arm/cortex/pl310.c

1.4.2.3   tls /*	$NetBSD: pl310.c,v 1.4.2.4 2014/08/20 00:02:45 tls Exp $	*/
    1.1  matt
    1.1  matt /*-
    1.1  matt  * Copyright (c) 2012 The NetBSD Foundation, Inc.
    1.1  matt  * All rights reserved.
    1.1  matt  *
    1.1  matt  * This code is derived from software contributed to The NetBSD Foundation
    1.1  matt  * by Matt Thomas
    1.1  matt  *
    1.1  matt  * Redistribution and use in source and binary forms, with or without
    1.1  matt  * modification, are permitted provided that the following conditions
    1.1  matt  * are met:
    1.1  matt  * 1. Redistributions of source code must retain the above copyright
    1.1  matt  *    notice, this list of conditions and the following disclaimer.
    1.1  matt  * 2. Redistributions in binary form must reproduce the above copyright
    1.1  matt  *    notice, this list of conditions and the following disclaimer in the
    1.1  matt  *    documentation and/or other materials provided with the distribution.
    1.1  matt  *
    1.1  matt  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
    1.1  matt  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
    1.1  matt  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
    1.1  matt  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
    1.1  matt  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
    1.1  matt  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
    1.1  matt  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
    1.1  matt  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
    1.1  matt  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
    1.1  matt  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
    1.1  matt  * POSSIBILITY OF SUCH DAMAGE.
    1.1  matt  */
    1.1  matt
    1.1  matt #include <sys/cdefs.h>
1.4.2.3   tls __KERNEL_RCSID(0, "$NetBSD: pl310.c,v 1.4.2.4 2014/08/20 00:02:45 tls Exp $");
    1.1  matt
    1.1  matt #include <sys/param.h>
    1.1  matt #include <sys/bus.h>
    1.1  matt #include <sys/cpu.h>
    1.1  matt #include <sys/device.h>
1.4.2.1   tls #include <sys/atomic.h>
    1.1  matt
1.4.2.4   tls #include <arm/locore.h>
1.4.2.4   tls
    1.1  matt #include <arm/cortex/mpcore_var.h>
    1.1  matt #include <arm/cortex/pl310_reg.h>
    1.3  matt #include <arm/cortex/pl310_var.h>
    1.1  matt
    1.1  matt static int arml2cc_match(device_t, cfdata_t, void *);
    1.1  matt static void arml2cc_attach(device_t, device_t, void *);
    1.1  matt
    1.1  matt #define	L2CC_BASE	0x2000
    1.1  matt #define	L2CC_SIZE	0x1000
    1.1  matt
    1.1  matt struct arml2cc_softc {
    1.1  matt 	device_t sc_dev;
    1.1  matt 	bus_space_tag_t sc_memt;
    1.1  matt 	bus_space_handle_t sc_memh;
1.4.2.1   tls 	kmutex_t sc_lock;
1.4.2.1   tls 	uint32_t sc_waymask;
1.4.2.1   tls 	struct evcnt sc_ev_inv __aligned(8);
1.4.2.1   tls 	struct evcnt sc_ev_wb;
1.4.2.1   tls 	struct evcnt sc_ev_wbinv;
1.4.2.1   tls 	bool sc_enabled;
    1.1  matt };
    1.1  matt
1.4.2.1   tls __CTASSERT(offsetof(struct arml2cc_softc, sc_ev_inv.ev_count) % 8 == 0);
1.4.2.1   tls __CTASSERT(offsetof(struct arml2cc_softc, sc_ev_wb.ev_count) % 8 == 0);
1.4.2.1   tls __CTASSERT(offsetof(struct arml2cc_softc, sc_ev_wbinv.ev_count) % 8 == 0);
1.4.2.1   tls
    1.1  matt CFATTACH_DECL_NEW(arml2cc, sizeof(struct arml2cc_softc),
    1.1  matt     arml2cc_match, arml2cc_attach, NULL, NULL);
    1.1  matt
1.4.2.2   tls static inline void arml2cc_disable(struct arml2cc_softc *);
1.4.2.2   tls static inline void arml2cc_enable(struct arml2cc_softc *);
1.4.2.1   tls static void arml2cc_sdcache_wb_range(vaddr_t, paddr_t, psize_t);
1.4.2.1   tls static void arml2cc_sdcache_inv_range(vaddr_t, paddr_t, psize_t);
1.4.2.1   tls static void arml2cc_sdcache_wbinv_range(vaddr_t, paddr_t, psize_t);
    1.3  matt
1.4.2.1   tls static struct arml2cc_softc *arml2cc_sc;
    1.1  matt
    1.1  matt static inline uint32_t
    1.1  matt arml2cc_read_4(struct arml2cc_softc *sc, bus_size_t o)
    1.1  matt {
    1.1  matt 	return bus_space_read_4(sc->sc_memt, sc->sc_memh, o);
    1.1  matt }
    1.1  matt
    1.1  matt static inline void
    1.1  matt arml2cc_write_4(struct arml2cc_softc *sc, bus_size_t o, uint32_t v)
    1.1  matt {
    1.1  matt 	bus_space_write_4(sc->sc_memt, sc->sc_memh, o, v);
    1.1  matt }
    1.1  matt
    1.1  matt
    1.1  matt /* ARGSUSED */
    1.1  matt static int
    1.1  matt arml2cc_match(device_t parent, cfdata_t cf, void *aux)
    1.1  matt {
    1.1  matt 	struct mpcore_attach_args * const mpcaa = aux;
    1.1  matt
1.4.2.1   tls 	if (arml2cc_sc)
    1.1  matt 		return 0;
    1.1  matt
    1.1  matt 	if (!CPU_ID_CORTEX_A9_P(curcpu()->ci_arm_cpuid))
    1.1  matt 		return 0;
    1.1  matt
    1.1  matt 	if (strcmp(mpcaa->mpcaa_name, cf->cf_name) != 0)
    1.1  matt 		return 0;
    1.1  matt
    1.1  matt 	/*
    1.1  matt 	 * This isn't present on UP A9s (since CBAR isn't present).
    1.1  matt 	 */
    1.1  matt 	uint32_t mpidr = armreg_mpidr_read();
    1.1  matt 	if (mpidr == 0 || (mpidr & MPIDR_U))
    1.1  matt 		return 0;
    1.1  matt
    1.1  matt 	return 1;
    1.1  matt }
    1.1  matt
    1.1  matt static const struct {
    1.1  matt 	uint8_t rev;
    1.1  matt 	uint8_t str[7];
    1.1  matt } pl310_revs[] = {
    1.1  matt 	{ 0, " r0p0" },
    1.1  matt 	{ 2, " r1p0" },
    1.1  matt 	{ 4, " r2p0" },
    1.1  matt 	{ 5, " r3p0" },
    1.1  matt 	{ 6, " r3p1" },
1.4.2.4   tls 	{ 7, " r3p1a" },
    1.1  matt 	{ 8, " r3p2" },
    1.1  matt 	{ 9, " r3p3" },
    1.1  matt };
    1.1  matt
    1.1  matt static void
    1.1  matt arml2cc_attach(device_t parent, device_t self, void *aux)
    1.1  matt {
    1.1  matt         struct arml2cc_softc * const sc = device_private(self);
    1.1  matt 	struct mpcore_attach_args * const mpcaa = aux;
1.4.2.1   tls 	const char * const xname = device_xname(self);
1.4.2.4   tls 	prop_dictionary_t dict = device_properties(self);
1.4.2.4   tls 	uint32_t off;
1.4.2.4   tls
1.4.2.4   tls 	if (!prop_dictionary_get_uint32(dict, "offset", &off)) {
1.4.2.4   tls 		off = L2CC_BASE;
1.4.2.4   tls 	}
    1.1  matt
1.4.2.1   tls 	arml2cc_sc = sc;
    1.1  matt 	sc->sc_dev = self;
    1.1  matt 	sc->sc_memt = mpcaa->mpcaa_memt;
1.4.2.1   tls 	sc->sc_waymask = __BIT(arm_scache.dcache_ways) - 1;
1.4.2.1   tls
1.4.2.1   tls 	evcnt_attach_dynamic(&sc->sc_ev_inv, EVCNT_TYPE_MISC, NULL,
1.4.2.1   tls 	    xname, "L2 inv requests");
1.4.2.1   tls 	evcnt_attach_dynamic(&sc->sc_ev_wb, EVCNT_TYPE_MISC, NULL,
1.4.2.1   tls 	    xname, "L2 wb requests");
1.4.2.1   tls 	evcnt_attach_dynamic(&sc->sc_ev_wbinv, EVCNT_TYPE_MISC, NULL,
1.4.2.1   tls 	    xname, "L2 wbinv requests");
1.4.2.1   tls
1.4.2.1   tls 	mutex_init(&sc->sc_lock, MUTEX_DEFAULT, IPL_HIGH);
    1.1  matt
    1.1  matt 	bus_space_subregion(sc->sc_memt, mpcaa->mpcaa_memh,
1.4.2.4   tls 	    off, L2CC_SIZE, &sc->sc_memh);
    1.1  matt
    1.1  matt 	uint32_t id = arml2cc_read_4(sc, L2C_CACHE_ID);
    1.1  matt 	u_int rev = __SHIFTOUT(id, CACHE_ID_REV);
    1.1  matt
    1.1  matt 	const char *revstr = "";
    1.1  matt 	for (size_t i = 0; i < __arraycount(pl310_revs); i++) {
    1.1  matt 		if (rev == pl310_revs[i].rev) {
    1.1  matt 			revstr = pl310_revs[i].str;
    1.1  matt 			break;
    1.1  matt 		}
    1.1  matt 	}
    1.1  matt
    1.4  matt 	const bool enabled_p = arml2cc_read_4(sc, L2C_CTL) != 0;
    1.4  matt
    1.1  matt 	aprint_naive("\n");
    1.3  matt 	aprint_normal(": ARM PL310%s L2 Cache Controller%s\n",
    1.4  matt 	    revstr, enabled_p ? "" : " (disabled)");
    1.4  matt
    1.4  matt 	if (enabled_p) {
1.4.2.1   tls 		if (device_cfdata(self)->cf_flags & 1) {
1.4.2.1   tls 			arml2cc_disable(sc);
1.4.2.1   tls 			aprint_normal_dev(self, "cache %s\n",
1.4.2.1   tls 			    arml2cc_read_4(sc, L2C_CTL) ? "enabled" : "disabled");
1.4.2.1   tls 			sc->sc_enabled = false;
1.4.2.1   tls 		} else {
1.4.2.1   tls 			cpufuncs.cf_sdcache_wb_range = arml2cc_sdcache_wb_range;
1.4.2.1   tls 			cpufuncs.cf_sdcache_inv_range = arml2cc_sdcache_inv_range;
1.4.2.1   tls 			cpufuncs.cf_sdcache_wbinv_range = arml2cc_sdcache_wbinv_range;
1.4.2.1   tls 			sc->sc_enabled = true;
1.4.2.1   tls 		}
1.4.2.1   tls 	} else if ((device_cfdata(self)->cf_flags & 1) == 0) {
1.4.2.1   tls 		if (!enabled_p) {
1.4.2.1   tls 			arml2cc_enable(sc);
1.4.2.1   tls 			aprint_normal_dev(self, "cache %s\n",
1.4.2.1   tls 			    arml2cc_read_4(sc, L2C_CTL) ? "enabled" : "disabled");
1.4.2.1   tls 		}
1.4.2.1   tls 		cpufuncs.cf_sdcache_wb_range = arml2cc_sdcache_wb_range;
1.4.2.1   tls 		cpufuncs.cf_sdcache_inv_range = arml2cc_sdcache_inv_range;
1.4.2.1   tls 		cpufuncs.cf_sdcache_wbinv_range = arml2cc_sdcache_wbinv_range;
1.4.2.1   tls 		sc->sc_enabled = true;
    1.4  matt 	}
    1.3  matt
1.4.2.3   tls 	KASSERTMSG(arm_pcache.dcache_line_size == arm_scache.dcache_line_size,
1.4.2.3   tls 	    "pcache %u scache %u",
1.4.2.3   tls 	    arm_pcache.dcache_line_size, arm_scache.dcache_line_size);
    1.3  matt }
    1.3  matt
1.4.2.1   tls static inline void
1.4.2.2   tls arml2cc_cache_op(struct arml2cc_softc *sc, bus_size_t off, uint32_t val,
1.4.2.2   tls     bool wait)
    1.3  matt {
1.4.2.1   tls 	arml2cc_write_4(sc, off, val);
1.4.2.2   tls 	if (wait) {
1.4.2.2   tls 		while (arml2cc_read_4(sc, off) & 1) {
1.4.2.2   tls 			/* spin */
1.4.2.2   tls 		}
    1.3  matt 	}
1.4.2.1   tls }
    1.3  matt
1.4.2.1   tls static inline void
1.4.2.1   tls arml2cc_cache_way_op(struct arml2cc_softc *sc, bus_size_t off, uint32_t way_mask)
1.4.2.1   tls {
1.4.2.1   tls 	arml2cc_write_4(sc, off, way_mask);
1.4.2.1   tls 	while (arml2cc_read_4(sc, off) & way_mask) {
    1.3  matt 		/* spin */
    1.3  matt 	}
1.4.2.1   tls }
1.4.2.1   tls
1.4.2.1   tls static inline void
1.4.2.1   tls arml2cc_cache_sync(struct arml2cc_softc *sc)
1.4.2.1   tls {
1.4.2.2   tls 	arml2cc_cache_op(sc, L2C_CACHE_SYNC, 0, true);
1.4.2.1   tls }
1.4.2.1   tls
1.4.2.1   tls static inline void
1.4.2.1   tls arml2cc_disable(struct arml2cc_softc *sc)
1.4.2.1   tls {
1.4.2.1   tls 	mutex_spin_enter(&sc->sc_lock);
    1.1  matt
1.4.2.1   tls 	arml2cc_cache_way_op(sc, L2C_CLEAN_INV_WAY, sc->sc_waymask);
1.4.2.1   tls 	arml2cc_cache_sync(sc);
1.4.2.1   tls
1.4.2.1   tls 	arml2cc_write_4(sc, L2C_CTL, 0);	// turn it off
1.4.2.1   tls 	mutex_spin_exit(&sc->sc_lock);
1.4.2.1   tls }
1.4.2.1   tls
1.4.2.1   tls static inline void
1.4.2.1   tls arml2cc_enable(struct arml2cc_softc *sc)
1.4.2.1   tls {
1.4.2.1   tls 	mutex_spin_enter(&sc->sc_lock);
1.4.2.1   tls
1.4.2.1   tls 	arml2cc_write_4(sc, L2C_CTL, 1);	// turn it on
1.4.2.1   tls
1.4.2.1   tls 	arml2cc_cache_way_op(sc, L2C_INV_WAY, sc->sc_waymask);
1.4.2.1   tls 	arml2cc_cache_sync(sc);
1.4.2.1   tls
1.4.2.1   tls 	mutex_spin_exit(&sc->sc_lock);
    1.3  matt }
    1.3  matt
    1.3  matt void
    1.3  matt arml2cc_init(bus_space_tag_t bst, bus_space_handle_t bsh, bus_size_t o)
    1.3  matt {
    1.3  matt 	struct arm_cache_info * const info = &arm_scache;
    1.3  matt
    1.3  matt 	uint32_t cfg = bus_space_read_4(bst, bsh, o + L2C_CACHE_TYPE);
    1.3  matt
    1.3  matt 	info->cache_type = __SHIFTOUT(cfg, CACHE_TYPE_CTYPE);
    1.3  matt 	info->cache_unified = __SHIFTOUT(cfg, CACHE_TYPE_HARVARD) == 0;
    1.1  matt 	u_int cfg_dsize = __SHIFTOUT(cfg, CACHE_TYPE_DSIZE);
    1.3  matt
    1.1  matt 	u_int d_waysize = 8192 << __SHIFTOUT(cfg_dsize, CACHE_TYPE_xWAYSIZE);
    1.3  matt 	info->dcache_ways = 8 << __SHIFTOUT(cfg_dsize, CACHE_TYPE_xASSOC);
    1.3  matt 	info->dcache_line_size = 32 << __SHIFTOUT(cfg_dsize, CACHE_TYPE_xLINESIZE);
    1.3  matt 	info->dcache_size = info->dcache_ways * d_waysize;
1.4.2.4   tls 	info->dcache_type = CACHE_TYPE_PIPT;
1.4.2.4   tls 	info->icache_type = CACHE_TYPE_PIPT;
    1.3  matt
    1.3  matt 	if (info->cache_unified) {
    1.3  matt 		info->icache_ways = info->dcache_ways;
    1.3  matt 		info->icache_line_size = info->dcache_line_size;
    1.3  matt 		info->icache_size = info->dcache_size;
    1.3  matt 	} else {
    1.1  matt 		u_int cfg_isize = __SHIFTOUT(cfg, CACHE_TYPE_ISIZE);
    1.1  matt 		u_int i_waysize = 8192 << __SHIFTOUT(cfg_isize, CACHE_TYPE_xWAYSIZE);
    1.3  matt 		info->icache_ways = 8 << __SHIFTOUT(cfg_isize, CACHE_TYPE_xASSOC);
    1.3  matt 		info->icache_line_size = 32 << __SHIFTOUT(cfg_isize, CACHE_TYPE_xLINESIZE);
    1.3  matt 		info->icache_size = i_waysize * info->icache_ways;
    1.1  matt 	}
    1.1  matt }
    1.4  matt
    1.4  matt static void
1.4.2.1   tls arml2cc_cache_range_op(paddr_t pa, psize_t len, bus_size_t cache_op)
    1.4  matt {
1.4.2.1   tls 	struct arml2cc_softc * const sc = arml2cc_sc;
1.4.2.1   tls 	const size_t line_size = arm_scache.dcache_line_size;
    1.4  matt 	const size_t line_mask = line_size - 1;
1.4.2.1   tls 	size_t off = pa & line_mask;
    1.4  matt 	if (off) {
    1.4  matt 		len += off;
1.4.2.1   tls 		pa -= off;
    1.4  matt 	}
1.4.2.1   tls 	len = roundup2(len, line_size);
1.4.2.2   tls 	mutex_spin_enter(&sc->sc_lock);
1.4.2.2   tls 	if (__predict_false(!sc->sc_enabled)) {
1.4.2.1   tls 		mutex_spin_exit(&sc->sc_lock);
1.4.2.2   tls 		return;
1.4.2.2   tls 	}
1.4.2.2   tls 	for (const paddr_t endpa = pa + len; pa < endpa; pa += line_size) {
1.4.2.2   tls 		arml2cc_cache_op(sc, cache_op, pa, false);
    1.4  matt 	}
1.4.2.2   tls 	arml2cc_cache_sync(sc);
1.4.2.2   tls 	mutex_spin_exit(&sc->sc_lock);
    1.4  matt }
1.4.2.1   tls
1.4.2.1   tls static void
1.4.2.1   tls arml2cc_sdcache_inv_range(vaddr_t va, paddr_t pa, psize_t len)
1.4.2.1   tls {
1.4.2.1   tls 	atomic_inc_64(&arml2cc_sc->sc_ev_inv.ev_count);
1.4.2.1   tls 	arml2cc_cache_range_op(pa, len, L2C_INV_PA);
1.4.2.1   tls }
1.4.2.1   tls
1.4.2.1   tls static void
1.4.2.1   tls arml2cc_sdcache_wb_range(vaddr_t va, paddr_t pa, psize_t len)
1.4.2.1   tls {
1.4.2.1   tls 	atomic_inc_64(&arml2cc_sc->sc_ev_wb.ev_count);
1.4.2.1   tls 	arml2cc_cache_range_op(pa, len, L2C_CLEAN_PA);
1.4.2.1   tls }
1.4.2.1   tls
1.4.2.1   tls static void
1.4.2.1   tls arml2cc_sdcache_wbinv_range(vaddr_t va, paddr_t pa, psize_t len)
1.4.2.1   tls {
1.4.2.1   tls 	atomic_inc_64(&arml2cc_sc->sc_ev_wbinv.ev_count);
1.4.2.1   tls 	arml2cc_cache_range_op(pa, len, L2C_CLEAN_INV_PA);
1.4.2.1   tls }