B_READ_DEVICE
| ((ccb->flags & SCSI_DIR_MASK) == SCSI_DIR_IN ? B_READ_DEVICE : 0));
| ((ccb->flags & SCSI_DIR_MASK) == SCSI_DIR_IN ? B_READ_DEVICE : 0));
| ((ccb->flags & SCSI_DIR_MASK) == SCSI_DIR_IN ? B_READ_DEVICE : 0));
unlock_memory( target, size, B_DMA_IO| B_READ_DEVICE );
unlock_memory( target, size, B_DMA_IO| B_READ_DEVICE );
res = lock_memory( target, size, B_DMA_IO | B_READ_DEVICE );
&& lock_memory((void *)value, sizeof(int32), B_READ_DEVICE) == B_OK) {
unlock_memory((void *)value, sizeof(int32), B_READ_DEVICE);
&& lock_memory((void *)value, sizeof(int32), B_READ_DEVICE) == B_OK) {
unlock_memory((void *)value, sizeof(int32), B_READ_DEVICE);
&& lock_memory((void *)value, sizeof(int32), B_READ_DEVICE) == B_OK) {
unlock_memory((void *)value, sizeof(int32), B_READ_DEVICE);
&& lock_memory((void *)value, sizeof(int32), B_READ_DEVICE) == B_OK) {
unlock_memory((void *)value, sizeof(int32), B_READ_DEVICE);
&& lock_memory((void *)value, sizeof(int32), B_READ_DEVICE) == B_OK) {
unlock_memory((void *)value, sizeof(int32), B_READ_DEVICE);
&& lock_memory((void *)value, sizeof(int32), B_READ_DEVICE) == B_OK) {
unlock_memory((void *)value, sizeof(int32), B_READ_DEVICE);
&& lock_memory((void *)value, sizeof(int32), B_READ_DEVICE) == B_OK) {
unlock_memory((void *)value, sizeof(int32), B_READ_DEVICE);
&& lock_memory((void *)value, sizeof(int64), B_READ_DEVICE) == B_OK) {
unlock_memory((void *)value, sizeof(int64), B_READ_DEVICE);
&& lock_memory((void *)value, sizeof(int64), B_READ_DEVICE) == B_OK) {
unlock_memory((void *)value, sizeof(int64), B_READ_DEVICE);
&& lock_memory((void *)value, sizeof(int64), B_READ_DEVICE) == B_OK) {
unlock_memory((void *)value, sizeof(int64), B_READ_DEVICE);
&& lock_memory((void *)value, sizeof(int64), B_READ_DEVICE) == B_OK) {
unlock_memory((void *)value, sizeof(int64), B_READ_DEVICE);
&& lock_memory((void *)value, sizeof(int64), B_READ_DEVICE) == B_OK) {
unlock_memory((void *)value, sizeof(int64), B_READ_DEVICE);
&& lock_memory((void *)value, sizeof(int64), B_READ_DEVICE) == B_OK) {
unlock_memory((void *)value, sizeof(int64), B_READ_DEVICE);
&& lock_memory((void *)value, sizeof(int64), B_READ_DEVICE) == B_OK) {
unlock_memory((void *)value, sizeof(int64), B_READ_DEVICE);
|| lock_memory((void *)value, 8, B_READ_DEVICE) != B_OK)
unlock_memory((void *)value, 8, B_READ_DEVICE);
|| lock_memory((void *)value, 8, B_READ_DEVICE) != B_OK)
unlock_memory((void *)value, 8, B_READ_DEVICE);
|| lock_memory((void *)value, 8, B_READ_DEVICE) != B_OK)
unlock_memory((void *)value, 8, B_READ_DEVICE);
|| lock_memory((void *)value, 8, B_READ_DEVICE) != B_OK)
unlock_memory((void *)value, 8, B_READ_DEVICE);
|| lock_memory((void *)value, 8, B_READ_DEVICE) != B_OK)
unlock_memory((void *)value, 8, B_READ_DEVICE);
|| lock_memory((void *)value, 8, B_READ_DEVICE) != B_OK)
unlock_memory((void *)value, 8, B_READ_DEVICE);
unlock_memory(fHeader, fAreaSize, B_READ_DEVICE);
status_t error = lock_memory(areaBase, fAreaSize, B_READ_DEVICE);
unlock_memory(areaInfo.address, areaInfo.size, B_READ_DEVICE);
B_READ_DEVICE);
unlock_memory(samples, areaInfo.size, B_READ_DEVICE);
unlock_memory(samples, areaInfo.size, B_READ_DEVICE);
unlock_memory(areaInfo.address, areaInfo.size, B_READ_DEVICE);
fVecs[i].length, isWrite ? 0 : B_READ_DEVICE);
isWrite ? 0 : B_READ_DEVICE);
status_t error = lock_memory(buffer, size, B_READ_DEVICE);
unlock_memory(buffer, size, B_READ_DEVICE);
bool writable = (flags & B_READ_DEVICE) == 0;
bool writable = (flags & B_READ_DEVICE) == 0;