fArea
area_id fArea;
area_id fArea;
area_id fArea;
area_id AreaID() const { return fArea; }
area_id fArea;
status_t InitCheck() { return fArea < B_OK ? (status_t)fArea : B_OK; }
area_id fArea;
fArea(-1)
if (fArea >= B_OK)
delete_area(fArea);
fArea = create_area(name, _virtualAddress, spec, size, lock, protection);
return fArea;
fArea = map_physical_memory(name, physicalAddress, numBytes, spec,
return fArea;
fArea = -1;
delete_area(fArea);
fArea = create_area(fName, &fLogicalBase, B_ANY_KERNEL_ADDRESS,
if (fArea < B_OK) {
area_id fArea;
area_id fArea;
if (fArea > B_OK)
delete_area(fArea);
fArea = alloc_mem((void **)&virtAddr, &physAddr, fAreaSize,
if (fArea < B_OK) {
fStatus = fArea;
delete_area(fArea);
area_id fArea;
fArea(-1),
fArea = alloc_mem((void **)&virtAddr, &physAddr, fAreaSize,
if (fArea < B_OK) {
fStatus = fArea;
fArea = alloc_mem((void**)&virtAddr, &physAddr, size,
if (fArea < B_OK) {
return fArea;
delete_area(fArea);
fArea(-1),
area_id fArea;
area_id fArea;
fArea.SetTo(create_area("VirtIO Queue", (void**)&queueMem,
if (!fArea.IsSet()) {
ERROR("can't create area: %08" B_PRIx32, fArea.Get());
return fArea.Get();
AreaDeleter fArea;
if (fArea != -1) {
delete_area(fArea);
fArea = create_area(fIsInput ? DRIVER_NAME "_record_area"
if (fArea < 0) {
"bytes size buffer area:%#010x\n", fAreaSize, fArea);
fStatus = fArea;
B_ANY_ADDRESS, B_KERNEL_READ_AREA | B_KERNEL_WRITE_AREA, fArea);
fArea, fDescriptors, fAreaSize);
fArea(-1),
delete_area(fArea);
area_id fArea, fKernelArea;
fArea(-1),
fArea(other.fArea),
fArea(area),
fArea = area;
fArea = area;
error = allocator->AddArea(fServerArea, fArea,
fArea = -1;
fArea = -1;
fArea = clone_area("shared bitmap area", (void**)&fBasePointer,
link.Attach<int32>(fArea);
fArea(-1),
fArea(-1),
fArea(-1),
fArea(-1),
fArea(-1),
fArea(-1),
fArea(-1),
return fArea;
info.area = fArea;
fArea(-1),
fArea = clone_area("a cloned BBuffer", &fData, B_ANY_ADDRESS,
if (fArea < 0) {
delete_area(fArea);
fArea = -1;
fArea = clone_area("get parameter data clone", &fData,
if (fArea < B_OK) {
strerror(fArea));
if (fArea >= B_OK)
delete_area(fArea);
return fData != NULL ? B_OK : fArea;
area_id fArea;
if (fArea > 0)
delete_area(fArea);
fArea(-1),
fArea(-1),
fArea = clone_area(name, buf, B_ANY_ADDRESS,
if (fArea <= 0) {
fArea = create_area(name, buf, B_ANY_ADDRESS, TS_AREA_SIZE,
if (fArea <= 0) {
fArea(-1),
sClonedAreaMemoryAllocator.RemoveArea(fArea);
fArea = area;
area_id fArea;
fArea(area),
delete_area(fArea);
area_id fArea;
VMArea* area = VMAreas::Lookup(fArea);
panic("IOCache::Init(): Where's our area (id: %" B_PRId32 ")?!", fArea);
fArea(-1),
if (fArea >= 0) {
delete_area(fArea);
fArea = vm_create_null_area(B_SYSTEM_TEAM, "I/O cache line", &fAreaBase,
if (fArea < 0)
return fArea;
area_id fArea;
fArea(area),
" -> %p", fFlags, fArea);
Area* fArea;
out.Print("slab memory manager add area: %p", fArea);
Area* fArea;
fArea(area),
fArea, fRemoved ? " (removed)" : "", fFlags);
Area* fArea;
fArea);
return fArea;
VMArea* fArea;
fArea);
VMArea* fArea;
fArea(area),
out.Print("page fault error: area: %ld, kernel only", fArea);
fArea);
out.Print("page fault error: area: %ld, read protected", fArea);
fArea);
out.Print("page fault error: area: %ld, error: %s", fArea,
area_id fArea;
fArea(area),
"page: %p", fArea, fTopCache, fCache, fPage);
area_id fArea;
fArea(area)
_kern_delete_area(fArea);
area_id fArea;
fArea = create_area("save", (void**)&fSaveBuffer, B_ANY_ADDRESS,
if (fArea < B_OK) {
*ret = fArea;
delete_area(fArea);
area_id fArea;
fArea(-1),