writeLength
const uint8 *writeBuffer, size_t writeLength, uint8 *readBuffer,
const uint8 *writeBuffer, size_t writeLength, uint8 *readBuffer,
const uint8 *writeBuffer, size_t writeLength, uint8 *readBuffer,
return send_receive(bus, slave_address, writeBuffer, writeLength, readBuffer,
send_bytes(const i2c_bus *bus, const uint8 *writeBuffer, ssize_t writeLength)
TRACE("%s: (length = %ld)\n", __func__, writeLength);
for (; writeLength > 0; --writeLength, ++writeBuffer) {
size_t writeLength, uint8 *readBuffer, size_t readLength)
status = send_bytes(bus, writeBuffer, writeLength);
const uint8 *writeBuffer, size_t writeLength, uint8 *readBuffer, size_t readLength)
for (size_t i = 0; i < writeLength;) {
message.size = min_c(transferLength, writeLength - i);
if (writeLength - i > transferLength)
const uint8 *writeBuffer, size_t writeLength, uint8 *readBuffer, size_t readLength)
return port->_DpAuxSendReceive(slaveAddress, writeBuffer, writeLength, readBuffer, readLength);
const uint8 *writeBuffer, size_t writeLength,
size_t writeLength, uint8 *readBuffer,
size_t writeLength = sizeof(attribute_file) - 1;
position, fFile, &writeLength);
writeLength = fEntries[i]->EntrySize();
position, fEntries[i]->Entry(), &writeLength);
writeLength = fEntries[i]->DataSize();
position, fEntries[i]->Data(), &writeLength);
writeLength(os, name.length());
writeLength(os, 0);
writeLength(os, 4);
writeLength(os, 1);
writeLength(os, 11);
writeLength(os, text.length());
writeLength(os, text1.length());
writeLength(os, text2.length());
writeLength(os, 4);
writeLength(os, 4);
writeLength(os, 1);
writeLength(os, 4);
writeLength(os, 4);
generic_size_t writeLength = (phys_size_t)fPageCount << PAGE_SHIFT;
return fCache->WriteAsync(writeOffset, fVecs, fVecCount, writeLength,
flags | B_PHYSICAL_IO_REQUEST, &writeLength);
SetStatus(status, writeLength);