ClickHouse/src/Common/FileCache.cpp

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#include "FileCache.h"
#include <Common/randomSeed.h>
#include <Common/SipHash.h>
#include <Common/hex.h>
#include <IO/ReadHelpers.h>
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#include <IO/WriteBufferFromFile.h>
#include <IO/ReadSettings.h>
#include <IO/WriteBufferFromString.h>
#include <IO/Operators.h>
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#include <pcg-random/pcg_random.hpp>
#include <filesystem>
namespace fs = std::filesystem;
namespace DB
{
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namespace ErrorCodes
{
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extern const int REMOTE_FS_OBJECT_CACHE_ERROR;
extern const int LOGICAL_ERROR;
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}
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namespace
{
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String keyToStr(const IFileCache::Key & key)
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{
return getHexUIntLowercase(key);
}
}
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IFileCache::IFileCache(
const String & cache_base_path_,
size_t max_size_,
size_t max_element_size_,
size_t max_file_segment_size_)
: cache_base_path(cache_base_path_)
, max_size(max_size_)
, max_element_size(max_element_size_)
, max_file_segment_size(max_file_segment_size_)
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{
}
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IFileCache::Key IFileCache::hash(const String & path)
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{
return sipHash128(path.data(), path.size());
}
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String IFileCache::getPathInLocalCache(const Key & key, size_t offset)
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{
auto key_str = keyToStr(key);
return fs::path(cache_base_path) / key_str.substr(0, 3) / key_str / std::to_string(offset);
}
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String IFileCache::getPathInLocalCache(const Key & key)
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{
auto key_str = keyToStr(key);
return fs::path(cache_base_path) / key_str.substr(0, 3) / key_str;
}
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bool IFileCache::shouldBypassCache()
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{
return !CurrentThread::isInitialized()
|| !CurrentThread::get().getQueryContext()
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|| CurrentThread::getQueryId().size == 0;
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}
LRUFileCache::LRUFileCache(const String & cache_base_path_, size_t max_size_, size_t max_element_size_, size_t max_file_segment_size_)
: IFileCache(cache_base_path_, max_size_, max_element_size_, max_file_segment_size_)
, log(&Poco::Logger::get("LRUFileCache"))
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{
if (fs::exists(cache_base_path))
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loadCacheInfoIntoMemory();
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else
fs::create_directories(cache_base_path);
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startup_restore_finished = true;
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}
void LRUFileCache::useCell(
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const FileSegmentCell & cell, FileSegments & result, std::lock_guard<std::mutex> & /* cache_lock */)
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{
auto file_segment = cell.file_segment;
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if (file_segment->isDownloaded()
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&& fs::file_size(getPathInLocalCache(file_segment->key(), file_segment->offset())) == 0)
throw Exception(ErrorCodes::LOGICAL_ERROR,
"Cannot have zero size downloaded file segments. Current file segment: {}",
file_segment->range().toString());
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result.push_back(cell.file_segment);
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/**
* A cell receives a queue iterator on first successful space reservation attempt
* (space is reserved incrementally on each read buffer nextImpl() call).
*/
if (cell.queue_iterator)
{
/// Move to the end of the queue. The iterator remains valid.
queue.splice(queue.end(), queue, *cell.queue_iterator);
}
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}
LRUFileCache::FileSegmentCell * LRUFileCache::getCell(
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const Key & key, size_t offset, std::lock_guard<std::mutex> & /* cache_lock */)
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{
auto it = files.find(key);
if (it == files.end())
return nullptr;
auto & offsets = it->second;
auto cell_it = offsets.find(offset);
if (cell_it == offsets.end())
return nullptr;
return &cell_it->second;
}
FileSegments LRUFileCache::getImpl(
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const Key & key, const FileSegment::Range & range, std::lock_guard<std::mutex> & cache_lock)
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{
/// Given range = [left, right] and non-overlapping ordered set of file segments,
/// find list [segment1, ..., segmentN] of segments which intersect with given range.
auto it = files.find(key);
if (it == files.end())
return {};
const auto & file_segments = it->second;
if (file_segments.empty())
{
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auto key_path = getPathInLocalCache(key);
files.erase(key);
if (fs::exists(key_path))
fs::remove(key_path);
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return {};
}
FileSegments result;
auto segment_it = file_segments.lower_bound(range.left);
if (segment_it == file_segments.end())
{
/// N - last cached segment for given file key, segment{N}.offset < range.left:
/// segment{N} segment{N}
/// [________ [_______]
/// [__________] OR [________]
/// ^ ^
/// range.left range.left
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const auto & cell = file_segments.rbegin()->second;
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if (cell.file_segment->range().right < range.left)
return {};
useCell(cell, result, cache_lock);
}
else /// segment_it <-- segmment{k}
{
if (segment_it != file_segments.begin())
{
const auto & prev_cell = std::prev(segment_it)->second;
const auto & prev_cell_range = prev_cell.file_segment->range();
if (range.left <= prev_cell_range.right)
{
/// segment{k-1} segment{k}
/// [________] [_____
/// [___________
/// ^
/// range.left
useCell(prev_cell, result, cache_lock);
}
}
/// segment{k} ... segment{k-1} segment{k} segment{k}
/// [______ [______] [____ [________
/// [_________ OR [________ OR [______] ^
/// ^ ^ ^ segment{k}.offset
/// range.left range.left range.right
while (segment_it != file_segments.end())
{
const auto & cell = segment_it->second;
if (range.right < cell.file_segment->range().left)
break;
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useCell(cell, result, cache_lock);
++segment_it;
}
}
return result;
}
FileSegments LRUFileCache::splitRangeIntoEmptyCells(
const Key & key, size_t offset, size_t size, std::lock_guard<std::mutex> & cache_lock)
{
assert(size > 0);
auto current_pos = offset;
auto end_pos_non_included = offset + size;
size_t current_cell_size;
size_t remaining_size = size;
FileSegments file_segments;
while (current_pos < end_pos_non_included)
{
current_cell_size = std::min(remaining_size, max_file_segment_size);
remaining_size -= current_cell_size;
auto * cell = addCell(key, current_pos, current_cell_size, FileSegment::State::EMPTY, cache_lock);
if (cell)
file_segments.push_back(cell->file_segment);
current_pos += current_cell_size;
}
assert(file_segments.empty() || offset + size - 1 == file_segments.back()->range().right);
return file_segments;
}
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FileSegmentsHolder LRUFileCache::getOrSet(const Key & key, size_t offset, size_t size)
{
FileSegment::Range range(offset, offset + size - 1);
std::lock_guard cache_lock(mutex);
/// Get all segments which intersect with the given range.
auto file_segments = getImpl(key, range, cache_lock);
if (file_segments.empty())
{
file_segments = splitRangeIntoEmptyCells(key, offset, size, cache_lock);
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}
else
{
/// There are segments [segment1, ..., segmentN]
/// (non-overlapping, non-empty, ascending-ordered) which (maybe partially)
/// intersect with given range.
/// It can have holes:
/// [____________________] -- requested range
/// [____] [_] [_________] -- intersecting cache [segment1, ..., segmentN]
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///
/// For each such hole create a cell with file segment state EMPTY.
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auto it = file_segments.begin();
auto segment_range = (*it)->range();
size_t current_pos;
if (segment_range.left < range.left)
{
/// [_______ -- requested range
/// [_______
/// ^
/// segment1
current_pos = segment_range.right + 1;
++it;
}
else
current_pos = range.left;
while (current_pos <= range.right && it != file_segments.end())
{
segment_range = (*it)->range();
if (current_pos == segment_range.left)
{
current_pos = segment_range.right + 1;
++it;
continue;
}
assert(current_pos < segment_range.left);
auto hole_size = segment_range.left - current_pos;
file_segments.splice(it, splitRangeIntoEmptyCells(key, current_pos, hole_size, cache_lock));
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current_pos = segment_range.right + 1;
++it;
}
if (current_pos <= range.right)
{
/// ________] -- requested range
/// _____]
/// ^
/// segmentN
auto hole_size = range.right - current_pos + 1;
file_segments.splice(file_segments.end(), splitRangeIntoEmptyCells(key, current_pos, hole_size, cache_lock));
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}
}
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assert(!file_segments.empty());
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return FileSegmentsHolder(std::move(file_segments));
}
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LRUFileCache::FileSegmentCell * LRUFileCache::addCell(
const Key & key, size_t offset, size_t size, FileSegment::State state,
std::lock_guard<std::mutex> & /* cache_lock */)
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{
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/// Create a file segment cell and put it in `files` map by [key][offset].
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if (!size)
return nullptr; /// Empty files are not cached.
if (files[key].contains(offset))
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throw Exception(ErrorCodes::REMOTE_FS_OBJECT_CACHE_ERROR,
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"Cache already exists for key: `{}`, offset: {}, size: {}", keyToStr(key), offset, size);
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auto file_segment = std::make_shared<FileSegment>(offset, size, key, this, state);
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FileSegmentCell cell(std::move(file_segment), queue);
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auto & offsets = files[key];
if (offsets.empty())
{
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auto key_path = getPathInLocalCache(key);
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if (!fs::exists(key_path))
fs::create_directories(key_path);
}
auto [it, inserted] = offsets.insert({offset, std::move(cell)});
if (!inserted)
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throw Exception(ErrorCodes::LOGICAL_ERROR,
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"Failed to insert into cache key: `{}`, offset: {}, size: {}", keyToStr(key), offset, size);
return &(it->second);
}
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bool LRUFileCache::tryReserve(
const Key & key_, size_t offset_, size_t size, std::lock_guard<std::mutex> & cache_lock)
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{
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auto removed_size = 0;
size_t queue_size = queue.size();
assert(queue_size <= max_element_size);
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/// Since space reservation is incremental, cache cell already exists if it's state is EMPTY.
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/// And it cache cell does not exist on startup -- as we first check for space and then add a cell.
auto * cell_for_reserve = getCell(key_, offset_, cache_lock);
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/// A cell acquires a LRUQueue iterator on first successful space reservation attempt.
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/// cell_for_reserve can be nullptr here when we call tryReserve() from loadCacheInfoIntoMemory().
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if (!cell_for_reserve || !cell_for_reserve->queue_iterator)
queue_size += 1;
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auto is_overflow = [&]
{
return (current_size + size - removed_size > max_size)
|| (max_element_size != 0 && queue_size > max_element_size);
};
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std::vector<FileSegmentCell *> to_evict;
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auto key_it = queue.begin();
while (is_overflow() && key_it != queue.end())
{
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const auto [key, offset] = *key_it;
++key_it;
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auto * cell = getCell(key, offset, cache_lock);
if (!cell)
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throw Exception(ErrorCodes::REMOTE_FS_OBJECT_CACHE_ERROR,
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"Cache became inconsistent. Key: {}, offset: {}", keyToStr(key), offset);
size_t cell_size = cell->size();
/// It is guaranteed that cell is not removed from cache as long as
/// pointer to corresponding file segment is hold by any other thread.
if (cell->releasable())
{
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auto & file_segment = cell->file_segment;
std::lock_guard segment_lock(file_segment->mutex);
switch (file_segment->download_state)
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{
case FileSegment::State::DOWNLOADED:
{
/// Cell will actually be removed only if
/// we managed to reserve enough space.
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to_evict.push_back(cell);
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break;
}
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default:
{
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remove(key, offset, cache_lock, segment_lock);
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break;
}
}
removed_size += cell_size;
--queue_size;
}
}
if (is_overflow())
return false;
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if (cell_for_reserve && !cell_for_reserve->queue_iterator)
cell_for_reserve->queue_iterator = queue.insert(queue.end(), std::make_pair(key_, offset_));
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for (auto & cell : to_evict)
{
auto & file_segment = cell->file_segment;
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if (file_segment)
{
std::lock_guard<std::mutex> segment_lock(file_segment->mutex);
remove(file_segment->key(), file_segment->offset(), cache_lock, segment_lock);
}
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}
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current_size += size - removed_size;
if (current_size > (1ull << 63))
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throw Exception(ErrorCodes::LOGICAL_ERROR, "Cache became inconsistent. There must be a bug");
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return true;
}
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void LRUFileCache::remove(
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Key key, size_t offset,
std::lock_guard<std::mutex> & cache_lock, std::lock_guard<std::mutex> & /* segment_lock */)
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{
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LOG_TEST(log, "Remove. Key: {}, offset: {}", keyToStr(key), offset);
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auto * cell = getCell(key, offset, cache_lock);
if (!cell)
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throw Exception(ErrorCodes::REMOTE_FS_OBJECT_CACHE_ERROR, "No cache cell for key: {}, offset: {}", keyToStr(key), offset);
if (cell->queue_iterator)
queue.erase(*cell->queue_iterator);
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auto & offsets = files[key];
offsets.erase(offset);
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auto cache_file_path = getPathInLocalCache(key, offset);
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if (fs::exists(cache_file_path))
{
try
{
fs::remove(cache_file_path);
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if (startup_restore_finished && offsets.empty())
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{
auto key_path = getPathInLocalCache(key);
files.erase(key);
if (fs::exists(key_path))
fs::remove(key_path);
}
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}
catch (...)
{
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throw Exception(ErrorCodes::REMOTE_FS_OBJECT_CACHE_ERROR,
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"Removal of cached file failed. Key: {}, offset: {}, path: {}, error: {}",
keyToStr(key), offset, cache_file_path, getCurrentExceptionMessage(false));
}
}
}
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void LRUFileCache::loadCacheInfoIntoMemory()
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{
std::lock_guard cache_lock(mutex);
Key key;
UInt64 offset;
size_t size;
std::vector<FileSegmentCell *> cells;
/// cache_base_path / key_prefix / key / offset
fs::directory_iterator key_prefix_it{cache_base_path};
for (; key_prefix_it != fs::directory_iterator(); ++key_prefix_it)
{
fs::directory_iterator key_it{key_prefix_it->path()};
for (; key_it != fs::directory_iterator(); ++key_it)
{
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key = unhexUInt<UInt128>(key_it->path().filename().string().data());
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fs::directory_iterator offset_it{key_it->path()};
for (; offset_it != fs::directory_iterator(); ++offset_it)
{
bool parsed = tryParse<UInt64>(offset, offset_it->path().filename());
if (!parsed)
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{
LOG_WARNING(log, "Unexpected file: ", offset_it->path().string());
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continue; /// Or just remove? Some unexpected file.
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}
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size = offset_it->file_size();
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if (!size)
{
fs::remove(offset_it->path());
continue;
}
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if (tryReserve(key, offset, size, cache_lock))
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{
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auto * cell = addCell(key, offset, size, FileSegment::State::DOWNLOADED, cache_lock);
if (cell)
cells.push_back(cell);
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}
else
{
LOG_WARNING(log,
"Cache capacity changed (max size: {}, available: {}), cached file `{}` does not fit in cache anymore (size: {})",
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max_size, availableSize(), key_it->path().string(), size);
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fs::remove(offset_it->path());
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}
}
}
}
/// Shuffle cells to have random order in LRUQueue as at startup all cells have the same priority.
pcg64 generator(randomSeed());
std::shuffle(cells.begin(), cells.end(), generator);
for (const auto & cell : cells)
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queue.splice(queue.end(), queue, *cell->queue_iterator);
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}
LRUFileCache::Stat LRUFileCache::getStat()
{
std::lock_guard cache_lock(mutex);
Stat stat
{
.size = queue.size(),
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.available = availableSize(),
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.downloaded_size = 0,
.downloading_size = 0,
};
for (const auto & [key, offset] : queue)
{
const auto * cell = getCell(key, offset, cache_lock);
if (!cell)
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throw Exception(ErrorCodes::REMOTE_FS_OBJECT_CACHE_ERROR,
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"Cache became inconsistent. Key: {}, offset: {}", keyToStr(key), offset);
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switch (cell->file_segment->download_state)
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{
case FileSegment::State::DOWNLOADED:
{
++stat.downloaded_size;
break;
}
case FileSegment::State::DOWNLOADING:
{
++stat.downloading_size;
break;
}
default:
break;
}
}
return stat;
}
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void LRUFileCache::reduceSizeToDownloaded(
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const Key & key, size_t offset,
std::lock_guard<std::mutex> & cache_lock, std::lock_guard<std::mutex> & /* segment_lock */)
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{
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/**
* In case file was partially downloaded and it's download cannot be continued
* because of no space left in cache, we need to be able to cut cell's size to downloaded_size.
*/
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auto * cell = getCell(key, offset, cache_lock);
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if (!cell)
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throw Exception(ErrorCodes::REMOTE_FS_OBJECT_CACHE_ERROR, "No cell found for key: {}, offset: {}", keyToStr(key), offset);
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const auto & file_segment = cell->file_segment;
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size_t downloaded_size = file_segment->downloaded_size;
if (downloaded_size == file_segment->range().size())
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throw Exception(ErrorCodes::REMOTE_FS_OBJECT_CACHE_ERROR,
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"Nothing to reduce, file segment fully downloaded, key: {}, offset: {}", keyToStr(key), offset);
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cell->file_segment = std::make_shared<FileSegment>(offset, downloaded_size, key, this, FileSegment::State::DOWNLOADED);
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}
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bool LRUFileCache::isLastFileSegmentHolder(
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const Key & key, size_t offset,
std::lock_guard<std::mutex> & cache_lock, std::lock_guard<std::mutex> & /* segment_lock */)
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{
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auto * cell = getCell(key, offset, cache_lock);
if (!cell)
throw Exception(ErrorCodes::LOGICAL_ERROR, "No cell found for key: {}, offset: {}", keyToStr(key), offset);
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/// The caller of this method is last file segment holder if use count is 2 (the second pointer is cache itself)
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return cell->file_segment.use_count() == 2;
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}
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LRUFileCache::FileSegmentCell::FileSegmentCell(FileSegmentPtr file_segment_, LRUQueue & queue_)
: file_segment(file_segment_)
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{
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/**
* Cell can be created with either DOWNLOADED or EMPTY file segment's state.
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* File segment acquires DOWNLOADING state and creates LRUQueue iterator on first
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* successful getOrSetDownaloder call.
*/
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switch (file_segment->download_state)
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{
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case FileSegment::State::DOWNLOADED:
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{
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queue_iterator = queue_.insert(queue_.end(), getKeyAndOffset());
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break;
}
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case FileSegment::State::EMPTY:
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{
break;
}
default:
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throw Exception(ErrorCodes::REMOTE_FS_OBJECT_CACHE_ERROR,
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"Can create cell with either DOWNLOADED or EMPTY state, got: {}",
FileSegment::stateToString(file_segment->download_state));
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}
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}
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String LRUFileCache::dumpStructure(const Key & key_)
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{
std::lock_guard cache_lock(mutex);
WriteBufferFromOwnString result;
for (auto it = queue.begin(); it != queue.end(); ++it)
{
auto [key, offset] = *it;
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if (key == key_)
{
auto * cell = getCell(key, offset, cache_lock);
result << (it != queue.begin() ? ", " : "") << cell->file_segment->range().toString();
result << "(state: " << cell->file_segment->download_state << ")";
}
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}
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return result.str();
}
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}