// 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. #ifndef BASE_METRICS_HISTOGRAM_BASE_H_ #define BASE_METRICS_HISTOGRAM_BASE_H_ #include <limits.h> #include <stddef.h> #include <stdint.h> #include <string> #include <vector> #include "base/atomicops.h" #include "base/base_export.h" #include "base/macros.h" #include "base/memory/scoped_ptr.h" #include "base/strings/string_piece.h" #include "base/time/time.h" namespace base { class DictionaryValue; class HistogramBase; class HistogramSamples; class ListValue; class Pickle; class PickleIterator; //////////////////////////////////////////////////////////////////////////////// // These enums are used to facilitate deserialization of histograms from other // processes into the browser. If you create another class that inherits from // HistogramBase, add new histogram types and names below. enum HistogramType { HISTOGRAM, LINEAR_HISTOGRAM, BOOLEAN_HISTOGRAM, CUSTOM_HISTOGRAM, SPARSE_HISTOGRAM, }; std::string HistogramTypeToString(HistogramType type); // Create or find existing histogram that matches the pickled info. // Returns NULL if the pickled data has problems. BASE_EXPORT HistogramBase* DeserializeHistogramInfo(base::PickleIterator* iter); //////////////////////////////////////////////////////////////////////////////// class BASE_EXPORT HistogramBase { public: typedef int32_t Sample; // Used for samples. typedef subtle::Atomic32 AtomicCount; // Used to count samples. typedef int32_t Count; // Used to manipulate counts in temporaries. static const Sample kSampleType_MAX; // INT_MAX enum Flags { kNoFlags = 0, // Histogram should be UMA uploaded. kUmaTargetedHistogramFlag = 0x1, // Indicates that this is a stability histogram. This flag exists to specify // which histograms should be included in the initial stability log. Please // refer to |MetricsService::PrepareInitialStabilityLog|. kUmaStabilityHistogramFlag = kUmaTargetedHistogramFlag | 0x2, // Indicates that the histogram was pickled to be sent across an IPC // Channel. If we observe this flag on a histogram being aggregated into // after IPC, then we are running in a single process mode, and the // aggregation should not take place (as we would be aggregating back into // the source histogram!). kIPCSerializationSourceFlag = 0x10, // Indicates that a callback exists for when a new sample is recorded on // this histogram. We store this as a flag with the histogram since // histograms can be in performance critical code, and this allows us // to shortcut looking up the callback if it doesn't exist. kCallbackExists = 0x20, // Only for Histogram and its sub classes: fancy bucket-naming support. kHexRangePrintingFlag = 0x8000, }; // Histogram data inconsistency types. enum Inconsistency { NO_INCONSISTENCIES = 0x0, RANGE_CHECKSUM_ERROR = 0x1, BUCKET_ORDER_ERROR = 0x2, COUNT_HIGH_ERROR = 0x4, COUNT_LOW_ERROR = 0x8, NEVER_EXCEEDED_VALUE = 0x10 }; explicit HistogramBase(const std::string& name); virtual ~HistogramBase(); const std::string& histogram_name() const { return histogram_name_; } // Comapres |name| to the histogram name and triggers a DCHECK if they do not // match. This is a helper function used by histogram macros, which results in // in more compact machine code being generated by the macros. void CheckName(const StringPiece& name) const; // Get a unique ID for this histogram's samples. virtual uint64_t name_hash() const = 0; // Operations with Flags enum. int32_t flags() const { return subtle::NoBarrier_Load(&flags_); } void SetFlags(int32_t flags); void ClearFlags(int32_t flags); virtual HistogramType GetHistogramType() const = 0; // Whether the histogram has construction arguments as parameters specified. // For histograms that don't have the concept of minimum, maximum or // bucket_count, this function always returns false. virtual bool HasConstructionArguments(Sample expected_minimum, Sample expected_maximum, size_t expected_bucket_count) const = 0; virtual void Add(Sample value) = 0; // In Add function the |value| bucket is increased by one, but in some use // cases we need to increase this value by an arbitrary integer. AddCount // function increases the |value| bucket by |count|. |count| should be greater // than or equal to 1. virtual void AddCount(Sample value, int count) = 0; // 2 convenient functions that call Add(Sample). void AddTime(const TimeDelta& time); void AddBoolean(bool value); virtual void AddSamples(const HistogramSamples& samples) = 0; virtual bool AddSamplesFromPickle(base::PickleIterator* iter) = 0; // Serialize the histogram info into |pickle|. // Note: This only serializes the construction arguments of the histogram, but // does not serialize the samples. bool SerializeInfo(base::Pickle* pickle) const; // Try to find out data corruption from histogram and the samples. // The returned value is a combination of Inconsistency enum. virtual int FindCorruption(const HistogramSamples& samples) const; // Snapshot the current complete set of sample data. // Override with atomic/locked snapshot if needed. virtual scoped_ptr<HistogramSamples> SnapshotSamples() const = 0; // The following methods provide graphical histogram displays. virtual void WriteHTMLGraph(std::string* output) const = 0; virtual void WriteAscii(std::string* output) const = 0; // Produce a JSON representation of the histogram. This is implemented with // the help of GetParameters and GetCountAndBucketData; overwrite them to // customize the output. void WriteJSON(std::string* output) const; protected: // Subclasses should implement this function to make SerializeInfo work. virtual bool SerializeInfoImpl(base::Pickle* pickle) const = 0; // Writes information about the construction parameters in |params|. virtual void GetParameters(DictionaryValue* params) const = 0; // Writes information about the current (non-empty) buckets and their sample // counts to |buckets|, the total sample count to |count| and the total sum // to |sum|. virtual void GetCountAndBucketData(Count* count, int64_t* sum, ListValue* buckets) const = 0; //// Produce actual graph (set of blank vs non blank char's) for a bucket. void WriteAsciiBucketGraph(double current_size, double max_size, std::string* output) const; // Return a string description of what goes in a given bucket. const std::string GetSimpleAsciiBucketRange(Sample sample) const; // Write textual description of the bucket contents (relative to histogram). // Output is the count in the buckets, as well as the percentage. void WriteAsciiBucketValue(Count current, double scaled_sum, std::string* output) const; // Retrieves the callback for this histogram, if one exists, and runs it // passing |sample| as the parameter. void FindAndRunCallback(Sample sample) const; private: const std::string histogram_name_; AtomicCount flags_; DISALLOW_COPY_AND_ASSIGN(HistogramBase); }; } // namespace base #endif // BASE_METRICS_HISTOGRAM_BASE_H_