evbppc/virtex/design_gsrd2.c

1.1  freza /* 	$NetBSD: design_gsrd2.c,v 1.1 2006/12/02 22:18:47 freza Exp $ */
1.1  freza
1.1  freza /*
1.1  freza  * Copyright (c) 2006 Jachym Holecek
1.1  freza  * All rights reserved.
1.1  freza  *
1.1  freza  * Written for DFC Design, s.r.o.
1.1  freza  *
1.1  freza  * Redistribution and use in source and binary forms, with or without
1.1  freza  * modification, are permitted provided that the following conditions
1.1  freza  * are met:
1.1  freza  *
1.1  freza  * 1. Redistributions of source code must retain the above copyright
1.1  freza  *    notice, this list of conditions and the following disclaimer.
1.1  freza  *
1.1  freza  * 2. Redistributions in binary form must reproduce the above copyright
1.1  freza  *    notice, this list of conditions and the following disclaimer in the
1.1  freza  *    documentation and/or other materials provided with the distribution.
1.1  freza  *
1.1  freza  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
1.1  freza  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
1.1  freza  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
1.1  freza  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
1.1  freza  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
1.1  freza  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
1.1  freza  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
1.1  freza  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
1.1  freza  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
1.1  freza  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
1.1  freza  */
1.1  freza
1.1  freza #include "opt_virtex.h"
1.1  freza
1.1  freza #include <sys/cdefs.h>
1.1  freza __KERNEL_RCSID(0, "$NetBSD: design_gsrd2.c,v 1.1 2006/12/02 22:18:47 freza Exp $");
1.1  freza
1.1  freza #include <sys/param.h>
1.1  freza #include <sys/systm.h>
1.1  freza #include <sys/device.h>
1.1  freza #include <sys/kernel.h>
1.1  freza #include <sys/malloc.h>
1.1  freza #include <sys/extent.h>
1.1  freza
1.1  freza #include <machine/cpu.h>
1.1  freza #include <machine/bus.h>
1.1  freza #include <machine/intr.h>
1.1  freza #include <machine/powerpc.h>
1.1  freza #include <machine/tlb.h>
1.1  freza
1.1  freza #include <powerpc/ibm4xx/dev/plbvar.h>
1.1  freza
1.1  freza #include <evbppc/virtex/dev/xcvbusvar.h>
1.1  freza #include <evbppc/virtex/dev/cdmacreg.h>
1.1  freza #include <evbppc/virtex/dev/temacreg.h>
1.1  freza #include <evbppc/virtex/dev/tftreg.h>
1.1  freza
1.1  freza #include <evbppc/virtex/virtex.h>
1.1  freza #include <evbppc/virtex/dcr.h>
1.1  freza
1.1  freza
1.1  freza #define	DCR_TEMAC_BASE 		0x0030
1.1  freza #define	DCR_TFT0_BASE 		0x0082
1.1  freza #define	DCR_TFT1_BASE 		0x0086
1.1  freza #define	DCR_CDMAC_BASE 		0x0140
1.1  freza
1.1  freza #define OPB_BASE 		0x80000000 	/* below are offsets in opb */
1.1  freza #define OPB_XLCOM_BASE 		0x010000
1.1  freza #define OPB_GPIO_BASE 		0x020000
1.1  freza #define OPB_PSTWO0_BASE 	0x040000
1.1  freza #define OPB_PSTWO1_BASE 	0x041000
1.1  freza #define CDMAC_NCHAN 		2 	/* cdmac {Tx,Rx} */
1.1  freza #define CDMAC_INTR_LINE 	0
1.1  freza
1.1  freza #define	TFT_FB_BASE 		0x3c00000
1.1  freza #define TFT_FB_SIZE 		(2*1024*1024)
1.1  freza
1.1  freza /*
1.1  freza  * CDMAC per-channel interrupt handler. CDMAC has one interrupt signal
1.1  freza  * per two channels on mpmc2, so we have to dispatch channels manually.
1.1  freza  *
1.1  freza  * Note: we hardwire priority to IPL_NET, temac(4) is the only device that
1.1  freza  * needs to service DMA interrupts anyway.
1.1  freza  */
1.1  freza typedef struct cdmac_intrhand {
1.1  freza 	void 			(*cih_func)(void *);
1.1  freza 	void 			*cih_arg;
1.1  freza } *cdmac_intrhand_t;
1.1  freza
1.1  freza /* Two instantiated channels, one logical interrupt per direction. */
1.1  freza static struct cdmac_intrhand 	cdmacintr[CDMAC_NCHAN];
1.1  freza static void 			*cdmac_ih;
1.1  freza
1.1  freza
1.1  freza /*
1.1  freza  * DCR bus space leaf access routines.
1.1  freza  */
1.1  freza
1.1  freza static void
1.1  freza tft0_write_4(bus_space_tag_t t, bus_space_handle_t h, uint32_t addr,
1.1  freza     uint32_t val)
1.1  freza {
1.1  freza 	addr += h;
1.1  freza
1.1  freza 	switch (addr) {
1.1  freza 	WCASE(DCR_TFT0_BASE, TFT_CTRL);
1.1  freza 	WCASE(DCR_TFT0_BASE, TFT_ADDR);
1.1  freza 	WDEAD(addr);
1.1  freza 	}
1.1  freza }
1.1  freza
1.1  freza static uint32_t
1.1  freza tft0_read_4(bus_space_tag_t t, bus_space_handle_t h, uint32_t addr)
1.1  freza {
1.1  freza 	uint32_t 		val;
1.1  freza
1.1  freza 	addr += h;
1.1  freza
1.1  freza 	switch (addr) {
1.1  freza 	RCASE(DCR_TFT0_BASE, TFT_CTRL);
1.1  freza 	RCASE(DCR_TFT0_BASE, TFT_ADDR);
1.1  freza 	RDEAD(addr);
1.1  freza 	}
1.1  freza
1.1  freza 	return (val);
1.1  freza }
1.1  freza
1.1  freza static void
1.1  freza tft1_write_4(bus_space_tag_t t, bus_space_handle_t h, uint32_t addr,
1.1  freza     uint32_t val)
1.1  freza {
1.1  freza 	addr += h;
1.1  freza
1.1  freza 	switch (addr) {
1.1  freza 	WCASE(DCR_TFT1_BASE, TFT_CTRL);
1.1  freza 	WCASE(DCR_TFT0_BASE, TFT_ADDR);
1.1  freza 	WDEAD(addr);
1.1  freza 	}
1.1  freza }
1.1  freza
1.1  freza static uint32_t
1.1  freza tft1_read_4(bus_space_tag_t t, bus_space_handle_t h, uint32_t addr)
1.1  freza {
1.1  freza 	uint32_t 		val;
1.1  freza
1.1  freza 	addr += h;
1.1  freza
1.1  freza 	switch (addr) {
1.1  freza 	RCASE(DCR_TFT1_BASE, TFT_CTRL);
1.1  freza 	RCASE(DCR_TFT0_BASE, TFT_ADDR);
1.1  freza 	RDEAD(addr);
1.1  freza 	}
1.1  freza
1.1  freza 	return (val);
1.1  freza }
1.1  freza
1.1  freza #define DOCHAN(op, base, channel) \
1.1  freza 	op(base, channel + CDMAC_NEXT); 	\
1.1  freza 	op(base, channel + CDMAC_CURADDR); 	\
1.1  freza 	op(base, channel + CDMAC_CURSIZE); 	\
1.1  freza 	op(base, channel + CDMAC_CURDESC)
1.1  freza
1.1  freza static void
1.1  freza cdmac_write_4(bus_space_tag_t t, bus_space_handle_t h, uint32_t addr,
1.1  freza     uint32_t val)
1.1  freza {
1.1  freza 	addr += h;
1.1  freza
1.1  freza 	switch (addr) {
1.1  freza 	WCASE(DCR_CDMAC_BASE, CDMAC_STAT_BASE(0)); 	/* Tx engine */
1.1  freza 	WCASE(DCR_CDMAC_BASE, CDMAC_STAT_BASE(1)); 	/* Rx engine */
1.1  freza 	WCASE(DCR_CDMAC_BASE, CDMAC_INTR);
1.1  freza 	DOCHAN(WCASE, DCR_CDMAC_BASE, CDMAC_CTRL_BASE(0));
1.1  freza 	DOCHAN(WCASE, DCR_CDMAC_BASE, CDMAC_CTRL_BASE(1));
1.1  freza 	WDEAD(addr);
1.1  freza 	}
1.1  freza }
1.1  freza
1.1  freza static uint32_t
1.1  freza cdmac_read_4(bus_space_tag_t t, bus_space_handle_t h, uint32_t addr)
1.1  freza {
1.1  freza 	uint32_t 		val;
1.1  freza
1.1  freza 	addr += h;
1.1  freza
1.1  freza 	switch (addr) {
1.1  freza 	RCASE(DCR_CDMAC_BASE, CDMAC_STAT_BASE(0)); 	/* Tx engine */
1.1  freza 	RCASE(DCR_CDMAC_BASE, CDMAC_STAT_BASE(1)); 	/* Rx engine */
1.1  freza 	RCASE(DCR_CDMAC_BASE, CDMAC_INTR);
1.1  freza 	DOCHAN(RCASE, DCR_CDMAC_BASE, CDMAC_CTRL_BASE(0));
1.1  freza 	DOCHAN(RCASE, DCR_CDMAC_BASE, CDMAC_CTRL_BASE(1));
1.1  freza 	RDEAD(addr);
1.1  freza 	}
1.1  freza
1.1  freza 	return (val);
1.1  freza }
1.1  freza
1.1  freza #undef DOCHAN
1.1  freza
1.1  freza static void
1.1  freza temac_write_4(bus_space_tag_t t, bus_space_handle_t h, uint32_t addr,
1.1  freza     uint32_t val)
1.1  freza {
1.1  freza 	addr += h;
1.1  freza
1.1  freza 	switch (addr) {
1.1  freza 	WCASE(DCR_TEMAC_BASE, TEMAC_RESET);
1.1  freza 	WDEAD(addr);
1.1  freza 	}
1.1  freza }
1.1  freza
1.1  freza static uint32_t
1.1  freza temac_read_4(bus_space_tag_t t, bus_space_handle_t h, uint32_t addr)
1.1  freza {
1.1  freza 	uint32_t 		val;
1.1  freza
1.1  freza 	addr += h;
1.1  freza
1.1  freza 	switch (addr) {
1.1  freza 	RCASE(DCR_TEMAC_BASE, TEMAC_RESET);
1.1  freza 	RDEAD(addr);
1.1  freza 	}
1.1  freza
1.1  freza 	return (val);
1.1  freza }
1.1  freza
1.1  freza static const struct powerpc_bus_space cdmac_bst = {
1.1  freza 	DCR_BST_BODY(DCR_CDMAC_BASE, cdmac_read_4, cdmac_write_4)
1.1  freza };
1.1  freza
1.1  freza static const struct powerpc_bus_space temac_bst = {
1.1  freza 	DCR_BST_BODY(DCR_TEMAC_BASE, temac_read_4, temac_write_4)
1.1  freza };
1.1  freza
1.1  freza static const struct powerpc_bus_space tft0_bst = {
1.1  freza 	DCR_BST_BODY(DCR_TFT0_BASE, tft0_read_4, tft0_write_4)
1.1  freza };
1.1  freza
1.1  freza static const struct powerpc_bus_space tft1_bst = {
1.1  freza 	DCR_BST_BODY(DCR_TFT1_BASE, tft1_read_4, tft1_write_4)
1.1  freza };
1.1  freza
1.1  freza static struct powerpc_bus_space opb_bst = {
1.1  freza 	.pbs_flags 	= _BUS_SPACE_BIG_ENDIAN|_BUS_SPACE_MEM_TYPE,
1.1  freza 	.pbs_base 	= 0 /*OPB_BASE*/,
1.1  freza 	.pbs_offset 	= OPB_BASE,
1.1  freza };
1.1  freza
1.1  freza static char opb_extent_storage[EXTENT_FIXED_STORAGE_SIZE(8)] __aligned(8);
1.1  freza
1.1  freza /*
1.1  freza  * Master device configuration table for GSRD2 design.
1.1  freza  */
1.1  freza static const struct gsrddev {
1.1  freza 	const char 		*gdv_name;
1.1  freza 	const char 		*gdv_attr;
1.1  freza 	bus_space_tag_t 	gdv_bst;
1.1  freza 	bus_addr_t 		gdv_addr;
1.1  freza 	int 			gdv_intr;
1.1  freza 	int 			gdv_rx_dma;
1.1  freza 	int 			gdv_tx_dma;
1.1  freza 	int 			gdv_dcr; 		/* XXX bst flag */
1.1  freza } gsrd_devices[] = {
1.1  freza 	{			/* gsrd_devices[0] */
1.1  freza 		.gdv_name 	= "xlcom",
1.1  freza 		.gdv_attr 	= "xcvbus",
1.1  freza 		.gdv_bst 	= &opb_bst,
1.1  freza 		.gdv_addr 	= OPB_XLCOM_BASE,
1.1  freza 		.gdv_intr 	= 2,
1.1  freza 		.gdv_rx_dma 	= -1,
1.1  freza 		.gdv_tx_dma 	= -1,
1.1  freza 		.gdv_dcr 	= 0,
1.1  freza 	},
1.1  freza 	{			/* gsrd_devices[1] */
1.1  freza 		.gdv_name 	= "temac",
1.1  freza 		.gdv_attr 	= "xcvbus",
1.1  freza 		.gdv_bst 	= &temac_bst,
1.1  freza 		.gdv_addr 	= 0,
1.1  freza 		.gdv_intr 	= 1, 		/* unused MII intr */
1.1  freza 		.gdv_rx_dma 	= 1, 		/* cdmac Rx */
1.1  freza 		.gdv_tx_dma 	= 0, 		/* cdmac Tx */
1.1  freza 		.gdv_dcr 	= 1,
1.1  freza 	},
1.1  freza #ifndef DESIGN_DFC
1.1  freza 	{			/* gsrd_devices[2] */
1.1  freza 		.gdv_name 	= "tft",
1.1  freza 		.gdv_attr 	= "plbus",
1.1  freza 		.gdv_bst 	= &tft0_bst,
1.1  freza 		.gdv_addr 	= 0,
1.1  freza 		.gdv_intr 	= -1,
1.1  freza 		.gdv_rx_dma 	= -1,
1.1  freza 		.gdv_tx_dma 	= -1,
1.1  freza 		.gdv_dcr 	= 1,
1.1  freza 	},
1.1  freza #endif
1.1  freza 	{			/* gsrd_devices[2] */
1.1  freza 		.gdv_name 	= "tft",
1.1  freza 		.gdv_attr 	= "plbus",
1.1  freza 		.gdv_bst 	= &tft1_bst,
1.1  freza 		.gdv_addr 	= 0,
1.1  freza 		.gdv_intr 	= -1,
1.1  freza 		.gdv_rx_dma 	= -1,
1.1  freza 		.gdv_tx_dma 	= -1,
1.1  freza 		.gdv_dcr 	= 1,
1.1  freza 	},
1.1  freza #ifdef DESIGN_DFC
1.1  freza 	{			/* gsrd_devices[3] */
1.1  freza 		.gdv_name 	= "pstwo",
1.1  freza 		.gdv_attr 	= "xcvbus",
1.1  freza 		.gdv_bst 	= &opb_bst,
1.1  freza 		.gdv_addr 	= OPB_PSTWO0_BASE,
1.1  freza 		.gdv_intr 	= 3,
1.1  freza 		.gdv_rx_dma 	= -1,
1.1  freza 		.gdv_tx_dma 	= -1,
1.1  freza 		.gdv_dcr 	= 0,
1.1  freza 	},
1.1  freza 	{			/* gsrd_devices[4] */
1.1  freza 		.gdv_name 	= "pstwo",
1.1  freza 		.gdv_attr 	= "xcvbus",
1.1  freza 		.gdv_bst 	= &opb_bst,
1.1  freza 		.gdv_addr 	= OPB_PSTWO1_BASE,
1.1  freza 		.gdv_intr 	= 4,
1.1  freza 		.gdv_rx_dma 	= -1,
1.1  freza 		.gdv_tx_dma 	= -1,
1.1  freza 		.gdv_dcr 	= 0,
1.1  freza 	},
1.1  freza #endif
1.1  freza };
1.1  freza
1.1  freza static struct ll_dmac *
1.1  freza virtex_mpmc_mapdma(int idx, struct ll_dmac *chan)
1.1  freza {
1.1  freza 	if (idx == -1)
1.1  freza 		return (NULL);
1.1  freza
1.1  freza 	KASSERT(idx >= 0 && idx < CDMAC_NCHAN);
1.1  freza
1.1  freza 	chan->dmac_iot = &cdmac_bst;
1.1  freza 	chan->dmac_ctrl_addr = CDMAC_CTRL_BASE(idx);
1.1  freza 	chan->dmac_stat_addr = CDMAC_STAT_BASE(idx);
1.1  freza 	chan->dmac_chan = idx;
1.1  freza
1.1  freza 	return (chan);
1.1  freza }
1.1  freza
1.1  freza static int
1.1  freza cdmac_intr(void *arg)
1.1  freza {
1.1  freza 	uint32_t 		isr;
1.1  freza 	int 			did = 0;
1.1  freza
1.1  freza 	isr = bus_space_read_4(&cdmac_bst, 0, CDMAC_INTR);
1.1  freza
1.1  freza 	if (ISSET(isr, CDMAC_INTR_TX0) && cdmacintr[0].cih_func) {
1.1  freza 		(cdmacintr[0].cih_func)(cdmacintr[0].cih_arg);
1.1  freza 		did++;
1.1  freza 	}
1.1  freza 	if (ISSET(isr, CDMAC_INTR_RX0) && cdmacintr[1].cih_func) {
1.1  freza 		(cdmacintr[1].cih_func)(cdmacintr[1].cih_arg);
1.1  freza 		did++;
1.1  freza 	}
1.1  freza
1.1  freza 	bus_space_write_4(&cdmac_bst, 0, CDMAC_INTR, isr); 	/* ack */
1.1  freza
1.1  freza 	/* XXX This still happens all the time under load. */
1.1  freza #if 0
1.1  freza 	if (did == 0)
1.1  freza 		aprint_normal("WARNING: stray cdmac isr 0x%x\n", isr);
1.1  freza #endif
1.1  freza 	return (0);
1.1  freza }
1.1  freza
1.1  freza /*
1.1  freza  * Public interface.
1.1  freza  */
1.1  freza
1.1  freza void
1.1  freza virtex_autoconf(device_t self, struct plb_attach_args *paa)
1.1  freza {
1.1  freza
1.1  freza 	struct xcvbus_attach_args 	vaa;
1.1  freza 	struct ll_dmac 			rx, tx;
1.1  freza 	int 				i;
1.1  freza
1.1  freza 	/* Reset DMA channels. */
1.1  freza 	bus_space_write_4(&cdmac_bst, 0, CDMAC_STAT_BASE(0), CDMAC_STAT_RESET);
1.1  freza 	bus_space_write_4(&cdmac_bst, 0, CDMAC_STAT_BASE(1), CDMAC_STAT_RESET);
1.1  freza 	bus_space_write_4(&cdmac_bst, 0, CDMAC_INTR, 0);
1.1  freza
1.1  freza 	vaa.vaa_dmat = paa->plb_dmat;
1.1  freza
1.1  freza 	for (i = 0; i < __arraycount(gsrd_devices); i++) {
1.1  freza 		const struct gsrddev 	*g = &gsrd_devices[i];
1.1  freza
1.1  freza 		vaa._vaa_is_dcr = g->gdv_dcr; 	/* XXX bst flag */
1.1  freza 		vaa.vaa_name 	= g->gdv_name;
1.1  freza 		vaa.vaa_addr 	= g->gdv_addr;
1.1  freza 		vaa.vaa_intr 	= g->gdv_intr;
1.1  freza 		vaa.vaa_iot 	= g->gdv_bst;
1.1  freza
1.1  freza 		vaa.vaa_rx_dmac = virtex_mpmc_mapdma(g->gdv_rx_dma, &rx);
1.1  freza 		vaa.vaa_tx_dmac = virtex_mpmc_mapdma(g->gdv_tx_dma, &tx);
1.1  freza
1.1  freza 		config_found_ia(self, g->gdv_attr, &vaa, xcvbus_print);
1.1  freza 	}
1.1  freza
1.1  freza 	/* Setup the dispatch handler. */
1.1  freza 	cdmac_ih = intr_establish(CDMAC_INTR_LINE, IST_LEVEL, IPL_NET,
1.1  freza 	    cdmac_intr, NULL);
1.1  freza 	if (cdmac_ih == NULL)
1.1  freza 		panic("virtex_mpmc_done: could not establish cdmac intr");
1.1  freza
1.1  freza 	/* Clear (XXX?) and enable interrupts. */
1.1  freza 	bus_space_write_4(&cdmac_bst, 0, CDMAC_INTR, ~CDMAC_INTR_MIE);
1.1  freza 	bus_space_write_4(&cdmac_bst, 0, CDMAC_INTR, CDMAC_INTR_MIE);
1.1  freza }
1.1  freza
1.1  freza void *
1.1  freza ll_dmac_intr_establish(int chan, void (*handler)(void *), void *arg)
1.1  freza {
1.1  freza 	KASSERT(chan >= 0 && chan < CDMAC_NCHAN);
1.1  freza 	KASSERT(cdmacintr[chan].cih_func == NULL);
1.1  freza 	KASSERT(cdmacintr[chan].cih_arg == NULL);
1.1  freza
1.1  freza 	cdmacintr[chan].cih_func = handler;
1.1  freza 	cdmacintr[chan].cih_arg = arg;
1.1  freza
1.1  freza 	return (&cdmacintr[chan]);
1.1  freza }
1.1  freza
1.1  freza void
1.1  freza ll_dmac_intr_disestablish(int chan, void *handle)
1.1  freza {
1.1  freza 	int 			s;
1.1  freza
1.1  freza 	KASSERT(chan >= 0 && chan < CDMAC_NCHAN);
1.1  freza 	KASSERT(&cdmacintr[chan] == handle);
1.1  freza
1.1  freza 	s = splnet();
1.1  freza 	cdmacintr[chan].cih_func = NULL;
1.1  freza 	cdmacintr[chan].cih_arg = NULL;
1.1  freza 	splx(s);
1.1  freza }
1.1  freza
1.1  freza int
1.1  freza virtex_console_tag(const char *xname, bus_space_tag_t *bst)
1.1  freza {
1.1  freza 	if (strncmp(xname, "xlcom", 5) == 0) {
1.1  freza 		*bst = &opb_bst;
1.1  freza 		return (0);
1.1  freza 	}
1.1  freza
1.1  freza 	return (ENODEV);
1.1  freza }
1.1  freza
1.1  freza void
1.1  freza virtex_machdep_init(vaddr_t endva, vsize_t maxsz, struct mem_region *phys,
1.1  freza     struct mem_region *avail)
1.1  freza {
1.1  freza 	ppc4xx_tlb_reserve(OPB_BASE, endva, maxsz, TLB_I | TLB_G);
1.1  freza 	endva += maxsz;
1.1  freza
1.1  freza 	opb_bst.pbs_limit = maxsz;
1.1  freza
1.1  freza 	if (bus_space_init(&opb_bst, "opbtag", opb_extent_storage,
1.1  freza 	    sizeof(opb_extent_storage)))
1.1  freza 		panic("virtex_machdep_init: failed to initialize opb_bst");
1.1  freza
1.1  freza 	/*
1.1  freza 	 * The TFT controller is broken, we can't change FB address.
1.1  freza 	 * Hardwire it at predefined base address, create uncached
1.1  freza 	 * mapping.
1.1  freza 	 */
1.1  freza
1.1  freza 	avail[0].size = TFT_FB_BASE - avail[0].start;
1.1  freza 	ppc4xx_tlb_reserve(TFT_FB_BASE, endva, TFT_FB_SIZE, TLB_I | TLB_G);
1.1  freza }
1.1  freza
1.1  freza void
1.1  freza device_register(struct device *dev, void *aux)
1.1  freza {
1.1  freza 	prop_number_t 		pn;
1.1  freza 	void 			*fb;
1.1  freza
1.1  freza 	if (strncmp(device_xname(dev), "tft0", 4) == 0) {
1.1  freza 		fb = ppc4xx_tlb_mapiodev(TFT_FB_BASE, TFT_FB_SIZE);
1.1  freza 		if (fb == NULL)
1.1  freza 			panic("device_register: framebuffer mapping gone!\n");
1.1  freza
1.1  freza 		pn = prop_number_create_unsigned_integer(TFT_FB_BASE);
1.1  freza 		if (pn == NULL) {
1.1  freza 			printf("WARNING: could not allocate virtex-tft-pa\n");
1.1  freza 			return ;
1.1  freza 		}
1.1  freza 		if (prop_dictionary_set(device_properties(dev),
1.1  freza 		    "virtex-tft-pa", pn) != TRUE)
1.1  freza 			printf("WARNING: could not set virtex-tft-pa\n");
1.1  freza 		prop_object_release(pn);
1.1  freza
1.1  freza 		pn = prop_number_create_unsigned_integer((uintptr_t)fb);
1.1  freza 		if (pn == NULL) {
1.1  freza 			printf("WARNING: could not allocate virtex-tft-va\n");
1.1  freza 			return ;
1.1  freza 		}
1.1  freza 		if (prop_dictionary_set(device_properties(dev),
1.1  freza 		    "virtex-tft-va", pn) != TRUE)
1.1  freza 			printf("WARNING: could not set virtex-tft-va\n");
1.1  freza 		prop_object_release(pn);
1.1  freza 	}
1.1  freza }