cavium/dev/octeon_dwctwo.c

1.4   skrll /*	$NetBSD: octeon_dwctwo.c,v 1.4 2015/07/22 10:32:16 skrll Exp $	*/
1.1  hikaru
1.1  hikaru /*
1.1  hikaru  * Copyright (c) 2015 Masao Uebayashi <uebayasi (at) tombiinc.com>
1.1  hikaru  *
1.1  hikaru  * Permission to use, copy, modify, and/or distribute this software for any
1.1  hikaru  * purpose with or without fee is hereby granted, provided that the above
1.1  hikaru  * copyright notice and this permission notice appear in all copies.
1.1  hikaru  *
1.1  hikaru  * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
1.1  hikaru  * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
1.1  hikaru  * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
1.1  hikaru  * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
1.1  hikaru  * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
1.1  hikaru  * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
1.1  hikaru  * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
1.1  hikaru  */
1.1  hikaru
1.1  hikaru /*
1.1  hikaru  * Copyright (c) 2015 Internet Initiative Japan, Inc.
1.1  hikaru  * All rights reserved.
1.1  hikaru  *
1.1  hikaru  * Redistribution and use in source and binary forms, with or without
1.1  hikaru  * modification, are permitted provided that the following conditions
1.1  hikaru  * are met:
1.1  hikaru  * 1. Redistributions of source code must retain the above copyright
1.1  hikaru  *    notice, this list of conditions and the following disclaimer.
1.1  hikaru  * 2. Redistributions in binary form must reproduce the above copyright
1.1  hikaru  *    notice, this list of conditions and the following disclaimer in the
1.1  hikaru  *    documentation and/or other materials provided with the distribution.
1.1  hikaru  *
1.1  hikaru  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
1.1  hikaru  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1.1  hikaru  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.1  hikaru  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
1.1  hikaru  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.1  hikaru  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
1.1  hikaru  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.1  hikaru  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.1  hikaru  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.1  hikaru  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.1  hikaru  * SUCH DAMAGE.
1.1  hikaru  */
1.1  hikaru
1.1  hikaru #include <sys/cdefs.h>
1.4   skrll __KERNEL_RCSID(0, "$NetBSD: octeon_dwctwo.c,v 1.4 2015/07/22 10:32:16 skrll Exp $");
1.1  hikaru
1.1  hikaru #include "opt_octeon.h"
1.1  hikaru #include "opt_usb.h"
1.1  hikaru
1.1  hikaru #include <sys/param.h>
1.1  hikaru #include <sys/systm.h>
1.1  hikaru #include <sys/device.h>
1.1  hikaru #include <sys/bus.h>
1.3    matt #include <sys/cpu.h>
1.1  hikaru #include <sys/workqueue.h>
1.1  hikaru
1.1  hikaru #include <dev/usb/usb.h>
1.1  hikaru #include <dev/usb/usbdi.h>
1.1  hikaru #include <dev/usb/usbdivar.h>
1.1  hikaru #include <dev/usb/usb_mem.h>
1.1  hikaru
1.1  hikaru #include <mips/cavium/include/iobusvar.h>
1.1  hikaru #include <mips/cavium/dev/octeon_ciureg.h>
1.1  hikaru #include <mips/cavium/dev/octeon_usbnreg.h>
1.1  hikaru #include <mips/cavium/dev/octeon_usbnvar.h>
1.1  hikaru #include <mips/cavium/dev/octeon_usbcreg.h>
1.1  hikaru #include <mips/cavium/dev/octeon_usbcvar.h>
1.1  hikaru #include <mips/cavium/octeonvar.h>
1.1  hikaru
1.1  hikaru #include <dwc2/dwc2var.h>
1.1  hikaru #include <dwc2/dwc2.h>
1.1  hikaru #include "dwc2_core.h"
1.1  hikaru
1.1  hikaru struct octeon_dwc2_softc {
1.1  hikaru 	struct dwc2_softc sc_dwc2;
1.1  hikaru 	/* USBC bus space tag */
1.1  hikaru 	struct mips_bus_space sc_dwc2_bust;
1.1  hikaru
1.1  hikaru 	/* USBN bus space */
1.1  hikaru 	bus_space_tag_t sc_bust;
1.1  hikaru 	bus_space_handle_t sc_regh;
1.1  hikaru 	bus_space_handle_t sc_reg2h;
1.1  hikaru
1.1  hikaru 	void *sc_ih;
1.1  hikaru };
1.1  hikaru
1.1  hikaru static int		octeon_dwc2_match(device_t, struct cfdata *, void *);
1.1  hikaru static void		octeon_dwc2_attach(device_t, device_t, void *);
1.1  hikaru static uint32_t		octeon_dwc2_rd_4(void *, bus_space_handle_t,
1.1  hikaru 			    bus_size_t);
1.1  hikaru static void		octeon_dwc2_wr_4(void *, bus_space_handle_t,
1.1  hikaru 			    bus_size_t, uint32_t);
1.1  hikaru int			octeon_dwc2_set_dma_addr(device_t, bus_addr_t, int);
1.1  hikaru static inline void	octeon_dwc2_reg_assert(struct octeon_dwc2_softc *,
1.1  hikaru 			    bus_size_t, uint64_t);
1.1  hikaru static inline void 	octeon_dwc2_reg_deassert(struct octeon_dwc2_softc *,
1.1  hikaru 			    bus_size_t, uint64_t);
1.1  hikaru static inline uint64_t	octeon_dwc2_reg_rd(struct octeon_dwc2_softc *,
1.1  hikaru 			    bus_size_t);
1.1  hikaru static inline void	octeon_dwc2_reg_wr(struct octeon_dwc2_softc *,
1.1  hikaru 			    bus_size_t, uint64_t);
1.1  hikaru static inline void 	octeon_dwc2_reg2_assert(struct octeon_dwc2_softc *,
1.1  hikaru 			    bus_size_t, uint64_t);
1.1  hikaru static inline void 	octeon_dwc2_reg2_deassert(struct octeon_dwc2_softc *,
1.1  hikaru 			    bus_size_t, uint64_t);
1.1  hikaru static inline uint64_t	octeon_dwc2_reg2_rd(struct octeon_dwc2_softc *,
1.1  hikaru 			    bus_size_t);
1.1  hikaru static inline void	octeon_dwc2_reg2_wr(struct octeon_dwc2_softc *,
1.1  hikaru 			    bus_size_t, uint64_t);
1.1  hikaru
1.1  hikaru static struct dwc2_core_params octeon_dwc2_params = {
1.1  hikaru 	.otg_cap			= 2,	/* 2 - No HNP/SRP capable */
1.1  hikaru 	.otg_ver			= 0,
1.1  hikaru 	.dma_enable			= 1,
1.1  hikaru 	.dma_desc_enable		= 0,
1.1  hikaru 	.speed				= 0,	/* 0 - High Speed */
1.1  hikaru 	.enable_dynamic_fifo		= 1,
1.1  hikaru 	.en_multiple_tx_fifo		= 0,
1.1  hikaru 	.host_rx_fifo_size		= 456,
1.1  hikaru 	.host_nperio_tx_fifo_size	= 912,
1.1  hikaru 	.host_perio_tx_fifo_size	= 256,
1.1  hikaru 	.max_transfer_size		= 65535,
1.1  hikaru 	.max_packet_count		= 511,
1.1  hikaru 	.host_channels			= 8,
1.1  hikaru 	.phy_type			= 1,	/* UTMI */
1.1  hikaru 	.phy_utmi_width			= 16,	/* 16 bits */
1.1  hikaru 	.phy_ulpi_ddr			= 0,
1.1  hikaru 	.phy_ulpi_ext_vbus		= 0,
1.1  hikaru 	.i2c_enable			= 0,
1.1  hikaru 	.ulpi_fs_ls			= 0,
1.1  hikaru 	.host_support_fs_ls_low_power	= 0,
1.1  hikaru 	.host_ls_low_power_phy_clk	= 0,	/* 48 MHz */
1.1  hikaru 	.ts_dline			= 0,
1.1  hikaru 	.reload_ctl			= 0,
1.1  hikaru 	.ahbcfg				= 0,	/* XXX */
1.1  hikaru 	.uframe_sched			= 1,
1.1  hikaru };
1.1  hikaru
1.1  hikaru CFATTACH_DECL_NEW(octeon_dwctwo, sizeof(struct octeon_dwc2_softc),
1.1  hikaru     octeon_dwc2_match, octeon_dwc2_attach, NULL, NULL);
1.1  hikaru
1.1  hikaru static int
1.1  hikaru octeon_dwc2_match(device_t parent, struct cfdata *cf, void *aux)
1.1  hikaru {
1.1  hikaru 	struct iobus_attach_args *aa = aux;
1.1  hikaru
1.1  hikaru 	if (strcmp(cf->cf_name, aa->aa_name) != 0)
1.1  hikaru 		return 0;
1.1  hikaru
1.1  hikaru 	return 1;
1.1  hikaru }
1.1  hikaru
1.1  hikaru static void
1.1  hikaru octeon_dwc2_attach(device_t parent, device_t self, void *aux)
1.1  hikaru {
1.1  hikaru 	struct octeon_dwc2_softc *sc = device_private(self);
1.1  hikaru 	struct iobus_attach_args *aa = aux;
1.1  hikaru 	uint64_t clk;
1.1  hikaru 	int status;
1.1  hikaru
1.1  hikaru 	aprint_normal("\n");
1.1  hikaru
1.1  hikaru 	sc->sc_dwc2.sc_dev = self;
1.1  hikaru 	sc->sc_bust = aa->aa_bust;
1.1  hikaru
1.1  hikaru 	sc->sc_dwc2_bust.bs_cookie = sc;
1.1  hikaru 	sc->sc_dwc2_bust.bs_map = aa->aa_bust->bs_map;
1.1  hikaru 	sc->sc_dwc2_bust.bs_unmap = aa->aa_bust->bs_unmap;
1.1  hikaru 	sc->sc_dwc2_bust.bs_r_4 = octeon_dwc2_rd_4;
1.1  hikaru 	sc->sc_dwc2_bust.bs_w_4 = octeon_dwc2_wr_4;
1.1  hikaru
1.1  hikaru 	sc->sc_dwc2.sc_iot = &sc->sc_dwc2_bust;
1.1  hikaru 	sc->sc_dwc2.sc_bus.dmatag = aa->aa_dmat;
1.1  hikaru 	sc->sc_dwc2.sc_params = &octeon_dwc2_params;
1.1  hikaru 	sc->sc_dwc2.sc_set_dma_addr = octeon_dwc2_set_dma_addr;
1.1  hikaru
1.1  hikaru 	status = bus_space_map(sc->sc_dwc2.sc_iot, USBC_BASE, USBC_SIZE,
1.1  hikaru 	    0, &sc->sc_dwc2.sc_ioh);
1.1  hikaru 	if (status != 0)
1.1  hikaru 		panic("can't map USBC space");
1.1  hikaru
1.1  hikaru 	status = bus_space_map(sc->sc_bust, USBN_BASE, USBN_SIZE,
1.1  hikaru 	    0, &sc->sc_regh);
1.1  hikaru 	if (status != 0)
1.1  hikaru 		panic("can't map USBN space");
1.1  hikaru
1.1  hikaru 	status = bus_space_map(sc->sc_bust, USBN_2_BASE, USBN_2_SIZE,
1.1  hikaru 	    0, &sc->sc_reg2h);
1.1  hikaru 	if (status != 0)
1.1  hikaru 		panic("can't map USBN_2 space");
1.1  hikaru
1.1  hikaru 	switch (MIPS_PRID_IMPL(mips_options.mips_cpu_id)) {
1.1  hikaru 	case MIPS_CN50XX:
1.1  hikaru 		/*
1.4   skrll 		 * 2. Configure the reference clock, PHY, and HCLK:
1.1  hikaru 		 * a. Write USBN_CLK_CTL[POR] = 1 and
1.1  hikaru 		 *    USBN_CLK_CTL[HRST,PRST,HCLK_RST] = 0
1.1  hikaru 		 */
1.1  hikaru 		clk = octeon_dwc2_reg_rd(sc, USBN_CLK_CTL_OFFSET);
1.1  hikaru 		clk |= USBN_CLK_CTL_POR;
1.1  hikaru 		clk &= ~(USBN_CLK_CTL_HRST | USBN_CLK_CTL_PRST |
1.1  hikaru 		    USBN_CLK_CTL_HCLK_RST | USBN_CLK_CTL_ENABLE);
1.1  hikaru 		/*
1.1  hikaru 		 * b. Select the USB reference clock/crystal parameters by writing
1.1  hikaru 		 *    appropriate values to USBN_CLK_CTL[P_C_SEL, P_RTYPE, P_COM_ON].
1.1  hikaru 		 */
1.1  hikaru 		/* XXX board specific */
1.1  hikaru 		clk &= ~(USBN_CLK_CTL_P_C_SEL | USBN_CLK_CTL_P_RTYPE |
1.1  hikaru 		    USBN_CLK_CTL_P_COM_ON);
1.1  hikaru 		/*
1.1  hikaru 		 * c. Select the HCLK via writing USBN_CLK_CTL[DIVIDE, DIVIDE2] and
1.1  hikaru 		 *    setting USBN_CLK_CTL[ENABLE] = 1.
1.1  hikaru 		 */
1.1  hikaru 		/* XXX board specific */
1.1  hikaru 		clk &= ~(USBN_CLK_CTL_DIVIDE | USBN_CLK_CTL_DIVIDE2);
1.1  hikaru 		clk |= SET_USBN_CLK_CTL_DIVIDE(0x4ULL)
1.1  hikaru 			| SET_USBN_CLK_CTL_DIVIDE2(0x0ULL);
1.1  hikaru 		octeon_dwc2_reg_wr(sc, USBN_CLK_CTL_OFFSET, clk);
1.1  hikaru 		/*
1.1  hikaru 		 * d. Write USBN_CLK_CTL[HCLK_RST] = 1.
1.1  hikaru 		 */
1.1  hikaru 		octeon_dwc2_reg_assert(sc, USBN_CLK_CTL_OFFSET, USBN_CLK_CTL_HCLK_RST);
1.1  hikaru 		/*
1.1  hikaru 		 * e. Wait 64 core-clock cycles for HCLK to stabilize.
1.1  hikaru 		 */
1.1  hikaru 		delay(1);
1.1  hikaru 		break;
1.1  hikaru 	case MIPS_CN31XX:
1.1  hikaru 	case MIPS_CN30XX:
1.1  hikaru 		/*
1.1  hikaru 		 * 2. If changing the HCLK divide value:
1.1  hikaru 		 * a. write USBN_CLK_CTL[DIVIDE] with the new divide value.
1.1  hikaru 		 */
1.1  hikaru 		clk = octeon_dwc2_reg_rd(sc, USBN_CLK_CTL_OFFSET);
1.1  hikaru 		clk |= 0x4ULL & USBN_CLK_CTL_DIVIDE;
1.1  hikaru 		octeon_dwc2_reg_wr(sc, USBN_CLK_CTL_OFFSET, clk);
1.1  hikaru 		/*
1.1  hikaru 		 * b. Wait 64 core-clock cycles for HCLK to stabilize.
1.1  hikaru 		 */
1.1  hikaru 		delay(1);
1.1  hikaru 		break;
1.1  hikaru 	default:
1.1  hikaru 		panic("unknown H/W type"); /* XXX */
1.1  hikaru 	}
1.1  hikaru
1.1  hikaru 	/*
1.1  hikaru 	 * 3. Program the power-on reset field in the USBN clock-control register:
1.1  hikaru 	 *    USBN_CLK_CTL[POR] = 0
1.1  hikaru 	 */
1.1  hikaru 	octeon_dwc2_reg_deassert(sc, USBN_CLK_CTL_OFFSET, USBN_CLK_CTL_POR);
1.1  hikaru 	/*
1.1  hikaru 	 * 4. Wait 40 us for PHY clock to start (CN3xxx)
1.1  hikaru 	 * 4. Wait 1 ms for PHY clock to start (CN50xx)
1.1  hikaru 	 */
1.1  hikaru 	delay(1000);
1.1  hikaru
1.1  hikaru 	/*
1.1  hikaru 	 * 5. Program the Reset input from automatic test equipment field
1.1  hikaru 	 *    in the USBP control and status register:
1.1  hikaru 	 *    USBN_USBP_CTL_STATUS[ATE_RESET] = 1
1.1  hikaru 	 */
1.1  hikaru 	octeon_dwc2_reg_assert(sc, USBN_USBP_CTL_STATUS_OFFSET,
1.1  hikaru 			USBN_USBP_CTL_STATUS_ATE_RESET);
1.1  hikaru 	/*
1.1  hikaru 	 * 6. Wait 10 cycles.
1.1  hikaru 	 */
1.1  hikaru 	delay(1);
1.1  hikaru 	/*
1.1  hikaru 	 * 7. Clear ATE_RESET field in the USBN clock-control register:
1.1  hikaru 	 *    USBN_USBP_CTL_STATUS[ATE_RESET] = 0
1.1  hikaru 	 */
1.1  hikaru 	octeon_dwc2_reg_deassert(sc, USBN_USBP_CTL_STATUS_OFFSET,
1.1  hikaru 			USBN_USBP_CTL_STATUS_ATE_RESET);
1.1  hikaru 	/*
1.1  hikaru 	 * 8. Program the PHY reset field in the USBN clock-control register:
1.1  hikaru 	 *    USBN_CLK_CTL[PRST] = 1
1.1  hikaru 	 */
1.1  hikaru 	octeon_dwc2_reg_assert(sc, USBN_CLK_CTL_OFFSET, USBN_CLK_CTL_PRST);
1.1  hikaru 	/*
1.1  hikaru 	 * 9. Program the USBP control and status register to select host or device mode.
1.1  hikaru 	 *    USBN_USBP_CTL_STATUS[HST_MODE] = 0 for host, = 1 for device
1.1  hikaru 	 */
1.1  hikaru 	octeon_dwc2_reg_deassert(sc, USBN_USBP_CTL_STATUS_OFFSET,
1.1  hikaru 			USBN_USBP_CTL_STATUS_HST_MODE);
1.1  hikaru 	/*
1.1  hikaru 	 * 10. Wait 1 us.
1.1  hikaru 	 */
1.1  hikaru 	delay(1);
1.1  hikaru
1.1  hikaru 	/*
1.1  hikaru 	 * 11. Program the hreset_n field in the USBN clock-control register:
1.1  hikaru 	 *     USBN_CLK_CTL[HRST] = 1
1.1  hikaru 	 */
1.1  hikaru 	octeon_dwc2_reg_assert(sc, USBN_CLK_CTL_OFFSET, USBN_CLK_CTL_HRST);
1.1  hikaru
1.1  hikaru 	delay(1);
1.1  hikaru
1.1  hikaru 	/* Finally, enable clock */
1.1  hikaru 	octeon_dwc2_reg_assert(sc, USBN_CLK_CTL_OFFSET, USBN_CLK_CTL_ENABLE);
1.1  hikaru
1.1  hikaru 	delay(10);
1.1  hikaru
1.1  hikaru 	status = dwc2_init(&sc->sc_dwc2);
1.1  hikaru 	if (status != 0)
1.1  hikaru 		panic("can't initialize dwc2, error=%d\n", status);
1.1  hikaru
1.1  hikaru 	sc->sc_dwc2.sc_child =
1.1  hikaru 	    config_found(sc->sc_dwc2.sc_dev, &sc->sc_dwc2.sc_bus, usbctlprint);
1.1  hikaru
1.1  hikaru 	sc->sc_ih = octeon_intr_establish(ffs64(CIU_INTX_SUM0_USB) - 1,
1.2    matt 	    IPL_BIO, dwc2_intr, sc);
1.1  hikaru 	if (sc->sc_ih == NULL)
1.1  hikaru 		panic("can't establish common interrupt\n");
1.1  hikaru }
1.1  hikaru
1.1  hikaru static uint32_t
1.1  hikaru octeon_dwc2_rd_4(void *v, bus_space_handle_t h, bus_size_t off)
1.1  hikaru {
1.1  hikaru
1.1  hikaru 	/* dwc2 uses little-endian addressing */
1.1  hikaru 	return mips3_lw_a64((h + off) ^ 4);
1.1  hikaru }
1.1  hikaru
1.1  hikaru static void
1.1  hikaru octeon_dwc2_wr_4(void *v, bus_space_handle_t h, bus_size_t off,
1.1  hikaru     uint32_t val)
1.1  hikaru {
1.1  hikaru
1.1  hikaru 	/* dwc2 uses little-endian addressing */
1.1  hikaru 	mips3_sw_a64((h + off) ^ 4, val);
1.1  hikaru }
1.1  hikaru
1.1  hikaru int
1.1  hikaru octeon_dwc2_set_dma_addr(device_t self, dma_addr_t dma_addr, int ch)
1.1  hikaru {
1.1  hikaru 	struct octeon_dwc2_softc *sc = device_private(self);
1.1  hikaru
1.1  hikaru 	octeon_dwc2_reg2_wr(sc,
1.1  hikaru 	    USBN_DMA0_INB_CHN0_OFFSET + ch * 0x8, dma_addr);
1.1  hikaru 	octeon_dwc2_reg2_wr(sc,
1.1  hikaru 	    USBN_DMA0_OUTB_CHN0_OFFSET + ch * 0x8, dma_addr);
1.1  hikaru 	return 0;
1.1  hikaru }
1.1  hikaru
1.1  hikaru
1.1  hikaru static inline void
1.1  hikaru octeon_dwc2_reg_assert(struct octeon_dwc2_softc *sc, bus_size_t offset,
1.1  hikaru     uint64_t bits)
1.1  hikaru {
1.1  hikaru 	uint64_t value;
1.1  hikaru
1.1  hikaru 	value = octeon_dwc2_reg_rd(sc, offset);
1.1  hikaru 	value |= bits;
1.1  hikaru 	octeon_dwc2_reg_wr(sc, offset, value);
1.1  hikaru }
1.1  hikaru
1.1  hikaru static inline void
1.1  hikaru octeon_dwc2_reg_deassert(struct octeon_dwc2_softc *sc, bus_size_t offset,
1.1  hikaru     uint64_t bits)
1.1  hikaru {
1.1  hikaru 	uint64_t value;
1.1  hikaru
1.1  hikaru 	value = octeon_dwc2_reg_rd(sc, offset);
1.1  hikaru 	value &= ~bits;
1.1  hikaru 	octeon_dwc2_reg_wr(sc, offset, value);
1.1  hikaru }
1.1  hikaru
1.1  hikaru static inline uint64_t
1.1  hikaru octeon_dwc2_reg_rd(struct octeon_dwc2_softc *sc, bus_size_t off)
1.1  hikaru {
1.1  hikaru 	return bus_space_read_8(sc->sc_bust, sc->sc_regh, off);
1.1  hikaru }
1.1  hikaru
1.1  hikaru static inline void
1.1  hikaru octeon_dwc2_reg_wr(struct octeon_dwc2_softc *sc, bus_size_t off, uint64_t val)
1.1  hikaru {
1.1  hikaru 	bus_space_write_8(sc->sc_bust, sc->sc_regh, off, val);
1.1  hikaru 	/* guarantee completion of the store operation on RSL registers*/
1.1  hikaru 	bus_space_read_8(sc->sc_bust, sc->sc_regh, off);
1.1  hikaru }
1.1  hikaru
1.1  hikaru static inline void
1.1  hikaru octeon_dwc2_reg2_assert(struct octeon_dwc2_softc *sc, bus_size_t off,
1.1  hikaru     uint64_t bits)
1.1  hikaru {
1.1  hikaru 	uint64_t val;
1.1  hikaru
1.1  hikaru 	val = octeon_dwc2_reg2_rd(sc, off);
1.1  hikaru 	val |= bits;
1.1  hikaru 	octeon_dwc2_reg2_wr(sc, off, val);
1.1  hikaru }
1.1  hikaru
1.1  hikaru static inline void
1.1  hikaru octeon_dwc2_reg2_deassert(struct octeon_dwc2_softc *sc, bus_size_t off,
1.1  hikaru     uint64_t bits)
1.1  hikaru {
1.1  hikaru 	uint64_t val;
1.1  hikaru
1.1  hikaru 	val = octeon_dwc2_reg2_rd(sc, off);
1.1  hikaru 	val &= ~bits;
1.1  hikaru 	octeon_dwc2_reg2_wr(sc, off, val);
1.1  hikaru }
1.1  hikaru
1.1  hikaru static inline uint64_t
1.1  hikaru octeon_dwc2_reg2_rd(struct octeon_dwc2_softc *sc, bus_size_t off)
1.1  hikaru {
1.1  hikaru 	return bus_space_read_8(sc->sc_bust, sc->sc_reg2h, off);
1.1  hikaru }
1.1  hikaru
1.1  hikaru static inline void
1.1  hikaru octeon_dwc2_reg2_wr(struct octeon_dwc2_softc *sc, bus_size_t off, uint64_t val)
1.1  hikaru {
1.1  hikaru 	bus_space_write_8(sc->sc_bust, sc->sc_reg2h, off, val);
1.1  hikaru 	/* guarantee completion of the store operation on RSL registers*/
1.1  hikaru 	bus_space_read_8(sc->sc_bust, sc->sc_reg2h, off);
1.1  hikaru }