tracy/client/TracyRingBuffer.hpp

120 lines
3.0 KiB
C++

namespace tracy
{
class RingBuffer
{
public:
RingBuffer( uint32_t size, int fd )
: m_size( size )
, m_fd( fd )
{
const auto pageSize = uint32_t( getpagesize() );
assert( size >= pageSize );
assert( __builtin_popcount( size ) == 1 );
m_mapSize = size + pageSize;
m_mapAddr = mmap( nullptr, m_mapSize, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0 );
if( !m_mapAddr )
{
m_fd = 0;
close( fd );
return;
}
m_metadata = (perf_event_mmap_page*)m_mapAddr;
assert( m_metadata->data_offset == pageSize );
m_buffer = ((char*)m_mapAddr) + pageSize;
}
~RingBuffer()
{
if( m_mapAddr ) munmap( m_mapAddr, m_mapSize );
if( m_fd ) close( m_fd );
}
RingBuffer( const RingBuffer& ) = delete;
RingBuffer& operator=( const RingBuffer& ) = delete;
RingBuffer( RingBuffer&& other )
{
memcpy( (char*)&other, (char*)this, sizeof( RingBuffer ) );
m_mapAddr = nullptr;
m_fd = 0;
}
RingBuffer& operator=( RingBuffer&& other )
{
memcpy( (char*)&other, (char*)this, sizeof( RingBuffer ) );
m_mapAddr = nullptr;
m_fd = 0;
return *this;
}
bool IsValid() const { return m_mapAddr != nullptr; }
void Enable()
{
ioctl( m_fd, PERF_EVENT_IOC_ENABLE, 0 );
}
bool HasData() const
{
const auto head = LoadHead();
return head > m_metadata->data_tail;
}
void Read( void* dst, uint64_t offset, uint64_t cnt )
{
auto src = ( m_metadata->data_tail + offset ) % m_size;
if( src + cnt <= m_size )
{
memcpy( dst, m_buffer + src, cnt );
}
else
{
const auto s0 = m_size - src;
memcpy( dst, m_buffer + src, s0 );
memcpy( (char*)dst + s0, m_buffer, cnt - s0 );
}
}
void Advance( uint64_t cnt )
{
StoreTail( m_metadata->data_tail + cnt );
}
bool CheckTscCaps() const
{
return m_metadata->cap_user_time_zero;
}
int64_t ConvertTimeToTsc( int64_t timestamp ) const
{
assert( m_metadata->cap_user_time_zero );
const auto time = timestamp - m_metadata->time_zero;
const auto quot = time / m_metadata->time_mult;
const auto rem = time % m_metadata->time_mult;
return ( quot << m_metadata->time_shift ) + ( rem << m_metadata->time_shift ) / m_metadata->time_mult;
}
private:
uint64_t LoadHead() const
{
return std::atomic_load_explicit( (const volatile std::atomic<uint64_t>*)&m_metadata->data_head, std::memory_order_acquire );
}
void StoreTail( uint64_t tail )
{
std::atomic_store_explicit( (volatile std::atomic<uint64_t>*)&m_metadata->data_tail, tail, std::memory_order_release );
}
size_t m_size;
size_t m_mapSize;
void* m_mapAddr;
perf_event_mmap_page* m_metadata;
char* m_buffer;
int m_fd;
};
}