mirror of
git://projects.qi-hardware.com/iris.git
synced 2024-10-01 09:29:48 +03:00
295 lines
7.3 KiB
COBOL
295 lines
7.3 KiB
COBOL
#pypp 0
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#include "kernel.hh"
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// TODO: avoid recursion.
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bool Memory::use ():
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if used >= limit:
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return false
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if !parent || parent->use ():
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++used
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return true
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return false
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void Memory::unuse ():
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--used
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return parent->unuse ()
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unsigned Memory::palloc ():
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if !use ():
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return NULL
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FreePage *ret = junk_pages
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if !ret:
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ret = zero_pages
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zero_pages = ret->next
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else:
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junk_pages = ret->next
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return (unsigned)ret
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unsigned Memory::zalloc ():
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if !use ():
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return NULL
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FreePage *ret = zero_pages
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if !ret:
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ret = junk_pages
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for unsigned i = 1; i < (PAGE_SIZE >> 2); ++i:
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((unsigned *)ret)[i] = 0
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junk_pages = ret->next
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else:
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zero_pages = ret->next
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ret->next = NULL
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return (unsigned)ret
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void Memory::pfree (unsigned page):
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FreePage *p = (FreePage *)page
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p->next = junk_pages
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junk_pages = p
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void Memory::zfree (unsigned page):
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FreePage *p = (FreePage *)page
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p->next = zero_pages
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zero_pages = p
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void *Memory::search_free (unsigned size, void **first):
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Free *f
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unsigned s = 0
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for f = frees; f; f = f->next:
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if f->next_obj:
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s = (unsigned)f->next_obj - (unsigned)f
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else:
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s = PAGE_SIZE - ((unsigned)f & ~PAGE_MASK)
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if s >= size:
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break
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if !f:
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f = (Free *)palloc ()
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if !f:
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return NULL
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f->marker = ~0
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f->next = frees
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f->prev = NULL
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frees = f
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if f->next:
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f->next->prev = f
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f->next_obj = NULL
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f->prev_obj = NULL
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s = PAGE_SIZE
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// We have a free block, possibly too large.
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if s >= size + sizeof (Free):
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// Create the new object at the end and keep the Free.
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Free *obj = (Free *)((unsigned)f + s - size)
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obj->next_obj = f->next_obj
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if obj->next_obj:
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obj->next_obj->prev_obj = obj
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obj->prev_obj = f
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f->next_obj = obj
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f = obj
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else:
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if f->prev:
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f->prev->next = f->next
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else:
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frees = f->next
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if f->next:
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f->next->prev = f->prev
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f->next = (Free *)*first
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f->prev = NULL
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if f->next:
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f->next->prev = f
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*first = f
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return f
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void Object_base::free_obj (Memory *parent):
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Free *self
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// Merge with previous, if it exists and is a Free.
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if prev_obj && prev_obj->is_free ():
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self = (Free *)prev_obj
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self->next_obj = next_obj
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if next_obj:
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next_obj->prev_obj = self
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else:
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self = (Free *)this
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self->next = parent->frees
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self->prev = NULL
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if self->next:
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self->next->prev = self
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parent->frees = self
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self->marker = ~0
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// Merge with next, if it exists and is a Free.
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if self->next_obj && self->next_obj->is_free ():
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self->next_obj = self->next_obj->next_obj
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if self->next_obj:
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self->next_obj->prev_obj = self
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// Free page if the resulting object is the only thing in it.
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if !self->prev_obj && !self->next_obj:
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if self->next:
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self->next->prev = self->prev
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if self->prev:
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self->prev->next = self->next
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else:
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parent->frees = self->next
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parent->pfree ((unsigned)self)
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Page *Memory::alloc_page ():
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Page *ret = (Page *)search_free (sizeof (Page), (void **)&pages)
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ret->physical = 0
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return ret
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Thread *Memory::alloc_thread ():
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Thread *ret = (Thread *)search_free (sizeof (Thread), (void **)&threads)
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ret->address_space = this
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ret->pc = 0
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ret->sp = 0
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Thread_arch_init (ret)
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ret->schedule_prev = NULL
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ret->schedule_next = NULL
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return ret
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Message *Memory::alloc_message (Capability *source):
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Message *ret = (Message *)search_free (sizeof (Message), (void **)&source->target->messages)
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for unsigned i = 0; i < 4; ++i:
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ret->capabilities[i] = NULL
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ret->data[i] = 0
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ret->protected_data = source->protected_data
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return ret
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Receiver *Memory::alloc_receiver ():
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Receiver *ret = (Receiver *)search_free (sizeof (Receiver), (void **)&receivers)
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ret->owner = NULL
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ret->prev_owned = NULL
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ret->next_owned = NULL
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ret->capabilities = NULL
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ret->messages = NULL
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return ret
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Capability *Memory::alloc_capability (Receiver *target, Capability **parent, unsigned protected_data):
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Capability *ret = (Capability *)search_free (sizeof (Capability), (void **)&capabilities)
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ret->target = target
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ret->children = NULL
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ret->sibling_prev = NULL
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ret->sibling_next = parent ? *parent : NULL
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if ret->sibling_next:
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ret->sibling_next->sibling_prev = ret
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ret->protected_data = protected_data
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return ret
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Memory *Memory::alloc_memory ():
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Memory *ret = (Memory *)search_free (sizeof (Memory), (void **)&memories)
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ret->parent = this
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ret->frees = NULL
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ret->pages = NULL
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ret->threads = NULL
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ret->memories = NULL
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ret->limit = ~0
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ret->used = 0
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Memory_arch_init (ret)
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return ret
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void Memory::free_page (Page *page):
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if page->prev:
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page->prev->next = page->next
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else:
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pages = page->next
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if page->next:
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page->next->prev = page->prev
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unuse ()
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pfree (page->physical)
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page->free_obj (this)
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void Memory::free_thread (Thread *thread):
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if thread->prev:
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thread->prev->next = thread->next
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else:
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threads = thread->next
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if thread->next:
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thread->next->prev = thread->prev
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// Unschedule.
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if thread->schedule_prev:
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thread->schedule_prev->schedule_next = thread->schedule_next
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else if first_scheduled == thread:
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first_scheduled = thread->schedule_next
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if thread->schedule_next:
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thread->schedule_next->schedule_prev = thread->schedule_prev
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thread->free_obj (this)
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void Memory::free_message (Message *message):
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for unsigned i = 0; i < 4; ++i:
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free_capability (message->capabilities[i])
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message->free_obj (this)
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void Memory::free_receiver (Receiver *receiver):
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if receiver->prev_owned:
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receiver->prev_owned->next_owned = receiver->next_owned
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else:
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receiver->owner->receivers = receiver->next_owned
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if receiver->next_owned:
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receiver->next_owned->prev_owned = receiver->prev_owned
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while receiver->capabilities:
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receiver->capabilities->invalidate ()
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while receiver->messages:
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free_message (receiver->messages)
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receiver->free_obj (this)
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void Memory::free_capability (Capability *capability):
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if capability->sibling_prev:
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capability->sibling_prev->sibling_next = capability->sibling_next
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else:
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capability->target->capabilities = capability->sibling_next
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if capability->sibling_next:
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capability->sibling_next->sibling_prev = capability->sibling_prev
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// The sibling_prev link is used here to point to the parent.
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// This method is used to avoid recursion.
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capability->sibling_prev = NULL
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Capability *c = capability
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while c->children:
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c->children->sibling_prev = c
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c = c->children
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while c:
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Capability *next = c->sibling_next
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if !next:
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next = c->sibling_prev
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if next:
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next->sibling_prev = c->sibling_prev
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c->free_obj (this)
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c = next
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void Capability::invalidate ():
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if sibling_prev:
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sibling_prev->sibling_next = sibling_next
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else:
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target->capabilities = sibling_next
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if sibling_next:
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sibling_next->sibling_prev = sibling_prev
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// The sibling_prev link is used here to point to the parent.
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// This method is used to avoid recursion.
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sibling_prev = NULL
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Capability *c = this
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while c->children:
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c->children->sibling_prev = c
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c = c->children
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while c:
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Capability *next = c->sibling_next
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if !next:
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next = c->sibling_prev
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if next:
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next->sibling_prev = c->sibling_prev
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c->target = NULL
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c->children = NULL
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c->sibling_prev = NULL
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c->sibling_next = NULL
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c->protected_data = 0
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c = next
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void Memory::free_memory (Memory *mem):
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if mem->prev:
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mem->prev->next = mem->next
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else:
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memories = mem->next
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if mem->next:
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mem->next->prev = mem->prev
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while mem->pages:
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free_page (mem->pages)
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while mem->threads:
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free_thread (mem->threads)
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while mem->memories:
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free_memory (mem->memories)
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Memory_arch_free (mem)
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mem->free_obj (this)
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