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iris/alloc.ccp

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2009-05-19 00:18:23 +03:00
#pypp 0
2009-06-01 15:26:42 +03:00
// Iris: micro-kernel for a capability-based operating system.
// alloc.ccp: Allocation of kernel structures.
// Copyright 2009 Bas Wijnen <wijnen@debian.org>
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
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#include "kernel.hh"
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// Memory model used for kernel structure storage
// Each Memory object has several pointers, one for each type of objects it contains. These pointers are the start of double-linked lists.
// Each object also has a NEXT and PREV pointer, which point to the next and previous object in the same page. These pointers are 0 for the first (or last) object in a page. There is no pointer to the first object, it always starts at page_base + SIZE.
// The PREV/NEXT-list contains all objects in the page, including kFree objects, in the order they appear in the page.
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// The prev/next-lists contain only objects of one type, unsorted.
// All pointers are to the start of the object. There is a header of size SIZE before it, containing NEXT and PREV.
#define PREV(x) (((kObject **)(x))[-2])
#define NEXT(x) (((kObject **)(x))[-1])
#define SIZE (2 * sizeof (kObject *))
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bool kMemory::use (unsigned num):
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// Go up to parents, incrementing used.
for kMemory *m = this; m; m = m->address_space:
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if used + num > limit:
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// Not allowed. Restore used for all children.
for kMemory *r = this; r != m; r = r->address_space:
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r->used -= num
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return false
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m->used += num
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return true
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void kMemory::unuse (unsigned num):
for kMemory *m = this; m; m = m->address_space:
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m->used -= num
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// This allocates a new block of memory for use by the kernel.
// size is the requires size of the block (excluding SIZE)
// first is a pointer to the first object pointer of this type.
// The result is a block of size at least size, which is linked as an object in the list of first.
void *kMemory::search_free (unsigned size, void **first):
kFree *f
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unsigned s = 0
// Let's see if there already is a kFree chunk which is large enough.
for f = frees; f; f = (kFree *)f->next:
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if NEXT (f):
s = (unsigned)NEXT (f) - (unsigned)f
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else:
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s = PAGE_SIZE - ((unsigned)f & ~PAGE_MASK) + SIZE
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// s is now the size of the current free block, including SIZE.
// The requirement is to fit a block of size, plus its SIZE header.
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if s >= size + SIZE:
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break
if !f:
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// No chunk was found; allocate a new page and add a chunk in it. It is always large enough.
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unsigned p = palloc ()
if !p:
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dbg_log ("no free space: kernel allocation failed")
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return NULL
f = (kFree *)(p + SIZE)
// Mark it as a kFree object.
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f->marker = ~0
// Link it in the kFree list.
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f->next = frees
f->prev = NULL
frees = f
if f->next:
((kFree *)f->next)->prev = f
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// There are no other objects in this page.
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NEXT (f) = NULL
PREV (f) = NULL
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// The size of this block is the entire page.
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s = PAGE_SIZE
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// We have a free block, possibly too large. The block is linked in frees, and in the page.
if s >= size + sizeof (kFree) + 2 * SIZE:
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// Create the new object at the end and keep the Free.
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// f is the start of the free block
// f + (s - SIZE) is the end of the free block, compensated for the header of the next block.
// f + (s - SIZE) - size is the address where the new block should start.
kFree *obj = (kFree *)((unsigned)f + (s - SIZE) - size)
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// Link the new object in the page.
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NEXT (obj) = NEXT (f)
if NEXT (obj):
PREV (NEXT (obj)) = obj
PREV (obj) = f
NEXT (f) = obj
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// Set f to the new object, because it is used by that name later.
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f = obj
else:
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// The block was only just large enough: turn it into a new type. It is already linked into the page.
// Unlink it from the free list.
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if f->prev:
((kFree *)f->prev)->next = f->next
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else:
frees = (kFree *)f->next
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if f->next:
((kFree *)f->next)->prev = f->prev
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// f is now a block which is linked in the page, but not in any list. Link it into first.
f->next = (kFree *)*first
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f->prev = NULL
if f->next:
((kFree *)f->next)->prev = f
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*first = f
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// Set common initial values.
f->address_space = this
f->refs.reset ()
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return f
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// Free an object; it is still in its list, and it is still in the page list.
void kMemory::free_obj (kObject *obj, kPointer *first):
kFree *self = (kFree *)obj
// Invalidate references.
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while self->refs.valid ():
self->refs->invalidate ()
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// Free it from its list.
if self->prev:
((kFree *)self->prev)->next = self->next
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else:
*(kPointer *)first = (kPointer)self->next
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if self->next:
((kFree *)self->next)->prev = self->prev
// Merge with previous, if it exists and is a kFree.
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if PREV (self) && PREV (self)->is_free ():
self = (kFree *)PREV (self)
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// Remove the object from the page list.
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NEXT (self) = NEXT (obj)
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if NEXT (self):
PREV (NEXT (self)) = self
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else:
// The previous object is not a kFree, so create a new one.
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// It is already linked in the page, but needs to be linked into the free list.
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self->next = frees
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self->prev = NULL
if self->next:
((kFree *)self->next)->prev = self
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frees = self
// Mark it as a kFree.
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self->marker = ~0
// Merge with next, if it exists and is a kFree.
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if NEXT (self) && NEXT (self)->is_free ():
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// Unlink the next from the frees list.
kFree *n = (kFree *)NEXT (self)
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if n->prev:
((kFree *)n->prev)->next = n->next
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else:
frees = (kFree *)n->next
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if n->next:
((kFree *)n->next)->prev = n->prev
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// Unlink the next from the page list.
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NEXT (self) = NEXT (NEXT (self))
if NEXT (self):
PREV (NEXT (self)) = self
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// Free page if the resulting object is the only thing in it.
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if !PREV (self) && !NEXT (self):
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if self->next:
((kFree *)self->next)->prev = self->prev
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if self->prev:
((kFree *)self->prev)->next = self->next
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else:
frees = (kFree *)self->next
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pfree ((unsigned)self - SIZE)
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kPage *kMemory::alloc_page ():
kPage *ret = (kPage *)search_free (sizeof (kPage), (void **)&pages)
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if !ret:
return NULL
ret->frame = 0
ret->flags = 0
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return ret
kThread *kMemory::alloc_thread (unsigned size):
kThread *ret = (kThread *)search_free (sizeof (kThread) + (size - 1) * sizeof (kCapsP), (void **)&threads)
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if !ret:
return NULL
ret->receivers = NULL
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ret->pc = 0
ret->sp = 0
kThread_arch_init (ret)
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ret->flags = 0
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ret->schedule_prev = NULL
ret->schedule_next = NULL
ret->slots = size
for unsigned i = 0; i < size; ++i:
ret->caps[i] = NULL
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return ret
kMessage *kMemory::alloc_message (kReceiver *target):
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kMessage *ret = (kMessage *)search_free (sizeof (kMessage) + sizeof (kCapability), (void **)&target->messages)
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if !ret:
return NULL
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ret->caps.size = 2
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if !ret->next:
target->last_message = ret
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return ret
kReceiver *kMemory::alloc_receiver ():
kReceiver *ret = (kReceiver *)search_free (sizeof (kReceiver), (void **)&receivers)
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if !ret:
return NULL
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ret->owner = NULL
ret->prev_owned = NULL
ret->next_owned = NULL
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ret->alarm_count = ~0
ret->caps = NULL
ret->capabilities.reset ()
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ret->messages = NULL
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ret->last_message = NULL
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ret->reply_protected_data = ~0
ret->protected_only = false
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ret->queue_limit = ~0
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return ret
kCaps *kMemory::alloc_caps (unsigned size):
kCaps *ret = (kCaps *)search_free (sizeof (kCaps) + (size - 1) * sizeof (kCapability), (void **)&capses)
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if !ret:
return NULL
ret->size = size
for unsigned i = 0; i < size; ++i:
ret->set (i, NULL, 0, kCapRef (), NULL)
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return ret
kMemory *kMemory::alloc_memory ():
kMemory *ret = (kMemory *)search_free (sizeof (kMemory), (void **)&memories)
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if !ret:
return NULL
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ret->frees = NULL
ret->pages = NULL
ret->threads = NULL
ret->capses = NULL
ret->receivers = NULL
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ret->memories = NULL
ret->limit = ~0
ret->used = 0
kMemory_arch_init (ret)
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return ret
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void kCaps::set (unsigned index, kReceiver *target, Kernel::Num pdata, kCapRef parent, kCapRef *parent_ptr):
caps[index].target = target
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caps[index].protected_data = pdata
caps[index].parent = parent
caps[index].children.reset ()
caps[index].sibling_prev.reset ()
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if parent.valid ():
caps[index].sibling_next = parent->children
parent->children = kCapRef (this, index)
else:
if parent_ptr:
caps[index].sibling_next = *parent_ptr
*parent_ptr = kCapRef (this, index)
else:
caps[index].sibling_next.reset ()
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if caps[index].sibling_next.valid ():
caps[index].sibling_next->sibling_prev = kCapRef (this, index)
void kCaps::clone (unsigned index, kCapRef source, bool copy):
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cap (index)->invalidate ()
if !source.valid ():
return
if copy:
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if source->parent.valid ():
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set (index, source->target, source->protected_data, source->parent)
else if (unsigned)source->target & ~KERNEL_MASK:
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set (index, source->target, source->protected_data, kCapRef (), &source->target->capabilities)
else:
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set (index, source->target, source->protected_data, kCapRef (), &((kObject *)source->protected_data.l)->refs)
else:
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set (index, source->target, source->protected_data, source)
void kMemory::free_page (kPage *page):
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if page->flags & Kernel::Page::PAYING:
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unuse ()
if page->frame:
pfree (page->frame)
free_obj (page, (kPointer *)&pages)
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void kMemory::free_thread (kThread *thread):
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thread->unrun ()
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while thread->receivers:
thread->receivers->orphan ()
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free_obj (thread, (void **)&threads)
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void kMemory::free_message (kReceiver *owner, kMessage *message):
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if !message->next:
owner->last_message = (kMessageP)message->prev
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free_obj (message, (void **)&owner->messages)
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void kMemory::free_receiver (kReceiver *receiver):
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receiver->orphan ()
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while receiver->capabilities.valid ():
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receiver->capabilities->invalidate ()
while receiver->messages:
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free_message (receiver, receiver->messages)
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free_obj (receiver, (void **)&receivers)
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void kReceiver::orphan ():
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if prev_owned:
prev_owned->next_owned = next_owned
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else:
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owner->receivers = next_owned
if next_owned:
next_owned->prev_owned = prev_owned
owner = NULL
void kReceiver::own (kThread *o):
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if owner:
orphan ()
owner = o
next_owned = o->receivers
if next_owned:
next_owned->prev_owned = this
o->receivers = this
void kCapability::invalidate ():
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if !target:
return
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if sibling_prev.valid ():
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sibling_prev->sibling_next = sibling_next
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else if (unsigned)target & ~KERNEL_MASK:
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target->capabilities = sibling_next
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else:
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((kObject *)protected_data.l)->refs = sibling_next
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if sibling_next.valid ():
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sibling_next->sibling_prev = sibling_prev
parent.reset ()
sibling_prev.reset ()
sibling_next.reset ()
kCapability *c = this
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while c:
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while c->children.valid ():
c = c->children.deref ()
kCapability *next = c->sibling_next.deref ()
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if !next:
next = c->parent.deref ()
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c->target = NULL
c->parent.reset ()
c->children.reset ()
c->sibling_prev.reset ()
c->sibling_next.reset ()
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c->protected_data = 0
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c = next
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void kMemory::free_caps (kCaps *c):
for unsigned i = 0; i < c->size; ++i:
c->caps[i].invalidate ()
free_obj (c, (void **)&capses)
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void kMemory::free_memory (kMemory *mem):
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while mem->pages:
free_page (mem->pages)
while mem->capses:
free_caps (mem->capses)
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while mem->threads:
free_thread (mem->threads)
while mem->memories:
free_memory (mem->memories)
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while mem->receivers:
free_receiver (mem->receivers)
kMemory_arch_free (mem)
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if mem->frees:
panic (0, "kernel memory leak: memory still in use")
free_obj (mem, (void **)&memories)
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void kPage::forget ():
if share_prev || share_next:
if share_prev:
share_prev->share_next = share_next
if share_next:
share_next->share_prev = share_prev
share_prev = NULL
share_next = NULL
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else:
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// If the page has a frame and should be freed, free it.
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if !((flags ^ Kernel::Page::FRAME) & (Kernel::Page::PHYSICAL | Kernel::Page::FRAME)):
raw_pfree (frame)
frame = 0
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flags &= ~(Kernel::Page::FRAME | Kernel::Page::SHARED | Kernel::Page::PHYSICAL | Kernel::Page::UNCACHED)
kPage_arch_update_mapping (this)