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//===-- xray_buffer_queue.h ------------------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file is a part of XRay, a dynamic runtime instrumentation system.
//
// Defines the interface for a buffer queue implementation.
//
//===----------------------------------------------------------------------===//
#ifndef XRAY_BUFFER_QUEUE_H
#define XRAY_BUFFER_QUEUE_H
#include "sanitizer_common/sanitizer_atomic.h"
#include "sanitizer_common/sanitizer_mutex.h"
#include <deque>
#include <unordered_set>
#include <utility>
namespace __xray {
/// BufferQueue implements a circular queue of fixed sized buffers (much like a
/// freelist) but is concerned mostly with making it really quick to initialise,
/// finalise, and get/return buffers to the queue. This is one key component of
/// the "flight data recorder" (FDR) mode to support ongoing XRay function call
/// trace collection.
class BufferQueue {
public:
struct Buffer {
void *Buffer = nullptr;
size_t Size = 0;
};
private:
size_t BufferSize;
// We use a bool to indicate whether the Buffer has been used in this
// freelist implementation.
std::deque<std::tuple<Buffer, bool>> Buffers;
__sanitizer::BlockingMutex Mutex;
std::unordered_set<void *> OwnedBuffers;
__sanitizer::atomic_uint8_t Finalizing;
public:
enum class ErrorCode : unsigned {
Ok,
NotEnoughMemory,
QueueFinalizing,
UnrecognizedBuffer,
AlreadyFinalized,
};
static const char *getErrorString(ErrorCode E) {
switch (E) {
case ErrorCode::Ok:
return "(none)";
case ErrorCode::NotEnoughMemory:
return "no available buffers in the queue";
case ErrorCode::QueueFinalizing:
return "queue already finalizing";
case ErrorCode::UnrecognizedBuffer:
return "buffer being returned not owned by buffer queue";
case ErrorCode::AlreadyFinalized:
return "queue already finalized";
}
return "unknown error";
}
/// Initialise a queue of size |N| with buffers of size |B|. We report success
/// through |Success|.
BufferQueue(size_t B, size_t N, bool &Success);
/// Updates |Buf| to contain the pointer to an appropriate buffer. Returns an
/// error in case there are no available buffers to return when we will run
/// over the upper bound for the total buffers.
///
/// Requirements:
/// - BufferQueue is not finalising.
///
/// Returns:
/// - std::errc::not_enough_memory on exceeding MaxSize.
/// - no error when we find a Buffer.
/// - std::errc::state_not_recoverable on finalising BufferQueue.
ErrorCode getBuffer(Buffer &Buf);
/// Updates |Buf| to point to nullptr, with size 0.
///
/// Returns:
/// - ...
ErrorCode releaseBuffer(Buffer &Buf);
bool finalizing() const {
return __sanitizer::atomic_load(&Finalizing,
__sanitizer::memory_order_acquire);
}
/// Returns the configured size of the buffers in the buffer queue.
size_t ConfiguredBufferSize() const { return BufferSize; }
/// Sets the state of the BufferQueue to finalizing, which ensures that:
///
/// - All subsequent attempts to retrieve a Buffer will fail.
/// - All releaseBuffer operations will not fail.
///
/// After a call to finalize succeeds, all subsequent calls to finalize will
/// fail with std::errc::state_not_recoverable.
ErrorCode finalize();
/// Applies the provided function F to each Buffer in the queue, only if the
/// Buffer is marked 'used' (i.e. has been the result of getBuffer(...) and a
/// releaseBuffer(...) operation.
template <class F> void apply(F Fn) {
__sanitizer::BlockingMutexLock G(&Mutex);
for (const auto &T : Buffers) {
if (std::get<1>(T))
Fn(std::get<0>(T));
}
}
// Cleans up allocated buffers.
~BufferQueue();
};
} // namespace __xray
#endif // XRAY_BUFFER_QUEUE_H
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