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genode/base-nova/src/core/include/nova_util.h

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/*
* \brief NOVA-specific convenience functions
* \author Norman Feske
* \author Sebastian Sumpf
* \date 2010-01-19
*/
/*
* Copyright (C) 2010-2013 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _NOVA_UTIL_H_
#define _NOVA_UTIL_H_
/* Genode includes */
#include <base/printf.h>
/* NOVA includes */
#include <nova/syscalls.h>
/* local includes */
#include <echo.h>
#include <util.h>
enum { verbose_local_map = false };
/**
* Establish a mapping
*
* \param utcb UTCB of the calling EC
* \param src_crd capability range descriptor of source
* resource to map locally
* \param dst_crd capability range descriptor of mapping
* target
* \param kern_pd Whether to map the items from the kernel or from core
* \param dma_mem Whether the memory is usable for DMA or not
*
* This functions sends a message from the calling EC to the echo EC.
* The calling EC opens a receive window and the echo EC creates a transfer
* item of the message and replies. The kernel will map during the reply
* from the echo EC to the calling EC.
*/
static int map_local(Nova::Utcb *utcb, Nova::Crd src_crd, Nova::Crd dst_crd,
bool kern_pd = false, bool dma_mem = false)
{
/* open receive window at current EC */
utcb->crd_rcv = dst_crd;
/* tell echo thread what to map */
utcb->msg[0] = src_crd.value();
utcb->msg[1] = 0;
utcb->msg[2] = kern_pd;
utcb->msg[3] = dma_mem;
utcb->set_msg_word(4);
/* establish the mapping via a portal traversal during reply phase */
Nova::uint8_t res = Nova::call(echo()->pt_sel());
if (res != Nova::NOVA_OK || utcb->msg_words() != 1 || !utcb->msg[0] ||
utcb->msg_items() != 1) {
PERR("Failure - map_local 0x%lx:%lu:%u->0x%lx:%lu:%u - call result=%x"
" utcb=%x:%x:%lx !!! utcb=%p kern=%u",
src_crd.addr(), src_crd.order(), src_crd.type(),
dst_crd.addr(), dst_crd.order(), dst_crd.type(), res,
utcb->msg_items(), utcb->msg_words(), utcb->msg[0], utcb, kern_pd);
return res > 0 ? res : -1;
}
/* clear receive window */
utcb->crd_rcv = 0;
return 0;
}
static inline int unmap_local(Nova::Crd crd, bool self = true) {
return Nova::revoke(crd, self); }
inline int map_local_phys_to_virt(Nova::Utcb *utcb, Nova::Crd src,
Nova::Crd dst) {
return map_local(utcb, src, dst, true); }
inline int map_local_one_to_one(Nova::Utcb *utcb, Nova::Crd crd) {
return map_local(utcb, crd, crd, true); }
/**
* Remap pages in the local address space
*
* \param utcb UTCB of the main thread
* \param from_start physical source address
* \param to_start local virtual destination address
* \param num_pages number of pages to map
*/
inline int map_local(Nova::Utcb *utcb,
Genode::addr_t from_start, Genode::addr_t to_start,
Genode::size_t num_pages,
Nova::Rights const &permission,
bool kern_pd = false, bool dma_mem = false)
{
if (verbose_local_map)
Genode::printf("::map_local: from %lx to %lx, %zd pages from kernel %u\n",
from_start, to_start, num_pages, kern_pd);
using namespace Nova;
using namespace Genode;
size_t const size = num_pages << get_page_size_log2();
addr_t const from_end = from_start + size;
addr_t const to_end = to_start + size;
for (addr_t offset = 0; offset < size; ) {
addr_t const from_curr = from_start + offset;
addr_t const to_curr = to_start + offset;
/*
* The common alignment corresponds to the number of least significant
* zero bits in both addresses.
*/
addr_t const common_bits = from_curr | to_curr;
/*
* Find highest clear bit in 'diff', starting from the least
* significant candidate. We can skip all bits lower then
* 'get_page_size_log2()' because they are not relevant as flexpage
* size (and are always zero).
*/
size_t order = get_page_size_log2();
for (; order < 32 && !(common_bits & (1UL << order)); order++);
/*
* Look if flexpage fits into both 'from' and 'to' address range
*/
if ((from_end - from_curr) < (1UL << order))
order = log2(from_end - from_curr);
if ((to_end - to_curr) < (1UL << order))
order = log2(to_end - to_curr);
if (verbose_local_map)
Genode::printf("::map_local: order %zx %lx:%lx %lx:%lx\n",
order, from_curr, from_end, to_curr, to_end);
int const res = map_local(utcb,
Mem_crd((from_curr >> 12), order - get_page_size_log2(), permission),
Mem_crd((to_curr >> 12), order - get_page_size_log2(), permission),
kern_pd, dma_mem);
if (res) return res;
/* advance offset by current flexpage size */
offset += (1UL << order);
}
return 0;
}
/**
* Unmap pages from the local address space
*
* \param utcb UTCB of the main thread
* \param start local virtual address
* \param num_pages number of pages to unmap
*/
inline void unmap_local(Nova::Utcb *utcb,
Genode::addr_t start,
Genode::size_t num_pages)
{
if (verbose_local_map)
Genode::printf("::unmap_local: from %lx, %zd pages\n",
start, num_pages);
using namespace Nova;
using namespace Genode;
Rights const rwx(true, true, true);
Genode::addr_t end = start + (num_pages << get_page_size_log2()) - 1;
while (true) {
Nova::Mem_crd crd(start >> 12, 32, rwx);
Nova::lookup(crd);
if (!crd.is_null()) {
if (verbose_local_map)
PINF("Unmapping local: %08lx base: %lx order: %lx size: %lx is null: %d",
start, crd.base(), crd.order(),
(0x1000UL << crd.order()), crd.is_null());
unmap_local(crd, true);
start = (crd.base() << 12) /* base address of mapping */
+ (0x1000 << crd.order()); /* size of mapping */
} else {
/* This can happen if the region has never been touched */
if (verbose_local_map)
PINF("Nothing mapped at local: %08lx", start);
start += 0x1000;
}
if (start > end)
return;
}
}
#endif /* _NOVA_UTIL_H_ */
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