// Copyright (c) 2013 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. // This file contains routines for gathering resource statistics for processes // running on the system. #ifndef BASE_PROCESS_PROCESS_METRICS_H_ #define BASE_PROCESS_PROCESS_METRICS_H_ #include #include "base/base_export.h" #include "base/basictypes.h" #include "base/gtest_prod_util.h" #include "base/process/process_handle.h" #include "base/time/time.h" #include "base/values.h" #if defined(OS_MACOSX) #include #endif namespace base { #if defined(OS_WIN) struct IoCounters : public IO_COUNTERS { }; #elif defined(OS_POSIX) struct IoCounters { uint64_t ReadOperationCount; uint64_t WriteOperationCount; uint64_t OtherOperationCount; uint64_t ReadTransferCount; uint64_t WriteTransferCount; uint64_t OtherTransferCount; }; #endif // Working Set (resident) memory usage broken down by // // On Windows: // priv (private): These pages (kbytes) cannot be shared with any other process. // shareable: These pages (kbytes) can be shared with other processes under // the right circumstances. // shared : These pages (kbytes) are currently shared with at least one // other process. // // On Linux: // priv: Pages mapped only by this process. // shared: PSS or 0 if the kernel doesn't support this. // shareable: 0 // On ChromeOS: // priv: Pages mapped only by this process. // shared: PSS or 0 if the kernel doesn't support this. // shareable: 0 // swapped Pages swapped out to zram. // // On OS X: TODO(thakis): Revise. // priv: Memory. // shared: 0 // shareable: 0 // struct WorkingSetKBytes { WorkingSetKBytes() : priv(0), shareable(0), shared(0) {} size_t priv; size_t shareable; size_t shared; #if defined(OS_CHROMEOS) size_t swapped; #endif }; // Committed (resident + paged) memory usage broken down by // private: These pages cannot be shared with any other process. // mapped: These pages are mapped into the view of a section (backed by // pagefile.sys) // image: These pages are mapped into the view of an image section (backed by // file system) struct CommittedKBytes { CommittedKBytes() : priv(0), mapped(0), image(0) {} size_t priv; size_t mapped; size_t image; }; // Free memory (Megabytes marked as free) in the 2G process address space. // total : total amount in megabytes marked as free. Maximum value is 2048. // largest : size of the largest contiguous amount of memory found. It is // always smaller or equal to FreeMBytes::total. // largest_ptr: starting address of the largest memory block. struct FreeMBytes { size_t total; size_t largest; void* largest_ptr; }; // Convert a POSIX timeval to microseconds. BASE_EXPORT int64 TimeValToMicroseconds(const struct timeval& tv); // Provides performance metrics for a specified process (CPU usage, memory and // IO counters). To use it, invoke CreateProcessMetrics() to get an instance // for a specific process, then access the information with the different get // methods. class BASE_EXPORT ProcessMetrics { public: ~ProcessMetrics(); // Creates a ProcessMetrics for the specified process. // The caller owns the returned object. #if !defined(OS_MACOSX) || defined(OS_IOS) static ProcessMetrics* CreateProcessMetrics(ProcessHandle process); #else class PortProvider { public: virtual ~PortProvider() {} // Should return the mach task for |process| if possible, or else // |MACH_PORT_NULL|. Only processes that this returns tasks for will have // metrics on OS X (except for the current process, which always gets // metrics). virtual mach_port_t TaskForPid(ProcessHandle process) const = 0; }; // The port provider needs to outlive the ProcessMetrics object returned by // this function. If NULL is passed as provider, the returned object // only returns valid metrics if |process| is the current process. static ProcessMetrics* CreateProcessMetrics(ProcessHandle process, PortProvider* port_provider); #endif // !defined(OS_MACOSX) || defined(OS_IOS) // Returns the current space allocated for the pagefile, in bytes (these pages // may or may not be in memory). On Linux, this returns the total virtual // memory size. size_t GetPagefileUsage() const; // Returns the peak space allocated for the pagefile, in bytes. size_t GetPeakPagefileUsage() const; // Returns the current working set size, in bytes. On Linux, this returns // the resident set size. size_t GetWorkingSetSize() const; // Returns the peak working set size, in bytes. size_t GetPeakWorkingSetSize() const; // Returns private and sharedusage, in bytes. Private bytes is the amount of // memory currently allocated to a process that cannot be shared. Returns // false on platform specific error conditions. Note: |private_bytes| // returns 0 on unsupported OSes: prior to XP SP2. bool GetMemoryBytes(size_t* private_bytes, size_t* shared_bytes); // Fills a CommittedKBytes with both resident and paged // memory usage as per definition of CommittedBytes. void GetCommittedKBytes(CommittedKBytes* usage) const; // Fills a WorkingSetKBytes containing resident private and shared memory // usage in bytes, as per definition of WorkingSetBytes. bool GetWorkingSetKBytes(WorkingSetKBytes* ws_usage) const; // Computes the current process available memory for allocation. // It does a linear scan of the address space querying each memory region // for its free (unallocated) status. It is useful for estimating the memory // load and fragmentation. bool CalculateFreeMemory(FreeMBytes* free) const; // Returns the CPU usage in percent since the last time this method or // GetPlatformIndependentCPUUsage() was called. The first time this method // is called it returns 0 and will return the actual CPU info on subsequent // calls. On Windows, the CPU usage value is for all CPUs. So if you have // 2 CPUs and your process is using all the cycles of 1 CPU and not the other // CPU, this method returns 50. double GetCPUUsage(); // Returns the number of average idle cpu wakeups per second since the last // call. int GetIdleWakeupsPerSecond(); // Same as GetCPUUsage(), but will return consistent values on all platforms // (cancelling the Windows exception mentioned above) by returning a value in // the range of 0 to (100 * numCPUCores) everywhere. double GetPlatformIndependentCPUUsage(); // Retrieves accounting information for all I/O operations performed by the // process. // If IO information is retrieved successfully, the function returns true // and fills in the IO_COUNTERS passed in. The function returns false // otherwise. bool GetIOCounters(IoCounters* io_counters) const; private: #if !defined(OS_MACOSX) || defined(OS_IOS) explicit ProcessMetrics(ProcessHandle process); #else ProcessMetrics(ProcessHandle process, PortProvider* port_provider); #endif // !defined(OS_MACOSX) || defined(OS_IOS) #if defined(OS_LINUX) || defined(OS_ANDROID) bool GetWorkingSetKBytesStatm(WorkingSetKBytes* ws_usage) const; #endif #if defined(OS_CHROMEOS) bool GetWorkingSetKBytesTotmaps(WorkingSetKBytes *ws_usage) const; #endif ProcessHandle process_; int processor_count_; // Used to store the previous times and CPU usage counts so we can // compute the CPU usage between calls. TimeTicks last_cpu_time_; int64 last_system_time_; // Same thing for idle wakeups. TimeTicks last_idle_wakeups_time_; int64 last_absolute_idle_wakeups_; #if !defined(OS_IOS) #if defined(OS_MACOSX) // Queries the port provider if it's set. mach_port_t TaskForPid(ProcessHandle process) const; PortProvider* port_provider_; #elif defined(OS_POSIX) // Jiffie count at the last_cpu_time_ we updated. int last_cpu_; #endif // defined(OS_POSIX) #endif // !defined(OS_IOS) DISALLOW_COPY_AND_ASSIGN(ProcessMetrics); }; // Returns the memory committed by the system in KBytes. // Returns 0 if it can't compute the commit charge. BASE_EXPORT size_t GetSystemCommitCharge(); #if defined(OS_POSIX) // Returns the maximum number of file descriptors that can be open by a process // at once. If the number is unavailable, a conservative best guess is returned. size_t GetMaxFds(); #endif // defined(OS_POSIX) #if defined(OS_LINUX) || defined(OS_ANDROID) // Parse the data found in /proc//stat and return the sum of the // CPU-related ticks. Returns -1 on parse error. // Exposed for testing. BASE_EXPORT int ParseProcStatCPU(const std::string& input); // Get the number of threads of |process| as available in /proc//stat. // This should be used with care as no synchronization with running threads is // done. This is mostly useful to guarantee being single-threaded. // Returns 0 on failure. BASE_EXPORT int GetNumberOfThreads(ProcessHandle process); // /proc/self/exe refers to the current executable. BASE_EXPORT extern const char kProcSelfExe[]; // Data from /proc/meminfo about system-wide memory consumption. // Values are in KB. struct BASE_EXPORT SystemMemoryInfoKB { SystemMemoryInfoKB(); // Serializes the platform specific fields to value. scoped_ptr ToValue() const; int total; int free; int buffers; int cached; int active_anon; int inactive_anon; int active_file; int inactive_file; int swap_total; int swap_free; int dirty; // vmstats data. int pswpin; int pswpout; int pgmajfault; #ifdef OS_CHROMEOS int shmem; int slab; // Gem data will be -1 if not supported. int gem_objects; long long gem_size; #endif }; // Parses a string containing the contents of /proc/meminfo // returns true on success or false for a parsing error BASE_EXPORT bool ParseProcMeminfo(const std::string& input, SystemMemoryInfoKB* meminfo); // Parses a string containing the contents of /proc/vmstat // returns true on success or false for a parsing error BASE_EXPORT bool ParseProcVmstat(const std::string& input, SystemMemoryInfoKB* meminfo); // Retrieves data from /proc/meminfo and /proc/vmstat // about system-wide memory consumption. // Fills in the provided |meminfo| structure. Returns true on success. // Exposed for memory debugging widget. BASE_EXPORT bool GetSystemMemoryInfo(SystemMemoryInfoKB* meminfo); // Data from /proc/diskstats about system-wide disk I/O. struct BASE_EXPORT SystemDiskInfo { SystemDiskInfo(); // Serializes the platform specific fields to value. scoped_ptr ToValue() const; uint64 reads; uint64 reads_merged; uint64 sectors_read; uint64 read_time; uint64 writes; uint64 writes_merged; uint64 sectors_written; uint64 write_time; uint64 io; uint64 io_time; uint64 weighted_io_time; }; // Checks whether the candidate string is a valid disk name, [sh]d[a-z]+ // for a generic disk or mmcblk[0-9]+ for the MMC case. // Names of disk partitions (e.g. sda1) are not valid. BASE_EXPORT bool IsValidDiskName(const std::string& candidate); // Retrieves data from /proc/diskstats about system-wide disk I/O. // Fills in the provided |diskinfo| structure. Returns true on success. BASE_EXPORT bool GetSystemDiskInfo(SystemDiskInfo* diskinfo); #endif // defined(OS_LINUX) || defined(OS_ANDROID) #if defined(OS_CHROMEOS) // Data from files in directory /sys/block/zram0 about ZRAM usage. struct BASE_EXPORT SwapInfo { SwapInfo() : num_reads(0), num_writes(0), compr_data_size(0), orig_data_size(0), mem_used_total(0) { } // Serializes the platform specific fields to value. scoped_ptr ToValue() const; uint64 num_reads; uint64 num_writes; uint64 compr_data_size; uint64 orig_data_size; uint64 mem_used_total; }; // In ChromeOS, reads files from /sys/block/zram0 that contain ZRAM usage data. // Fills in the provided |swap_data| structure. BASE_EXPORT void GetSwapInfo(SwapInfo* swap_info); #endif // defined(OS_CHROMEOS) // Collects and holds performance metrics for system memory and disk. // Provides functionality to retrieve the data on various platforms and // to serialize the stored data. class SystemMetrics { public: SystemMetrics(); static SystemMetrics Sample(); // Serializes the system metrics to value. scoped_ptr ToValue() const; private: FRIEND_TEST_ALL_PREFIXES(SystemMetricsTest, SystemMetrics); size_t committed_memory_; #if defined(OS_LINUX) || defined(OS_ANDROID) SystemMemoryInfoKB memory_info_; SystemDiskInfo disk_info_; #endif #if defined(OS_CHROMEOS) SwapInfo swap_info_; #endif }; } // namespace base #endif // BASE_PROCESS_PROCESS_METRICS_H_