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Store a pointer to the pool in the free_list
[software/dgc/cdgc.git] / rt / gc / cdgc / stats.d
index ec8c7adc32e56b63875bff293422fb3dde672233..1a2e8ef18fd2e43db5c4ff938cc1d45c7618f78a 100644 (file)
  *     be misrepresented as being the original software.
  *  o  This notice may not be removed or altered from any source
  *     distribution.
- * Authors:   Walter Bright, Sean Kelly
+ * Authors:   Walter Bright, Sean Kelly, Leandro Lucarella
  */
 
 module rt.gc.cdgc.stats;
 
+import gc = rt.gc.cdgc.gc;
+import rt.gc.cdgc.bits: GCBits;
+import rt.gc.cdgc.opts: options;
+
+import cstdio = tango.stdc.stdio;
+import ctime = tango.stdc.posix.sys.time;
+
+
+private:
+
+
+/**
+ * Time information for a collection.
+ *
+ * This struct groups all the timing information for a particular collection.
+ * It stores how much time it took the different parts of a collection, splat
+ * in: allocation time (the time the mutator spent in the malloc() call that
+ * triggered the collection), time the world was stopped because of the
+ * collection and the time spent in the collection itself. The time the world
+ * was stopped includes the time spent in the collection (in this
+ * implementation, which is not concurrent) and the time spent in the
+ * allocation includes the time the world was stopped (this is probably true
+ * for any implementation).
+ */
+struct TimeInfo
+{
+    /// Collection time (in seconds).
+    double collection = -1.0;
+    /// Stop-the-world time (in seconds).
+    double stop_the_world = -1.0;
+    /// Time spent in the malloc that triggered the collection (in seconds).
+    double malloc = -1.0;
+}
+
+
+/**
+ * Memory (space) information for a collection.
+ *
+ * This struct groups all the space information for a particular collection.
+ * The space is partitioned in four: used, free, wasted and overhead. "used" is
+ * the net space needed by the mutator; "free" is the space the GC has ready to
+ * be given to the mutator when needed; "wasted" is memory that can't be used
+ * by neither the collector nor the mutator (usually because of fragmentation)
+ * and "overhead" is the space needed by the GC itself.
+ */
+struct MemoryInfo
+{
+    /// Heap memory used by the program (in bytes).
+    size_t used = 0;
+    /// Free heap memory (in bytes).
+    size_t free = 0;
+    /// Memory that can't be used at all (in bytes).
+    size_t wasted = 0;
+    /// Memory used by the GC for bookkeeping (in bytes).
+    size_t overhead = 0;
+}
+
+
+/**
+ * Information about a particular collection.
+ *
+ * This struct groups all information related to a particular collection. The
+ * timings for the collection as stored and the space requirements are both,
+ * before and after that collection, logged to easily measure how effective
+ * the collection was in terms of space. The time when this collection was
+ * triggered is logged too (relative to the program start, in seconds).
+ *
+ * See_Also: TimeInfo and MemoryInfo structs.
+ */
+struct CollectionInfo
+{
+    /// When this information were taken (seconds since the program started).
+    double timestamp = -1.0;
+    /// Time statistics for this collection.
+    TimeInfo time;
+    /// Memory statistics before the collection.
+    MemoryInfo before;
+    /// Memory statistics after the collection.
+    MemoryInfo after;
+}
+
+
+/**
+ * Information about a particular allocation.
+ *
+ * This struct groups all the information about a particular allocation. The
+ * size requested in that allocation is logged, as well as the attributes
+ * assigned to that cell, the time malloc() took to complete and if
+ * a collection was triggered. The time when this allocation was requested is
+ * logged too (relative to the program start, in seconds).
+ */
+struct MallocInfo
+{
+    /// When this information were taken (seconds since the program started).
+    double timestamp = -1.0;
+    /// Time spent in the malloc() call (in seconds).
+    double time = -1.0;
+    /// Address of the pointer returned by malloc.
+    void* ptr = null;
+    /// Memory requested by the malloc() call (in bytes).
+    size_t size = 0;
+    /// Memory attributes as BlkAttr flags.
+    uint attr = 0;
+    /// True if this malloc() triggered a collection.
+    bool collected = false;
+    /// Address of the pointer map bitmask.
+    size_t* ptrmap = null;
+}
+
+
+package:
+
+/**
+ * Control and store the GC statistics.
+ *
+ * This is the interface to this module, it has methods for the GC to inform
+ * when a relevant event has happened. The events are the start and finish of
+ * an allocation, when the world is stopped and restarted and when
+ * a collection is triggered and done.
+ *
+ * All the data is logged in memory and printed to the standard output when
+ * requested (usually at the end of the program).
+ *
+ * See_Also: CollectionInfo and MallocInfo structs.
+ */
+struct Stats
+{
+
+private:
+
+    /// The GC instance we are collecting stats from.
+    .gc.GC* gc = null;
+
+    /// True if statistics should be collected.
+    bool active = false;
+
+    /// Current collection information (printed when the malloc finishes).
+    MallocInfo malloc_info;
+
+    /// File where to write the malloc information to.
+    cstdio.FILE* mallocs_file;
+
+    /// Current collection information (printed when the collection finishes).
+    CollectionInfo collection_info;
+
+    /// File where to write the collections information to.
+    cstdio.FILE* collections_file;
+
+    /// Time when the program started.
+    double program_start = -1.0;
+
+    /// Return the current time as seconds since the epoch.
+    static double now()
+    {
+        ctime.timeval tv;
+        ctime.gettimeofday(&tv, null);
+        return cast(double) tv.tv_sec + cast(double) tv.tv_usec / 1_000_000.0;
+    }
+
+    /// Fill a MemoryInfo struct with the current state of the GC heap.
+    void fill_memory_info(MemoryInfo* mem_info)
+    {
+        mem_info.overhead += .gc.GC.sizeof + gc.pools.elements_sizeof +
+                gc.roots.elements_sizeof + gc.ranges.elements_sizeof;
+
+        // pools
+        for (size_t i = 0; i < gc.pools.length; i++)
+        {
+            auto pool = gc.pools[i];
+            mem_info.overhead += pool.npages * ubyte.sizeof;
+            // the 5 bitmaps (mark, scan, free, final, noscan)
+            mem_info.overhead += 5 * (GCBits.sizeof
+                    + (pool.mark.nwords + 2) * uint.sizeof);
+
+            for (size_t pn = 0; pn < pool.npages; pn++)
+            {
+                auto bin = cast(.gc.Bins) pool.pagetable[pn];
+                if (bin < .gc.B_PAGE)
+                {
+                    size_t size = .gc.binsize[bin];
+                    size_t attrstride = size / 16;
+                    size_t attrbase = pn * (.gc.PAGESIZE / 16);
+                    size_t attrtop = attrbase + (.gc.PAGESIZE / 16);
+                    for (auto attri = attrbase; attri < attrtop; attri += attrstride)
+                    {
+                        if (pool.freebits.test(attri))
+                            mem_info.free += size;
+                        else
+                            mem_info.used += size; // TODO: wasted
+                    }
+                }
+                else if (bin == .gc.B_FREE)
+                    mem_info.free += .gc.PAGESIZE;
+                else // B_PAGE / B_PAGEPLUS
+                    mem_info.used += .gc.PAGESIZE; // TODO: wasted
+            }
+        }
+    }
+
+    cstdio.FILE* start_file(char* filename, char* header)
+    {
+        cstdio.FILE* file = cstdio.fopen(filename, "w");
+        assert (file !is null);
+        cstdio.fputs(header, file);
+        return file;
+    }
+
+    void print_malloc()
+    {
+        if (this.mallocs_file is null)
+            return;
+        auto ptrmap = this.malloc_info.ptrmap;
+        auto ptrmask_offset = (ptrmap[0] - 1) / (size_t.sizeof * 8) + 1;
+        cstdio.fprintf(this.mallocs_file,
+                "%f,%f,%p,%zu,%zu,%zu,%zu,%zu,%p,%zu,%0*zX,%0*zX\n",
+                //0  1   2   3   4   5   6  7  8   9    10    11
+                this.malloc_info.timestamp,                   // 0
+                this.malloc_info.time,                        // 1
+                this.malloc_info.ptr,                         // 2
+                this.malloc_info.size,                        // 3
+                this.malloc_info.collected ? 1u : 0u,         // 4
+                this.malloc_info.attr & .gc.BlkAttr.FINALIZE, // 5
+                this.malloc_info.attr & .gc.BlkAttr.NO_SCAN,  // 6
+                this.malloc_info.attr & .gc.BlkAttr.NO_MOVE,  // 7
+                ptrmap,                                       // 8
+                ptrmap[0] * size_t.sizeof,                    // 9
+                size_t.sizeof,                                // fill length
+                ptrmap[1],                                    // 10
+                size_t.sizeof,                                // fill length
+                ptrmap[1 + ptrmask_offset]);                  // 11
+        // TODO: make it an option
+        cstdio.fflush(this.mallocs_file);
+    }
+
+    void print_collection()
+    {
+        if (this.collections_file is null)
+            return;
+        cstdio.fprintf(this.collections_file,
+                "%f,%f,%f,%f,%zu,%zu,%zu,%zu,%zu,%zu,%zu,%zu\n",
+                //0  1  2  3   4   5   6   7   8   9  10  11
+                this.collection_info.timestamp,           // 0
+                this.collection_info.time.malloc,         // 1
+                this.collection_info.time.collection,     // 2
+                this.collection_info.time.stop_the_world, // 3
+                this.collection_info.before.used,         // 4
+                this.collection_info.before.free,         // 5
+                this.collection_info.before.wasted,       // 6
+                this.collection_info.before.overhead,     // 7
+                this.collection_info.after.used,          // 8
+                this.collection_info.after.free,          // 9
+                this.collection_info.after.wasted,        // 10
+                this.collection_info.after.overhead);     // 11
+        // TODO: make it an option
+        cstdio.fflush(this.collections_file);
+    }
+
+
+public:
+
+    /**
+     * Construct a Stats object (useful for easy initialization).
+     *
+     * This function should be always used to initialize a Stats object because
+     * the program start time (in seconds since the epoch) needs to be taken to
+     * properly add timestamps to allocations and collections.
+     */
+    static Stats opCall(.gc.GC* gc)
+    {
+        Stats this_;
+        this_.gc = gc;
+        if (options.malloc_stats_file[0] != '\0') {
+            this_.active = true;
+            this_.mallocs_file = this_.start_file(
+                    options.malloc_stats_file.ptr,
+                    "Timestamp,Time,Pointer,Size,Collection triggered,"
+                    "Finalize,No scan,No move,Pointer map,Type size,"
+                    "Pointer map scan bitmask (first word, hexa),"
+                    "Pointer map pointer bitmask (first word, hexa)\n");
+        }
+        // collection
+        if (options.collect_stats_file[0] != '\0') {
+            this_.active = true;
+            this_.collections_file = this_.start_file(
+                    options.collect_stats_file.ptr,
+                    "Timestamp,Malloc time,Collection time,Stop-the-world time,"
+                    "Used before,Free before,Wasted before,Overhead before,"
+                    "Used after,Free after,Wasted after,Overhead after\n");
+        }
+        this_.program_start = this_.now();
+        return this_;
+    }
+
+    void finalize()
+    {
+        if (this.mallocs_file !is null)
+            cstdio.fclose(this.mallocs_file);
+        if (this.collections_file !is null)
+            cstdio.fclose(this.collections_file);
+    }
+
+    /// Inform the start of an allocation.
+    // TODO: store/use type information
+    void malloc_started(size_t size, uint attr, size_t* ptrmap_bitmask)
+    {
+        if (!this.active)
+            return;
+        auto now = this.now();
+        auto relative_now = now - this.program_start;
+        // malloc
+        this.malloc_info = this.malloc_info.init;
+        this.malloc_info.timestamp = relative_now;
+        this.malloc_info.time = now;
+        this.malloc_info.size = size;
+        this.malloc_info.attr = attr;
+        this.malloc_info.ptrmap = ptrmap_bitmask;
+        // this.malloc_info.collected is filled in malloc_finished()
+        // collection
+        this.collection_info = this.collection_info.init;
+        this.collection_info.timestamp = relative_now;
+        // this.collection_info.time.malloc is the same as malloc_info.time
+    }
+
+    /// Inform the end of an allocation.
+    void malloc_finished(void* ptr)
+    {
+        if (!this.active)
+            return;
+        auto now = this.now();
+        auto collected = !(this.collection_info.time.collection < 0.0);
+        // malloc
+        this.malloc_info.time = now - this.malloc_info.time;
+        if (collected)
+            this.malloc_info.collected = true;
+        this.malloc_info.ptr = ptr;
+        this.print_malloc();
+        if (!collected)
+            return;
+        // collection
+        this.collection_info.time.malloc = this.malloc_info.time;
+        this.print_collection();
+    }
+
+    /// Inform that all threads (the world) have been stopped.
+    void world_stopped()
+    {
+        if (!this.active)
+            return;
+        this.collection_info.time.stop_the_world = this.now();
+    }
+
+    /// Inform that all threads (the world) have been resumed.
+    void world_started()
+    {
+        if (!this.active)
+            return;
+        this.collection_info.time.stop_the_world =
+                this.now() - this.collection_info.time.stop_the_world;
+    }
+
+    /// Inform the start of a collection.
+    void collection_started()
+    {
+        if (!this.active)
+            return;
+        this.fill_memory_info(&this.collection_info.before);
+        this.collection_info.time.collection = this.now();
+    }
+
+    /// Inform the end of a collection.
+    void collection_finished()
+    {
+        if (!this.active)
+            return;
+        this.collection_info.time.collection =
+                this.now() - this.collection_info.time.collection;
+        this.fill_memory_info(&this.collection_info.after);
+    }
+
+}
+
+
 /**
  *
  */