diff --git a/ipc/chromium/moz.build b/ipc/chromium/moz.build index 4d91630e368e..a6e5afde8d02 100644 --- a/ipc/chromium/moz.build +++ b/ipc/chromium/moz.build @@ -56,7 +56,6 @@ UNIFIED_SOURCES += [ 'src/base/revocable_store.cc', 'src/base/scoped_temp_dir.cc', 'src/base/simple_thread.cc', - 'src/base/stats_table.cc', 'src/base/string_piece.cc', 'src/base/string_util.cc', 'src/base/system_monitor.cc', diff --git a/ipc/chromium/src/base/stats_counters.h b/ipc/chromium/src/base/stats_counters.h deleted file mode 100644 index 2ebdf77a5996..000000000000 --- a/ipc/chromium/src/base/stats_counters.h +++ /dev/null @@ -1,257 +0,0 @@ -// Copyright (c) 2006-2008 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. - - -#ifndef BASE_STATS_COUNTERS_H__ -#define BASE_STATS_COUNTERS_H__ - -#include -#include "base/stats_table.h" -#include "base/time.h" - -// StatsCounters are dynamically created values which can be tracked in -// the StatsTable. They are designed to be lightweight to create and -// easy to use. -// -// Since StatsCounters can be created dynamically by name, there is -// a hash table lookup to find the counter in the table. A StatsCounter -// object can be created once and used across multiple threads safely. -// -// Example usage: -// { -// StatsCounter request_count("RequestCount"); -// request_count.Increment(); -// } -// -// Note that creating counters on the stack does work, however creating -// the counter object requires a hash table lookup. For inner loops, it -// may be better to create the counter either as a member of another object -// (or otherwise outside of the loop) for maximum performance. -// -// Internally, a counter represents a value in a row of a StatsTable. -// The row has a 32bit value for each process/thread in the table and also -// a name (stored in the table metadata). -// -// NOTE: In order to make stats_counters usable in lots of different code, -// avoid any dependencies inside this header file. -// - -//------------------------------------------------------------------------------ -// Define macros for ease of use. They also allow us to change definitions -// as the implementation varies, or depending on compile options. -//------------------------------------------------------------------------------ -// First provide generic macros, which exist in production as well as debug. -#define STATS_COUNTER(name, delta) do { \ - static StatsCounter counter(name); \ - counter.Add(delta); \ -} while (0) - -#define SIMPLE_STATS_COUNTER(name) STATS_COUNTER(name, 1) - -#define RATE_COUNTER(name, duration) do { \ - static StatsRate hit_count(name); \ - hit_count.AddTime(duration); \ -} while (0) - -// Define Debug vs non-debug flavors of macros. -#ifndef NDEBUG - -#define DSTATS_COUNTER(name, delta) STATS_COUNTER(name, delta) -#define DSIMPLE_STATS_COUNTER(name) SIMPLE_STATS_COUNTER(name) -#define DRATE_COUNTER(name, duration) RATE_COUNTER(name, duration) - -#else // NDEBUG - -#define DSTATS_COUNTER(name, delta) do {} while (0) -#define DSIMPLE_STATS_COUNTER(name) do {} while (0) -#define DRATE_COUNTER(name, duration) do {} while (0) - -#endif // NDEBUG - -//------------------------------------------------------------------------------ -// StatsCounter represents a counter in the StatsTable class. -class StatsCounter { - public: - // Create a StatsCounter object. - explicit StatsCounter(const std::string& name) - : counter_id_(-1) { - // We prepend the name with 'c:' to indicate that it is a counter. - name_ = "c:"; - name_.append(name); - }; - - virtual ~StatsCounter() {} - - // Sets the counter to a specific value. - void Set(int value) { - int* loc = GetPtr(); - if (loc) *loc = value; - } - - // Increments the counter. - void Increment() { - Add(1); - } - - virtual void Add(int value) { - int* loc = GetPtr(); - if (loc) - (*loc) += value; - } - - // Decrements the counter. - void Decrement() { - Add(-1); - } - - void Subtract(int value) { - Add(-value); - } - - // Is this counter enabled? - // Returns false if table is full. - bool Enabled() { - return GetPtr() != NULL; - } - - int value() { - int* loc = GetPtr(); - if (loc) return *loc; - return 0; - } - - protected: - StatsCounter() - : counter_id_(-1) { - } - - // Returns the cached address of this counter location. - int* GetPtr() { - StatsTable* table = StatsTable::current(); - if (!table) - return NULL; - - // If counter_id_ is -1, then we haven't looked it up yet. - if (counter_id_ == -1) { - counter_id_ = table->FindCounter(name_); - if (table->GetSlot() == 0) { - if (!table->RegisterThread("")) { - // There is no room for this thread. This thread - // cannot use counters. - counter_id_ = 0; - return NULL; - } - } - } - - // If counter_id_ is > 0, then we have a valid counter. - if (counter_id_ > 0) - return table->GetLocation(counter_id_, table->GetSlot()); - - // counter_id_ was zero, which means the table is full. - return NULL; - } - - std::string name_; - // The counter id in the table. We initialize to -1 (an invalid value) - // and then cache it once it has been looked up. The counter_id is - // valid across all threads and processes. - int32_t counter_id_; -}; - - -// A StatsCounterTimer is a StatsCounter which keeps a timer during -// the scope of the StatsCounterTimer. On destruction, it will record -// its time measurement. -class StatsCounterTimer : protected StatsCounter { - public: - // Constructs and starts the timer. - explicit StatsCounterTimer(const std::string& name) { - // we prepend the name with 't:' to indicate that it is a timer. - name_ = "t:"; - name_.append(name); - } - - // Start the timer. - void Start() { - if (!Enabled()) - return; - start_time_ = base::TimeTicks::Now(); - stop_time_ = base::TimeTicks(); - } - - // Stop the timer and record the results. - void Stop() { - if (!Enabled() || !Running()) - return; - stop_time_ = base::TimeTicks::Now(); - Record(); - } - - // Returns true if the timer is running. - bool Running() { - return Enabled() && !start_time_.is_null() && stop_time_.is_null(); - } - - // Accept a TimeDelta to increment. - virtual void AddTime(base::TimeDelta time) { - Add(static_cast(time.InMilliseconds())); - } - - protected: - // Compute the delta between start and stop, in milliseconds. - void Record() { - AddTime(stop_time_ - start_time_); - } - - base::TimeTicks start_time_; - base::TimeTicks stop_time_; -}; - -// A StatsRate is a timer that keeps a count of the number of intervals added so -// that several statistics can be produced: -// min, max, avg, count, total -class StatsRate : public StatsCounterTimer { - public: - // Constructs and starts the timer. - explicit StatsRate(const char* name) - : StatsCounterTimer(name), - counter_(name), - largest_add_(std::string(" ").append(name).append("MAX").c_str()) { - } - - virtual void Add(int value) { - counter_.Increment(); - StatsCounterTimer::Add(value); - if (value > largest_add_.value()) - largest_add_.Set(value); - } - - private: - StatsCounter counter_; - StatsCounter largest_add_; -}; - - -// Helper class for scoping a timer or rate. -template class StatsScope { - public: - explicit StatsScope(T& timer) - : timer_(timer) { - timer_.Start(); - } - - ~StatsScope() { - timer_.Stop(); - } - - void Stop() { - timer_.Stop(); - } - - private: - T& timer_; -}; - -#endif // BASE_STATS_COUNTERS_H__ diff --git a/ipc/chromium/src/base/stats_table.cc b/ipc/chromium/src/base/stats_table.cc deleted file mode 100644 index 58eca7b2e401..000000000000 --- a/ipc/chromium/src/base/stats_table.cc +++ /dev/null @@ -1,559 +0,0 @@ -// Copyright (c) 2006-2008 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 "base/stats_table.h" - -#include "base/logging.h" -#include "base/platform_thread.h" -#include "base/process_util.h" -#include "base/scoped_ptr.h" -#include "base/shared_memory.h" -#include "base/string_piece.h" -#include "base/string_util.h" -#include "base/sys_string_conversions.h" -#include "base/thread_local_storage.h" - -#if defined(OS_POSIX) -#include "errno.h" -#endif - -// The StatsTable uses a shared memory segment that is laid out as follows -// -// +-------------------------------------------+ -// | Version | Size | MaxCounters | MaxThreads | -// +-------------------------------------------+ -// | Thread names table | -// +-------------------------------------------+ -// | Thread TID table | -// +-------------------------------------------+ -// | Thread PID table | -// +-------------------------------------------+ -// | Counter names table | -// +-------------------------------------------+ -// | Data | -// +-------------------------------------------+ -// -// The data layout is a grid, where the columns are the thread_ids and the -// rows are the counter_ids. -// -// If the first character of the thread_name is '\0', then that column is -// empty. -// If the first character of the counter_name is '\0', then that row is -// empty. -// -// About Locking: -// This class is designed to be both multi-thread and multi-process safe. -// Aside from initialization, this is done by partitioning the data which -// each thread uses so that no locking is required. However, to allocate -// the rows and columns of the table to particular threads, locking is -// required. -// -// At the shared-memory level, we have a lock. This lock protects the -// shared-memory table only, and is used when we create new counters (e.g. -// use rows) or when we register new threads (e.g. use columns). Reading -// data from the table does not require any locking at the shared memory -// level. -// -// Each process which accesses the table will create a StatsTable object. -// The StatsTable maintains a hash table of the existing counters in the -// table for faster lookup. Since the hash table is process specific, -// each process maintains its own cache. We avoid complexity here by never -// de-allocating from the hash table. (Counters are dynamically added, -// but not dynamically removed). - -// In order for external viewers to be able to read our shared memory, -// we all need to use the same size ints. -COMPILE_ASSERT(sizeof(int)==4, expect_4_byte_ints); - -namespace { - -// An internal version in case we ever change the format of this -// file, and so that we can identify our table. -const int kTableVersion = 0x13131313; - -// The name for un-named counters and threads in the table. -const char kUnknownName[] = ""; - -// Calculates delta to align an offset to the size of an int -inline int AlignOffset(int offset) { - return (sizeof(int) - (offset % sizeof(int))) % sizeof(int); -} - -inline int AlignedSize(int size) { - return size + AlignOffset(size); -} - -// StatsTableTLSData carries the data stored in the TLS slots for the -// StatsTable. This is used so that we can properly cleanup when the -// thread exits and return the table slot. -// -// Each thread that calls RegisterThread in the StatsTable will have -// a StatsTableTLSData stored in its TLS. -struct StatsTableTLSData { - StatsTable* table; - int slot; -}; - -} // namespace - -// The StatsTablePrivate maintains convenience pointers into the -// shared memory segment. Use this class to keep the data structure -// clean and accessible. -class StatsTablePrivate { - public: - // Various header information contained in the memory mapped segment. - struct TableHeader { - int version; - int size; - int max_counters; - int max_threads; - }; - - // Construct a new StatsTablePrivate based on expected size parameters, or - // return NULL on failure. - static StatsTablePrivate* New(const std::string& name, int size, - int max_threads, int max_counters); - - base::SharedMemory* shared_memory() { return &shared_memory_; } - - // Accessors for our header pointers - TableHeader* table_header() const { return table_header_; } - int version() const { return table_header_->version; } - int size() const { return table_header_->size; } - int max_counters() const { return table_header_->max_counters; } - int max_threads() const { return table_header_->max_threads; } - - // Accessors for our tables - char* thread_name(int slot_id) const { - return &thread_names_table_[ - (slot_id-1) * (StatsTable::kMaxThreadNameLength)]; - } - PlatformThreadId* thread_tid(int slot_id) const { - return &(thread_tid_table_[slot_id-1]); - } - int* thread_pid(int slot_id) const { - return &(thread_pid_table_[slot_id-1]); - } - char* counter_name(int counter_id) const { - return &counter_names_table_[ - (counter_id-1) * (StatsTable::kMaxCounterNameLength)]; - } - int* row(int counter_id) const { - return &data_table_[(counter_id-1) * max_threads()]; - } - - private: - // Constructor is private because you should use New() instead. - StatsTablePrivate() {} - - // Initializes the table on first access. Sets header values - // appropriately and zeroes all counters. - void InitializeTable(void* memory, int size, int max_counters, - int max_threads); - - // Initializes our in-memory pointers into a pre-created StatsTable. - void ComputeMappedPointers(void* memory); - - base::SharedMemory shared_memory_; - TableHeader* table_header_; - char* thread_names_table_; - PlatformThreadId* thread_tid_table_; - int* thread_pid_table_; - char* counter_names_table_; - int* data_table_; -}; - -// static -StatsTablePrivate* StatsTablePrivate::New(const std::string& name, - int size, - int max_threads, - int max_counters) { - scoped_ptr priv(new StatsTablePrivate()); - if (!priv->shared_memory_.Create(name, false, true, size)) - return NULL; - if (!priv->shared_memory_.Map(size)) - return NULL; - void* memory = priv->shared_memory_.memory(); - - TableHeader* header = static_cast(memory); - - // If the version does not match, then assume the table needs - // to be initialized. - if (header->version != kTableVersion) - priv->InitializeTable(memory, size, max_counters, max_threads); - - // We have a valid table, so compute our pointers. - priv->ComputeMappedPointers(memory); - - return priv.release(); -} - -void StatsTablePrivate::InitializeTable(void* memory, int size, - int max_counters, - int max_threads) { - // Zero everything. - memset(memory, 0, size); - - // Initialize the header. - TableHeader* header = static_cast(memory); - header->version = kTableVersion; - header->size = size; - header->max_counters = max_counters; - header->max_threads = max_threads; -} - -void StatsTablePrivate::ComputeMappedPointers(void* memory) { - char* data = static_cast(memory); - int offset = 0; - - table_header_ = reinterpret_cast(data); - offset += sizeof(*table_header_); - offset += AlignOffset(offset); - - // Verify we're looking at a valid StatsTable. - DCHECK_EQ(table_header_->version, kTableVersion); - - thread_names_table_ = reinterpret_cast(data + offset); - offset += sizeof(char) * - max_threads() * StatsTable::kMaxThreadNameLength; - offset += AlignOffset(offset); - - thread_tid_table_ = reinterpret_cast(data + offset); - offset += sizeof(int) * max_threads(); - offset += AlignOffset(offset); - - thread_pid_table_ = reinterpret_cast(data + offset); - offset += sizeof(int) * max_threads(); - offset += AlignOffset(offset); - - counter_names_table_ = reinterpret_cast(data + offset); - offset += sizeof(char) * - max_counters() * StatsTable::kMaxCounterNameLength; - offset += AlignOffset(offset); - - data_table_ = reinterpret_cast(data + offset); - offset += sizeof(int) * max_threads() * max_counters(); - - DCHECK_EQ(offset, size()); -} - - - -// We keep a singleton table which can be easily accessed. -StatsTable* StatsTable::global_table_ = NULL; - -StatsTable::StatsTable(const std::string& name, int max_threads, - int max_counters) - : impl_(NULL), - tls_index_(SlotReturnFunction) { - int table_size = - AlignedSize(sizeof(StatsTablePrivate::TableHeader)) + - AlignedSize((max_counters * sizeof(char) * kMaxCounterNameLength)) + - AlignedSize((max_threads * sizeof(char) * kMaxThreadNameLength)) + - AlignedSize(max_threads * sizeof(int)) + - AlignedSize(max_threads * sizeof(int)) + - AlignedSize((sizeof(int) * (max_counters * max_threads))); - - impl_ = StatsTablePrivate::New(name, table_size, max_threads, max_counters); - - // TODO(port): clean up this error reporting. -#if defined(OS_WIN) - if (!impl_) - CHROMIUM_LOG(ERROR) << "StatsTable did not initialize:" << GetLastError(); -#elif defined(OS_POSIX) - if (!impl_) - CHROMIUM_LOG(ERROR) << "StatsTable did not initialize:" << strerror(errno); -#endif -} - -StatsTable::~StatsTable() { - // Before we tear down our copy of the table, be sure to - // unregister our thread. - UnregisterThread(); - - // Return ThreadLocalStorage. At this point, if any registered threads - // still exist, they cannot Unregister. - tls_index_.Free(); - - // Cleanup our shared memory. - delete impl_; - - // If we are the global table, unregister ourselves. - if (global_table_ == this) - global_table_ = NULL; -} - -int StatsTable::RegisterThread(const std::string& name) { - int slot = 0; - - // Registering a thread requires that we lock the shared memory - // so that two threads don't grab the same slot. Fortunately, - // thread creation shouldn't happen in inner loops. - { - base::SharedMemoryAutoLock lock(impl_->shared_memory()); - slot = FindEmptyThread(); - if (!slot) { - return 0; - } - - DCHECK(impl_); - - // We have space, so consume a column in the table. - std::string thread_name = name; - if (name.empty()) - thread_name = kUnknownName; - base::strlcpy(impl_->thread_name(slot), thread_name.c_str(), - kMaxThreadNameLength); - *(impl_->thread_tid(slot)) = PlatformThread::CurrentId(); - *(impl_->thread_pid(slot)) = base::GetCurrentProcId(); - } - - // Set our thread local storage. - StatsTableTLSData* data = new StatsTableTLSData; - data->table = this; - data->slot = slot; - tls_index_.Set(data); - return slot; -} - -StatsTableTLSData* StatsTable::GetTLSData() const { - StatsTableTLSData* data = - static_cast(tls_index_.Get()); - if (!data) - return NULL; - - DCHECK(data->slot); - DCHECK_EQ(data->table, this); - return data; -} - -void StatsTable::UnregisterThread() { - UnregisterThread(GetTLSData()); -} - -void StatsTable::UnregisterThread(StatsTableTLSData* data) { - if (!data) - return; - DCHECK(impl_); - - // Mark the slot free by zeroing out the thread name. - char* name = impl_->thread_name(data->slot); - *name = '\0'; - - // Remove the calling thread's TLS so that it cannot use the slot. - tls_index_.Set(NULL); - delete data; -} - -void StatsTable::SlotReturnFunction(void* data) { - // This is called by the TLS destructor, which on some platforms has - // already cleared the TLS info, so use the tls_data argument - // rather than trying to fetch it ourselves. - StatsTableTLSData* tls_data = static_cast(data); - if (tls_data) { - DCHECK(tls_data->table); - tls_data->table->UnregisterThread(tls_data); - } -} - -int StatsTable::CountThreadsRegistered() const { - if (!impl_) - return 0; - - // Loop through the shared memory and count the threads that are active. - // We intentionally do not lock the table during the operation. - int count = 0; - for (int index = 1; index <= impl_->max_threads(); index++) { - char* name = impl_->thread_name(index); - if (*name != '\0') - count++; - } - return count; -} - -int StatsTable::GetSlot() const { - StatsTableTLSData* data = GetTLSData(); - if (!data) - return 0; - return data->slot; -} - -int StatsTable::FindEmptyThread() const { - // Note: the API returns slots numbered from 1..N, although - // internally, the array is 0..N-1. This is so that we can return - // zero as "not found". - // - // The reason for doing this is because the thread 'slot' is stored - // in TLS, which is always initialized to zero, not -1. If 0 were - // returned as a valid slot number, it would be confused with the - // uninitialized state. - if (!impl_) - return 0; - - int index = 1; - for (; index <= impl_->max_threads(); index++) { - char* name = impl_->thread_name(index); - if (!*name) - break; - } - if (index > impl_->max_threads()) - return 0; // The table is full. - return index; -} - -int StatsTable::FindCounterOrEmptyRow(const std::string& name) const { - // Note: the API returns slots numbered from 1..N, although - // internally, the array is 0..N-1. This is so that we can return - // zero as "not found". - // - // There isn't much reason for this other than to be consistent - // with the way we track columns for thread slots. (See comments - // in FindEmptyThread for why it is done this way). - if (!impl_) - return 0; - - int free_slot = 0; - for (int index = 1; index <= impl_->max_counters(); index++) { - char* row_name = impl_->counter_name(index); - if (!*row_name && !free_slot) - free_slot = index; // save that we found a free slot - else if (!strncmp(row_name, name.c_str(), kMaxCounterNameLength)) - return index; - } - return free_slot; -} - -int StatsTable::FindCounter(const std::string& name) { - // Note: the API returns counters numbered from 1..N, although - // internally, the array is 0..N-1. This is so that we can return - // zero as "not found". - if (!impl_) - return 0; - - // Create a scope for our auto-lock. - { - AutoLock scoped_lock(counters_lock_); - - // Attempt to find the counter. - CountersMap::const_iterator iter; - iter = counters_.find(name); - if (iter != counters_.end()) - return iter->second; - } - - // Counter does not exist, so add it. - return AddCounter(name); -} - -int StatsTable::AddCounter(const std::string& name) { - DCHECK(impl_); - - if (!impl_) - return 0; - - int counter_id = 0; - { - // To add a counter to the shared memory, we need the - // shared memory lock. - base::SharedMemoryAutoLock lock(impl_->shared_memory()); - - // We have space, so create a new counter. - counter_id = FindCounterOrEmptyRow(name); - if (!counter_id) - return 0; - - std::string counter_name = name; - if (name.empty()) - counter_name = kUnknownName; - base::strlcpy(impl_->counter_name(counter_id), counter_name.c_str(), - kMaxCounterNameLength); - } - - // now add to our in-memory cache - { - AutoLock lock(counters_lock_); - counters_[name] = counter_id; - } - return counter_id; -} - -int* StatsTable::GetLocation(int counter_id, int slot_id) const { - if (!impl_) - return NULL; - if (slot_id > impl_->max_threads()) - return NULL; - - int* row = impl_->row(counter_id); - return &(row[slot_id-1]); -} - -const char* StatsTable::GetRowName(int index) const { - if (!impl_) - return NULL; - - return impl_->counter_name(index); -} - -int StatsTable::GetRowValue(int index, int pid) const { - if (!impl_) - return 0; - - int rv = 0; - int* row = impl_->row(index); - for (int slot_id = 0; slot_id < impl_->max_threads(); slot_id++) { - if (pid == 0 || *impl_->thread_pid(slot_id) == pid) - rv += row[slot_id]; - } - return rv; -} - -int StatsTable::GetRowValue(int index) const { - return GetRowValue(index, 0); -} - -int StatsTable::GetCounterValue(const std::string& name, int pid) { - if (!impl_) - return 0; - - int row = FindCounter(name); - if (!row) - return 0; - return GetRowValue(row, pid); -} - -int StatsTable::GetCounterValue(const std::string& name) { - return GetCounterValue(name, 0); -} - -int StatsTable::GetMaxCounters() const { - if (!impl_) - return 0; - return impl_->max_counters(); -} - -int StatsTable::GetMaxThreads() const { - if (!impl_) - return 0; - return impl_->max_threads(); -} - -int* StatsTable::FindLocation(const char* name) { - // Get the static StatsTable - StatsTable *table = StatsTable::current(); - if (!table) - return NULL; - - // Get the slot for this thread. Try to register - // it if none exists. - int slot = table->GetSlot(); - if (!slot && !(slot = table->RegisterThread(""))) - return NULL; - - // Find the counter id for the counter. - std::string str_name(name); - int counter = table->FindCounter(str_name); - - // Now we can find the location in the table. - return table->GetLocation(counter, slot); -} diff --git a/ipc/chromium/src/base/stats_table.h b/ipc/chromium/src/base/stats_table.h deleted file mode 100644 index 958d25927112..000000000000 --- a/ipc/chromium/src/base/stats_table.h +++ /dev/null @@ -1,191 +0,0 @@ -// Copyright (c) 2006-2008 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. -// -// A StatsTable is a table of statistics. It can be used across multiple -// processes and threads, maintaining cheap statistics counters without -// locking. -// -// The goal is to make it very cheap and easy for developers to add -// counters to code, without having to build one-off utilities or mechanisms -// to track the counters, and also to allow a single "view" to display -// the contents of all counters. -// -// To achieve this, StatsTable creates a shared memory segment to store -// the data for the counters. Upon creation, it has a specific size -// which governs the maximum number of counters and concurrent -// threads/processes which can use it. -// - -#ifndef BASE_STATS_TABLE_H__ -#define BASE_STATS_TABLE_H__ - -#include -#include "base/basictypes.h" -#include "base/hash_tables.h" -#include "base/lock.h" -#include "base/thread_local_storage.h" - -class StatsTablePrivate; - -namespace { -struct StatsTableTLSData; -} - -class StatsTable { - public: - // Create a new StatsTable. - // If a StatsTable already exists with the specified name, this StatsTable - // will use the same shared memory segment as the original. Otherwise, - // a new StatsTable is created and all counters are zeroed. - // - // name is the name of the StatsTable to use. - // - // max_threads is the maximum number of threads the table will support. - // If the StatsTable already exists, this number is ignored. - // - // max_counters is the maximum number of counters the table will support. - // If the StatsTable already exists, this number is ignored. - StatsTable(const std::string& name, int max_threads, int max_counters); - - // Destroys the StatsTable. When the last StatsTable is destroyed - // (across all processes), the StatsTable is removed from disk. - ~StatsTable(); - - // For convenience, we create a static table. This is generally - // used automatically by the counters. - static StatsTable* current() { return global_table_; } - - // Set the global table for use in this process. - static void set_current(StatsTable* value) { global_table_ = value; } - - // Get the slot id for the calling thread. Returns 0 if no - // slot is assigned. - int GetSlot() const; - - // All threads that contribute data to the table must register with the - // table first. This function will set thread local storage for the - // thread containing the location in the table where this thread will - // write its counter data. - // - // name is just a debugging tag to label the thread, and it does not - // need to be unique. It will be truncated to kMaxThreadNameLength-1 - // characters. - // - // On success, returns the slot id for this thread. On failure, - // returns 0. - int RegisterThread(const std::string& name); - - // Returns the number of threads currently registered. This is really not - // useful except for diagnostics and debugging. - int CountThreadsRegistered() const; - - // Find a counter in the StatsTable. - // - // Returns an id for the counter which can be used to call GetLocation(). - // If the counter does not exist, attempts to create a row for the new - // counter. If there is no space in the table for the new counter, - // returns 0. - int FindCounter(const std::string& name); - - // TODO(mbelshe): implement RemoveCounter. - - // Gets the location of a particular value in the table based on - // the counter id and slot id. - int* GetLocation(int counter_id, int slot_id) const; - - // Gets the counter name at a particular row. If the row is empty, - // returns NULL. - const char* GetRowName(int index) const; - - // Gets the sum of the values for a particular row. - int GetRowValue(int index) const; - - // Gets the sum of the values for a particular row for a given pid. - int GetRowValue(int index, int pid) const; - - // Gets the sum of the values for a particular counter. If the counter - // does not exist, creates the counter. - int GetCounterValue(const std::string& name); - - // Gets the sum of the values for a particular counter for a given pid. - // If the counter does not exist, creates the counter. - int GetCounterValue(const std::string& name, int pid); - - // The maxinum number of counters/rows in the table. - int GetMaxCounters() const; - - // The maxinum number of threads/columns in the table. - int GetMaxThreads() const; - - // The maximum length (in characters) of a Thread's name including - // null terminator, as stored in the shared memory. - static const int kMaxThreadNameLength = 32; - - // The maximum length (in characters) of a Counter's name including - // null terminator, as stored in the shared memory. - static const int kMaxCounterNameLength = 32; - - // Convenience function to lookup a counter location for a - // counter by name for the calling thread. Will register - // the thread if it is not already registered. - static int* FindLocation(const char *name); - - private: - // Returns the space occupied by a thread in the table. Generally used - // if a thread terminates but the process continues. This function - // does not zero out the thread's counters. - // Cannot be used inside a posix tls destructor. - void UnregisterThread(); - - // This variant expects the tls data to be passed in, so it is safe to - // call from inside a posix tls destructor (see doc for pthread_key_create). - void UnregisterThread(StatsTableTLSData* tls_data); - - // The SlotReturnFunction is called at thread exit for each thread - // which used the StatsTable. - static void SlotReturnFunction(void* data); - - // Locates a free slot in the table. Returns a number > 0 on success, - // or 0 on failure. The caller must hold the shared_memory lock when - // calling this function. - int FindEmptyThread() const; - - // Locates a counter in the table or finds an empty row. Returns a - // number > 0 on success, or 0 on failure. The caller must hold the - // shared_memory_lock when calling this function. - int FindCounterOrEmptyRow(const std::string& name) const; - - // Internal function to add a counter to the StatsTable. Assumes that - // the counter does not already exist in the table. - // - // name is a unique identifier for this counter, and will be truncated - // to kMaxCounterNameLength-1 characters. - // - // On success, returns the counter_id for the newly added counter. - // On failure, returns 0. - int AddCounter(const std::string& name); - - // Get the TLS data for the calling thread. Returns NULL if none is - // initialized. - StatsTableTLSData* GetTLSData() const; - - typedef base::hash_map CountersMap; - - StatsTablePrivate* impl_; - // The counters_lock_ protects the counters_ hash table. - Lock counters_lock_; - // The counters_ hash map is an in-memory hash of the counters. - // It is used for quick lookup of counters, but is cannot be used - // as a substitute for what is in the shared memory. Even though - // we don't have a counter in our hash table, another process may - // have created it. - CountersMap counters_; - TLSSlot tls_index_; - - static StatsTable* global_table_; - - DISALLOW_EVIL_CONSTRUCTORS(StatsTable); -}; - -#endif // BASE_STATS_TABLE_H__ diff --git a/ipc/chromium/src/chrome/common/ipc_channel_posix.cc b/ipc/chromium/src/chrome/common/ipc_channel_posix.cc index b5dfa9a10598..692e00272c53 100644 --- a/ipc/chromium/src/chrome/common/ipc_channel_posix.cc +++ b/ipc/chromium/src/chrome/common/ipc_channel_posix.cc @@ -25,7 +25,6 @@ #include "base/scoped_ptr.h" #include "base/string_util.h" #include "base/singleton.h" -#include "base/stats_counters.h" #include "chrome/common/chrome_switches.h" #include "chrome/common/file_descriptor_set_posix.h" #include "chrome/common/ipc_logging.h" diff --git a/ipc/chromium/src/chrome/common/ipc_channel_win.cc b/ipc/chromium/src/chrome/common/ipc_channel_win.cc index b25c89f75ef1..9a846a543241 100644 --- a/ipc/chromium/src/chrome/common/ipc_channel_win.cc +++ b/ipc/chromium/src/chrome/common/ipc_channel_win.cc @@ -10,7 +10,6 @@ #include "base/compiler_specific.h" #include "base/logging.h" #include "base/non_thread_safe.h" -#include "base/stats_counters.h" #include "base/win_util.h" #include "chrome/common/ipc_logging.h" #include "chrome/common/ipc_message_utils.h"