op's error status is set and it is moved to \|*op_err\|.
	zx_status_t Insert(UniqueOp op, UniqueOp* op_err);

	// Fetch a pointer to an op from the head of the stream.
	// The stream maintains ownership of the op. All fetched op must be returned via ReleaseOp().
	void GetNext(UniqueOp* op_out);

	// Set an op as deferred for later completion.
	void Defer(UniqueOp op);

	// Get an op pending completion.
	void GetDeferred(UniqueOp* op_out);

	// Marks an op obtained via GetNext() or GetDeferred() as complete.
	// Op is not consumed.
	void Complete(StreamOp* op);

	private:
	friend struct KeyTraitsSortById;

	uint32_t id_;
	uint32_t priority_;

	uint32_t flags_ = 0;
	StreamOp::OpList ready_ops_; // Ops ready to be issued.
	StreamOp::OpList issued_ops_; // Issued ops pending completion.
	StreamOp::DeferredList deferred_ops_; // Ops whose completion has been deferred.
	};

	} // namespace ioscheduler

	#endif // IO_SCHEDULER_STREAM_H_