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/**
* @file lldiskcache.cpp
* @brief The disk cache implementation.
*
* Note: Rather than keep the top level function comments up
* to date in both the source and header files, I elected to
* only have explicit comments about each function and variable
* in the header - look there for details. The same is true for
* description of how this code is supposed to work.
*
* $LicenseInfo:firstyear=2009&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2020, Linden Research, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation;
* version 2.1 of the License only.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
* $/LicenseInfo$
*/
#include "linden_common.h"
#include "llapp.h"
#include "llassettype.h"
#include "lldir.h"
#include <boost/filesystem.hpp>
#include <boost/range/iterator_range.hpp>
#include <chrono>
#include "lldiskcache.h"
LLDiskCache::LLDiskCache(const std::string cache_dir,
const uintmax_t max_size_bytes,
const bool enable_cache_debug_info) :
mCacheDir(cache_dir),
mMaxSizeBytes(max_size_bytes),
mEnableCacheDebugInfo(enable_cache_debug_info)
{
mCacheFilenamePrefix = "sl_cache";
LLFile::mkdir(cache_dir);
}
// WARNING: purge() is called by LLPurgeDiskCacheThread. As such it must
// NOT touch any LLDiskCache data without introducing and locking a mutex!
// Interaction through the filesystem itself should be safe. Let’s say thread
// A is accessing the cache file for reading/writing and thread B is trimming
// the cache. Let’s also assume using llifstream to open a file and
// boost::filesystem::remove are not atomic (which will be pretty much the
// case).
// Now, A is trying to open the file using llifstream ctor. It does some
// checks if the file exists and whatever else it might be doing, but has not
// issued the call to the OS to actually open the file yet. Now B tries to
// delete the file: If the file has been already marked as in use by the OS,
// deleting the file will fail and B will continue with the next file. A can
// safely continue opening the file. If the file has not yet been marked as in
// use, B will delete the file. Now A actually wants to open it, operation
// will fail, subsequent check via llifstream.is_open will fail, asset will
// have to be re-requested. (Assuming here the viewer will actually handle
// this situation properly, that can also happen if there is a file containing
// garbage.)
// Other situation: B is trimming the cache and A wants to read a file that is
// about to get deleted. boost::filesystem::remove does whatever it is doing
// before actually deleting the file. If A opens the file before the file is
// actually gone, the OS call from B to delete the file will fail since the OS
// will prevent this. B continues with the next file. If the file is already
// gone before A finally gets to open it, this operation will fail and the
// asset will have to be re-requested.
void LLDiskCache::purge()
{
if (mEnableCacheDebugInfo)
{
LL_INFOS() << "Total dir size before purge is " << dirFileSize(mCacheDir) << LL_ENDL;
}
boost::system::error_code ec;
auto start_time = std::chrono::high_resolution_clock::now();
typedef std::pair<std::time_t, std::pair<uintmax_t, std::string>> file_info_t;
std::vector<file_info_t> file_info;
#if LL_WINDOWS
std::wstring cache_path(utf8str_to_utf16str(mCacheDir));
#else
std::string cache_path(mCacheDir);
#endif
if (boost::filesystem::is_directory(cache_path, ec) && !ec.failed())
{
for (auto& entry : boost::make_iterator_range(boost::filesystem::directory_iterator(cache_path, ec), {}))
{
if (boost::filesystem::is_regular_file(entry, ec) && !ec.failed())
{
if (entry.path().string().find(mCacheFilenamePrefix) != std::string::npos)
{
uintmax_t file_size = boost::filesystem::file_size(entry, ec);
if (ec.failed())
{
continue;
}
const std::string file_path = entry.path().string();
const std::time_t file_time = boost::filesystem::last_write_time(entry, ec);
if (ec.failed())
{
continue;
}
file_info.push_back(file_info_t(file_time, { file_size, file_path }));
}
}
}
}
std::sort(file_info.begin(), file_info.end(), [](file_info_t& x, file_info_t& y)
{
return x.first > y.first;
});
LL_INFOS() << "Purging cache to a maximum of " << mMaxSizeBytes << " bytes" << LL_ENDL;
std::vector<bool> file_removed;
if (mEnableCacheDebugInfo)
{
file_removed.reserve(file_info.size());
}
uintmax_t file_size_total = 0;
for (file_info_t& entry : file_info)
{
file_size_total += entry.second.first;
bool should_remove = file_size_total > mMaxSizeBytes;
if (mEnableCacheDebugInfo)
{
file_removed.push_back(should_remove);
}
if (should_remove)
{
boost::filesystem::remove(entry.second.second, ec);
if (ec.failed())
{
LL_WARNS() << "Failed to delete cache file " << entry.second.second << ": " << ec.message() << LL_ENDL;
}
}
}
if (mEnableCacheDebugInfo)
{
auto end_time = std::chrono::high_resolution_clock::now();
auto execute_time = std::chrono::duration_cast<std::chrono::milliseconds>(end_time - start_time).count();
// Log afterward so it doesn't affect the time measurement
// Logging thousands of file results can take hundreds of milliseconds
for (size_t i = 0; i < file_info.size(); ++i)
{
const file_info_t& entry = file_info[i];
const bool removed = file_removed[i];
const std::string action = removed ? "DELETE:" : "KEEP:";
// have to do this because of LL_INFO/LL_END weirdness
std::ostringstream line;
line << action << " ";
line << entry.first << " ";
line << entry.second.first << " ";
line << entry.second.second;
line << " (" << file_size_total << "/" << mMaxSizeBytes << ")";
LL_INFOS() << line.str() << LL_ENDL;
}
LL_INFOS() << "Total dir size after purge is " << dirFileSize(mCacheDir) << LL_ENDL;
LL_INFOS() << "Cache purge took " << execute_time << " ms to execute for " << file_info.size() << " files" << LL_ENDL;
}
}
const std::string LLDiskCache::assetTypeToString(LLAssetType::EType at)
{
/**
* Make use of the handy C++17 feature that allows
* for inline initialization of an std::map<>
*/
typedef std::map<LLAssetType::EType, std::string> asset_type_to_name_t;
asset_type_to_name_t asset_type_to_name =
{
{ LLAssetType::AT_TEXTURE, "TEXTURE" },
{ LLAssetType::AT_SOUND, "SOUND" },
{ LLAssetType::AT_CALLINGCARD, "CALLINGCARD" },
{ LLAssetType::AT_LANDMARK, "LANDMARK" },
{ LLAssetType::AT_SCRIPT, "SCRIPT" },
{ LLAssetType::AT_CLOTHING, "CLOTHING" },
{ LLAssetType::AT_OBJECT, "OBJECT" },
{ LLAssetType::AT_NOTECARD, "NOTECARD" },
{ LLAssetType::AT_CATEGORY, "CATEGORY" },
{ LLAssetType::AT_LSL_TEXT, "LSL_TEXT" },
{ LLAssetType::AT_LSL_BYTECODE, "LSL_BYTECODE" },
{ LLAssetType::AT_TEXTURE_TGA, "TEXTURE_TGA" },
{ LLAssetType::AT_BODYPART, "BODYPART" },
{ LLAssetType::AT_SOUND_WAV, "SOUND_WAV" },
{ LLAssetType::AT_IMAGE_TGA, "IMAGE_TGA" },
{ LLAssetType::AT_IMAGE_JPEG, "IMAGE_JPEG" },
{ LLAssetType::AT_ANIMATION, "ANIMATION" },
{ LLAssetType::AT_GESTURE, "GESTURE" },
{ LLAssetType::AT_SIMSTATE, "SIMSTATE" },
{ LLAssetType::AT_LINK, "LINK" },
{ LLAssetType::AT_LINK_FOLDER, "LINK_FOLDER" },
{ LLAssetType::AT_MARKETPLACE_FOLDER, "MARKETPLACE_FOLDER" },
{ LLAssetType::AT_WIDGET, "WIDGET" },
{ LLAssetType::AT_PERSON, "PERSON" },
{ LLAssetType::AT_MESH, "MESH" },
{ LLAssetType::AT_SETTINGS, "SETTINGS" },
{ LLAssetType::AT_UNKNOWN, "UNKNOWN" }
};
asset_type_to_name_t::iterator iter = asset_type_to_name.find(at);
if (iter != asset_type_to_name.end())
{
return iter->second;
}
return std::string("UNKNOWN");
}
const std::string LLDiskCache::metaDataToFilepath(const std::string id,
LLAssetType::EType at,
const std::string extra_info)
{
std::ostringstream file_path;
file_path << mCacheDir;
file_path << gDirUtilp->getDirDelimiter();
file_path << mCacheFilenamePrefix;
file_path << "_";
file_path << id;
file_path << "_";
file_path << (extra_info.empty() ? "0" : extra_info);
//file_path << "_";
//file_path << assetTypeToString(at); // see SL-14210 Prune descriptive tag from new cache filenames
// for details of why it was removed. Note that if you put it
// back or change the format of the filename, the cache files
// files will be invalidated (and perhaps, more importantly,
// never deleted unless you delete them manually).
file_path << ".asset";
return file_path.str();
}
void LLDiskCache::updateFileAccessTime(const std::string file_path)
{
/**
* Threshold in time_t units that is used to decide if the last access time
* time of the file is updated or not. Added as a precaution for the concern
* outlined in SL-14582 about frequent writes on older SSDs reducing their
* lifespan. I think this is the right place for the threshold value - rather
* than it being a pref - do comment on that Jira if you disagree...
*
* Let's start with 1 hour in time_t units and see how that unfolds
*/
const std::time_t time_threshold = 1 * 60 * 60;
// current time
const std::time_t cur_time = std::time(nullptr);
boost::system::error_code ec;
#if LL_WINDOWS
// file last write time
const std::time_t last_write_time = boost::filesystem::last_write_time(utf8str_to_utf16str(file_path), ec);
if (ec.failed())
{
LL_WARNS() << "Failed to read last write time for cache file " << file_path << ": " << ec.message() << LL_ENDL;
return;
}
// delta between cur time and last time the file was written
const std::time_t delta_time = cur_time - last_write_time;
// we only write the new value if the time in time_threshold has elapsed
// before the last one
if (delta_time > time_threshold)
{
boost::filesystem::last_write_time(utf8str_to_utf16str(file_path), cur_time, ec);
}
#else
// file last write time
const std::time_t last_write_time = boost::filesystem::last_write_time(file_path, ec);
if (ec.failed())
{
LL_WARNS() << "Failed to read last write time for cache file " << file_path << ": " << ec.message() << LL_ENDL;
return;
}
// delta between cur time and last time the file was written
const std::time_t delta_time = cur_time - last_write_time;
// we only write the new value if the time in time_threshold has elapsed
// before the last one
if (delta_time > time_threshold)
{
boost::filesystem::last_write_time(file_path, cur_time, ec);
}
#endif
if (ec.failed())
{
LL_WARNS() << "Failed to update last write time for cache file " << file_path << ": " << ec.message() << LL_ENDL;
}
}
const std::string LLDiskCache::getCacheInfo()
{
std::ostringstream cache_info;
F32 max_in_mb = (F32)mMaxSizeBytes / (1024.0 * 1024.0);
F32 percent_used = ((F32)dirFileSize(mCacheDir) / (F32)mMaxSizeBytes) * 100.0;
cache_info << std::fixed;
cache_info << std::setprecision(1);
cache_info << "Max size " << max_in_mb << " MB ";
cache_info << "(" << percent_used << "% used)";
return cache_info.str();
}
void LLDiskCache::clearCache()
{
/**
* See notes on performance in dirFileSize(..) - there may be
* a quicker way to do this by operating on the parent dir vs
* the component files but it's called infrequently so it's
* likely just fine
*/
boost::system::error_code ec;
#if LL_WINDOWS
std::wstring cache_path(utf8str_to_utf16str(mCacheDir));
#else
std::string cache_path(mCacheDir);
#endif
if (boost::filesystem::is_directory(cache_path, ec) && !ec.failed())
{
for (auto& entry : boost::make_iterator_range(boost::filesystem::directory_iterator(cache_path, ec), {}))
{
if (boost::filesystem::is_regular_file(entry, ec) && !ec.failed())
{
if (entry.path().string().find(mCacheFilenamePrefix) != std::string::npos)
{
boost::filesystem::remove(entry, ec);
if (ec.failed())
{
LL_WARNS() << "Failed to delete cache file " << entry << ": " << ec.message() << LL_ENDL;
}
}
}
}
}
}
uintmax_t LLDiskCache::dirFileSize(const std::string dir)
{
uintmax_t total_file_size = 0;
/**
* There may be a better way that works directly on the folder (similar to
* right clicking on a folder in the OS and asking for size vs right clicking
* on all files and adding up manually) but this is very fast - less than 100ms
* for 10,000 files in my testing so, so long as it's not called frequently,
* it should be okay. Note that's it's only currently used for logging/debugging
* so if performance is ever an issue, optimizing this or removing it altogether,
* is an easy win.
*/
boost::system::error_code ec;
#if LL_WINDOWS
std::wstring dir_path(utf8str_to_utf16str(dir));
#else
std::string dir_path(dir);
#endif
if (boost::filesystem::is_directory(dir_path, ec) && !ec.failed())
{
for (auto& entry : boost::make_iterator_range(boost::filesystem::directory_iterator(dir_path, ec), {}))
{
if (boost::filesystem::is_regular_file(entry, ec) && !ec.failed())
{
if (entry.path().string().find(mCacheFilenamePrefix) != std::string::npos)
{
uintmax_t file_size = boost::filesystem::file_size(entry, ec);
if (!ec.failed())
{
total_file_size += file_size;
}
}
}
}
}
return total_file_size;
}
LLPurgeDiskCacheThread::LLPurgeDiskCacheThread() :
LLThread("PurgeDiskCacheThread", nullptr)
{
}
void LLPurgeDiskCacheThread::run()
{
constexpr std::chrono::seconds CHECK_INTERVAL{60};
while (LLApp::instance()->sleep(CHECK_INTERVAL))
{
LLDiskCache::instance().purge();
}
}
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