BUFFER_SIZE
fPacket = malloc(BUFFER_SIZE);
BUFFER_SIZE, &fPacketSize);
BUFFER_SIZE * info->rxSizes[0]),
+ i * BUFFER_SIZE);
BUFFER_SIZE - sizeof(virtio_net_rx_hdr), &buf->entry, 1);
BUFFER_SIZE * info->txSizes[0]),
+ i * BUFFER_SIZE);
BUFFER_SIZE - sizeof(virtio_net_tx_hdr), &buf->entry, 1);
&& (uint8*)node < (uint8*)node->header + BUFFER_SIZE) {
#define MAX_FREE_BUFFER_SIZE (BUFFER_SIZE - DATA_HEADER_SIZE)
BUFFER_SIZE, 0);
header->tail_space = (uint8*)header + BUFFER_SIZE - header->data_end
oFormat->u.raw_audio.buffer_size = BUFFER_SIZE;
mDecodedData = new char [max_c(BUFFER_SIZE*mDecomp->GetInfo(APE_INFO_CHANNELS),
if (mReadPos-mPlayPos >= BUFFER_SIZE)
aOutSize = BUFFER_SIZE;
const int32 BUFFER_SIZE = 1024*4; // size of audio data passing to Media Kit
fBufferSize = (BUFFER_SIZE / fBlockAlign) * fBlockAlign;
uint8 buffer[BUFFER_SIZE];
result = source->ReadExactly(buffer, BUFFER_SIZE, &sizeRead);
buffer(malloc(BUFFER_SIZE)),
size(BUFFER_SIZE),
if (fCount >= BUFFER_SIZE)
int pos = (fStart + fCount) % BUFFER_SIZE;
fStart = (fStart + 1) % BUFFER_SIZE;
char fReadBuffer[BUFFER_SIZE];
char *buffer = (char *)malloc(BUFFER_SIZE);
int32 bytes = (rand() % BUFFER_SIZE) + 4;