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#include <cerrno>
#include <ctime>
#include <optional>
#include <Common/ProfileEvents.h>
#include <Common/Stopwatch.h>
#include <Common/Exception.h>
#include <Common/CurrentMetrics.h>
#include <Common/Throttler.h>
#include <Common/filesystemHelpers.h>
#include <IO/AsynchronousReadBufferFromFileDescriptor.h>
#include <IO/WriteHelpers.h>
namespace ProfileEvents
{
extern const Event AsynchronousReadWaitMicroseconds;
extern const Event LocalReadThrottlerBytes;
extern const Event LocalReadThrottlerSleepMicroseconds;
}
namespace CurrentMetrics
{
extern const Metric AsynchronousReadWait;
}
namespace DB
{
namespace ErrorCodes
{
extern const int ARGUMENT_OUT_OF_BOUND;
extern const int LOGICAL_ERROR;
}
std::string AsynchronousReadBufferFromFileDescriptor::getFileName() const
{
return "(fd = " + toString(fd) + ")";
}
std::future<IAsynchronousReader::Result> AsynchronousReadBufferFromFileDescriptor::asyncReadInto(char * data, size_t size, Priority priority)
{
IAsynchronousReader::Request request;
request.descriptor = std::make_shared<IAsynchronousReader::LocalFileDescriptor>(fd);
request.buf = data;
request.size = size;
request.offset = file_offset_of_buffer_end;
request.priority = Priority{base_priority.value + priority.value};
request.ignore = bytes_to_ignore;
bytes_to_ignore = 0;
/// This is a workaround of a read pass EOF bug in linux kernel with pread()
if (file_size.has_value() && file_offset_of_buffer_end >= *file_size)
{
return std::async(std::launch::deferred, [] { return IAsynchronousReader::Result{.size = 0, .offset = 0}; });
}
return reader.submit(request);
}
void AsynchronousReadBufferFromFileDescriptor::prefetch(Priority priority)
{
if (prefetch_future.valid())
return;
/// Will request the same amount of data that is read in nextImpl.
prefetch_buffer.resize(internal_buffer.size());
prefetch_future = asyncReadInto(prefetch_buffer.data(), prefetch_buffer.size(), priority);
}
bool AsynchronousReadBufferFromFileDescriptor::nextImpl()
{
if (prefetch_future.valid())
{
/// Read request already in flight. Wait for its completion.
size_t size = 0;
size_t offset = 0;
{
Stopwatch watch;
CurrentMetrics::Increment metric_increment{CurrentMetrics::AsynchronousReadWait};
auto result = prefetch_future.get();
ProfileEvents::increment(ProfileEvents::AsynchronousReadWaitMicroseconds, watch.elapsedMicroseconds());
size = result.size;
offset = result.offset;
assert(offset < size || size == 0);
}
prefetch_future = {};
file_offset_of_buffer_end += size;
assert(offset <= size);
size_t bytes_read = size - offset;
if (throttler)
throttler->add(bytes_read, ProfileEvents::LocalReadThrottlerBytes, ProfileEvents::LocalReadThrottlerSleepMicroseconds);
if (bytes_read)
{
prefetch_buffer.swap(memory);
/// Adjust the working buffer so that it ignores `offset` bytes.
internal_buffer = Buffer(memory.data(), memory.data() + memory.size());
working_buffer = Buffer(memory.data() + offset, memory.data() + size);
pos = working_buffer.begin();
return true;
}
return false;
}
else
{
/// No pending request. Do synchronous read.
Stopwatch watch;
auto [size, offset, _] = asyncReadInto(memory.data(), memory.size(), DEFAULT_PREFETCH_PRIORITY).get();
ProfileEvents::increment(ProfileEvents::AsynchronousReadWaitMicroseconds, watch.elapsedMicroseconds());
file_offset_of_buffer_end += size;
assert(offset <= size);
size_t bytes_read = size - offset;
if (throttler)
throttler->add(bytes_read, ProfileEvents::LocalReadThrottlerBytes, ProfileEvents::LocalReadThrottlerSleepMicroseconds);
if (bytes_read)
{
/// Adjust the working buffer so that it ignores `offset` bytes.
internal_buffer = Buffer(memory.data(), memory.data() + memory.size());
working_buffer = Buffer(memory.data() + offset, memory.data() + size);
pos = working_buffer.begin();
return true;
}
return false;
}
}
void AsynchronousReadBufferFromFileDescriptor::finalize()
{
if (prefetch_future.valid())
{
prefetch_future.wait();
prefetch_future = {};
}
}
AsynchronousReadBufferFromFileDescriptor::AsynchronousReadBufferFromFileDescriptor(
IAsynchronousReader & reader_,
Priority priority_,
int fd_,
size_t buf_size,
char * existing_memory,
size_t alignment,
std::optional<size_t> file_size_,
ThrottlerPtr throttler_)
: ReadBufferFromFileBase(buf_size, existing_memory, alignment, file_size_)
, reader(reader_)
, base_priority(priority_)
, required_alignment(alignment)
, fd(fd_)
, throttler(throttler_)
{
if (required_alignment > buf_size)
throw Exception(
ErrorCodes::LOGICAL_ERROR,
"Too large alignment. Cannot have required_alignment greater than buf_size: {} > {}. It is a bug",
required_alignment,
buf_size);
prefetch_buffer.alignment = alignment;
}
AsynchronousReadBufferFromFileDescriptor::~AsynchronousReadBufferFromFileDescriptor()
{
finalize();
}
/// If 'offset' is small enough to stay in buffer after seek, then true seek in file does not happen.
off_t AsynchronousReadBufferFromFileDescriptor::seek(off_t offset, int whence)
{
size_t new_pos;
if (whence == SEEK_SET)
{
assert(offset >= 0);
new_pos = offset;
}
else if (whence == SEEK_CUR)
{
new_pos = file_offset_of_buffer_end - (working_buffer.end() - pos) + offset;
}
else
{
throw Exception(ErrorCodes::ARGUMENT_OUT_OF_BOUND, "ReadBufferFromFileDescriptor::seek expects SEEK_SET or SEEK_CUR as whence");
}
/// Position is unchanged.
if (new_pos + (working_buffer.end() - pos) == file_offset_of_buffer_end)
return new_pos;
while (true)
{
if (file_offset_of_buffer_end - working_buffer.size() <= new_pos && new_pos <= file_offset_of_buffer_end)
{
/// Position is still inside the buffer.
/// Probably it is at the end of the buffer - then we will load data on the following 'next' call.
pos = working_buffer.end() - file_offset_of_buffer_end + new_pos;
assert(pos >= working_buffer.begin());
assert(pos <= working_buffer.end());
return new_pos;
}
else if (prefetch_future.valid())
{
/// Read from prefetch buffer and recheck if the new position is valid inside.
if (nextImpl())
continue;
}
break;
}
assert(!prefetch_future.valid());
/// Position is out of the buffer, we need to do real seek.
off_t seek_pos = required_alignment > 1
? new_pos / required_alignment * required_alignment
: new_pos;
/// First reset the buffer so the next read will fetch new data to the buffer.
resetWorkingBuffer();
/// Just update the info about the next position in file.
file_offset_of_buffer_end = seek_pos;
bytes_to_ignore = new_pos - seek_pos;
if (bytes_to_ignore >= internal_buffer.size())
throw Exception(ErrorCodes::LOGICAL_ERROR,
"Logical error in AsynchronousReadBufferFromFileDescriptor, bytes_to_ignore ({}"
") >= internal_buffer.size() ({})", bytes_to_ignore, internal_buffer.size());
return seek_pos;
}
void AsynchronousReadBufferFromFileDescriptor::rewind()
{
if (prefetch_future.valid())
{
prefetch_future.wait();
prefetch_future = {};
}
/// Clearing the buffer with existing data. New data will be read on subsequent call to 'next'.
working_buffer.resize(0);
pos = working_buffer.begin();
file_offset_of_buffer_end = 0;
}
size_t AsynchronousReadBufferFromFileDescriptor::getFileSize()
{
return getSizeFromFileDescriptor(fd, getFileName());
}
}
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