evbarm/ifpga/ifpga_io.c

1.3    provos /*	$NetBSD: ifpga_io.c,v 1.3 2002/09/27 15:35:59 provos Exp $ */
1.1  rearnsha
1.1  rearnsha /*
1.1  rearnsha  * Copyright (c) 1997 Causality Limited
1.1  rearnsha  * Copyright (c) 1997 Mark Brinicombe.
1.1  rearnsha  * All rights reserved.
1.1  rearnsha  *
1.1  rearnsha  * Redistribution and use in source and binary forms, with or without
1.1  rearnsha  * modification, are permitted provided that the following conditions
1.1  rearnsha  * are met:
1.1  rearnsha  * 1. Redistributions of source code must retain the above copyright
1.1  rearnsha  *    notice, this list of conditions and the following disclaimer.
1.1  rearnsha  * 2. Redistributions in binary form must reproduce the above copyright
1.1  rearnsha  *    notice, this list of conditions and the following disclaimer in the
1.1  rearnsha  *    documentation and/or other materials provided with the distribution.
1.1  rearnsha  * 3. All advertising materials mentioning features or use of this software
1.1  rearnsha  *    must display the following acknowledgement:
1.1  rearnsha  *	This product includes software developed by Mark Brinicombe
1.1  rearnsha  *	for the NetBSD Project.
1.1  rearnsha  * 4. The name of the company nor the name of the author may be used to
1.1  rearnsha  *    endorse or promote products derived from this software without specific
1.1  rearnsha  *    prior written permission.
1.1  rearnsha  *
1.1  rearnsha  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
1.1  rearnsha  * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
1.1  rearnsha  * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
1.1  rearnsha  * IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
1.1  rearnsha  * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
1.1  rearnsha  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
1.1  rearnsha  * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.1  rearnsha  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.1  rearnsha  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.1  rearnsha  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.1  rearnsha  * SUCH DAMAGE.
1.1  rearnsha  *
1.1  rearnsha  * From arm/footbridge/footbridge_io.c
1.1  rearnsha  */
1.1  rearnsha
1.1  rearnsha /*
1.1  rearnsha  * bus_space I/O functions for IFPGA
1.1  rearnsha  */
1.1  rearnsha
1.1  rearnsha #include <sys/param.h>
1.1  rearnsha #include <sys/systm.h>
1.1  rearnsha #include <machine/bus.h>
1.1  rearnsha #include <uvm/uvm_extern.h>
1.1  rearnsha
1.1  rearnsha /* Proto types for all the bus_space structure functions */
1.1  rearnsha
1.1  rearnsha bs_protos(ifpga);
1.2   thorpej bs_protos(generic);
1.2   thorpej bs_protos(generic_armv4);
1.1  rearnsha bs_protos(bs_notimpl);
1.1  rearnsha bs_map_proto(ifpga_mem);
1.1  rearnsha bs_unmap_proto(ifpga_mem);
1.1  rearnsha
1.1  rearnsha /* Declare the ifpga bus space tag */
1.1  rearnsha
1.1  rearnsha struct bus_space ifpga_bs_tag = {
1.1  rearnsha 	/* cookie */
1.1  rearnsha 	(void *) 0,			/* Physical base address */
1.1  rearnsha
1.1  rearnsha 	/* mapping/unmapping */
1.1  rearnsha 	ifpga_bs_map,
1.1  rearnsha 	ifpga_bs_unmap,
1.1  rearnsha 	ifpga_bs_subregion,
1.1  rearnsha
1.1  rearnsha 	/* allocation/deallocation */
1.1  rearnsha 	ifpga_bs_alloc,
1.1  rearnsha 	ifpga_bs_free,
1.1  rearnsha
1.1  rearnsha 	/* get kernel virtual address */
1.1  rearnsha 	ifpga_bs_vaddr,
1.1  rearnsha
1.1  rearnsha 	/* mmap */
1.1  rearnsha 	bs_notimpl_bs_mmap,
1.1  rearnsha
1.1  rearnsha 	/* barrier */
1.1  rearnsha 	ifpga_bs_barrier,
1.1  rearnsha
1.1  rearnsha 	/* read (single) */
1.2   thorpej 	generic_bs_r_1,
1.2   thorpej 	generic_armv4_bs_r_2,
1.2   thorpej 	generic_bs_r_4,
1.1  rearnsha 	bs_notimpl_bs_r_8,
1.1  rearnsha
1.1  rearnsha 	/* read multiple */
1.2   thorpej 	generic_bs_rm_1,
1.2   thorpej 	generic_armv4_bs_rm_2,
1.2   thorpej 	generic_bs_rm_4,
1.1  rearnsha 	bs_notimpl_bs_rm_8,
1.1  rearnsha
1.1  rearnsha 	/* read region */
1.1  rearnsha 	bs_notimpl_bs_rr_1,
1.2   thorpej 	generic_armv4_bs_rr_2,
1.2   thorpej 	generic_bs_rr_4,
1.1  rearnsha 	bs_notimpl_bs_rr_8,
1.1  rearnsha
1.1  rearnsha 	/* write (single) */
1.2   thorpej 	generic_bs_w_1,
1.2   thorpej 	generic_armv4_bs_w_2,
1.2   thorpej 	generic_bs_w_4,
1.1  rearnsha 	bs_notimpl_bs_w_8,
1.1  rearnsha
1.1  rearnsha 	/* write multiple */
1.2   thorpej 	generic_bs_wm_1,
1.2   thorpej 	generic_armv4_bs_wm_2,
1.2   thorpej 	generic_bs_wm_4,
1.1  rearnsha 	bs_notimpl_bs_wm_8,
1.1  rearnsha
1.1  rearnsha 	/* write region */
1.1  rearnsha 	bs_notimpl_bs_wr_1,
1.2   thorpej 	generic_armv4_bs_wr_2,
1.2   thorpej 	generic_bs_wr_4,
1.1  rearnsha 	bs_notimpl_bs_wr_8,
1.1  rearnsha
1.1  rearnsha 	/* set multiple */
1.1  rearnsha 	bs_notimpl_bs_sm_1,
1.1  rearnsha 	bs_notimpl_bs_sm_2,
1.1  rearnsha 	bs_notimpl_bs_sm_4,
1.1  rearnsha 	bs_notimpl_bs_sm_8,
1.1  rearnsha
1.1  rearnsha 	/* set region */
1.1  rearnsha 	bs_notimpl_bs_sr_1,
1.2   thorpej 	generic_armv4_bs_sr_2,
1.1  rearnsha 	bs_notimpl_bs_sr_4,
1.1  rearnsha 	bs_notimpl_bs_sr_8,
1.1  rearnsha
1.1  rearnsha 	/* copy */
1.1  rearnsha 	bs_notimpl_bs_c_1,
1.2   thorpej 	generic_armv4_bs_c_2,
1.1  rearnsha 	bs_notimpl_bs_c_4,
1.1  rearnsha 	bs_notimpl_bs_c_8,
1.1  rearnsha };
1.1  rearnsha
1.1  rearnsha void ifpga_create_io_bs_tag(t, cookie)
1.1  rearnsha 	struct bus_space *t;
1.1  rearnsha 	void *cookie;
1.1  rearnsha {
1.1  rearnsha 	*t = ifpga_bs_tag;
1.1  rearnsha 	t->bs_cookie = cookie;
1.1  rearnsha }
1.1  rearnsha
1.1  rearnsha void ifpga_create_mem_bs_tag(t, cookie)
1.1  rearnsha 	struct bus_space *t;
1.1  rearnsha 	void *cookie;
1.1  rearnsha {
1.1  rearnsha 	*t = ifpga_bs_tag;
1.1  rearnsha 	t->bs_map = ifpga_mem_bs_map;
1.1  rearnsha 	t->bs_unmap = ifpga_mem_bs_unmap;
1.1  rearnsha 	t->bs_cookie = cookie;
1.1  rearnsha }
1.1  rearnsha
1.1  rearnsha /* bus space functions */
1.1  rearnsha
1.1  rearnsha int
1.1  rearnsha ifpga_bs_map(t, bpa, size, cacheable, bshp)
1.1  rearnsha 	void *t;
1.1  rearnsha 	bus_addr_t bpa;
1.1  rearnsha 	bus_size_t size;
1.1  rearnsha 	int cacheable;
1.1  rearnsha 	bus_space_handle_t *bshp;
1.1  rearnsha {
1.1  rearnsha         /* The cookie is the base address for the I/O area */
1.1  rearnsha         *bshp = bpa + (bus_addr_t)t;
1.1  rearnsha 	return 0;
1.1  rearnsha }
1.1  rearnsha
1.1  rearnsha int
1.1  rearnsha ifpga_mem_bs_map(t, bpa, size, cacheable, bshp)
1.1  rearnsha 	void *t;
1.1  rearnsha 	bus_addr_t bpa;
1.1  rearnsha 	bus_size_t size;
1.1  rearnsha 	int cacheable;
1.1  rearnsha 	bus_space_handle_t *bshp;
1.1  rearnsha {
1.1  rearnsha 	bus_addr_t startpa, endpa;
1.1  rearnsha 	vaddr_t va;
1.1  rearnsha
1.1  rearnsha 	/* Round the allocation to page boundries */
1.1  rearnsha 	startpa = trunc_page(bpa);
1.1  rearnsha 	endpa = round_page(bpa + size);
1.1  rearnsha
1.1  rearnsha 	/* Get some VM.  */
1.1  rearnsha 	va = uvm_km_valloc(kernel_map, endpa - startpa);
1.1  rearnsha 	if (va == 0)
1.1  rearnsha 		return ENOMEM;
1.1  rearnsha
1.1  rearnsha 	/* Store the bus space handle */
1.1  rearnsha 	*bshp = va + (bpa & PGOFSET);
1.1  rearnsha
1.1  rearnsha 	/* Now map the pages */
1.1  rearnsha 	/* The cookie is the physical base address for the I/O area */
1.1  rearnsha 	while (startpa < endpa) {
1.1  rearnsha 		/* XXX pmap_kenter_pa maps pages cacheable -- not what
1.1  rearnsha 		   we want.  */
1.1  rearnsha 		pmap_enter(pmap_kernel(), va, (bus_addr_t)t + startpa,
1.1  rearnsha 			   VM_PROT_READ | VM_PROT_WRITE, 0);
1.1  rearnsha 		va += NBPG;
1.1  rearnsha 		startpa += NBPG;
1.1  rearnsha 	}
1.1  rearnsha 	pmap_update(pmap_kernel());
1.1  rearnsha
1.1  rearnsha 	return 0;
1.1  rearnsha }
1.1  rearnsha
1.1  rearnsha int
1.1  rearnsha ifpga_bs_alloc(t, rstart, rend, size, alignment, boundary, cacheable,
1.1  rearnsha     bpap, bshp)
1.1  rearnsha 	void *t;
1.1  rearnsha 	bus_addr_t rstart, rend;
1.1  rearnsha 	bus_size_t size, alignment, boundary;
1.1  rearnsha 	int cacheable;
1.1  rearnsha 	bus_addr_t *bpap;
1.1  rearnsha 	bus_space_handle_t *bshp;
1.1  rearnsha {
1.3    provos 	panic("ifpga_alloc(): Help!");
1.1  rearnsha }
1.1  rearnsha
1.1  rearnsha
1.1  rearnsha void
1.1  rearnsha ifpga_bs_unmap(t, bsh, size)
1.1  rearnsha 	void *t;
1.1  rearnsha 	bus_space_handle_t bsh;
1.1  rearnsha 	bus_size_t size;
1.1  rearnsha {
1.1  rearnsha 	/* Nothing to do for an io map.  */
1.1  rearnsha }
1.1  rearnsha
1.1  rearnsha void
1.1  rearnsha ifpga_mem_bs_unmap(t, bsh, size)
1.1  rearnsha 	void *t;
1.1  rearnsha 	bus_space_handle_t bsh;
1.1  rearnsha 	bus_size_t size;
1.1  rearnsha {
1.1  rearnsha 	vaddr_t startva, endva;
1.1  rearnsha
1.1  rearnsha 	startva = trunc_page(bsh);
1.1  rearnsha 	endva = round_page(bsh + size);
1.1  rearnsha
1.1  rearnsha 	uvm_km_free(kernel_map, startva, endva - startva);
1.1  rearnsha }
1.1  rearnsha
1.1  rearnsha void
1.1  rearnsha ifpga_bs_free(t, bsh, size)
1.1  rearnsha 	void *t;
1.1  rearnsha 	bus_space_handle_t bsh;
1.1  rearnsha 	bus_size_t size;
1.1  rearnsha {
1.1  rearnsha
1.3    provos 	panic("ifpga_free(): Help!");
1.1  rearnsha 	/* ifpga_bs_unmap() does all that we need to do. */
1.1  rearnsha /*	ifpga_bs_unmap(t, bsh, size);*/
1.1  rearnsha }
1.1  rearnsha
1.1  rearnsha int
1.1  rearnsha ifpga_bs_subregion(t, bsh, offset, size, nbshp)
1.1  rearnsha 	void *t;
1.1  rearnsha 	bus_space_handle_t bsh;
1.1  rearnsha 	bus_size_t offset, size;
1.1  rearnsha 	bus_space_handle_t *nbshp;
1.1  rearnsha {
1.1  rearnsha
1.1  rearnsha 	*nbshp = bsh + (offset << ((int)t));
1.1  rearnsha 	return (0);
1.1  rearnsha }
1.1  rearnsha
1.1  rearnsha void *
1.1  rearnsha ifpga_bs_vaddr(t, bsh)
1.1  rearnsha 	void *t;
1.1  rearnsha 	bus_space_handle_t bsh;
1.1  rearnsha {
1.1  rearnsha
1.1  rearnsha 	return ((void *)bsh);
1.1  rearnsha }
1.1  rearnsha
1.1  rearnsha void
1.1  rearnsha ifpga_bs_barrier(t, bsh, offset, len, flags)
1.1  rearnsha 	void *t;
1.1  rearnsha 	bus_space_handle_t bsh;
1.1  rearnsha 	bus_size_t offset, len;
1.1  rearnsha 	int flags;
1.1  rearnsha {
1.1  rearnsha }