stressapptest/src/finelock_queue.h

// Copyright 2007 Google Inc. All Rights Reserved.

// 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

//      http://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.

// This page entry queue implementation with fine grain locks aim to ease
// lock contention over previous queue implementation (with one lock protecting
// the entire queue).

#ifndef STRESSAPPTEST_FINELOCK_QUEUE_H_
#define STRESSAPPTEST_FINELOCK_QUEUE_H_

#include <string>

// This file must work with autoconf on its public version,
// so these includes are correct.
#include "sattypes.h"
#include "pattern.h"
#include "queue.h"     // Using page_entry struct.
#include "os.h"

// This is a threadsafe randomized queue of pages with per-page entry lock
// for worker threads to use.
class FineLockPEQueue {
 public:
  FineLockPEQueue(uint64 queuesize, int64 pagesize);
  ~FineLockPEQueue();

  // Put and get functions for page entries.
  bool GetEmpty(struct page_entry *pe);
  bool GetValid(struct page_entry *pe);
  bool PutEmpty(struct page_entry *pe);
  bool PutValid(struct page_entry *pe);

  // Put and get functions for page entries, selecting on tags.
  bool GetEmpty(struct page_entry *pe, int32 tag);
  bool GetValid(struct page_entry *pe, int32 tag);

  bool QueueAnalysis();
  bool GetPageFromPhysical(uint64 paddr, struct page_entry *pe);
  void set_os(OsLayer *os);
  OsLayer::ErrCallback get_err_log_callback();
  bool ErrorLogCallback(uint64 paddr, string *buf);

 private:
  // Not that much blocking random number generator.
  uint64 GetRandom64();
  uint64 GetRandom64FromSlot(int slot);

  // Helper function to check index range, returns true if index is valid.
  bool valid_index(int64 index) {
    return index >= 0 && static_cast<uint64>(index) < q_size_;
  }

  // Returns true if page entry is valid, false otherwise.
  static bool page_is_valid(struct page_entry *pe) {
    return pe->pattern != NULL;
  }
  // Returns true if page entry is empty, false otherwise.
  static bool page_is_empty(struct page_entry *pe) {
    return pe->pattern == NULL;
  }

  // Helper function to get a random page entry with given predicate,
  // ie, page_is_valid() or page_is_empty() as defined above.
  bool GetRandomWithPredicate(struct page_entry *pe,
                              bool (*pred_func)(struct page_entry*));

  // Helper function to get a random page entry with given predicate,
  // ie, page_is_valid() or page_is_empty() as defined above.
  bool GetRandomWithPredicateTag(struct page_entry *pe,
                                 bool (*pred_func)(struct page_entry*),
                                 int32 tag);

  // Used to make a linear congruential path through the queue.
  int64 getA(int64 m);
  int64 getC(int64 m);

  pthread_mutex_t *pagelocks_;  // Per-page-entry locks.
  struct page_entry *pages_;     // Where page entries are held.
  uint64 q_size_;                // Size of the queue.
  int64 page_size_;              // For calculating array index from offset.

  enum {
    kTries = 1,     // Measure the number of attempts in the queue
                    // before getting a matching page.
    kTouch = 2 }    // Measure the number of touches on each page.
    queue_metric_;  // What to measure in the 'tries' field.

  // Progress pseudorandomly through the queue. It's required that we can find
  // every value in the list, but progressing through the same order each time
  // causes bunching of pages, leading to long seach times for the correct
  // type of pages.
  int64 a_;                      // 'a' multiplicative value for progressing
                                 // linear congruentially through the list.
  int64 c_;                      // 'c' additive value for prgressing randomly
                                 // through the list.
  int64 modlength_;              // 'm' mod value for linear congruential
                                 // generator. Used when q_size_ doesn't
                                 // generate a good progression through the
                                 // list.

  uint64 rand_seed_[4];          // Random number state for 4 generators.
  pthread_mutex_t randlocks_[4];  // Per-random-generator locks.

  DISALLOW_COPY_AND_ASSIGN(FineLockPEQueue);
};

#endif  // STRESSAPPTEST_FINELOCK_QUEUE_H_