Reorganize net/disk_cache into backend specific directories.

net/disk_cache/rankings.cc

-// Copyright (c) 2012 The Chromium Authors. All rights reserved.
-// Use of this source code is governed by a BSD-style license that can be
-// found in the LICENSE file.
-
-#include "net/disk_cache/rankings.h"
-
-#include "base/metrics/histogram.h"
-#include "net/disk_cache/backend_impl.h"
-#include "net/disk_cache/disk_format.h"
-#include "net/disk_cache/entry_impl.h"
-#include "net/disk_cache/errors.h"
-#include "net/disk_cache/histogram_macros.h"
-#include "net/disk_cache/stress_support.h"
-
-using base::Time;
-using base::TimeTicks;
-
-namespace disk_cache {
-// This is used by crash_cache.exe to generate unit test files.
-NET_EXPORT_PRIVATE RankCrashes g_rankings_crash = NO_CRASH;
-}
-
-namespace {
-
-enum Operation {
-  INSERT = 1,
-  REMOVE
-};
-
-// This class provides a simple lock for the LRU list of rankings. Whenever an
-// entry is to be inserted or removed from the list, a transaction object should
-// be created to keep track of the operation. If the process crashes before
-// finishing the operation, the transaction record (stored as part of the user
-// data on the file header) can be used to finish the operation.
-class Transaction {
- public:
-  // addr is the cache addres of the node being inserted or removed. We want to
-  // avoid having the compiler doing optimizations on when to read or write
-  // from user_data because it is the basis of the crash detection. Maybe
-  // volatile is not enough for that, but it should be a good hint.
-  Transaction(volatile disk_cache::LruData* data, disk_cache::Addr addr,
-              Operation op, int list);
-  ~Transaction();
- private:
-  volatile disk_cache::LruData* data_;
-  DISALLOW_COPY_AND_ASSIGN(Transaction);
-};
-
-Transaction::Transaction(volatile disk_cache::LruData* data,
-                         disk_cache::Addr addr, Operation op, int list)
-    : data_(data) {
-  DCHECK(!data_->transaction);
-  DCHECK(addr.is_initialized());
-  data_->operation = op;
-  data_->operation_list = list;
-  data_->transaction = addr.value();
-}
-
-Transaction::~Transaction() {
-  DCHECK(data_->transaction);
-  data_->transaction = 0;
-  data_->operation = 0;
-  data_->operation_list = 0;
-}
-
-// Code locations that can generate crashes.
-enum CrashLocation {
-  ON_INSERT_1, ON_INSERT_2, ON_INSERT_3, ON_INSERT_4, ON_REMOVE_1, ON_REMOVE_2,
-  ON_REMOVE_3, ON_REMOVE_4, ON_REMOVE_5, ON_REMOVE_6, ON_REMOVE_7, ON_REMOVE_8
-};
-
-#ifndef NDEBUG
-void TerminateSelf() {
-#if defined(OS_WIN)
-  // Windows does more work on _exit() than we would like, so we force exit.
-  TerminateProcess(GetCurrentProcess(), 0);
-#elif defined(OS_POSIX)
-  // On POSIX, _exit() will terminate the process with minimal cleanup,
-  // and it is cleaner than killing.
-  _exit(0);
-#endif
-}
-#endif  // NDEBUG
-
-// Generates a crash on debug builds, acording to the value of g_rankings_crash.
-// This used by crash_cache.exe to generate unit-test files.
-void GenerateCrash(CrashLocation location) {
-#ifndef NDEBUG
-  if (disk_cache::NO_CRASH == disk_cache::g_rankings_crash)
-    return;
-  switch (location) {
-    case ON_INSERT_1:
-      switch (disk_cache::g_rankings_crash) {
-        case disk_cache::INSERT_ONE_1:
-        case disk_cache::INSERT_LOAD_1:
-          TerminateSelf();
-        default:
-          break;
-      }
-      break;
-    case ON_INSERT_2:
-      if (disk_cache::INSERT_EMPTY_1 == disk_cache::g_rankings_crash)
-        TerminateSelf();
-      break;
-    case ON_INSERT_3:
-      switch (disk_cache::g_rankings_crash) {
-        case disk_cache::INSERT_EMPTY_2:
-        case disk_cache::INSERT_ONE_2:
-        case disk_cache::INSERT_LOAD_2:
-          TerminateSelf();
-        default:
-          break;
-      }
-      break;
-    case ON_INSERT_4:
-      switch (disk_cache::g_rankings_crash) {
-        case disk_cache::INSERT_EMPTY_3:
-        case disk_cache::INSERT_ONE_3:
-          TerminateSelf();
-        default:
-          break;
-      }
-      break;
-    case ON_REMOVE_1:
-      switch (disk_cache::g_rankings_crash) {
-        case disk_cache::REMOVE_ONE_1:
-        case disk_cache::REMOVE_HEAD_1:
-        case disk_cache::REMOVE_TAIL_1:
-        case disk_cache::REMOVE_LOAD_1:
-          TerminateSelf();
-        default:
-          break;
-      }
-      break;
-    case ON_REMOVE_2:
-      if (disk_cache::REMOVE_ONE_2 == disk_cache::g_rankings_crash)
-        TerminateSelf();
-      break;
-    case ON_REMOVE_3:
-      if (disk_cache::REMOVE_ONE_3 == disk_cache::g_rankings_crash)
-        TerminateSelf();
-      break;
-    case ON_REMOVE_4:
-      if (disk_cache::REMOVE_HEAD_2 == disk_cache::g_rankings_crash)
-        TerminateSelf();
-      break;
-    case ON_REMOVE_5:
-      if (disk_cache::REMOVE_TAIL_2 == disk_cache::g_rankings_crash)
-        TerminateSelf();
-      break;
-    case ON_REMOVE_6:
-      if (disk_cache::REMOVE_TAIL_3 == disk_cache::g_rankings_crash)
-        TerminateSelf();
-      break;
-    case ON_REMOVE_7:
-      switch (disk_cache::g_rankings_crash) {
-        case disk_cache::REMOVE_ONE_4:
-        case disk_cache::REMOVE_LOAD_2:
-        case disk_cache::REMOVE_HEAD_3:
-          TerminateSelf();
-        default:
-          break;
-      }
-      break;
-    case ON_REMOVE_8:
-      switch (disk_cache::g_rankings_crash) {
-        case disk_cache::REMOVE_HEAD_4:
-        case disk_cache::REMOVE_LOAD_3:
-          TerminateSelf();
-        default:
-          break;
-      }
-      break;
-    default:
-      NOTREACHED();
-      return;
-  }
-#endif  // NDEBUG
-}
-
-// Update the timestamp fields of |node|.
-void UpdateTimes(disk_cache::CacheRankingsBlock* node, bool modified) {
-  base::Time now = base::Time::Now();
-  node->Data()->last_used = now.ToInternalValue();
-  if (modified)
-    node->Data()->last_modified = now.ToInternalValue();
-}
-
-}  // namespace
-
-namespace disk_cache {
-
-Rankings::ScopedRankingsBlock::ScopedRankingsBlock() : rankings_(NULL) {}
-
-Rankings::ScopedRankingsBlock::ScopedRankingsBlock(Rankings* rankings)
-    : rankings_(rankings) {}
-
-Rankings::ScopedRankingsBlock::ScopedRankingsBlock(
-    Rankings* rankings, CacheRankingsBlock* node)
-    : scoped_ptr<CacheRankingsBlock>(node), rankings_(rankings) {}
-
-Rankings::Iterator::Iterator(Rankings* rankings) {
-  memset(this, 0, sizeof(Iterator));
-  my_rankings = rankings;
-}
-
-Rankings::Iterator::~Iterator() {
-  for (int i = 0; i < 3; i++)
-    ScopedRankingsBlock(my_rankings, nodes[i]);
-}
-
-Rankings::Rankings() : init_(false) {}
-
-Rankings::~Rankings() {}
-
-bool Rankings::Init(BackendImpl* backend, bool count_lists) {
-  DCHECK(!init_);
-  if (init_)
-    return false;
-
-  backend_ = backend;
-  control_data_ = backend_->GetLruData();
-  count_lists_ = count_lists;
-
-  ReadHeads();
-  ReadTails();
-
-  if (control_data_->transaction)
-    CompleteTransaction();
-
-  init_ = true;
-  return true;
-}
-
-void Rankings::Reset() {
-  init_ = false;
-  for (int i = 0; i < LAST_ELEMENT; i++) {
-    heads_[i].set_value(0);
-    tails_[i].set_value(0);
-  }
-  control_data_ = NULL;
-}
-
-void Rankings::Insert(CacheRankingsBlock* node, bool modified, List list) {
-  Trace("Insert 0x%x l %d", node->address().value(), list);
-  DCHECK(node->HasData());
-  Addr& my_head = heads_[list];
-  Addr& my_tail = tails_[list];
-  Transaction lock(control_data_, node->address(), INSERT, list);
-  CacheRankingsBlock head(backend_->File(my_head), my_head);
-  if (my_head.is_initialized()) {
-    if (!GetRanking(&head))
-      return;
-
-    if (head.Data()->prev != my_head.value() &&  // Normal path.
-        head.Data()->prev != node->address().value()) {  // FinishInsert().
-      backend_->CriticalError(ERR_INVALID_LINKS);
-      return;
-    }
-
-    head.Data()->prev = node->address().value();
-    head.Store();
-    GenerateCrash(ON_INSERT_1);
-    UpdateIterators(&head);
-  }
-
-  node->Data()->next = my_head.value();
-  node->Data()->prev = node->address().value();
-  my_head.set_value(node->address().value());
-
-  if (!my_tail.is_initialized() || my_tail.value() == node->address().value()) {
-    my_tail.set_value(node->address().value());
-    node->Data()->next = my_tail.value();
-    WriteTail(list);
-    GenerateCrash(ON_INSERT_2);
-  }
-
-  UpdateTimes(node, modified);
-  node->Store();
-  GenerateCrash(ON_INSERT_3);
-
-  // The last thing to do is move our head to point to a node already stored.
-  WriteHead(list);
-  IncrementCounter(list);
-  GenerateCrash(ON_INSERT_4);
-  backend_->FlushIndex();
-}
-
-// If a, b and r are elements on the list, and we want to remove r, the possible
-// states for the objects if a crash happens are (where y(x, z) means for object
-// y, prev is x and next is z):
-// A. One element:
-//    1. r(r, r), head(r), tail(r)                    initial state
-//    2. r(r, r), head(0), tail(r)                    WriteHead()
-//    3. r(r, r), head(0), tail(0)                    WriteTail()
-//    4. r(0, 0), head(0), tail(0)                    next.Store()
-//
-// B. Remove a random element:
-//    1. a(x, r), r(a, b), b(r, y), head(x), tail(y)  initial state
-//    2. a(x, r), r(a, b), b(a, y), head(x), tail(y)  next.Store()
-//    3. a(x, b), r(a, b), b(a, y), head(x), tail(y)  prev.Store()
-//    4. a(x, b), r(0, 0), b(a, y), head(x), tail(y)  node.Store()
-//
-// C. Remove head:
-//    1. r(r, b), b(r, y), head(r), tail(y)           initial state
-//    2. r(r, b), b(r, y), head(b), tail(y)           WriteHead()
-//    3. r(r, b), b(b, y), head(b), tail(y)           next.Store()
-//    4. r(0, 0), b(b, y), head(b), tail(y)           prev.Store()
-//
-// D. Remove tail:
-//    1. a(x, r), r(a, r), head(x), tail(r)           initial state
-//    2. a(x, r), r(a, r), head(x), tail(a)           WriteTail()
-//    3. a(x, a), r(a, r), head(x), tail(a)           prev.Store()
-//    4. a(x, a), r(0, 0), head(x), tail(a)           next.Store()
-void Rankings::Remove(CacheRankingsBlock* node, List list, bool strict) {
-  Trace("Remove 0x%x (0x%x 0x%x) l %d", node->address().value(),
-        node->Data()->next, node->Data()->prev, list);
-  DCHECK(node->HasData());
-  if (strict)
-    InvalidateIterators(node);
-
-  Addr next_addr(node->Data()->next);
-  Addr prev_addr(node->Data()->prev);
-  if (!next_addr.is_initialized() || next_addr.is_separate_file() ||
-      !prev_addr.is_initialized() || prev_addr.is_separate_file()) {
-    if (next_addr.is_initialized() || prev_addr.is_initialized()) {
-      LOG(ERROR) << "Invalid rankings info.";
-      STRESS_NOTREACHED();
-    }
-    return;
-  }
-
-  CacheRankingsBlock next(backend_->File(next_addr), next_addr);
-  CacheRankingsBlock prev(backend_->File(prev_addr), prev_addr);
-  if (!GetRanking(&next) || !GetRanking(&prev)) {
-    STRESS_NOTREACHED();
-    return;
-  }
-
-  if (!CheckLinks(node, &prev, &next, &list))
-    return;
-
-  Transaction lock(control_data_, node->address(), REMOVE, list);
-  prev.Data()->next = next.address().value();
-  next.Data()->prev = prev.address().value();
-  GenerateCrash(ON_REMOVE_1);
-
-  CacheAddr node_value = node->address().value();
-  Addr& my_head = heads_[list];
-  Addr& my_tail = tails_[list];
-  if (node_value == my_head.value() || node_value == my_tail.value()) {
-    if (my_head.value() == my_tail.value()) {
-      my_head.set_value(0);
-      my_tail.set_value(0);
-
-      WriteHead(list);
-      GenerateCrash(ON_REMOVE_2);
-      WriteTail(list);
-      GenerateCrash(ON_REMOVE_3);
-    } else if (node_value == my_head.value()) {
-      my_head.set_value(next.address().value());
-      next.Data()->prev = next.address().value();
-
-      WriteHead(list);
-      GenerateCrash(ON_REMOVE_4);
-    } else if (node_value == my_tail.value()) {
-      my_tail.set_value(prev.address().value());
-      prev.Data()->next = prev.address().value();
-
-      WriteTail(list);
-      GenerateCrash(ON_REMOVE_5);
-
-      // Store the new tail to make sure we can undo the operation if we crash.
-      prev.Store();
-      GenerateCrash(ON_REMOVE_6);
-    }
-  }
-
-  // Nodes out of the list can be identified by invalid pointers.
-  node->Data()->next = 0;
-  node->Data()->prev = 0;
-
-  // The last thing to get to disk is the node itself, so before that there is
-  // enough info to recover.
-  next.Store();
-  GenerateCrash(ON_REMOVE_7);
-  prev.Store();
-  GenerateCrash(ON_REMOVE_8);
-  node->Store();
-  DecrementCounter(list);
-  UpdateIterators(&next);
-  UpdateIterators(&prev);
-  backend_->FlushIndex();
-}
-
-// A crash in between Remove and Insert will lead to a dirty entry not on the
-// list. We want to avoid that case as much as we can (as while waiting for IO),
-// but the net effect is just an assert on debug when attempting to remove the
-// entry. Otherwise we'll need reentrant transactions, which is an overkill.
-void Rankings::UpdateRank(CacheRankingsBlock* node, bool modified, List list) {
-  Addr& my_head = heads_[list];
-  if (my_head.value() == node->address().value()) {
-    UpdateTimes(node, modified);
-    node->set_modified();
-    return;
-  }
-
-  TimeTicks start = TimeTicks::Now();
-  Remove(node, list, true);
-  Insert(node, modified, list);
-  CACHE_UMA(AGE_MS, "UpdateRank", 0, start);
-}
-
-CacheRankingsBlock* Rankings::GetNext(CacheRankingsBlock* node, List list) {
-  ScopedRankingsBlock next(this);
-  if (!node) {
-    Addr& my_head = heads_[list];
-    if (!my_head.is_initialized())
-      return NULL;
-    next.reset(new CacheRankingsBlock(backend_->File(my_head), my_head));
-  } else {
-    if (!node->HasData())
-      node->Load();
-    Addr& my_tail = tails_[list];
-    if (!my_tail.is_initialized())
-      return NULL;
-    if (my_tail.value() == node->address().value())
-      return NULL;
-    Addr address(node->Data()->next);
-    if (address.value() == node->address().value())
-      return NULL;  // Another tail? fail it.
-    next.reset(new CacheRankingsBlock(backend_->File(address), address));
-  }
-
-  TrackRankingsBlock(next.get(), true);
-
-  if (!GetRanking(next.get()))
-    return NULL;
-
-  ConvertToLongLived(next.get());
-  if (node && !CheckSingleLink(node, next.get()))
-    return NULL;
-
-  return next.release();
-}
-
-CacheRankingsBlock* Rankings::GetPrev(CacheRankingsBlock* node, List list) {
-  ScopedRankingsBlock prev(this);
-  if (!node) {
-    Addr& my_tail = tails_[list];
-    if (!my_tail.is_initialized())
-      return NULL;
-    prev.reset(new CacheRankingsBlock(backend_->File(my_tail), my_tail));
-  } else {
-    if (!node->HasData())
-      node->Load();
-    Addr& my_head = heads_[list];
-    if (!my_head.is_initialized())
-      return NULL;
-    if (my_head.value() == node->address().value())
-      return NULL;
-    Addr address(node->Data()->prev);
-    if (address.value() == node->address().value())
-      return NULL;  // Another head? fail it.
-    prev.reset(new CacheRankingsBlock(backend_->File(address), address));
-  }
-
-  TrackRankingsBlock(prev.get(), true);
-
-  if (!GetRanking(prev.get()))
-    return NULL;
-
-  ConvertToLongLived(prev.get());
-  if (node && !CheckSingleLink(prev.get(), node))
-    return NULL;
-
-  return prev.release();
-}
-
-void Rankings::FreeRankingsBlock(CacheRankingsBlock* node) {
-  TrackRankingsBlock(node, false);
-}
-
-void Rankings::TrackRankingsBlock(CacheRankingsBlock* node,
-                                  bool start_tracking) {
-  if (!node)
-    return;
-
-  IteratorPair current(node->address().value(), node);
-
-  if (start_tracking)
-    iterators_.push_back(current);
-  else
-    iterators_.remove(current);
-}
-
-int Rankings::SelfCheck() {
-  int total = 0;
-  int error = 0;
-  for (int i = 0; i < LAST_ELEMENT; i++) {
-    int partial = CheckList(static_cast<List>(i));
-    if (partial < 0 && !error)
-      error = partial;
-    else if (partial > 0)
-      total += partial;
-  }
-
-  return error ? error : total;
-}
-
-bool Rankings::SanityCheck(CacheRankingsBlock* node, bool from_list) const {
-  if (!node->VerifyHash())
-    return false;
-
-  const RankingsNode* data = node->Data();
-
-  if ((!data->next && data->prev) || (data->next && !data->prev))
-    return false;
-
-  // Both pointers on zero is a node out of the list.
-  if (!data->next && !data->prev && from_list)
-    return false;
-
-  List list = NO_USE;  // Initialize it to something.
-  if ((node->address().value() == data->prev) && !IsHead(data->prev, &list))
-    return false;
-
-  if ((node->address().value() == data->next) && !IsTail(data->next, &list))
-    return false;
-
-  if (!data->next && !data->prev)
-    return true;
-
-  Addr next_addr(data->next);
-  Addr prev_addr(data->prev);
-  if (!next_addr.SanityCheckV2() || next_addr.file_type() != RANKINGS ||
-      !prev_addr.SanityCheckV2() || prev_addr.file_type() != RANKINGS)
-    return false;
-
-  return true;
-}
-
-bool Rankings::DataSanityCheck(CacheRankingsBlock* node, bool from_list) const {
-  const RankingsNode* data = node->Data();
-  if (!data->contents)
-    return false;
-
-  // It may have never been inserted.
-  if (from_list && (!data->last_used || !data->last_modified))
-    return false;
-
-  return true;
-}
-
-void Rankings::SetContents(CacheRankingsBlock* node, CacheAddr address) {
-  node->Data()->contents = address;
-  node->Store();
-}
-
-void Rankings::ReadHeads() {
-  for (int i = 0; i < LAST_ELEMENT; i++)
-    heads_[i] = Addr(control_data_->heads[i]);
-}
-
-void Rankings::ReadTails() {
-  for (int i = 0; i < LAST_ELEMENT; i++)
-    tails_[i] = Addr(control_data_->tails[i]);
-}
-
-void Rankings::WriteHead(List list) {
-  control_data_->heads[list] = heads_[list].value();
-}
-
-void Rankings::WriteTail(List list) {
-  control_data_->tails[list] = tails_[list].value();
-}
-
-bool Rankings::GetRanking(CacheRankingsBlock* rankings) {
-  if (!rankings->address().is_initialized())
-    return false;
-
-  TimeTicks start = TimeTicks::Now();
-  if (!rankings->Load())
-    return false;
-
-  if (!SanityCheck(rankings, true)) {
-    backend_->CriticalError(ERR_INVALID_LINKS);
-    return false;
-  }
-
-  backend_->OnEvent(Stats::OPEN_RANKINGS);
-
-  // Note that if the cache is in read_only mode, open entries are not marked
-  // as dirty, except when an entry is doomed. We have to look for open entries.
-  if (!backend_->read_only() && !rankings->Data()->dirty)
-    return true;
-
-  EntryImpl* entry = backend_->GetOpenEntry(rankings);
-  if (!entry) {
-    if (backend_->read_only())
-      return true;
-
-    // We cannot trust this entry, but we cannot initiate a cleanup from this
-    // point (we may be in the middle of a cleanup already). The entry will be
-    // deleted when detected from a regular open/create path.
-    rankings->Data()->dirty = backend_->GetCurrentEntryId() - 1;
-    if (!rankings->Data()->dirty)
-      rankings->Data()->dirty--;
-    return true;
-  }
-
-  // Note that we should not leave this module without deleting rankings first.
-  rankings->SetData(entry->rankings()->Data());
-
-  CACHE_UMA(AGE_MS, "GetRankings", 0, start);
-  return true;
-}
-
-void Rankings::ConvertToLongLived(CacheRankingsBlock* rankings) {
-  if (rankings->own_data())
-    return;
-
-  // We cannot return a shared node because we are not keeping a reference
-  // to the entry that owns the buffer. Make this node a copy of the one that
-  // we have, and let the iterator logic update it when the entry changes.
-  CacheRankingsBlock temp(NULL, Addr(0));
-  *temp.Data() = *rankings->Data();
-  rankings->StopSharingData();
-  *rankings->Data() = *temp.Data();
-}
-
-void Rankings::CompleteTransaction() {
-  Addr node_addr(static_cast<CacheAddr>(control_data_->transaction));
-  if (!node_addr.is_initialized() || node_addr.is_separate_file()) {
-    NOTREACHED();
-    LOG(ERROR) << "Invalid rankings info.";
-    return;
-  }
-
-  Trace("CompleteTransaction 0x%x", node_addr.value());
-
-  CacheRankingsBlock node(backend_->File(node_addr), node_addr);
-  if (!node.Load())
-    return;
-
-  node.Store();
-
-  Addr& my_head = heads_[control_data_->operation_list];
-  Addr& my_tail = tails_[control_data_->operation_list];
-
-  // We want to leave the node inside the list. The entry must me marked as
-  // dirty, and will be removed later. Otherwise, we'll get assertions when
-  // attempting to remove the dirty entry.
-  if (INSERT == control_data_->operation) {
-    Trace("FinishInsert h:0x%x t:0x%x", my_head.value(), my_tail.value());
-    FinishInsert(&node);
-  } else if (REMOVE == control_data_->operation) {
-    Trace("RevertRemove h:0x%x t:0x%x", my_head.value(), my_tail.value());
-    RevertRemove(&node);
-  } else {
-    NOTREACHED();
-    LOG(ERROR) << "Invalid operation to recover.";
-  }
-}
-
-void Rankings::FinishInsert(CacheRankingsBlock* node) {
-  control_data_->transaction = 0;
-  control_data_->operation = 0;
-  Addr& my_head = heads_[control_data_->operation_list];
-  Addr& my_tail = tails_[control_data_->operation_list];
-  if (my_head.value() != node->address().value()) {
-    if (my_tail.value() == node->address().value()) {
-      // This part will be skipped by the logic of Insert.
-      node->Data()->next = my_tail.value();
-    }
-
-    Insert(node, true, static_cast<List>(control_data_->operation_list));
-  }
-
-  // Tell the backend about this entry.
-  backend_->RecoveredEntry(node);
-}
-
-void Rankings::RevertRemove(CacheRankingsBlock* node) {
-  Addr next_addr(node->Data()->next);
-  Addr prev_addr(node->Data()->prev);
-  if (!next_addr.is_initialized() || !prev_addr.is_initialized()) {
-    // The operation actually finished. Nothing to do.
-    control_data_->transaction = 0;
-    return;
-  }
-  if (next_addr.is_separate_file() || prev_addr.is_separate_file()) {
-    NOTREACHED();
-    LOG(WARNING) << "Invalid rankings info.";
-    control_data_->transaction = 0;
-    return;
-  }
-
-  CacheRankingsBlock next(backend_->File(next_addr), next_addr);
-  CacheRankingsBlock prev(backend_->File(prev_addr), prev_addr);
-  if (!next.Load() || !prev.Load())
-    return;
-
-  CacheAddr node_value = node->address().value();
-  DCHECK(prev.Data()->next == node_value ||
-         prev.Data()->next == prev_addr.value() ||
-         prev.Data()->next == next.address().value());
-  DCHECK(next.Data()->prev == node_value ||
-         next.Data()->prev == next_addr.value() ||
-         next.Data()->prev == prev.address().value());
-
-  if (node_value != prev_addr.value())
-    prev.Data()->next = node_value;
-  if (node_value != next_addr.value())
-    next.Data()->prev = node_value;
-
-  List my_list = static_cast<List>(control_data_->operation_list);
-  Addr& my_head = heads_[my_list];
-  Addr& my_tail = tails_[my_list];
-  if (!my_head.is_initialized() || !my_tail.is_initialized()) {
-    my_head.set_value(node_value);
-    my_tail.set_value(node_value);
-    WriteHead(my_list);
-    WriteTail(my_list);
-  } else if (my_head.value() == next.address().value()) {
-    my_head.set_value(node_value);
-    prev.Data()->next = next.address().value();
-    WriteHead(my_list);
-  } else if (my_tail.value() == prev.address().value()) {
-    my_tail.set_value(node_value);
-    next.Data()->prev = prev.address().value();
-    WriteTail(my_list);
-  }
-
-  next.Store();
-  prev.Store();
-  control_data_->transaction = 0;
-  control_data_->operation = 0;
-  backend_->FlushIndex();
-}
-
-bool Rankings::CheckLinks(CacheRankingsBlock* node, CacheRankingsBlock* prev,
-                          CacheRankingsBlock* next, List* list) {
-  CacheAddr node_addr = node->address().value();
-  if (prev->Data()->next == node_addr &&
-      next->Data()->prev == node_addr) {
-    // A regular linked node.
-    return true;
-  }
-
-  Trace("CheckLinks 0x%x (0x%x 0x%x)", node_addr,
-        prev->Data()->next, next->Data()->prev);
-
-  if (node_addr != prev->address().value() &&
-      node_addr != next->address().value() &&
-      prev->Data()->next == next->address().value() &&
-      next->Data()->prev == prev->address().value()) {
-    // The list is actually ok, node is wrong.
-    Trace("node 0x%x out of list %d", node_addr, list);
-    node->Data()->next = 0;
-    node->Data()->prev = 0;
-    node->Store();
-    return false;
-  }
-
-  if (prev->Data()->next == node_addr ||
-      next->Data()->prev == node_addr) {
-    // Only one link is weird, lets double check.
-    if (prev->Data()->next != node_addr && IsHead(node_addr, list))
-      return true;
-
-    if (next->Data()->prev != node_addr && IsTail(node_addr, list))
-      return true;
-  }
-
-  LOG(ERROR) << "Inconsistent LRU.";
-  STRESS_NOTREACHED();
-
-  backend_->CriticalError(ERR_INVALID_LINKS);
-  return false;
-}
-
-bool Rankings::CheckSingleLink(CacheRankingsBlock* prev,
-                               CacheRankingsBlock* next) {
-  if (prev->Data()->next != next->address().value() ||
-      next->Data()->prev != prev->address().value()) {
-    LOG(ERROR) << "Inconsistent LRU.";
-
-    backend_->CriticalError(ERR_INVALID_LINKS);
-    return false;
-  }
-
-  return true;
-}
-
-int Rankings::CheckList(List list) {
-  Addr last1, last2;
-  int head_items;
-  int rv = CheckListSection(list, last1, last2, true,  // Head to tail.
-                            &last1, &last2, &head_items);
-  if (rv == ERR_NO_ERROR)
-    return head_items;
-
-  return rv;
-}
-
-// Note that the returned error codes assume a forward walk (from head to tail)
-// so they have to be adjusted accordingly by the caller. We use two stop values
-// to be able to detect a corrupt node at the end that is not linked going back.
-int Rankings::CheckListSection(List list, Addr end1, Addr end2, bool forward,
-                               Addr* last, Addr* second_last, int* num_items) {
-  Addr current = forward ? heads_[list] : tails_[list];
-  *last = *second_last = current;
-  *num_items = 0;
-  if (!current.is_initialized())
-    return ERR_NO_ERROR;
-
-  if (!current.SanityCheckForRankings())
-    return ERR_INVALID_HEAD;
-
-  scoped_ptr<CacheRankingsBlock> node;
-  Addr prev_addr(current);
-  do {
-    node.reset(new CacheRankingsBlock(backend_->File(current), current));
-    node->Load();
-    if (!SanityCheck(node.get(), true))
-      return ERR_INVALID_ENTRY;
-
-    CacheAddr next = forward ? node->Data()->next : node->Data()->prev;
-    CacheAddr prev = forward ? node->Data()->prev : node->Data()->next;
-
-    if (prev != prev_addr.value())
-      return ERR_INVALID_PREV;
-
-    Addr next_addr(next);
-    if (!next_addr.SanityCheckForRankings())
-      return ERR_INVALID_NEXT;
-
-    prev_addr = current;
-    current = next_addr;
-    *second_last = *last;
-    *last = current;
-    (*num_items)++;
-
-    if (next_addr == prev_addr) {
-      Addr last = forward ? tails_[list] : heads_[list];
-      if (next_addr == last)
-        return ERR_NO_ERROR;
-      return ERR_INVALID_TAIL;
-    }
-  } while (current != end1 && current != end2);
-  return ERR_NO_ERROR;
-}
-
-bool Rankings::IsHead(CacheAddr addr, List* list) const {
-  for (int i = 0; i < LAST_ELEMENT; i++) {
-    if (addr == heads_[i].value()) {
-      if (*list != i)
-        Trace("Changing list %d to %d", *list, i);
-      *list = static_cast<List>(i);
-      return true;
-    }
-  }
-  return false;
-}
-
-bool Rankings::IsTail(CacheAddr addr, List* list) const {
-  for (int i = 0; i < LAST_ELEMENT; i++) {
-    if (addr == tails_[i].value()) {
-      if (*list != i)
-        Trace("Changing list %d to %d", *list, i);
-      *list = static_cast<List>(i);
-      return true;
-    }
-  }
-  return false;
-}
-
-// We expect to have just a few iterators at any given time, maybe two or three,
-// But we could have more than one pointing at the same mode. We walk the list
-// of cache iterators and update all that are pointing to the given node.
-void Rankings::UpdateIterators(CacheRankingsBlock* node) {
-  CacheAddr address = node->address().value();
-  for (IteratorList::iterator it = iterators_.begin(); it != iterators_.end();
-       ++it) {
-    if (it->first == address && it->second->HasData()) {
-      CacheRankingsBlock* other = it->second;
-      *other->Data() = *node->Data();
-    }
-  }
-}
-
-void Rankings::InvalidateIterators(CacheRankingsBlock* node) {
-  CacheAddr address = node->address().value();
-  for (IteratorList::iterator it = iterators_.begin(); it != iterators_.end();
-       ++it) {
-    if (it->first == address) {
-      DLOG(INFO) << "Invalidating iterator at 0x" << std::hex << address;
-      it->second->Discard();
-    }
-  }
-}
-
-void Rankings::IncrementCounter(List list) {
-  if (!count_lists_)
-    return;
-
-  DCHECK(control_data_->sizes[list] < kint32max);
-  if (control_data_->sizes[list] < kint32max)
-    control_data_->sizes[list]++;
-}
-
-void Rankings::DecrementCounter(List list) {
-  if (!count_lists_)
-    return;
-
-  DCHECK(control_data_->sizes[list] > 0);
-  if (control_data_->sizes[list] > 0)
-    control_data_->sizes[list]--;
-}
-
-}  // namespace disk_cache