// 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. #include "content/browser/download/download_stats.h" #include "base/metrics/histogram.h" #include "base/string_util.h" #include "content/browser/download/download_resource_handler.h" #include "content/public/browser/download_interrupt_reasons.h" namespace download_stats { // All possible error codes from the network module. Note that the error codes // are all positive (since histograms expect positive sample values). const int kAllInterruptReasonCodes[] = { #define INTERRUPT_REASON(label, value) (value), #include "content/public/browser/download_interrupt_reason_values.h" #undef INTERRUPT_REASON }; void RecordDownloadCount(DownloadCountTypes type) { UMA_HISTOGRAM_ENUMERATION( "Download.Counts", type, DOWNLOAD_COUNT_TYPES_LAST_ENTRY); } void RecordDownloadSource(DownloadSource source) { UMA_HISTOGRAM_ENUMERATION( "Download.Sources", source, DOWNLOAD_SOURCE_LAST_ENTRY); } void RecordDownloadCompleted(const base::TimeTicks& start, int64 download_len) { RecordDownloadCount(COMPLETED_COUNT); UMA_HISTOGRAM_LONG_TIMES("Download.Time", (base::TimeTicks::Now() - start)); int64 max = 1024 * 1024 * 1024; // One Terabyte. download_len /= 1024; // In Kilobytes UMA_HISTOGRAM_CUSTOM_COUNTS("Download.DownloadSize", download_len, 1, max, 256); } void RecordDownloadInterrupted(content::DownloadInterruptReason reason, int64 received, int64 total) { RecordDownloadCount(INTERRUPTED_COUNT); UMA_HISTOGRAM_CUSTOM_ENUMERATION( "Download.InterruptedReason", reason, base::CustomHistogram::ArrayToCustomRanges( kAllInterruptReasonCodes, arraysize(kAllInterruptReasonCodes))); // The maximum should be 2^kBuckets, to have the logarithmic bucket // boundaries fall on powers of 2. static const int kBuckets = 30; static const int64 kMaxKb = 1 << kBuckets; // One Terabyte, in Kilobytes. int64 delta_bytes = total - received; bool unknown_size = total <= 0; int64 received_kb = received / 1024; int64 total_kb = total / 1024; UMA_HISTOGRAM_CUSTOM_COUNTS("Download.InterruptedReceivedSizeK", received_kb, 1, kMaxKb, kBuckets); if (!unknown_size) { UMA_HISTOGRAM_CUSTOM_COUNTS("Download.InterruptedTotalSizeK", total_kb, 1, kMaxKb, kBuckets); if (delta_bytes == 0) { RecordDownloadCount(INTERRUPTED_AT_END_COUNT); UMA_HISTOGRAM_CUSTOM_ENUMERATION( "Download.InterruptedAtEndReason", reason, base::CustomHistogram::ArrayToCustomRanges( kAllInterruptReasonCodes, arraysize(kAllInterruptReasonCodes))); } else if (delta_bytes > 0) { UMA_HISTOGRAM_CUSTOM_COUNTS("Download.InterruptedOverrunBytes", delta_bytes, 1, kMaxKb, kBuckets); } else { UMA_HISTOGRAM_CUSTOM_COUNTS("Download.InterruptedUnderrunBytes", -delta_bytes, 1, kMaxKb, kBuckets); } } UMA_HISTOGRAM_BOOLEAN("Download.InterruptedUnknownSize", unknown_size); } void RecordDownloadWriteSize(size_t data_len) { RecordDownloadCount(WRITE_SIZE_COUNT); int max = 1024 * 1024; // One Megabyte. UMA_HISTOGRAM_CUSTOM_COUNTS("Download.WriteSize", data_len, 1, max, 256); } void RecordDownloadWriteLoopCount(int count) { RecordDownloadCount(WRITE_LOOP_COUNT); UMA_HISTOGRAM_ENUMERATION("Download.WriteLoopCount", count, 20); } void RecordAcceptsRanges(const std::string& accepts_ranges, int64 download_len) { int64 max = 1024 * 1024 * 1024; // One Terabyte. download_len /= 1024; // In Kilobytes static const int kBuckets = 50; if (LowerCaseEqualsASCII(accepts_ranges, "none")) { UMA_HISTOGRAM_CUSTOM_COUNTS("Download.AcceptRangesNone.KBytes", download_len, 1, max, kBuckets); } else if (LowerCaseEqualsASCII(accepts_ranges, "bytes")) { UMA_HISTOGRAM_CUSTOM_COUNTS("Download.AcceptRangesBytes.KBytes", download_len, 1, max, kBuckets); } else { UMA_HISTOGRAM_CUSTOM_COUNTS("Download.AcceptRangesMissingOrInvalid.KBytes", download_len, 1, max, kBuckets); } } namespace { enum DownloadContent { DOWNLOAD_CONTENT_UNRECOGNIZED = 0, DOWNLOAD_CONTENT_TEXT = 1, DOWNLOAD_CONTENT_IMAGE = 2, DOWNLOAD_CONTENT_AUDIO = 3, DOWNLOAD_CONTENT_VIDEO = 4, DOWNLOAD_CONTENT_OCTET_STREAM = 5, DOWNLOAD_CONTENT_PDF = 6, DOWNLOAD_CONTENT_DOC = 7, DOWNLOAD_CONTENT_XLS = 8, DOWNLOAD_CONTENT_PPT = 9, DOWNLOAD_CONTENT_ARCHIVE = 10, DOWNLOAD_CONTENT_EXE = 11, DOWNLOAD_CONTENT_DMG = 12, DOWNLOAD_CONTENT_CRX = 13, DOWNLOAD_CONTENT_MAX = 14, }; struct MimeTypeToDownloadContent { const char* mime_type; DownloadContent download_content; }; static MimeTypeToDownloadContent kMapMimeTypeToDownloadContent[] = { {"application/octet-stream", DOWNLOAD_CONTENT_OCTET_STREAM}, {"binary/octet-stream", DOWNLOAD_CONTENT_OCTET_STREAM}, {"application/pdf", DOWNLOAD_CONTENT_PDF}, {"application/msword", DOWNLOAD_CONTENT_DOC}, {"application/vnd.ms-excel", DOWNLOAD_CONTENT_XLS}, {"application/vns.ms-powerpoint", DOWNLOAD_CONTENT_PPT}, {"application/zip", DOWNLOAD_CONTENT_ARCHIVE}, {"application/x-gzip", DOWNLOAD_CONTENT_ARCHIVE}, {"application/x-rar-compressed", DOWNLOAD_CONTENT_ARCHIVE}, {"application/x-tar", DOWNLOAD_CONTENT_ARCHIVE}, {"application/x-bzip", DOWNLOAD_CONTENT_ARCHIVE}, {"application/x-exe", DOWNLOAD_CONTENT_EXE}, {"application/x-apple-diskimage", DOWNLOAD_CONTENT_DMG}, {"application/x-chrome-extension", DOWNLOAD_CONTENT_CRX}, }; enum DownloadImage { DOWNLOAD_IMAGE_UNRECOGNIZED = 0, DOWNLOAD_IMAGE_GIF = 1, DOWNLOAD_IMAGE_JPEG = 2, DOWNLOAD_IMAGE_PNG = 3, DOWNLOAD_IMAGE_TIFF = 4, DOWNLOAD_IMAGE_ICON = 5, DOWNLOAD_IMAGE_WEBP = 6, DOWNLOAD_IMAGE_MAX = 7, }; struct MimeTypeToDownloadImage { const char* mime_type; DownloadImage download_image; }; static MimeTypeToDownloadImage kMapMimeTypeToDownloadImage[] = { {"image/gif", DOWNLOAD_IMAGE_GIF}, {"image/jpeg", DOWNLOAD_IMAGE_JPEG}, {"image/png", DOWNLOAD_IMAGE_PNG}, {"image/tiff", DOWNLOAD_IMAGE_TIFF}, {"image/vnd.microsoft.icon", DOWNLOAD_IMAGE_ICON}, {"image/webp", DOWNLOAD_IMAGE_WEBP}, }; void RecordDownloadImageType(const std::string& mime_type_string) { DownloadImage download_image = DOWNLOAD_IMAGE_UNRECOGNIZED; // Look up exact matches. for (size_t i = 0; i < arraysize(kMapMimeTypeToDownloadImage); ++i) { const MimeTypeToDownloadImage& entry = kMapMimeTypeToDownloadImage[i]; if (mime_type_string == entry.mime_type) { download_image = entry.download_image; break; } } UMA_HISTOGRAM_ENUMERATION("Download.ContentImageType", download_image, DOWNLOAD_IMAGE_MAX); } } // namespace void RecordDownloadMimeType(const std::string& mime_type_string) { DownloadContent download_content = DOWNLOAD_CONTENT_UNRECOGNIZED; // Look up exact matches. for (size_t i = 0; i < arraysize(kMapMimeTypeToDownloadContent); ++i) { const MimeTypeToDownloadContent& entry = kMapMimeTypeToDownloadContent[i]; if (mime_type_string == entry.mime_type) { download_content = entry.download_content; break; } } // Do partial matches. if (download_content == DOWNLOAD_CONTENT_UNRECOGNIZED) { if (StartsWithASCII(mime_type_string, "text/", true)) { download_content = DOWNLOAD_CONTENT_TEXT; } else if (StartsWithASCII(mime_type_string, "image/", true)) { download_content = DOWNLOAD_CONTENT_IMAGE; RecordDownloadImageType(mime_type_string); } else if (StartsWithASCII(mime_type_string, "audio/", true)) { download_content = DOWNLOAD_CONTENT_AUDIO; } else if (StartsWithASCII(mime_type_string, "video/", true)) { download_content = DOWNLOAD_CONTENT_VIDEO; } } // Record the value. UMA_HISTOGRAM_ENUMERATION("Download.ContentType", download_content, DOWNLOAD_CONTENT_MAX); } void RecordFileThreadReceiveBuffers(size_t num_buffers) { UMA_HISTOGRAM_CUSTOM_COUNTS( "Download.FileThreadReceiveBuffers", num_buffers, 1, 100, 100); } void RecordBandwidth(double actual_bandwidth, double potential_bandwidth) { UMA_HISTOGRAM_CUSTOM_COUNTS( "Download.ActualBandwidth", actual_bandwidth, 1, 1000000000, 50); UMA_HISTOGRAM_CUSTOM_COUNTS( "Download.PotentialBandwidth", potential_bandwidth, 1, 1000000000, 50); UMA_HISTOGRAM_PERCENTAGE( "Download.BandwidthUsed", (int) ((actual_bandwidth * 100)/ potential_bandwidth)); } void RecordOpen(const base::Time& end, bool first) { if (!end.is_null()) { UMA_HISTOGRAM_LONG_TIMES("Download.OpenTime", (base::Time::Now() - end)); if (first) { UMA_HISTOGRAM_LONG_TIMES("Download.FirstOpenTime", (base::Time::Now() - end)); } } } void RecordHistorySize(int size) { UMA_HISTOGRAM_CUSTOM_COUNTS("Download.HistorySize2", size, 0/*min*/, (1 << 23)/*max*/, (1 << 7)/*num_buckets*/); } void RecordClearAllSize(int size) { UMA_HISTOGRAM_CUSTOM_COUNTS("Download.ClearAllSize", size, 0/*min*/, (1 << 10)/*max*/, 32/*num_buckets*/); } void RecordOpensOutstanding(int size) { UMA_HISTOGRAM_CUSTOM_COUNTS("Download.OpensOutstanding", size, 0/*min*/, (1 << 10)/*max*/, 64/*num_buckets*/); } void RecordContiguousWriteTime(base::TimeDelta time_blocked) { UMA_HISTOGRAM_TIMES("Download.FileThreadBlockedTime", time_blocked); } // Record what percentage of the time we have the network flow controlled. void RecordNetworkBlockage(base::TimeDelta resource_handler_lifetime, base::TimeDelta resource_handler_blocked_time) { int percentage = 0; // Avoid division by zero errors. if (resource_handler_blocked_time != base::TimeDelta()) { percentage = resource_handler_blocked_time * 100 / resource_handler_lifetime; } UMA_HISTOGRAM_COUNTS_100("Download.ResourceHandlerBlockedPercentage", percentage); } void RecordFileBandwidth(size_t length, base::TimeDelta disk_write_time, base::TimeDelta elapsed_time) { size_t elapsed_time_ms = elapsed_time.InMilliseconds(); if (0u == elapsed_time_ms) elapsed_time_ms = 1; size_t disk_write_time_ms = disk_write_time.InMilliseconds(); if (0u == disk_write_time_ms) disk_write_time_ms = 1; UMA_HISTOGRAM_CUSTOM_COUNTS( "Download.BandwidthOverallBytesPerSecond", (1000 * length / elapsed_time_ms), 1, 50000000, 50); UMA_HISTOGRAM_CUSTOM_COUNTS( "Download.BandwidthDiskBytesPerSecond", (1000 * length / disk_write_time_ms), 1, 50000000, 50); UMA_HISTOGRAM_COUNTS_100("Download.DiskBandwidthUsedPercentage", disk_write_time_ms * 100 / elapsed_time_ms); } void RecordSavePackageEvent(SavePackageEvent event) { UMA_HISTOGRAM_ENUMERATION("Download.SavePackage", event, SAVE_PACKAGE_LAST_ENTRY); } } // namespace download_stats