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llvm-mirror/lib/Support/CachePruning.cpp
Hans Wennborg 12b7677de1 [ThinLTO] Also prune Thin-* files from the ThinLTO cache 
Such files (Thin-%%%%%%.tmp.o) are supposed to be deleted immediately
after they're used (either by renaming or deletion). However, we've seen
instances on Windows where this doesn't happen, probably due to the
filesystem being flaky. This is effectively a resource leak which has
prevented us from using the ThinLTO cache on Windows.

Since those temporary files are in the thinlto cache directory which we
prune periodically anyway, allowing them to be pruned too seems like a
tidy way to solve the problem.

Differential revision: https://reviews.llvm.org/D94962
2021-01-19 14:43:49 +01:00

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//===-CachePruning.cpp - LLVM Cache Directory Pruning ---------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This file implements the pruning of a directory based on least recently used.
//
//===----------------------------------------------------------------------===//
#include "llvm/Support/CachePruning.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/Support/Debug.h"
#include "llvm/Support/Errc.h"
#include "llvm/Support/Error.h"
#include "llvm/Support/FileSystem.h"
#include "llvm/Support/Path.h"
#include "llvm/Support/raw_ostream.h"
#define DEBUG_TYPE "cache-pruning"
#include <set>
#include <system_error>
using namespace llvm;
namespace {
struct FileInfo {
sys::TimePoint<> Time;
uint64_t Size;
std::string Path;
/// Used to determine which files to prune first. Also used to determine
/// set membership, so must take into account all fields.
bool operator<(const FileInfo &Other) const {
return std::tie(Time, Other.Size, Path) <
std::tie(Other.Time, Size, Other.Path);
}
};
} // anonymous namespace
/// Write a new timestamp file with the given path. This is used for the pruning
/// interval option.
static void writeTimestampFile(StringRef TimestampFile) {
std::error_code EC;
raw_fd_ostream Out(TimestampFile.str(), EC, sys::fs::OF_None);
}
static Expected<std::chrono::seconds> parseDuration(StringRef Duration) {
if (Duration.empty())
return make_error<StringError>("Duration must not be empty",
inconvertibleErrorCode());
StringRef NumStr = Duration.slice(0, Duration.size()-1);
uint64_t Num;
if (NumStr.getAsInteger(0, Num))
return make_error<StringError>("'" + NumStr + "' not an integer",
inconvertibleErrorCode());
switch (Duration.back()) {
case 's':
return std::chrono::seconds(Num);
case 'm':
return std::chrono::minutes(Num);
case 'h':
return std::chrono::hours(Num);
default:
return make_error<StringError>("'" + Duration +
"' must end with one of 's', 'm' or 'h'",
inconvertibleErrorCode());
}
}
Expected<CachePruningPolicy>
llvm::parseCachePruningPolicy(StringRef PolicyStr) {
CachePruningPolicy Policy;
std::pair<StringRef, StringRef> P = {"", PolicyStr};
while (!P.second.empty()) {
P = P.second.split(':');
StringRef Key, Value;
std::tie(Key, Value) = P.first.split('=');
if (Key == "prune_interval") {
auto DurationOrErr = parseDuration(Value);
if (!DurationOrErr)
return DurationOrErr.takeError();
Policy.Interval = *DurationOrErr;
} else if (Key == "prune_after") {
auto DurationOrErr = parseDuration(Value);
if (!DurationOrErr)
return DurationOrErr.takeError();
Policy.Expiration = *DurationOrErr;
} else if (Key == "cache_size") {
if (Value.back() != '%')
return make_error<StringError>("'" + Value + "' must be a percentage",
inconvertibleErrorCode());
StringRef SizeStr = Value.drop_back();
uint64_t Size;
if (SizeStr.getAsInteger(0, Size))
return make_error<StringError>("'" + SizeStr + "' not an integer",
inconvertibleErrorCode());
if (Size > 100)
return make_error<StringError>("'" + SizeStr +
"' must be between 0 and 100",
inconvertibleErrorCode());
Policy.MaxSizePercentageOfAvailableSpace = Size;
} else if (Key == "cache_size_bytes") {
uint64_t Mult = 1;
switch (tolower(Value.back())) {
case 'k':
Mult = 1024;
Value = Value.drop_back();
break;
case 'm':
Mult = 1024 * 1024;
Value = Value.drop_back();
break;
case 'g':
Mult = 1024 * 1024 * 1024;
Value = Value.drop_back();
break;
}
uint64_t Size;
if (Value.getAsInteger(0, Size))
return make_error<StringError>("'" + Value + "' not an integer",
inconvertibleErrorCode());
Policy.MaxSizeBytes = Size * Mult;
} else if (Key == "cache_size_files") {
if (Value.getAsInteger(0, Policy.MaxSizeFiles))
return make_error<StringError>("'" + Value + "' not an integer",
inconvertibleErrorCode());
} else {
return make_error<StringError>("Unknown key: '" + Key + "'",
inconvertibleErrorCode());
}
}
return Policy;
}
/// Prune the cache of files that haven't been accessed in a long time.
bool llvm::pruneCache(StringRef Path, CachePruningPolicy Policy) {
using namespace std::chrono;
if (Path.empty())
return false;
bool isPathDir;
if (sys::fs::is_directory(Path, isPathDir))
return false;
if (!isPathDir)
return false;
Policy.MaxSizePercentageOfAvailableSpace =
std::min(Policy.MaxSizePercentageOfAvailableSpace, 100u);
if (Policy.Expiration == seconds(0) &&
Policy.MaxSizePercentageOfAvailableSpace == 0 &&
Policy.MaxSizeBytes == 0 && Policy.MaxSizeFiles == 0) {
LLVM_DEBUG(dbgs() << "No pruning settings set, exit early\n");
// Nothing will be pruned, early exit
return false;
}
// Try to stat() the timestamp file.
SmallString<128> TimestampFile(Path);
sys::path::append(TimestampFile, "llvmcache.timestamp");
sys::fs::file_status FileStatus;
const auto CurrentTime = system_clock::now();
if (auto EC = sys::fs::status(TimestampFile, FileStatus)) {
if (EC == errc::no_such_file_or_directory) {
// If the timestamp file wasn't there, create one now.
writeTimestampFile(TimestampFile);
} else {
// Unknown error?
return false;
}
} else {
if (!Policy.Interval)
return false;
if (Policy.Interval != seconds(0)) {
// Check whether the time stamp is older than our pruning interval.
// If not, do nothing.
const auto TimeStampModTime = FileStatus.getLastModificationTime();
auto TimeStampAge = CurrentTime - TimeStampModTime;
if (TimeStampAge <= *Policy.Interval) {
LLVM_DEBUG(dbgs() << "Timestamp file too recent ("
<< duration_cast<seconds>(TimeStampAge).count()
<< "s old), do not prune.\n");
return false;
}
}
// Write a new timestamp file so that nobody else attempts to prune.
// There is a benign race condition here, if two processes happen to
// notice at the same time that the timestamp is out-of-date.
writeTimestampFile(TimestampFile);
}
// Keep track of files to delete to get below the size limit.
// Order by time of last use so that recently used files are preserved.
std::set<FileInfo> FileInfos;
uint64_t TotalSize = 0;
// Walk the entire directory cache, looking for unused files.
std::error_code EC;
SmallString<128> CachePathNative;
sys::path::native(Path, CachePathNative);
// Walk all of the files within this directory.
for (sys::fs::directory_iterator File(CachePathNative, EC), FileEnd;
File != FileEnd && !EC; File.increment(EC)) {
// Ignore filenames not beginning with "llvmcache-" or "Thin-". This
// includes the timestamp file as well as any files created by the user.
// This acts as a safeguard against data loss if the user specifies the
// wrong directory as their cache directory.
StringRef filename = sys::path::filename(File->path());
if (!filename.startswith("llvmcache-") && !filename.startswith("Thin-"))
continue;
// Look at this file. If we can't stat it, there's nothing interesting
// there.
ErrorOr<sys::fs::basic_file_status> StatusOrErr = File->status();
if (!StatusOrErr) {
LLVM_DEBUG(dbgs() << "Ignore " << File->path() << " (can't stat)\n");
continue;
}
// If the file hasn't been used recently enough, delete it
const auto FileAccessTime = StatusOrErr->getLastAccessedTime();
auto FileAge = CurrentTime - FileAccessTime;
if (Policy.Expiration != seconds(0) && FileAge > Policy.Expiration) {
LLVM_DEBUG(dbgs() << "Remove " << File->path() << " ("
<< duration_cast<seconds>(FileAge).count()
<< "s old)\n");
sys::fs::remove(File->path());
continue;
}
// Leave it here for now, but add it to the list of size-based pruning.
TotalSize += StatusOrErr->getSize();
FileInfos.insert({FileAccessTime, StatusOrErr->getSize(), File->path()});
}
auto FileInfo = FileInfos.begin();
size_t NumFiles = FileInfos.size();
auto RemoveCacheFile = [&]() {
// Remove the file.
sys::fs::remove(FileInfo->Path);
// Update size
TotalSize -= FileInfo->Size;
NumFiles--;
LLVM_DEBUG(dbgs() << " - Remove " << FileInfo->Path << " (size "
<< FileInfo->Size << "), new occupancy is " << TotalSize
<< "%\n");
++FileInfo;
};
// Prune for number of files.
if (Policy.MaxSizeFiles)
while (NumFiles > Policy.MaxSizeFiles)
RemoveCacheFile();
// Prune for size now if needed
if (Policy.MaxSizePercentageOfAvailableSpace > 0 || Policy.MaxSizeBytes > 0) {
auto ErrOrSpaceInfo = sys::fs::disk_space(Path);
if (!ErrOrSpaceInfo) {
report_fatal_error("Can't get available size");
}
sys::fs::space_info SpaceInfo = ErrOrSpaceInfo.get();
auto AvailableSpace = TotalSize + SpaceInfo.free;
if (Policy.MaxSizePercentageOfAvailableSpace == 0)
Policy.MaxSizePercentageOfAvailableSpace = 100;
if (Policy.MaxSizeBytes == 0)
Policy.MaxSizeBytes = AvailableSpace;
auto TotalSizeTarget = std::min<uint64_t>(
AvailableSpace * Policy.MaxSizePercentageOfAvailableSpace / 100ull,
Policy.MaxSizeBytes);
LLVM_DEBUG(dbgs() << "Occupancy: " << ((100 * TotalSize) / AvailableSpace)
<< "% target is: "
<< Policy.MaxSizePercentageOfAvailableSpace << "%, "
<< Policy.MaxSizeBytes << " bytes\n");
// Remove the oldest accessed files first, till we get below the threshold.
while (TotalSize > TotalSizeTarget && FileInfo != FileInfos.end())
RemoveCacheFile();
}
return true;
}
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