src/soc/nvidia/tegra/usb.c - mirrors/cros/chromiumos/third_party/coreboot - Git at Google

 /* SPDX-License-Identifier: GPL-2.0-only */

 #include <delay.h>
 #include <device/mmio.h>
 #include <console/console.h>
 #include <soc/clock.h>

 #include "usb.h"

 struct utmip_ctlr {
 	u32 pll0;
 	u32 pll1;
 	u32 xcvr0;
 	u32 bias0;
 	u32 hsrx0;
 	u32 hsrx1;
 	u32 fslsrx0;
 	u32 fslsrx1;
 	u32 tx;
 	u32 misc0;
 	u32 misc1;
 	u32 debounce;
 	u32 batchrgr;
 	u32 spare;
 	u32 xcvr1;
 	u32 bias1;
 	u32 bias_sts;
 	u32 chrgr_debounce;
 	u32 misc_sts;
 	u32 pmc_wakeup;
 };
 check_member(utmip_ctlr, pmc_wakeup, 0x84c - 0x800);

 struct usb_ctlr {
 	u32 id;
 	u32 _rsv0;
 	u32 host;
 	u32 device;
 	u32 txbuf;			/* 0x010 */
 	u32 rxbuf;
 	u32 _rsv1[58];
 	u16 ehci_caplen;		/* 0x100 */
 	u16 ehci_version;
 	u32 ehci_hcsp;
 	u32 ehci_hccp;
 	u32 _rsv2[5];
 	u32 dci_version;		/* 0x120 */
 	u32 dcc_params;
 	u32 extsts;
 	u32 extintr;
 	u32 ehci_usbcmd;		/* 0x130 */
 	u32 ehci_usbsts;
 	u32 ehci_usbintr;
 	u32 ehci_frindex;
 	u32 _rsv3;			/* 0x140 */
 	u32 ehci_periodic_base;
 	u32 ehci_async_base;
 	u32 async_ttsts;
 	u32 burst_size;			/* 0x150 */
 	u32 tx_fill_tuning;
 	u32 _rsv4;
 	u32 icusb_ctrl;
 	u32 ulpi_viewport;		/* 0x160 */
 	u32 _rsv5[4];
 	u32 ehci_portsc;
 	u32 _rsv6[15];
 	u32 lpm_ctrl;
 	u32 _rsv7[15];
 	u32 otgsc;
 	u32 usb_mode;
 	u32 _rsv8;
 	u32 ep_nak;			/* 0x200 */
 	u32 ep_nak_enable;
 	u32 ep_setup;
 	u32 ep_init;
 	u32 ep_deinit;
 	u32 ep_sts;
 	u32 ep_complete;
 	u32 ep_ctrl[16];
 	u32 _rsv9[105];
 	u32 suspend_ctrl;		/* 0x400 */
 	u32 vbus_sensors;
 	u32 vbus_wakeup_id;
 	u32 alt_vbus_sts;
 	u32 legacy_ctrl;
 	u32 _rsv10[3];
 	u32 interpacket_delay;
 	u32 _rsv11[27];
 	u32 resume_delay;
 	u32 _rsv12;
 	u32 spare;
 	u32 _rsv13[9];
 	u32 new_ctrl;
 	u32 _rsv14[207];
 	struct utmip_ctlr utmip;	/* 0x800 */
 };
 check_member(usb_ctlr, utmip, 0x800);

 /*
  * Tegra EHCI controllers need their usb_mode, lpm_ctrl and tx_fill_tuning
  * registers initialized after every EHCI reset and before any other actions
  * (such as Run/Stop bit) are taken. We reset the controller here, set those
  * registers and rely on the fact that libpayload doesn't reset EHCI controllers
  * on initialization for whatever weird reason. This is ugly, fragile, and I
  * really don't like it, but making this work will require an ugly hack one way
  * or another so we might as well take the path of least resistance for now.
  */
 static void usb_ehci_reset_and_prepare(struct usb_ctlr *usb, enum usb_phy_type type)
 {
 	int timeout = 1000;

 	write32(&usb->ehci_usbcmd, 1 << 1);	/* Host Controller Reset */
 	/* TODO: Resets are long, find way to parallelize... or just use XHCI */
 	while (--timeout && (read32(&usb->ehci_usbcmd) & 1 << 1))
 		/* wait for HC to reset */;

 	if (!timeout) {
 		printk(BIOS_ERR, "ERROR: EHCI(%p) reset timeout", usb);
 		return;
 	}

 	/* Controller mode: HOST */
 	write32(&usb->usb_mode, 3 << 0);
 	/* Parallel transceiver selct */
 	write32(&usb->lpm_ctrl, type << 29);
 	/* Tx FIFO Burst thresh */
 	write32(&usb->tx_fill_tuning, 0x10 << 16);
 }

 /* Assume USBx clocked, out of reset, UTMI+ PLL set up, SAMP_x out of pwrdn */
 void usb_setup_utmip(void *usb_base)
 {
 	struct usb_ctlr *usb = (struct usb_ctlr *)usb_base;

 	/* KHz formulas were guessed from U-Boot constants. Formats unclear. */
 	int khz = clock_get_pll_input_khz();

 	/* Stop UTMI+ crystal clock while we mess with its settings */
 	clrbits32(&usb->utmip.misc1, 1 << 30);	/* PHY_XTAL_CLKEN */
 	udelay(1);

 	/* Take stuff out of pwrdn and add some magic numbers from U-Boot */
 	write32(&usb->utmip.xcvr0,
 		0x8 << 25 |		/* HS slew rate [10:4] */
 		0x3 << 22 |		/* HS driver output 'SETUP' [6:4] */
 		  0 << 21 |		/* LS bias selection */
 		  0 << 18 |		/* PDZI pwrdn */
 		  0 << 16 |		/* PD2 pwrdn */
 		  0 << 14 |		/* PD pwrdn */
 		  1 << 13 |		/* (rst) HS receiver terminations */
 		0x1 << 10 |		/* (rst) LS falling slew rate */
 		0x1 <<  8 |		/* (rst) LS rising slew rate */
 		0x4 <<  0);		/* HS driver output 'SETUP' [3:0] */
 	write32(&usb->utmip.xcvr1,
 		0x7 << 18 |		/* Termination range adjustment */
 		  0 <<  4 |		/* PDDR pwrdn */
 		  0 <<  2 |		/* PDCHRP pwrdn */
 		  0 <<  0);		/* PDDISC pwrdn */
 	write32(&usb->utmip.tx,
 		  1 << 19 |		/* FS send initial J before sync(?) */
 		  1 << 16 |		/* (rst) Allow stuff error on SoP */
 		  1 <<  9);		/* (rst) Check disc only on EoP */
 	write32(&usb->utmip.hsrx0,
 		0x2 << 30 |		/* (rst) Keep pattern on active */
 		  1 << 28 |		/* (rst) Realign inertia on pkt */
 		0x0 << 24 |		/* (rst) edges-1 to move sampling */
 		0x3 << 21 |		/* (rst) squelch delay on EoP */
 	       0x11 << 15 |		/* cycles until IDLE */
 	       0x10 << 10);		/* elastic input depth */

 	/* U-Boot claims the USBD values for these are used across all UTMI+
 	 * PHYs. That sounds so horribly wrong that I'm not going to implement
 	 * it, but keep it in mind if we're ever not using the USBD port. */
 	write32(&usb->utmip.bias0,
 		0x1 << 24 |		/* HS disconnect detect level [2] */
 		  1 << 23 |		/* (rst) IDPD value */
 		  1 << 22 |		/* (rst) IDPD select */
 		  1 << 11 |		/* (rst) OTG pwrdn */
 		  0 << 10 |		/* bias pwrdn */
 		0x1 <<  2 |		/* HS disconnect detect level [1:0] */
 		0x2 <<  0);		/* HS squelch detect level */

 	write32(&usb->utmip.bias1,
 		khz / 2200 << 3 |	/* bias pwrdn cycles (20us?) */
 			 1 << 2 |	/* (rst) VBUS wakeup pwrdn */
 			 0 << 0);	/* PDTRK pwrdn */

 	write32(&usb->utmip.debounce,
 		       0xffff << 16 |	/* (rst) */
 		25 * khz / 10 <<  0);	/* TODO: what's this, really? */

 	udelay(1);
 	setbits32(&usb->utmip.misc1, 1 << 30); /* PHY_XTAL_CLKEN */

 	write32(&usb->suspend_ctrl,
 		  1 << 12 |		/* UTMI+ enable */
 		  0 << 11);		/* UTMI+ reset */

 	usb_ehci_reset_and_prepare(usb, USB_PHY_UTMIP);
 	printk(BIOS_DEBUG, "USB controller @ %p set up with UTMI+ PHY\n",usb_base);
 }
	/* SPDX-License-Identifier: GPL-2.0-only */

	#include <delay.h>
	#include <device/mmio.h>
	#include <console/console.h>
	#include <soc/clock.h>

	#include "usb.h"

	struct utmip_ctlr {
	u32 pll0;
	u32 pll1;
	u32 xcvr0;
	u32 bias0;
	u32 hsrx0;
	u32 hsrx1;
	u32 fslsrx0;
	u32 fslsrx1;
	u32 tx;
	u32 misc0;
	u32 misc1;
	u32 debounce;
	u32 batchrgr;
	u32 spare;
	u32 xcvr1;
	u32 bias1;
	u32 bias_sts;
	u32 chrgr_debounce;
	u32 misc_sts;
	u32 pmc_wakeup;
	};
	check_member(utmip_ctlr, pmc_wakeup, 0x84c - 0x800);

	struct usb_ctlr {
	u32 id;
	u32 _rsv0;
	u32 host;
	u32 device;
	u32 txbuf; /* 0x010 */
	u32 rxbuf;
	u32 _rsv1[58];
	u16 ehci_caplen; /* 0x100 */
	u16 ehci_version;
	u32 ehci_hcsp;
	u32 ehci_hccp;
	u32 _rsv2[5];
	u32 dci_version; /* 0x120 */
	u32 dcc_params;
	u32 extsts;
	u32 extintr;
	u32 ehci_usbcmd; /* 0x130 */
	u32 ehci_usbsts;
	u32 ehci_usbintr;
	u32 ehci_frindex;
	u32 _rsv3; /* 0x140 */
	u32 ehci_periodic_base;
	u32 ehci_async_base;
	u32 async_ttsts;
	u32 burst_size; /* 0x150 */
	u32 tx_fill_tuning;
	u32 _rsv4;
	u32 icusb_ctrl;
	u32 ulpi_viewport; /* 0x160 */
	u32 _rsv5[4];
	u32 ehci_portsc;
	u32 _rsv6[15];
	u32 lpm_ctrl;
	u32 _rsv7[15];
	u32 otgsc;
	u32 usb_mode;
	u32 _rsv8;
	u32 ep_nak; /* 0x200 */
	u32 ep_nak_enable;
	u32 ep_setup;
	u32 ep_init;
	u32 ep_deinit;
	u32 ep_sts;
	u32 ep_complete;
	u32 ep_ctrl[16];
	u32 _rsv9[105];
	u32 suspend_ctrl; /* 0x400 */
	u32 vbus_sensors;
	u32 vbus_wakeup_id;
	u32 alt_vbus_sts;
	u32 legacy_ctrl;
	u32 _rsv10[3];
	u32 interpacket_delay;
	u32 _rsv11[27];
	u32 resume_delay;
	u32 _rsv12;
	u32 spare;
	u32 _rsv13[9];
	u32 new_ctrl;
	u32 _rsv14[207];
	struct utmip_ctlr utmip; /* 0x800 */
	};
	check_member(usb_ctlr, utmip, 0x800);

	/*
	* Tegra EHCI controllers need their usb_mode, lpm_ctrl and tx_fill_tuning
	* registers initialized after every EHCI reset and before any other actions
	* (such as Run/Stop bit) are taken. We reset the controller here, set those
	* registers and rely on the fact that libpayload doesn't reset EHCI controllers
	* on initialization for whatever weird reason. This is ugly, fragile, and I
	* really don't like it, but making this work will require an ugly hack one way
	* or another so we might as well take the path of least resistance for now.
	*/
	static void usb_ehci_reset_and_prepare(struct usb_ctlr *usb, enum usb_phy_type type)
	{
	int timeout = 1000;

	write32(&usb->ehci_usbcmd, 1 << 1); /* Host Controller Reset */
	/* TODO: Resets are long, find way to parallelize... or just use XHCI */
	while (--timeout && (read32(&usb->ehci_usbcmd) & 1 << 1))
	/* wait for HC to reset */;

	if (!timeout) {
	printk(BIOS_ERR, "ERROR: EHCI(%p) reset timeout", usb);
	return;
	}

	/* Controller mode: HOST */
	write32(&usb->usb_mode, 3 << 0);
	/* Parallel transceiver selct */
	write32(&usb->lpm_ctrl, type << 29);
	/* Tx FIFO Burst thresh */
	write32(&usb->tx_fill_tuning, 0x10 << 16);
	}

	/* Assume USBx clocked, out of reset, UTMI+ PLL set up, SAMP_x out of pwrdn */
	void usb_setup_utmip(void *usb_base)
	{
	struct usb_ctlr usb = (struct usb_ctlr )usb_base;

	/* KHz formulas were guessed from U-Boot constants. Formats unclear. */
	int khz = clock_get_pll_input_khz();

	/* Stop UTMI+ crystal clock while we mess with its settings */
	clrbits32(&usb->utmip.misc1, 1 << 30); /* PHY_XTAL_CLKEN */
	udelay(1);

	/* Take stuff out of pwrdn and add some magic numbers from U-Boot */
	write32(&usb->utmip.xcvr0,
	0x8 << 25 \| /* HS slew rate [10:4] */
	0x3 << 22 \| /* HS driver output 'SETUP' [6:4] */
	0 << 21 \| /* LS bias selection */
	0 << 18 \| /* PDZI pwrdn */
	0 << 16 \| /* PD2 pwrdn */
	0 << 14 \| /* PD pwrdn */
	1 << 13 \| /* (rst) HS receiver terminations */
	0x1 << 10 \| /* (rst) LS falling slew rate */
	0x1 << 8 \| /* (rst) LS rising slew rate */
	0x4 << 0); /* HS driver output 'SETUP' [3:0] */
	write32(&usb->utmip.xcvr1,
	0x7 << 18 \| /* Termination range adjustment */
	0 << 4 \| /* PDDR pwrdn */
	0 << 2 \| /* PDCHRP pwrdn */
	0 << 0); /* PDDISC pwrdn */
	write32(&usb->utmip.tx,
	1 << 19 \| /* FS send initial J before sync(?) */
	1 << 16 \| /* (rst) Allow stuff error on SoP */
	1 << 9); /* (rst) Check disc only on EoP */
	write32(&usb->utmip.hsrx0,
	0x2 << 30 \| /* (rst) Keep pattern on active */
	1 << 28 \| /* (rst) Realign inertia on pkt */
	0x0 << 24 \| /* (rst) edges-1 to move sampling */
	0x3 << 21 \| /* (rst) squelch delay on EoP */
	0x11 << 15 \| /* cycles until IDLE */
	0x10 << 10); /* elastic input depth */

	/* U-Boot claims the USBD values for these are used across all UTMI+
	* PHYs. That sounds so horribly wrong that I'm not going to implement
	* it, but keep it in mind if we're ever not using the USBD port. */
	write32(&usb->utmip.bias0,
	0x1 << 24 \| /* HS disconnect detect level [2] */
	1 << 23 \| /* (rst) IDPD value */
	1 << 22 \| /* (rst) IDPD select */
	1 << 11 \| /* (rst) OTG pwrdn */
	0 << 10 \| /* bias pwrdn */
	0x1 << 2 \| /* HS disconnect detect level [1:0] */
	0x2 << 0); /* HS squelch detect level */

	write32(&usb->utmip.bias1,
	khz / 2200 << 3 \| /* bias pwrdn cycles (20us?) */
	1 << 2 \| /* (rst) VBUS wakeup pwrdn */
	0 << 0); /* PDTRK pwrdn */

	write32(&usb->utmip.debounce,
	0xffff << 16 \| /* (rst) */
	25 * khz / 10 << 0); /* TODO: what's this, really? */

	udelay(1);
	setbits32(&usb->utmip.misc1, 1 << 30); /* PHY_XTAL_CLKEN */

	write32(&usb->suspend_ctrl,
	1 << 12 \| /* UTMI+ enable */
	0 << 11); /* UTMI+ reset */

	usb_ehci_reset_and_prepare(usb, USB_PHY_UTMIP);
	printk(BIOS_DEBUG, "USB controller @ %p set up with UTMI+ PHY\n",usb_base);
	}