genode/base/src/core/io_mem_session_component.cc

/*
 * \brief  Core implementation of the IO_MEM session interface
 * \author Christian Helmuth
 * \date   2006-08-01
 */

/*
 * Copyright (C) 2006-2013 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.
 */

#include <util/string.h>
#include <util/arg_string.h>
#include <root/root.h>
#include <dataspace_component.h>
#include <io_mem_session_component.h>
#include <base/allocator_avl.h>
#include "util.h"

using namespace Genode;


static const bool verbose = false;


Io_mem_session_component::Dataspace_attr
Io_mem_session_component::_prepare_io_mem(const char      *args,
                                          Range_allocator *ram_alloc)
{
	addr_t req_base = Arg_string::find_arg(args, "base").ulong_value(0);
	size_t req_size = Arg_string::find_arg(args, "size").ulong_value(0);

	/* align base and size on page boundaries */
	addr_t end  = align_addr(req_base + req_size, get_page_size_log2());
	addr_t base = req_base & ~(get_page_size() - 1);
	size_t size = end - base;

	_write_combined = false;

	Arg a = Arg_string::find_arg(args, "wc");
	if (a.valid())
		_write_combined = a.bool_value(0);

	/* check for RAM collision */
	int ret;
	if ((ret = ram_alloc->remove_range(base, size))) {
		PERR("I/O memory [%lx,%lx) used by RAM allocator (%d)", base, base + size, ret);
		return Dataspace_attr();
	}

	/* allocate region */
	switch (_io_mem_alloc->alloc_addr(req_size, req_base).value) {
	case Range_allocator::Alloc_return::RANGE_CONFLICT:
		PERR("I/O memory [%lx,%lx) not available", req_base, req_base + req_size);
		return Dataspace_attr();

	case Range_allocator::Alloc_return::OUT_OF_METADATA:
		PERR("I/O memory allocator ran out of meta data");
		return Dataspace_attr();

	case Range_allocator::Alloc_return::OK: break;
	}

	/* request local mapping */
	addr_t local_addr = _map_local(base, size);

	if (verbose)
		PDBG("I/O mem [%lx,%lx) => [%lx,%lx)%s",
		     base, base + size, local_addr, local_addr + size,
		     _write_combined ? " (write-combined)" : "");

	return Dataspace_attr(size, local_addr, base, _write_combined, req_base);
}


Io_mem_session_component::Io_mem_session_component(Range_allocator *io_mem_alloc,
                                                   Range_allocator *ram_alloc,
                                                   Rpc_entrypoint  *ds_ep,
                                                   const char      *args)
:
	_io_mem_alloc(io_mem_alloc),
	_ds(_prepare_io_mem(args, ram_alloc)),
	_ds_ep(ds_ep)
{
	if (!_ds.valid()) {
		PERR("Local MMIO mapping failed!");

		_ds_cap = Io_mem_dataspace_capability();
		throw Root::Invalid_args();
	}

	_ds_cap = static_cap_cast<Io_mem_dataspace>(_ds_ep->manage(&_ds));
}


Io_mem_session_component::~Io_mem_session_component()
{
	if (verbose)
		PDBG("I/O mem free [%lx,%lx)", _ds.phys_addr(), _ds.phys_addr() + _ds.size());

	/* dissolve IO_MEM dataspace from service entry point */
	_ds_ep->dissolve(&_ds);

	/* flush local mapping of IO_MEM */
	_unmap_local(_ds.core_local_addr(), _ds.size());

	/*
	 * The Dataspace will remove itself from all RM sessions when its
	 * destructor is called. Thereby, it will get unmapped from all RM
	 * clients that currently have the dataspace attached.
	 */

	/* free region in IO_MEM allocator */
	_io_mem_alloc->free(reinterpret_cast<void *>(_ds.req_base));
}