iris/invoke.ccp

#pypp 0
// Iris: micro-kernel for a capability-based operating system.
// invoke.ccp: Capability invocation and kernel responses.
// 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/>.

#include "kernel.hh"

Capability *Memory::find_capability (unsigned code, bool *copy):
	*copy = code & 2 ? true : false
	if code & 1:
		// Cappage capability
		unsigned num = (code & ~PAGE_MASK) >> 1
		if num >= CAPPAGE_SIZE:
			return NULL
		Capability *page = (Capability *)(code & PAGE_MASK)
		for Cappage *p = cappages; p; p = p->next:
			if p->data.frame == (unsigned)page:
				return &page[num]
	else:
		// Normal capability
		for Capability *c = capabilities; c; c = c->next:
			if c == (Capability *)code:
				return c
	return NULL

bool Receiver::try_deliver ():
	if !messages || !owner || !owner->is_waiting ():
		return false
	Message *m = messages
	if protected_only:
		for ; m; m = m->next:
			if m->protected_data == reply_protected_data:
				break
		if !m:
			return false
	Capability *c[4]
	for unsigned i = 0; i < 4; ++i:
		if !m->capabilities[i]:
			c[i] = NULL
		else:
			c[i] = owner->address_space->clone_capability (m->capabilities[i], true)
			if !c[i]:
				for unsigned j = 0; j < i; ++j:
					owner->address_space->free_capability (c[i])
				return false
	Thread_arch_receive (owner, m->data, c)
	owner->unwait ()
	return true

bool Receiver::send_message (unsigned protected_data, unsigned data[4], Capability *cap[4], bool copy[4]):
	bool tried_direct = false
	if owner && owner->is_waiting () && (protected_data == reply_protected_data || !protected_only):
		Capability *c[4]
		for unsigned i = 0; i < 4; ++i:
			if !cap[i]:
				c[i] = NULL
			else:
				c[i] = owner->address_space->clone_capability (cap[i], copy[i])
				if !c[i]:
					for unsigned j = 0; j < i; ++j:
						owner->address_space->free_capability (c[i])
					tried_direct = true
					break
		if !tried_direct:
			Thread_arch_receive (owner, data, c)
			owner->unwait ()
			return true
	// The owner was not waiting, or it was not possible to deliver the message.  Put it in the queue.
	Message *msg = address_space->alloc_message (this, protected_data)
	if !msg:
		return false
	for unsigned i = 0; i < 4; ++i:
		msg->data[i] = data[i]
		if !cap[i]:
			msg->capabilities[i] = NULL
		else:
			msg->capabilities[i] = address_space->clone_capability (cap[i], copy[i])
			if !msg->capabilities[i]:
				for unsigned j = 0; j < i; ++j:
					address_space->free_capability (msg->capabilities[j])
				address_space->free_message (msg)
				return false
	if tried_direct:
		Thread_arch_receive_fail (owner)
		owner->unwait ()
	return true

static Capability *reply
static Receiver *reply_receiver

static void fill_cap (Capability *r, unsigned target, unsigned protected_data):
	Capability **ref
	if target & ~KERNEL_MASK:
		ref = &((Receiver *)target)->capabilities
	else:
		ref = &((Object_base *)protected_data)->refs
	// alloc_capability needs a Memory, but it isn't used if return storage is given.
		ref = &((Object_base *)protected_data)->refs
	// alloc_capability needs a Memory, but it isn't used if return storage is given.
	top_memory.alloc_capability ((Receiver *)target, NULL, ref, protected_data, r)

static void reply_cap (unsigned target, unsigned protected_data):
	Capability r
	fill_cap (&r, target, protected_data)
	Capability::Context c
	for unsigned i = 0; i < 4; ++i:
		c.data[i] = 0
	c.cap[0] = &r
	c.copy[0] = true
	for unsigned i = 1; i < 4; ++i:
		c.cap[i] = NULL
		c.copy[i] = false
	if reply:
		reply->invoke (&c)
	else if reply_receiver:
		reply_receiver->send_message (reply_receiver->reply_protected_data, &c)
	r.invalidate ()

static void reply_cap (Capability *cap, bool copy):
	Capability::Context c
	for unsigned i = 0; i < 4; ++i:
		c.data[i] = 0
	c.cap[0] = cap
	c.copy[0] = copy
	for unsigned i = 1; i < 4; ++i:
		c.cap[i] = NULL
		c.copy[i] = false
	if reply:
		reply->invoke (&c)
	else if reply_receiver:
		reply_receiver->send_message (reply_receiver->reply_protected_data, &c)

static void reply_num (unsigned num):
	Capability::Context c
	c.data[0] = num
	for unsigned i = 1; i < 4; ++i:
		c.data[i] = 0
	for unsigned i = 0; i < 4; ++i:
		c.cap[i] = NULL
		c.copy[i] = false
	if reply:
		reply->invoke (&c)
	else if reply_receiver:
		reply_receiver->send_message (reply_receiver->reply_protected_data, &c)

static void reply_nums (unsigned num1, unsigned num2):
	Capability::Context c
	c.data[0] = num1
	c.data[1] = num2
	c.data[2] = 0
	c.data[3] = 0
	for unsigned i = 0; i < 4; ++i:
		c.cap[i] = NULL
		c.copy[i] = false
	if reply:
		reply->invoke (&c)
	else if reply_receiver:
		reply_receiver->send_message (reply_receiver->reply_protected_data, &c)

static void receiver_invoke (unsigned target, unsigned protected_data, Capability::Context *c):
	Receiver *receiver = (Receiver *)protected_data
	switch c->data[0]:
		case CAP_RECEIVER_SET_OWNER:
			if !c->cap[0] || ((unsigned)c->cap[0]->target & (CAPTYPE_MASK | ~KERNEL_MASK)) != CAPTYPE_THREAD:
				// FIXME: This makes it impossible to use a fake Thread capability.
				return
			receiver->own ((Thread *)c->cap[0]->protected_data)
			break
		case CAP_RECEIVER_CREATE_CAPABILITY:
			reply_cap ((unsigned)receiver, c->data[1])
			break
		case CAP_RECEIVER_CREATE_CALL_CAPABILITY:
			reply_cap (CAPTYPE_RECEIVER | (1 << CAP_RECEIVER_CALL) | (c->data[1] ? 1 << CAP_RECEIVER_CALL_ASYNC : 0), protected_data)
			break
		case CAP_RECEIVER_GET_REPLY_PROTECTED_DATA:
			reply_nums (receiver->reply_protected_data, receiver->protected_only ? 1 : 0)
			break
		case CAP_RECEIVER_SET_REPLY_PROTECTED_DATA:
			receiver->reply_protected_data = c->data[1]
			receiver->protected_only = c->data[2]
			break
		default:
			break

static void memory_invoke (unsigned target, unsigned protected_data, Capability::Context *c):
	Memory *mem = (Memory *)protected_data
	switch c->data[0]:
		case CAP_MEMORY_CREATE:
			unsigned rights = c->data[1] & REQUEST_MASK
			unsigned type = c->data[1] & CAPTYPE_MASK
			switch type:
				case CAPTYPE_RECEIVER:
					Receiver *ret = mem->alloc_receiver ()
					if ret:
						reply_cap (CAPTYPE_RECEIVER | (rights & CAP_RECEIVER_ALL_RIGHTS), (unsigned)ret)
					else:
						reply_num (0)
					break
				case CAPTYPE_MEMORY:
					Memory *ret = mem->alloc_memory ()
					if ret:
						reply_cap (CAPTYPE_MEMORY | (rights & CAP_MEMORY_ALL_RIGHTS), (unsigned)ret)
					else:
						reply_num (0)
					break
				case CAPTYPE_THREAD:
					Thread *ret = mem->alloc_thread ()
					if ret:
						reply_cap (CAPTYPE_THREAD | (rights & CAP_THREAD_ALL_RIGHTS), (unsigned)ret)
					else:
						reply_num (0)
					break
				case CAPTYPE_PAGE:
					Page *ret = mem->alloc_page ()
					if ret:
						reply_cap (CAPTYPE_PAGE | (rights & CAP_PAGE_ALL_RIGHTS), (unsigned)ret)
					else:
						reply_num (0)
					break
				case CAPTYPE_CAPPAGE:
					Cappage *ret = mem->alloc_cappage ()
					if ret:
						reply_cap (CAPTYPE_CAPPAGE | (rights & CAP_CAPPAGE_ALL_RIGHTS), (unsigned)ret)
					else:
						reply_num (0)
					break
				default:
					return
			break
		case CAP_MEMORY_DESTROY:
			if !c->cap[0] || c->cap[0]->address_space != mem || (unsigned)c->cap[0]->target & ~KERNEL_MASK:
				return
			switch (unsigned)c->cap[0]->target & CAPTYPE_MASK:
				case CAPTYPE_RECEIVER:
					mem->free_receiver ((Receiver *)c->cap[0]->protected_data)
					return
				case CAPTYPE_MEMORY:
					mem->free_memory ((Memory *)c->cap[0]->protected_data)
					return
				case CAPTYPE_THREAD:
					mem->free_thread ((Thread *)c->cap[0]->protected_data)
					return
				case CAPTYPE_PAGE:
					mem->free_page ((Page *)c->cap[0]->protected_data)
					return
				case CAPTYPE_CAPABILITY:
					mem->free_capability ((Capability *)c->cap[0]->protected_data)
					return
				case CAPTYPE_CAPPAGE:
					mem->free_cappage ((Cappage *)c->cap[0]->protected_data)
					return
				default:
					panic (0x55228930, "invalid case")
			break
		case CAP_MEMORY_LIST:
			// TODO
			break
		case CAP_MEMORY_MAP:
			// FIXME: this should work for fake pages as well.
			if !c->cap[0] || (unsigned)c->cap[0]->target & ~KERNEL_MASK || ((unsigned)c->cap[0]->target & CAPTYPE_MASK) != CAPTYPE_PAGE:
				break
			Page *page = (Page *)c->cap[0]->protected_data
			if page->address_space != mem:
				break
			bool writable = c->data[1] & (unsigned)c->cap[0]->target & (1 << CAP_PAGE_WRITE)
			mem->map (page, c->data[1] & PAGE_MASK, writable)
			break
		case CAP_MEMORY_MAPPING:
			bool write
			Page *page = mem->get_mapping (c->data[1], &write)
			unsigned t = CAPTYPE_PAGE | REQUEST_MASK
			if !write:
				t &= ~CAP_PAGE_WRITE
			reply_cap (t, (unsigned)page)
			break
		case CAP_MEMORY_SET_LIMIT:
			mem->limit = c->data[1]
			break
		case CAP_MEMORY_GET_LIMIT:
			reply_num (mem->limit)
			break
		case CAP_MEMORY_DROP:
			if !c->cap[0] || c->cap[0]->address_space != mem:
				break
			mem->free_capability (c->cap[0])
			break
		default:
			break

static void thread_invoke (unsigned target, unsigned protected_data, Capability::Context *c):
	Thread *thread = (Thread *)protected_data
	switch c->data[0]:
		case CAP_THREAD_INFO:
			unsigned *value
			switch c->data[1]:
				case CAP_THREAD_INFO_PC:
					value = &thread->pc
					break
				case CAP_THREAD_INFO_SP:
					value = &thread->sp
					break
				case CAP_THREAD_INFO_FLAGS:
					// It is not possible to set the PRIV flag, but it can be reset.
					c->data[2] &= ~THREAD_FLAG_PRIV
					value = &thread->flags
					if c->data[3] & ~THREAD_FLAG_USER:
						unsigned v = (*value & c->data[3]) | (c->data[2] & c->data[3])
						if (v & THREAD_FLAG_WAITING) != (*value & THREAD_FLAG_WAITING):
							if v & THREAD_FLAG_WAITING:
								thread->wait ()
							else
								thread->unwait ()
						if (v & THREAD_FLAG_RUNNING) != (*value & THREAD_FLAG_RUNNING):
							if v & THREAD_FLAG_RUNNING:
								thread->run ()
							else
								thread->unrun ()
					break
				default:
					value = Thread_arch_info (thread, c->data[1])
					break
			if value:
				*value &= ~c->data[3]
				*value |= c->data[2] & c->data[3]
				reply_num (*value)
			else:
				reply_num (0)
			break
		case CAP_THREAD_SCHEDULE:
			schedule ()
			break
		case CAP_THREAD_DEBUG:
			for unsigned i = 0; i < 2; ++i:
				dbg_led (true, true, true)
				dbg_sleep (100)
				dbg_led (false, false, false)
				dbg_sleep (100)
			//dbg_send (c->data[1], 5)
			break
		case CAP_THREAD_REGISTER_INTERRUPT:
			// Threads with access to this call are trusted, so no sanity checking is done.
			arch_register_interrupt (c->data[1], c->cap[0] ? (Receiver *)c->cap[0]->protected_data : NULL)
			break
		case CAP_THREAD_GET_TOP_MEMORY:
			// Threads with access to this call are trusted, so no sanity checking is done.
			reply_cap (CAPTYPE_MEMORY | (c->data[1] & CAP_MEMORY_ALL_RIGHTS), (unsigned)&top_memory)
			break
		case CAP_THREAD_MAKE_PRIV:
			// Threads with access to this call are trusted, so no sanity checking is done.
			if c->data[1] & THREAD_FLAG_PRIV:
				((Thread *)c->cap[0]->protected_data)->flags |= THREAD_FLAG_PRIV
			reply_cap (CAPTYPE_THREAD | (c->data[1] & CAP_THREAD_ALL_PRIV_RIGHTS), c->cap[0]->protected_data)
			break
		case CAP_THREAD_ALLOC_PHYSICAL:
			// Threads with access to this call are trusted, so no sanity checking is done.
			Page *page = (Page *)c->cap[0]->protected_data
			page->forget ()
			if page->data.flags & PAGE_FLAG_PAYING:
				page->data.flags &= ~PAGE_FLAG_PAYING
				page->address_space->unuse ()
			page->data.frame = c->data[1] & PAGE_MASK
			if c->data[1] & 1:
				page->data.flags |= PAGE_FLAG_FRAME | PAGE_FLAG_PHYSICAL
			else:
				page->data.flags |= PAGE_FLAG_FRAME | PAGE_FLAG_PHYSICAL | PAGE_FLAG_UNCACHED
			break
		default:
			break

static bool page_check_payment (Page *page):
	Page *p
	for p = (Page *)page->data.share_prev; p; p = (Page *)p->data.share_prev:
		if p->data.flags & PAGE_FLAG_PAYING:
			return true
	for p = (Page *)page->data.share_next; p; p = (Page *)p->data.share_next:
		if p->data.flags & PAGE_FLAG_PAYING:
			return true
	// No Page is paying for this frame anymore.
	raw_pfree (page->data.frame)
	Page *next
	for p = (Page *)page->data.share_prev, next = (Page *)p->data.share_prev; p; p = next, next = (Page *)p->data.share_prev:
		p->data.frame = NULL
		p->data.share_prev = NULL
		p->data.share_next = NULL
		p->data.flags &= ~(PAGE_FLAG_SHARED | PAGE_FLAG_FRAME)
		Page_arch_update_mapping (p)
	for p = page, next = (Page *)p->data.share_next; p; p = next, next = (Page *)p->data.share_next:
		p->data.frame = NULL
		p->data.share_prev = NULL
		p->data.share_next = NULL
		p->data.flags &= ~(PAGE_FLAG_SHARED | PAGE_FLAG_FRAME)
		Page_arch_update_mapping (p)
	return false

static bool cappage_check_payment (Cappage *cappage):
	Cappage *p
	for p = (Cappage *)cappage->data.share_prev; p; p = (Cappage *)p->data.share_prev:
		if p->data.flags & PAGE_FLAG_PAYING:
			return true
	for p = (Cappage *)cappage->data.share_next; p; p = (Cappage *)p->data.share_next:
		if p->data.flags & PAGE_FLAG_PAYING:
			return true
	// No Page is paying for this frame anymore.
	for unsigned i = 0; i < CAPPAGE_SIZE; ++i:
		((Capability *)cappage->data.frame)[i].invalidate ()
	raw_pfree (cappage->data.frame)
	Cappage *next
	for p = (Cappage *)cappage->data.share_prev, next = (Cappage *)p->data.share_prev; p; p = next, next = (Cappage *)p->data.share_prev:
		p->data.frame = NULL
		p->data.share_prev = NULL
		p->data.share_next = NULL
		p->data.flags &= ~(PAGE_FLAG_SHARED | PAGE_FLAG_FRAME)
	for p = cappage, next = (Cappage *)p->data.share_next; p; p = next, next = (Cappage *)p->data.share_next:
		p->data.frame = NULL
		p->data.share_prev = NULL
		p->data.share_next = NULL
		p->data.flags &= ~(PAGE_FLAG_SHARED | PAGE_FLAG_FRAME)
	return false

static void page_invoke (unsigned target, unsigned protected_data, Capability::Context *c):
	Page *page
	Cappage *cappage
	ShareData *share_data
	if (target & CAPTYPE_MASK) == CAPTYPE_PAGE:
		page = (Page *)protected_data
		cappage = NULL
		share_data = &page->data
	else:
		page = NULL
		cappage = (Cappage *)protected_data
		share_data = &cappage->data
	switch c->data[0]:
		case CAP_PAGE_SHARE:
			if !c->cap[0] || ((unsigned)c->cap[0]->target & CAPTYPE_MASK) != (target & CAPTYPE_MASK):
				// FIXME: This makes it impossible to use a fake Page capability.
				break
			if page:
				Page *t = (Page *)c->cap[0]->protected_data
				t->forget ()
				if c->data[1] & PAGE_SHARE_READONLY:
					t->data.flags &= ~PAGE_FLAG_WRITABLE
				if !page->data.flags & PAGE_FLAG_FRAME:
					break
				if c->data[1] & PAGE_SHARE_COPY:
					if ~t->data.flags & PAGE_FLAG_PAYING:
						break
					if ~c->data[1] & PAGE_SHARE_FORGET || page->data.flags & PAGE_FLAG_SHARED:
						unsigned *d = (unsigned *)page->data.frame
						if t == page:
							Page *other = page->data.share_next ? (Page *)page->data.share_next : (Page *)page->data.share_prev
							if !other:
								Page_arch_update_mapping (t)
								break
							if page->data.share_next:
								((Page *)page->data.share_next)->data.share_prev = page->data.share_prev
							if page->data.share_prev:
								((Page *)page->data.share_prev)->data.share_next = page->data.share_next
							page->data.share_next = NULL
							page->data.share_prev = NULL
							page_check_payment (other)
						else:
							t->data.flags |= PAGE_FLAG_FRAME
						t->data.frame = raw_zalloc ()
						for unsigned i = 0; i <= (c->data[1] & ~PAGE_MASK); i += 4:
							((unsigned *)t->data.frame)[i >> 2] = d[i >> 2]
					else:
						if t != page:
							t->data.frame = page->data.frame
							t->data.flags |= PAGE_FLAG_FRAME
							page->data.frame = NULL
							page->data.flags &= ~PAGE_FLAG_FRAME
							Page_arch_update_mapping (page)
					Page_arch_update_mapping (t)
				else:
					if t == page:
						break
					if c->data[1] & PAGE_SHARE_FORGET:
						if ~page->data.flags & PAGE_FLAG_SHARED:
							if t->data.flags & PAGE_FLAG_PAYING:
								t->data.frame = page->data.frame
								t->data.flags |= PAGE_FLAG_FRAME
							page->data.frame = NULL
							page->data.flags &= ~PAGE_FLAG_FRAME
							Page_arch_update_mapping (page)
						else:
							t->data.share_prev = page->data.share_prev
							t->data.share_next = page->data.share_next
							if t->data.share_prev:
								((Page *)t->data.share_prev)->data.share_next = t
							if t->data.share_next:
								((Page *)t->data.share_next)->data.share_prev = t
							page->data.share_prev = NULL
							page->data.share_next = NULL
							page->forget ()
							page_check_payment (t)
					else:
						t->data.share_prev = page->data.share_prev
						t->data.share_next = page
						page->data.share_prev = t
						if t->data.share_prev:
							((Page *)t->data.share_prev)->data.share_next = t
					Page_arch_update_mapping (t)
			else:
				Cappage *t = (Cappage *)c->cap[0]->protected_data
				t->forget ()
				if c->data[1] & PAGE_SHARE_READONLY:
					t->data.flags &= ~PAGE_FLAG_WRITABLE
				if !cappage->data.flags & PAGE_FLAG_FRAME:
					break
				if c->data[1] & PAGE_SHARE_COPY:
					if ~t->data.flags & PAGE_FLAG_PAYING:
						break
					if ~c->data[1] & PAGE_SHARE_FORGET || cappage->data.flags & PAGE_FLAG_SHARED:
						unsigned *d = (unsigned *)cappage->data.frame
						if t == cappage:
							Cappage *other = cappage->data.share_next ? (Cappage *)cappage->data.share_next : (Cappage *)cappage->data.share_prev
							if !other:
								break
							if cappage->data.share_next:
								((Cappage *)cappage->data.share_next)->data.share_prev = cappage->data.share_prev
							if cappage->data.share_prev:
								((Cappage *)cappage->data.share_prev)->data.share_next = cappage->data.share_next
							cappage->data.share_next = NULL
							cappage->data.share_prev = NULL
							cappage_check_payment (other)
						else:
							t->data.flags |= PAGE_FLAG_FRAME
						t->data.frame = raw_zalloc ()
						for unsigned i = 0; i < ((c->data[1] & ~PAGE_MASK) + 1) * sizeof (Capability); i += 4:
							((unsigned *)t->data.frame)[i >> 2] = d[i >> 2]
					else:
						if t != cappage:
							t->data.frame = cappage->data.frame
							t->data.flags |= PAGE_FLAG_FRAME
							cappage->data.frame = NULL
							cappage->data.flags &= ~PAGE_FLAG_FRAME
				else:
					if t == cappage:
						break
					if c->data[1] & PAGE_SHARE_FORGET:
						if ~cappage->data.flags & PAGE_FLAG_SHARED:
							if t->data.flags & PAGE_FLAG_PAYING:
								t->data.frame = cappage->data.frame
								t->data.flags |= PAGE_FLAG_FRAME
							cappage->data.frame = NULL
							cappage->data.flags &= ~PAGE_FLAG_FRAME
						else:
							t->data.share_prev = cappage->data.share_prev
							t->data.share_next = cappage->data.share_next
							if t->data.share_prev:
								((Cappage *)t->data.share_prev)->data.share_next = t
							if t->data.share_next:
								((Cappage *)t->data.share_next)->data.share_prev = t
							cappage->data.share_prev = NULL
							cappage->data.share_next = NULL
							cappage->forget ()
							cappage_check_payment (t)
					else:
						t->data.share_prev = cappage->data.share_prev
						t->data.share_next = cappage
						cappage->data.share_prev = t
						if t->data.share_prev:
							((Cappage *)t->data.share_prev)->data.share_next = t
		case CAP_PAGE_FLAGS:
			// Always refuse to set reserved flags.
			c->data[2] &= ~(PAGE_FLAG_PHYSICAL | PAGE_FLAG_UNCACHED)
			// Remember the old flags.
			unsigned old = share_data->flags
			// Compute the new flags.
			unsigned new_flags = (share_data->flags & ~c->data[2]) | (c->data[1] & c->data[2])

			// If we stop paying, see if the frame is still paid for.  If not, free it.
			if ~new_flags & old & PAGE_FLAG_PAYING:
				if page:
					// Decrease the use counter in any case.
					page->address_space->unuse ()
					if !page_check_payment (page):
						new_flags &= ~PAGE_FLAG_FRAME
				else:
					// Decrease the use counter in any case.
					cappage->address_space->unuse ()
					if !cappage_check_payment (cappage):
						new_flags &= ~PAGE_FLAG_FRAME

			// If we start paying, increase the use counter.
			if new_flags & ~old & PAGE_FLAG_PAYING:
				if !(page ? page->address_space : cappage->address_space)->use():
					// If it doesn't work, refuse to set the flag, and refuse to allocate a frame.
					new_flags &= ~(PAGE_FLAG_PAYING | PAGE_FLAG_FRAME)
					if old & PAGE_FLAG_FRAME:
						new_flags |= PAGE_FLAG_FRAME

			// If we want a frame, see if we can get it.
			if ~old & new_flags & PAGE_FLAG_FRAME:
				if page:
					Page *p
					for p = page; p; p = (Page *)p->data.share_prev:
						if p->data.flags & PAGE_FLAG_PAYING:
							break
					if !p:
						for p = (Page *)page->data.share_next; p; p = (Page *)p->data.share_next:
							if p->data.flags & PAGE_FLAG_PAYING:
								break
						if !p:
							new_flags &= ~PAGE_FLAG_FRAME
				else:
					Cappage *p
					for p = cappage; p; p = (Cappage *)p->data.share_prev:
						if p->data.flags & PAGE_FLAG_PAYING:
							break
					if !p:
						for p = (Cappage *)cappage->data.share_next; p; p = (Cappage *)p->data.share_next:
							if p->data.flags & PAGE_FLAG_PAYING:
								break
						if !p:
							new_flags &= ~PAGE_FLAG_FRAME
				// If we can get the new frame, get it.
			Capability *c = &((Capability *)cappage->data.frame)[data[1]]
			c->invalidate ()
			// clone_capability needs a Memory, but doesn't use it when storage is provided.
			top_memory.clone_capability (cap, copy, c)
			break
		default:
			break

static void capability_invoke (unsigned target, unsigned protected_data, Capability *cap, unsigned request, unsigned data):
	Capability *capability = (Capability *)protected_data
	switch request:
		case CAP_CAPABILITY_GET:
			reply_cap (capability, true)
			break
		default:
			break

static bool kernel_invoke (unsigned target, unsigned protected_data, unsigned d[4], Capability *c[4], bool copy[4], Capability *self):
	// Kernel calling convention:
	// data[0] is the request.
	// cap[0] is the reply capability
	// other parameters' meanings depend on the operation.
	if !((1 << d[0]) & target & ~REQUEST_MASK):
		// You are not allowed to perform this operation.
		return true
	if (target & (CAPTYPE_MASK | (1 << CAP_RECEIVER_CALL))) == (CAPTYPE_RECEIVER | (1 << CAP_RECEIVER_CALL)):
		// This is a call capability.
		reply_receiver = (Receiver *)protected_data
		reply_receiver->protected_only = !(target & (1 << CAP_RECEIVER_CALL_ASYNC))
		Capability r
		Capability *c0 = c[0]
		if ~(unsigned)c0->target & ~KERNEL_MASK:
			fill_cap (&r, protected_data, reply_receiver->reply_protected_data)
			c[0] = &r
			copy[0] = true
			bool ret = kernel_invoke ((unsigned)c0->target, c0->protected_data, d, c, copy, c0)
			r.invalidate ()
			return ret
		else:
			// Kernel call: don't create actual capablities.
			reply = NULL
			return kernel_invoke ((unsigned)c0->target, c0->protected_data, d, c, copy, c0)
	if (target & (CAPTYPE_MASK | (1 << CAP_RECEIVER_REPLY))) == (CAPTYPE_RECEIVER | (1 << CAP_RECEIVER_REPLY)):
		// This is a reply capability.
		Receiver *r = (Receiver *)protected_data
		r->send_message (r->reply_protected_data, d, c, copy)
		while self->parent:
			self = self->parent
		while self->sibling_prev:
			self->sibling_prev->invalidate ()
		while self->sibling_next:
			self->sibling_next->invalidate ()
		self->invalidate ()
		return true
	reply = c[0]
	if d[0] == CAP_DEGRADE:
		reply_cap (target & d[1], protected_data)
		return true
	switch target & CAPTYPE_MASK:
		case CAPTYPE_RECEIVER:
			receiver_invoke (target, protected_data, c[1], d)
			break
		case CAPTYPE_MEMORY:
			memory_invoke (target, protected_data, c[1], d[0], d[1])
			break
		case CAPTYPE_THREAD:
			thread_invoke (target, protected_data, c[1], d)
			break
		case CAPTYPE_PAGE:
			page_invoke (target, protected_data, c[1], copy[1], d)
			break
		case CAPTYPE_CAPABILITY:
			capability_invoke (target, protected_data, c[1], d[0], d[1])
			break
		case CAPTYPE_CAPPAGE:
			page_invoke (target, protected_data, c[1], copy[1], d)
			break
		default:
			panic (0x99337744, "invalid capability type invoked")
	return true

bool Capability::invoke (unsigned data[4], Capability *cap[4], bool copy[4]):
	if (unsigned)target & ~KERNEL_MASK:
		// This is not a kernel capability: send a message to the receiver.
		return target->send_message (protected_data, data, cap, copy)
	// This is a kernel capability.  Use a function to allow optimized call capabilities.
	return kernel_invoke ((unsigned)target, protected_data, data, cap, copy, this)