src/v8/tools/heap-stats/trace-file-reader.js - cobalt - Git at Google

 // Copyright 2018 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 'use strict';

 const trace_file_reader_template =
     document.currentScript.ownerDocument.querySelector(
         '#trace-file-reader-template');

 class TraceFileReader extends HTMLElement {
   constructor() {
     super();
     const shadowRoot = this.attachShadow({mode: 'open'});
     shadowRoot.appendChild(trace_file_reader_template.content.cloneNode(true));
     this.addEventListener('click', e => this.handleClick(e));
     this.addEventListener('dragover', e => this.handleDragOver(e));
     this.addEventListener('drop', e => this.handleChange(e));
     this.$('#file').addEventListener('change', e => this.handleChange(e));
   }

   $(id) {
     return this.shadowRoot.querySelector(id);
   }

   updateLabel(text) {
     this.$('#label').innerText = text;
   }

   handleClick(event) {
     this.$('#file').click();
   }

   handleChange(event) {
     // Used for drop and file change.
     event.preventDefault();
     var host = event.dataTransfer ? event.dataTransfer : event.target;
     this.readFile(host.files[0]);
   }

   handleDragOver(event) {
     event.preventDefault();
   }

   connectedCallback() {}

   readFile(file) {
     if (!file) {
       this.updateLabel('Failed to load file.');
       return;
     }

     const result = new FileReader();
     result.onload = (e) => {
       let contents = e.target.result.split('\n');
       const return_data = (e.target.result.includes('V8.GC_Objects_Stats')) ?
           this.createModelFromChromeTraceFile(contents) :
           this.createModelFromV8TraceFile(contents);
       this.updateLabel('Finished loading \'' + file.name + '\'.');
       this.dispatchEvent(new CustomEvent(
           'change', {bubbles: true, composed: true, detail: return_data}));
     };
     result.readAsText(file);
   }

   createOrUpdateEntryIfNeeded(data, keys, entry) {
     console.assert(entry.isolate, 'entry should have an isolate');
     if (!(entry.isolate in keys)) {
       keys[entry.isolate] = new Set();
     }
     if (!(entry.isolate in data)) {
       data[entry.isolate] = {
         non_empty_instance_types: new Set(),
         gcs: {},
         zonetags: [],
         samples: {zone: {}},
         start: null,
         end: null,
         data_sets: new Set()
       };
     }
     const data_object = data[entry.isolate];
     if (('id' in entry) && !(entry.id in data_object.gcs)) {
       data_object.gcs[entry.id] = {non_empty_instance_types: new Set()};
     }
     if ('time' in entry) {
       if (data_object.end === null || data_object.end < entry.time)
         data_object.end = entry.time;
       if (data_object.start === null || data_object.start > entry.time)
         data_object.start = entry.time;
     }
   }

   createDatasetIfNeeded(data, keys, entry, data_set) {
     if (!(data_set in data[entry.isolate].gcs[entry.id])) {
       data[entry.isolate].gcs[entry.id][data_set] = {
         instance_type_data: {},
         non_empty_instance_types: new Set(),
         overall: 0
       };
       data[entry.isolate].data_sets.add(data_set);
     }
   }

   addInstanceTypeData(
       data, keys, isolate, gc_id, data_set, instance_type, entry) {
     keys[isolate].add(data_set);
     data[isolate].gcs[gc_id][data_set].instance_type_data[instance_type] = {
       overall: entry.overall,
       count: entry.count,
       histogram: entry.histogram,
       over_allocated: entry.over_allocated,
       over_allocated_histogram: entry.over_allocated_histogram
     };
     data[isolate].gcs[gc_id][data_set].overall += entry.overall;
     if (entry.overall !== 0) {
       data[isolate].gcs[gc_id][data_set].non_empty_instance_types.add(
           instance_type);
       data[isolate].gcs[gc_id].non_empty_instance_types.add(instance_type);
       data[isolate].non_empty_instance_types.add(instance_type);
     }
   }

   extendAndSanitizeModel(data, keys) {
     const checkNonNegativeProperty = (obj, property) => {
       console.assert(obj[property] >= 0, 'negative property', obj, property);
     };

     for (const isolate of Object.keys(data)) {
       for (const gc of Object.keys(data[isolate].gcs)) {
         for (const data_set_key of keys[isolate]) {
           const data_set = data[isolate].gcs[gc][data_set_key];
           // 1. Create a ranked instance type array that sorts instance
           // types by memory size (overall).
           data_set.ranked_instance_types =
               [...data_set.non_empty_instance_types].sort(function(a, b) {
                 if (data_set.instance_type_data[a].overall >
                     data_set.instance_type_data[b].overall) {
                   return 1;
                 } else if (
                     data_set.instance_type_data[a].overall <
                     data_set.instance_type_data[b].overall) {
                   return -1;
                 }
                 return 0;
               });

           let known_count = 0;
           let known_overall = 0;
           let known_histogram =
               Array(
                   data_set.instance_type_data.FIXED_ARRAY_TYPE.histogram.length)
                   .fill(0);
           for (const instance_type in data_set.instance_type_data) {
             if (!instance_type.startsWith('*FIXED_ARRAY')) continue;
             const subtype = data_set.instance_type_data[instance_type];
             known_count += subtype.count;
             known_overall += subtype.count;
             for (let i = 0; i < subtype.histogram.length; i++) {
               known_histogram[i] += subtype.histogram[i];
             }
           }

           const fixed_array_data = data_set.instance_type_data.FIXED_ARRAY_TYPE;
           const unknown_entry = {
             count: fixed_array_data.count - known_count,
             overall: fixed_array_data.overall - known_overall,
             histogram: fixed_array_data.histogram.map(
                 (value, index) => value - known_histogram[index])
           };

           // Check for non-negative values.
           checkNonNegativeProperty(unknown_entry, 'count');
           checkNonNegativeProperty(unknown_entry, 'overall');
           for (let i = 0; i < unknown_entry.histogram.length; i++) {
             checkNonNegativeProperty(unknown_entry.histogram, i);
           }

           data_set.instance_type_data['*FIXED_ARRAY_UNKNOWN_SUB_TYPE'] =
               unknown_entry;
           data_set.non_empty_instance_types.add(
               '*FIXED_ARRAY_UNKNOWN_SUB_TYPE');
         }
       }
     }
   }

   createModelFromChromeTraceFile(contents) {
     console.log('Processing log as chrome trace file.');
     const data = Object.create(null);  // Final data container.
     const keys = Object.create(null);  // Collecting 'keys' per isolate.

     // Pop last line in log as it might be broken.
     contents.pop();
     // Remove trailing comma.
     contents[contents.length - 1] = contents[contents.length - 1].slice(0, -1);
     // Terminate JSON.
     const sanitized_contents = [...contents, ']}'].join('');
     try {
       const raw_data = JSON.parse(sanitized_contents);
       const objects_stats_data =
           raw_data.traceEvents.filter(e => e.name == 'V8.GC_Objects_Stats');
       objects_stats_data.forEach(trace_data => {
         const actual_data = trace_data.args;
         const data_sets = new Set(Object.keys(actual_data));
         Object.keys(actual_data).forEach(data_set => {
           const string_entry = actual_data[data_set];
           try {
             const entry = JSON.parse(string_entry);
             this.createOrUpdateEntryIfNeeded(data, keys, entry);
             this.createDatasetIfNeeded(data, keys, entry, data_set);
             const isolate = entry.isolate;
             const time = entry.time;
             const gc_id = entry.id;
             data[isolate].gcs[gc_id].time = time;
             data[isolate].gcs[gc_id][data_set].bucket_sizes =
                 entry.bucket_sizes;
             for (let [instance_type, value] of Object.entries(
                      entry.type_data)) {
               // Trace file format uses markers that do not have actual
               // properties.
               if (!('overall' in value)) continue;
               this.addInstanceTypeData(
                   data, keys, isolate, gc_id, data_set, instance_type, value);
             }
           } catch (e) {
             console.log('Unable to parse data set entry', e);
           }
         });
       });
     } catch (e) {
       console.log('Unable to parse chrome trace file.', e);
     }
     this.extendAndSanitizeModel(data, keys);
     return data;
   }

   createModelFromV8TraceFile(contents) {
     console.log('Processing log as V8 trace file.');
     contents = contents.map(function(line) {
       try {
         // Strip away a potentially present adb logcat prefix.
         line = line.replace(/^I\/v8\s*\(\d+\):\s+/g, '');
         return JSON.parse(line);
       } catch (e) {
         console.log('Unable to parse line: \'' + line + '\'\' (' + e + ')');
       }
       return null;
     });

     const data = Object.create(null);  // Final data container.
     const keys = Object.create(null);  // Collecting 'keys' per isolate.

     for (var entry of contents) {
       if (entry === null || entry.type === undefined) {
         continue;
       }
       if (entry.type === 'zone') {
         this.createOrUpdateEntryIfNeeded(data, keys, entry);
         const stacktrace = ('stacktrace' in entry) ? entry.stacktrace : [];
         data[entry.isolate].samples.zone[entry.time] = {
           allocated: entry.allocated,
           pooled: entry.pooled,
           stacktrace: stacktrace
         };
       } else if (
           entry.type === 'zonecreation' || entry.type === 'zonedestruction') {
         this.createOrUpdateEntryIfNeeded(data, keys, entry);
         data[entry.isolate].zonetags.push(
             Object.assign({opening: entry.type === 'zonecreation'}, entry));
       } else if (entry.type === 'gc_descriptor') {
         this.createOrUpdateEntryIfNeeded(data, keys, entry);
         data[entry.isolate].gcs[entry.id].time = entry.time;
         if ('zone' in entry)
           data[entry.isolate].gcs[entry.id].malloced = entry.zone;
       } else if (entry.type === 'instance_type_data') {
         if (entry.id in data[entry.isolate].gcs) {
           this.createOrUpdateEntryIfNeeded(data, keys, entry);
           this.createDatasetIfNeeded(data, keys, entry, entry.key);
           this.addInstanceTypeData(
               data, keys, entry.isolate, entry.id, entry.key,
               entry.instance_type_name, entry);
         }
       } else if (entry.type === 'bucket_sizes') {
         if (entry.id in data[entry.isolate].gcs) {
           this.createOrUpdateEntryIfNeeded(data, keys, entry);
           this.createDatasetIfNeeded(data, keys, entry, entry.key);
           data[entry.isolate].gcs[entry.id][entry.key].bucket_sizes =
               entry.sizes;
         }
       } else {
         console.log('Unknown entry type: ' + entry.type);
       }
     }
     this.extendAndSanitizeModel(data, keys);
     return data;
   }
 }

 customElements.define('trace-file-reader', TraceFileReader);
	// Copyright 2018 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	'use strict';

	const trace_file_reader_template =
	document.currentScript.ownerDocument.querySelector(
	'#trace-file-reader-template');

	class TraceFileReader extends HTMLElement {
	constructor() {
	super();
	const shadowRoot = this.attachShadow({mode: 'open'});
	shadowRoot.appendChild(trace_file_reader_template.content.cloneNode(true));
	this.addEventListener('click', e => this.handleClick(e));
	this.addEventListener('dragover', e => this.handleDragOver(e));
	this.addEventListener('drop', e => this.handleChange(e));
	this.$('#file').addEventListener('change', e => this.handleChange(e));
	}

	$(id) {
	return this.shadowRoot.querySelector(id);
	}

	updateLabel(text) {
	this.$('#label').innerText = text;
	}

	handleClick(event) {
	this.$('#file').click();
	}

	handleChange(event) {
	// Used for drop and file change.
	event.preventDefault();
	var host = event.dataTransfer ? event.dataTransfer : event.target;
	this.readFile(host.files[0]);
	}

	handleDragOver(event) {
	event.preventDefault();
	}

	connectedCallback() {}

	readFile(file) {
	if (!file) {
	this.updateLabel('Failed to load file.');
	return;
	}

	const result = new FileReader();
	result.onload = (e) => {
	let contents = e.target.result.split('\n');
	const return_data = (e.target.result.includes('V8.GC_Objects_Stats')) ?
	this.createModelFromChromeTraceFile(contents) :
	this.createModelFromV8TraceFile(contents);
	this.updateLabel('Finished loading \'' + file.name + '\'.');
	this.dispatchEvent(new CustomEvent(
	'change', {bubbles: true, composed: true, detail: return_data}));
	};
	result.readAsText(file);
	}

	createOrUpdateEntryIfNeeded(data, keys, entry) {
	console.assert(entry.isolate, 'entry should have an isolate');
	if (!(entry.isolate in keys)) {
	keys[entry.isolate] = new Set();
	}
	if (!(entry.isolate in data)) {
	data[entry.isolate] = {
	non_empty_instance_types: new Set(),
	gcs: {},
	zonetags: [],
	samples: {zone: {}},
	start: null,
	end: null,
	data_sets: new Set()
	};
	}
	const data_object = data[entry.isolate];
	if (('id' in entry) && !(entry.id in data_object.gcs)) {
	data_object.gcs[entry.id] = {non_empty_instance_types: new Set()};
	}
	if ('time' in entry) {
	if (data_object.end === null \|\| data_object.end < entry.time)
	data_object.end = entry.time;
	if (data_object.start === null \|\| data_object.start > entry.time)
	data_object.start = entry.time;
	}
	}

	createDatasetIfNeeded(data, keys, entry, data_set) {
	if (!(data_set in data[entry.isolate].gcs[entry.id])) {
	data[entry.isolate].gcs[entry.id][data_set] = {
	instance_type_data: {},
	non_empty_instance_types: new Set(),
	overall: 0
	};
	data[entry.isolate].data_sets.add(data_set);
	}
	}

	addInstanceTypeData(
	data, keys, isolate, gc_id, data_set, instance_type, entry) {
	keys[isolate].add(data_set);
	data[isolate].gcs[gc_id][data_set].instance_type_data[instance_type] = {
	overall: entry.overall,
	count: entry.count,
	histogram: entry.histogram,
	over_allocated: entry.over_allocated,
	over_allocated_histogram: entry.over_allocated_histogram
	};
	data[isolate].gcs[gc_id][data_set].overall += entry.overall;
	if (entry.overall !== 0) {
	data[isolate].gcs[gc_id][data_set].non_empty_instance_types.add(
	instance_type);
	data[isolate].gcs[gc_id].non_empty_instance_types.add(instance_type);
	data[isolate].non_empty_instance_types.add(instance_type);
	}
	}

	extendAndSanitizeModel(data, keys) {
	const checkNonNegativeProperty = (obj, property) => {
	console.assert(obj[property] >= 0, 'negative property', obj, property);
	};

	for (const isolate of Object.keys(data)) {
	for (const gc of Object.keys(data[isolate].gcs)) {
	for (const data_set_key of keys[isolate]) {
	const data_set = data[isolate].gcs[gc][data_set_key];
	// 1. Create a ranked instance type array that sorts instance
	// types by memory size (overall).
	data_set.ranked_instance_types =
	[...data_set.non_empty_instance_types].sort(function(a, b) {
	if (data_set.instance_type_data[a].overall >
	data_set.instance_type_data[b].overall) {
	return 1;
	} else if (
	data_set.instance_type_data[a].overall <
	data_set.instance_type_data[b].overall) {
	return -1;
	}
	return 0;
	});

	let known_count = 0;
	let known_overall = 0;
	let known_histogram =
	Array(
	data_set.instance_type_data.FIXED_ARRAY_TYPE.histogram.length)
	.fill(0);
	for (const instance_type in data_set.instance_type_data) {
	if (!instance_type.startsWith('*FIXED_ARRAY')) continue;
	const subtype = data_set.instance_type_data[instance_type];
	known_count += subtype.count;
	known_overall += subtype.count;
	for (let i = 0; i < subtype.histogram.length; i++) {
	known_histogram[i] += subtype.histogram[i];
	}
	}

	const fixed_array_data = data_set.instance_type_data.FIXED_ARRAY_TYPE;
	const unknown_entry = {
	count: fixed_array_data.count - known_count,
	overall: fixed_array_data.overall - known_overall,
	histogram: fixed_array_data.histogram.map(
	(value, index) => value - known_histogram[index])
	};

	// Check for non-negative values.
	checkNonNegativeProperty(unknown_entry, 'count');
	checkNonNegativeProperty(unknown_entry, 'overall');
	for (let i = 0; i < unknown_entry.histogram.length; i++) {
	checkNonNegativeProperty(unknown_entry.histogram, i);
	}

	data_set.instance_type_data['*FIXED_ARRAY_UNKNOWN_SUB_TYPE'] =
	unknown_entry;
	data_set.non_empty_instance_types.add(
	'*FIXED_ARRAY_UNKNOWN_SUB_TYPE');
	}
	}
	}
	}

	createModelFromChromeTraceFile(contents) {
	console.log('Processing log as chrome trace file.');
	const data = Object.create(null); // Final data container.
	const keys = Object.create(null); // Collecting 'keys' per isolate.

	// Pop last line in log as it might be broken.
	contents.pop();
	// Remove trailing comma.
	contents[contents.length - 1] = contents[contents.length - 1].slice(0, -1);
	// Terminate JSON.
	const sanitized_contents = [...contents, ']}'].join('');
	try {
	const raw_data = JSON.parse(sanitized_contents);
	const objects_stats_data =
	raw_data.traceEvents.filter(e => e.name == 'V8.GC_Objects_Stats');
	objects_stats_data.forEach(trace_data => {
	const actual_data = trace_data.args;
	const data_sets = new Set(Object.keys(actual_data));
	Object.keys(actual_data).forEach(data_set => {
	const string_entry = actual_data[data_set];
	try {
	const entry = JSON.parse(string_entry);
	this.createOrUpdateEntryIfNeeded(data, keys, entry);
	this.createDatasetIfNeeded(data, keys, entry, data_set);
	const isolate = entry.isolate;
	const time = entry.time;
	const gc_id = entry.id;
	data[isolate].gcs[gc_id].time = time;
	data[isolate].gcs[gc_id][data_set].bucket_sizes =
	entry.bucket_sizes;
	for (let [instance_type, value] of Object.entries(
	entry.type_data)) {
	// Trace file format uses markers that do not have actual
	// properties.
	if (!('overall' in value)) continue;
	this.addInstanceTypeData(
	data, keys, isolate, gc_id, data_set, instance_type, value);
	}
	} catch (e) {
	console.log('Unable to parse data set entry', e);
	}
	});
	});
	} catch (e) {
	console.log('Unable to parse chrome trace file.', e);
	}
	this.extendAndSanitizeModel(data, keys);
	return data;
	}

	createModelFromV8TraceFile(contents) {
	console.log('Processing log as V8 trace file.');
	contents = contents.map(function(line) {
	try {
	// Strip away a potentially present adb logcat prefix.
	line = line.replace(/^I\/v8\s*\(\d+\):\s+/g, '');
	return JSON.parse(line);
	} catch (e) {
	console.log('Unable to parse line: \'' + line + '\'\' (' + e + ')');
	}
	return null;
	});

	const data = Object.create(null); // Final data container.
	const keys = Object.create(null); // Collecting 'keys' per isolate.

	for (var entry of contents) {
	if (entry === null \|\| entry.type === undefined) {
	continue;
	}
	if (entry.type === 'zone') {
	this.createOrUpdateEntryIfNeeded(data, keys, entry);
	const stacktrace = ('stacktrace' in entry) ? entry.stacktrace : [];
	data[entry.isolate].samples.zone[entry.time] = {
	allocated: entry.allocated,
	pooled: entry.pooled,
	stacktrace: stacktrace
	};
	} else if (
	entry.type === 'zonecreation' \|\| entry.type === 'zonedestruction') {
	this.createOrUpdateEntryIfNeeded(data, keys, entry);
	data[entry.isolate].zonetags.push(
	Object.assign({opening: entry.type === 'zonecreation'}, entry));
	} else if (entry.type === 'gc_descriptor') {
	this.createOrUpdateEntryIfNeeded(data, keys, entry);
	data[entry.isolate].gcs[entry.id].time = entry.time;
	if ('zone' in entry)
	data[entry.isolate].gcs[entry.id].malloced = entry.zone;
	} else if (entry.type === 'instance_type_data') {
	if (entry.id in data[entry.isolate].gcs) {
	this.createOrUpdateEntryIfNeeded(data, keys, entry);
	this.createDatasetIfNeeded(data, keys, entry, entry.key);
	this.addInstanceTypeData(
	data, keys, entry.isolate, entry.id, entry.key,
	entry.instance_type_name, entry);
	}
	} else if (entry.type === 'bucket_sizes') {
	if (entry.id in data[entry.isolate].gcs) {
	this.createOrUpdateEntryIfNeeded(data, keys, entry);
	this.createDatasetIfNeeded(data, keys, entry, entry.key);
	data[entry.isolate].gcs[entry.id][entry.key].bucket_sizes =
	entry.sizes;
	}
	} else {
	console.log('Unknown entry type: ' + entry.type);
	}
	}
	this.extendAndSanitizeModel(data, keys);
	return data;
	}
	}

	customElements.define('trace-file-reader', TraceFileReader);