macppc/dev/cuda.c

1.34   thorpej /*	$NetBSD: cuda.c,v 1.34 2025/09/23 13:57:31 thorpej Exp $ */
 1.1  macallan
 1.1  macallan /*-
 1.1  macallan  * Copyright (c) 2006 Michael Lorenz
 1.1  macallan  * All rights reserved.
 1.1  macallan  *
 1.1  macallan  * Redistribution and use in source and binary forms, with or without
 1.1  macallan  * modification, are permitted provided that the following conditions
 1.1  macallan  * are met:
 1.1  macallan  * 1. Redistributions of source code must retain the above copyright
 1.1  macallan  *    notice, this list of conditions and the following disclaimer.
 1.1  macallan  * 2. Redistributions in binary form must reproduce the above copyright
 1.1  macallan  *    notice, this list of conditions and the following disclaimer in the
 1.1  macallan  *    documentation and/or other materials provided with the distribution.
 1.1  macallan  *
 1.1  macallan  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
 1.1  macallan  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
 1.1  macallan  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 1.1  macallan  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
 1.1  macallan  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 1.1  macallan  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 1.1  macallan  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 1.1  macallan  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 1.1  macallan  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 1.1  macallan  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 1.1  macallan  * POSSIBILITY OF SUCH DAMAGE.
 1.1  macallan  */
 1.1  macallan
 1.1  macallan #include <sys/cdefs.h>
1.34   thorpej __KERNEL_RCSID(0, "$NetBSD: cuda.c,v 1.34 2025/09/23 13:57:31 thorpej Exp $");
 1.1  macallan
 1.1  macallan #include <sys/param.h>
 1.1  macallan #include <sys/systm.h>
 1.1  macallan #include <sys/kernel.h>
 1.1  macallan #include <sys/device.h>
 1.1  macallan #include <sys/proc.h>
 1.8  macallan #include <sys/mutex.h>
 1.1  macallan
1.17    dyoung #include <sys/bus.h>
 1.1  macallan #include <machine/autoconf.h>
 1.4   garbled #include <machine/pio.h>
 1.1  macallan #include <dev/clock_subr.h>
1.33   thorpej
 1.1  macallan #include <dev/i2c/i2cvar.h>
1.33   thorpej #include <dev/i2c/i2c_calls.h>
1.33   thorpej #include <dev/i2c/i2c_enum.h>
 1.1  macallan
 1.1  macallan #include <macppc/dev/viareg.h>
 1.1  macallan #include <macppc/dev/cudavar.h>
 1.1  macallan
 1.1  macallan #include <dev/ofw/openfirm.h>
 1.1  macallan #include <dev/adb/adbvar.h>
 1.1  macallan #include "opt_cuda.h"
 1.1  macallan
 1.1  macallan #ifdef CUDA_DEBUG
 1.1  macallan #define DPRINTF printf
 1.1  macallan #else
 1.1  macallan #define DPRINTF while (0) printf
 1.1  macallan #endif
 1.1  macallan
 1.1  macallan #define CUDA_NOTREADY	0x1	/* has not been initialized yet */
 1.1  macallan #define CUDA_IDLE	0x2	/* the bus is currently idle */
 1.1  macallan #define CUDA_OUT	0x3	/* sending out a command */
 1.1  macallan #define CUDA_IN		0x4	/* receiving data */
 1.1  macallan #define CUDA_POLLING	0x5	/* polling - II only */
 1.1  macallan
 1.8  macallan static void cuda_attach(device_t, device_t, void *);
 1.8  macallan static int cuda_match(device_t, struct cfdata *, void *);
 1.1  macallan static void cuda_autopoll(void *, int);
 1.1  macallan
 1.1  macallan static int cuda_intr(void *);
 1.1  macallan
 1.1  macallan typedef struct _cuda_handler {
 1.1  macallan 	int (*handler)(void *, int, uint8_t *);
 1.1  macallan 	void *cookie;
 1.1  macallan } CudaHandler;
 1.1  macallan
 1.1  macallan struct cuda_softc {
 1.8  macallan 	device_t sc_dev;
 1.1  macallan 	void *sc_ih;
 1.1  macallan 	CudaHandler sc_handlers[16];
 1.1  macallan 	struct todr_chip_handle sc_todr;
 1.1  macallan 	struct adb_bus_accessops sc_adbops;
 1.1  macallan 	struct i2c_controller sc_i2c;
 1.1  macallan 	bus_space_tag_t sc_memt;
 1.1  macallan 	bus_space_handle_t sc_memh;
1.33   thorpej
1.33   thorpej 	/*
1.33   thorpej 	 * We provide our own i2c device enumeration method, so we
1.33   thorpej 	 * need to subclass our device handle.
1.33   thorpej 	 */
1.33   thorpej 	struct devhandle_impl sc_devhandle_impl;
1.33   thorpej
 1.1  macallan 	int sc_node;
 1.1  macallan 	int sc_state;
 1.1  macallan 	int sc_waiting;
 1.1  macallan 	int sc_polling;
 1.1  macallan 	int sc_sent;
 1.1  macallan 	int sc_out_length;
 1.1  macallan 	int sc_received;
 1.1  macallan 	int sc_iic_done;
 1.1  macallan 	int sc_error;
 1.1  macallan 	/* time */
 1.1  macallan 	uint32_t sc_tod;
 1.1  macallan 	uint32_t sc_autopoll;
1.30  macallan 	kcondvar_t sc_todev;
1.30  macallan 	kmutex_t sc_todevmtx;
 1.1  macallan 	/* ADB */
 1.1  macallan 	void (*sc_adb_handler)(void *, int, uint8_t *);
 1.1  macallan 	void *sc_adb_cookie;
 1.1  macallan 	uint32_t sc_i2c_read_len;
 1.1  macallan 	/* internal buffers */
 1.1  macallan 	uint8_t sc_in[256];
 1.1  macallan 	uint8_t sc_out[256];
 1.1  macallan };
 1.1  macallan
 1.8  macallan CFATTACH_DECL_NEW(cuda, sizeof(struct cuda_softc),
 1.1  macallan     cuda_match, cuda_attach, NULL, NULL);
 1.1  macallan
 1.1  macallan static inline void cuda_write_reg(struct cuda_softc *, int, uint8_t);
 1.1  macallan static inline uint8_t cuda_read_reg(struct cuda_softc *, int);
 1.1  macallan static void cuda_idle(struct cuda_softc *);
 1.1  macallan static void cuda_tip(struct cuda_softc *);
 1.1  macallan static void cuda_clear_tip(struct cuda_softc *);
 1.1  macallan static void cuda_in(struct cuda_softc *);
 1.1  macallan static void cuda_out(struct cuda_softc *);
 1.1  macallan static void cuda_toggle_ack(struct cuda_softc *);
 1.1  macallan static void cuda_ack_off(struct cuda_softc *);
 1.1  macallan static int cuda_intr_state(struct cuda_softc *);
 1.1  macallan
 1.1  macallan static void cuda_init(struct cuda_softc *);
 1.1  macallan
 1.1  macallan /*
 1.1  macallan  * send a message to Cuda.
 1.1  macallan  */
 1.1  macallan /* cookie, flags, length, data */
 1.1  macallan static int cuda_send(void *, int, int, uint8_t *);
 1.1  macallan static void cuda_poll(void *);
 1.1  macallan static void cuda_adb_poll(void *);
 1.1  macallan static int cuda_set_handler(void *, int, int (*)(void *, int, uint8_t *), void *);
 1.1  macallan
 1.1  macallan static int cuda_error_handler(void *, int, uint8_t *);
 1.1  macallan
 1.1  macallan static int cuda_todr_handler(void *, int, uint8_t *);
1.15   tsutsui static int cuda_todr_set(todr_chip_handle_t, struct timeval *);
1.15   tsutsui static int cuda_todr_get(todr_chip_handle_t, struct timeval *);
 1.1  macallan
 1.1  macallan static int cuda_adb_handler(void *, int, uint8_t *);
 1.8  macallan static void cuda_final(device_t);
 1.1  macallan
 1.1  macallan static struct cuda_attach_args *cuda0 = NULL;
 1.1  macallan
 1.1  macallan /* ADB bus attachment stuff */
 1.1  macallan static 	int cuda_adb_send(void *, int, int, int, uint8_t *);
 1.1  macallan static	int cuda_adb_set_handler(void *, void (*)(void *, int, uint8_t *), void *);
 1.1  macallan
 1.1  macallan /* i2c stuff */
 1.1  macallan static int cuda_i2c_exec(void *, i2c_op_t, i2c_addr_t, const void *, size_t,
 1.1  macallan 		    void *, size_t, int);
 1.1  macallan
1.33   thorpej static const struct i2c_deventry cuda_i2c_devices[] = {
1.33   thorpej 	{ .name		=	"videopll",
1.33   thorpej 	  .compat	=	"aapl,valkyrie-videopll",
1.33   thorpej 	  .addr		=	0x50,
1.33   thorpej 	  .data		=	"/valkyrie" },
1.33   thorpej
1.33   thorpej 	{ .name		=	"sgsmix",
1.33   thorpej 	  .compat	=	"st,tda7433",
1.33   thorpej 	  .addr		=	0x8a,
1.33   thorpej 	  .data		=	"/perch" },
1.33   thorpej
1.33   thorpej 	I2C_DEVENTRY_EOL
1.33   thorpej };
1.33   thorpej
1.34   thorpej static bool
1.34   thorpej cuda_i2cdev_callback(device_t dev, devhandle_t call_handle,
1.34   thorpej     const struct i2c_deventry *entry, devhandle_t *child_devhandlep)
1.34   thorpej {
1.34   thorpej 	return (OF_finddevice((const char *)entry->data) != -1);
1.34   thorpej }
1.34   thorpej
1.33   thorpej static int
1.33   thorpej cuda_i2c_enumerate_devices(device_t dev, devhandle_t call_handle, void *v)
1.33   thorpej {
1.33   thorpej 	struct i2c_enumerate_devices_args *args = v;
1.33   thorpej
1.34   thorpej 	i2c_enumerate_deventries(dev, call_handle, args,
1.34   thorpej 	    cuda_i2c_devices, cuda_i2cdev_callback);
1.33   thorpej
1.33   thorpej 	return 0;
1.33   thorpej }
1.33   thorpej
1.33   thorpej static device_call_t
1.33   thorpej cuda_devhandle_lookup_device_call(devhandle_t handle, const char *name,
1.33   thorpej     devhandle_t *call_handlep)
1.33   thorpej {
1.33   thorpej 	if (strcmp(name, I2C_ENUMERATE_DEVICES_STR) == 0) {
1.33   thorpej 		return cuda_i2c_enumerate_devices;
1.33   thorpej 	}
1.33   thorpej
1.33   thorpej 	/* Defer everything else to the "super". */
1.33   thorpej 	return NULL;
1.33   thorpej }
1.33   thorpej
 1.1  macallan static int
 1.8  macallan cuda_match(device_t parent, struct cfdata *cf, void *aux)
 1.1  macallan {
 1.1  macallan 	struct confargs *ca = aux;
 1.1  macallan
 1.1  macallan 	if (ca->ca_nreg < 8)
 1.1  macallan 		return 0;
 1.1  macallan
 1.1  macallan 	if (ca->ca_nintr < 4)
 1.1  macallan 		return 0;
 1.1  macallan
 1.1  macallan 	if (strcmp(ca->ca_name, "via-cuda") == 0) {
 1.1  macallan 		return 10;	/* beat adb* at obio? */
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	return 0;
 1.1  macallan }
 1.1  macallan
 1.1  macallan static void
1.16      matt cuda_attach(device_t parent, device_t self, void *aux)
 1.1  macallan {
 1.1  macallan 	struct confargs *ca = aux;
1.16      matt 	struct cuda_softc *sc = device_private(self);
 1.1  macallan 	static struct cuda_attach_args caa;
 1.1  macallan 	int irq = ca->ca_intr[0];
 1.1  macallan 	int node, i, child;
 1.1  macallan 	char name[32];
 1.1  macallan
1.16      matt 	sc->sc_dev = self;
 1.5   garbled 	node = of_getnode_byname(OF_parent(ca->ca_node), "extint-gpio1");
 1.1  macallan 	if (node)
 1.1  macallan 		OF_getprop(node, "interrupts", &irq, 4);
 1.1  macallan
1.16      matt 	aprint_normal(" irq %d", irq);
 1.1  macallan
 1.1  macallan 	sc->sc_node = ca->ca_node;
 1.1  macallan 	sc->sc_memt = ca->ca_tag;
 1.1  macallan
 1.1  macallan 	sc->sc_sent = 0;
 1.1  macallan 	sc->sc_received = 0;
 1.1  macallan 	sc->sc_waiting = 0;
 1.1  macallan 	sc->sc_polling = 0;
 1.1  macallan 	sc->sc_state = CUDA_NOTREADY;
 1.1  macallan 	sc->sc_error = 0;
 1.1  macallan 	sc->sc_i2c_read_len = 0;
 1.1  macallan
1.30  macallan 	cv_init(&sc->sc_todev, "cuda_event");
1.30  macallan 	mutex_init(&sc->sc_todevmtx, MUTEX_DEFAULT, IPL_NONE);
1.30  macallan
 1.1  macallan 	if (bus_space_map(sc->sc_memt, ca->ca_reg[0] + ca->ca_baseaddr,
 1.1  macallan 	    ca->ca_reg[1], 0, &sc->sc_memh) != 0) {
 1.1  macallan
1.16      matt 		aprint_normal(": unable to map registers\n");
 1.1  macallan 		return;
 1.1  macallan 	}
1.27       rin 	sc->sc_ih = intr_establish_xname(irq, IST_EDGE, IPL_TTY, cuda_intr, sc,
1.27       rin 	    device_xname(self));
 1.1  macallan 	printf("\n");
 1.1  macallan
 1.1  macallan 	for (i = 0; i < 16; i++) {
 1.1  macallan 		sc->sc_handlers[i].handler = NULL;
 1.1  macallan 		sc->sc_handlers[i].cookie = NULL;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	cuda_init(sc);
 1.1  macallan
 1.1  macallan 	/* now attach children */
1.16      matt 	config_interrupts(self, cuda_final);
 1.1  macallan 	cuda_set_handler(sc, CUDA_ERROR, cuda_error_handler, sc);
 1.1  macallan 	cuda_set_handler(sc, CUDA_PSEUDO, cuda_todr_handler, sc);
 1.1  macallan
 1.1  macallan 	child = OF_child(ca->ca_node);
 1.1  macallan 	while (child != 0) {
 1.1  macallan
 1.1  macallan 		if (OF_getprop(child, "name", name, 32) == 0)
 1.1  macallan 			continue;
 1.1  macallan 		if (strncmp(name, "adb", 4) == 0) {
 1.1  macallan
 1.1  macallan 			cuda_set_handler(sc, CUDA_ADB, cuda_adb_handler, sc);
 1.1  macallan 			sc->sc_adbops.cookie = sc;
 1.1  macallan 			sc->sc_adbops.send = cuda_adb_send;
 1.1  macallan 			sc->sc_adbops.poll = cuda_adb_poll;
 1.1  macallan 			sc->sc_adbops.autopoll = cuda_autopoll;
 1.1  macallan 			sc->sc_adbops.set_handler = cuda_adb_set_handler;
1.28   thorpej 			config_found(self, &sc->sc_adbops, nadb_print,
1.29   thorpej 			    CFARGS(.iattr = "adb_bus"));
 1.1  macallan 		} else if (strncmp(name, "rtc", 4) == 0) {
 1.1  macallan
 1.1  macallan 			sc->sc_todr.todr_gettime = cuda_todr_get;
 1.1  macallan 			sc->sc_todr.todr_settime = cuda_todr_set;
1.31   thorpej 			sc->sc_todr.todr_dev = self;
 1.1  macallan 			todr_attach(&sc->sc_todr);
 1.1  macallan 		}
 1.1  macallan 		child = OF_peer(child);
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	caa.cookie = sc;
 1.1  macallan 	caa.set_handler = cuda_set_handler;
 1.1  macallan 	caa.send = cuda_send;
 1.1  macallan 	caa.poll = cuda_poll;
 1.2  macallan #if notyet
1.29   thorpej 	config_found(self, &caa, cuda_print, CFARGS_NONE);
 1.2  macallan #endif
1.22  macallan
1.33   thorpej 	/*
1.33   thorpej 	 * There are no OF nodes for our I2C devices, so we provide
1.33   thorpej 	 * our own enumeration method.
1.33   thorpej 	 */
1.24   thorpej 	iic_tag_init(&sc->sc_i2c);
 1.1  macallan 	sc->sc_i2c.ic_cookie = sc;
 1.1  macallan 	sc->sc_i2c.ic_exec = cuda_i2c_exec;
1.32   thorpej
1.33   thorpej 	iicbus_attach_with_devhandle(self, &sc->sc_i2c,
1.33   thorpej 	    devhandle_subclass(device_handle(self),
1.33   thorpej 			       &sc->sc_devhandle_impl,
1.33   thorpej 			       cuda_devhandle_lookup_device_call));
 1.1  macallan
 1.1  macallan 	if (cuda0 == NULL)
 1.1  macallan 		cuda0 = &caa;
 1.1  macallan }
 1.1  macallan
 1.1  macallan static void
 1.1  macallan cuda_init(struct cuda_softc *sc)
 1.1  macallan {
 1.1  macallan 	uint8_t reg;
 1.1  macallan
 1.1  macallan 	reg = cuda_read_reg(sc, vDirB);
 1.1  macallan 	reg |= 0x30;	/* register B bits 4 and 5: outputs */
 1.1  macallan 	cuda_write_reg(sc, vDirB, reg);
 1.1  macallan
 1.1  macallan 	reg = cuda_read_reg(sc, vDirB);
 1.1  macallan 	reg &= 0xf7;	/* register B bit 3: input */
 1.1  macallan 	cuda_write_reg(sc, vDirB, reg);
 1.1  macallan
 1.1  macallan 	reg = cuda_read_reg(sc, vACR);
 1.1  macallan 	reg &= ~vSR_OUT;	/* make sure SR is set to IN */
 1.1  macallan 	cuda_write_reg(sc, vACR, reg);
 1.1  macallan
 1.1  macallan 	cuda_write_reg(sc, vACR, (cuda_read_reg(sc, vACR) | 0x0c) & ~0x10);
 1.1  macallan
 1.1  macallan 	sc->sc_state = CUDA_IDLE;	/* used by all types of hardware */
 1.1  macallan
 1.1  macallan 	cuda_write_reg(sc, vIER, 0x84); /* make sure VIA interrupts are on */
 1.1  macallan 	cuda_idle(sc);	/* set ADB bus state to idle */
 1.1  macallan
 1.1  macallan 	/* sort of a device reset */
1.19       mrg 	(void)cuda_read_reg(sc, vSR);	/* clear interrupt */
 1.1  macallan 	cuda_write_reg(sc, vIER, 0x04); /* no interrupts while clearing */
 1.1  macallan 	cuda_idle(sc);	/* reset state to idle */
 1.1  macallan 	delay(150);
 1.1  macallan 	cuda_tip(sc);	/* signal start of frame */
 1.1  macallan 	delay(150);
 1.1  macallan 	cuda_toggle_ack(sc);
 1.1  macallan 	delay(150);
 1.1  macallan 	cuda_clear_tip(sc);
 1.1  macallan 	delay(150);
 1.1  macallan 	cuda_idle(sc);	/* back to idle state */
1.19       mrg 	(void)cuda_read_reg(sc, vSR);	/* clear interrupt */
 1.1  macallan 	cuda_write_reg(sc, vIER, 0x84);	/* ints ok now */
 1.1  macallan }
 1.1  macallan
 1.1  macallan static void
 1.8  macallan cuda_final(device_t dev)
 1.1  macallan {
 1.8  macallan 	struct cuda_softc *sc = device_private(dev);
 1.1  macallan
 1.1  macallan 	sc->sc_polling = 0;
 1.1  macallan }
 1.1  macallan
 1.1  macallan static inline void
 1.1  macallan cuda_write_reg(struct cuda_softc *sc, int offset, uint8_t value)
 1.1  macallan {
 1.1  macallan
 1.1  macallan 	bus_space_write_1(sc->sc_memt, sc->sc_memh, offset, value);
 1.1  macallan }
 1.1  macallan
 1.1  macallan static inline uint8_t
 1.1  macallan cuda_read_reg(struct cuda_softc *sc, int offset)
 1.1  macallan {
 1.1  macallan
 1.1  macallan 	return bus_space_read_1(sc->sc_memt, sc->sc_memh, offset);
 1.1  macallan }
 1.1  macallan
 1.1  macallan static int
 1.1  macallan cuda_set_handler(void *cookie, int type,
 1.1  macallan     int (*handler)(void *, int, uint8_t *), void *hcookie)
 1.1  macallan {
 1.1  macallan 	struct cuda_softc *sc = cookie;
 1.1  macallan 	CudaHandler *me;
 1.1  macallan
 1.1  macallan 	if ((type >= 0) && (type < 16)) {
 1.1  macallan 		me = &sc->sc_handlers[type];
 1.1  macallan 		me->handler = handler;
 1.1  macallan 		me->cookie = hcookie;
 1.1  macallan 		return 0;
 1.1  macallan 	}
 1.1  macallan 	return -1;
 1.1  macallan }
 1.1  macallan
 1.1  macallan static int
 1.1  macallan cuda_send(void *cookie, int poll, int length, uint8_t *msg)
 1.1  macallan {
 1.1  macallan 	struct cuda_softc *sc = cookie;
 1.1  macallan 	int s;
 1.1  macallan
 1.1  macallan 	DPRINTF("cuda_send %08x\n", (uint32_t)cookie);
 1.1  macallan 	if (sc->sc_state == CUDA_NOTREADY)
 1.1  macallan 		return -1;
 1.1  macallan
 1.1  macallan 	s = splhigh();
 1.1  macallan
1.18     joerg 	if (sc->sc_state == CUDA_IDLE /*&&
1.18     joerg 	    (cuda_read_reg(sc, vBufB) & vPB3) == vPB3*/) {
 1.1  macallan 		/* fine */
 1.1  macallan 		DPRINTF("chip is idle\n");
 1.1  macallan 	} else {
 1.1  macallan 		DPRINTF("cuda state is %d\n", sc->sc_state);
 1.1  macallan 		if (sc->sc_waiting == 0) {
 1.1  macallan 			sc->sc_waiting = 1;
 1.1  macallan 		} else {
 1.1  macallan 			splx(s);
 1.1  macallan 			return -1;
 1.1  macallan 		}
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	sc->sc_error = 0;
 1.1  macallan 	memcpy(sc->sc_out, msg, length);
 1.1  macallan 	sc->sc_out_length = length;
 1.1  macallan 	sc->sc_sent = 0;
 1.1  macallan
 1.1  macallan 	if (sc->sc_waiting != 1) {
 1.1  macallan
 1.1  macallan 		delay(150);
 1.1  macallan 		sc->sc_state = CUDA_OUT;
 1.1  macallan 		cuda_out(sc);
 1.1  macallan 		cuda_write_reg(sc, vSR, sc->sc_out[0]);
 1.1  macallan 		cuda_ack_off(sc);
 1.1  macallan 		cuda_tip(sc);
 1.1  macallan 	}
 1.1  macallan 	sc->sc_waiting = 1;
 1.1  macallan
 1.1  macallan 	if (sc->sc_polling || poll || cold) {
 1.1  macallan 		cuda_poll(sc);
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	splx(s);
 1.1  macallan
 1.1  macallan 	return 0;
 1.1  macallan }
 1.1  macallan
 1.1  macallan static void
 1.1  macallan cuda_poll(void *cookie)
 1.1  macallan {
 1.1  macallan 	struct cuda_softc *sc = cookie;
 1.2  macallan 	int s;
 1.1  macallan
 1.1  macallan 	DPRINTF("polling\n");
 1.1  macallan 	while ((sc->sc_state != CUDA_IDLE) ||
 1.1  macallan 	       (cuda_intr_state(sc)) ||
 1.1  macallan 	       (sc->sc_waiting == 1)) {
 1.1  macallan 		if ((cuda_read_reg(sc, vIFR) & vSR_INT) == vSR_INT) {
 1.2  macallan 			s = splhigh();
 1.1  macallan 			cuda_intr(sc);
 1.2  macallan 			splx(s);
 1.1  macallan 		}
 1.1  macallan 	}
 1.1  macallan }
 1.1  macallan
 1.1  macallan static void
 1.1  macallan cuda_adb_poll(void *cookie)
 1.1  macallan {
 1.1  macallan 	struct cuda_softc *sc = cookie;
 1.2  macallan 	int s;
 1.1  macallan
 1.2  macallan 	s = splhigh();
 1.1  macallan 	cuda_intr(sc);
 1.2  macallan 	splx(s);
 1.1  macallan }
 1.1  macallan
 1.1  macallan static void
 1.1  macallan cuda_idle(struct cuda_softc *sc)
 1.1  macallan {
 1.1  macallan 	uint8_t reg;
 1.1  macallan
 1.1  macallan 	reg = cuda_read_reg(sc, vBufB);
 1.1  macallan 	reg |= (vPB4 | vPB5);
 1.1  macallan 	cuda_write_reg(sc, vBufB, reg);
 1.1  macallan }
 1.1  macallan
 1.1  macallan static void
 1.1  macallan cuda_tip(struct cuda_softc *sc)
 1.1  macallan {
 1.1  macallan 	uint8_t reg;
 1.1  macallan
 1.1  macallan 	reg = cuda_read_reg(sc, vBufB);
 1.1  macallan 	reg &= ~vPB5;
 1.1  macallan 	cuda_write_reg(sc, vBufB, reg);
 1.1  macallan }
 1.1  macallan
 1.1  macallan static void
 1.1  macallan cuda_clear_tip(struct cuda_softc *sc)
 1.1  macallan {
 1.1  macallan 	uint8_t reg;
 1.1  macallan
 1.1  macallan 	reg = cuda_read_reg(sc, vBufB);
 1.1  macallan 	reg |= vPB5;
 1.1  macallan 	cuda_write_reg(sc, vBufB, reg);
 1.1  macallan }
 1.1  macallan
 1.1  macallan static void
 1.1  macallan cuda_in(struct cuda_softc *sc)
 1.1  macallan {
 1.1  macallan 	uint8_t reg;
 1.1  macallan
 1.1  macallan 	reg = cuda_read_reg(sc, vACR);
 1.1  macallan 	reg &= ~vSR_OUT;
 1.1  macallan 	cuda_write_reg(sc, vACR, reg);
 1.1  macallan }
 1.1  macallan
 1.1  macallan static void
 1.1  macallan cuda_out(struct cuda_softc *sc)
 1.1  macallan {
 1.1  macallan 	uint8_t reg;
 1.1  macallan
 1.1  macallan 	reg = cuda_read_reg(sc, vACR);
 1.1  macallan 	reg |= vSR_OUT;
 1.1  macallan 	cuda_write_reg(sc, vACR, reg);
 1.1  macallan }
 1.1  macallan
 1.1  macallan static void
 1.1  macallan cuda_toggle_ack(struct cuda_softc *sc)
 1.1  macallan {
 1.1  macallan 	uint8_t reg;
 1.1  macallan
 1.1  macallan 	reg = cuda_read_reg(sc, vBufB);
 1.1  macallan 	reg ^= vPB4;
 1.1  macallan 	cuda_write_reg(sc, vBufB, reg);
 1.1  macallan }
 1.1  macallan
 1.1  macallan static void
 1.1  macallan cuda_ack_off(struct cuda_softc *sc)
 1.1  macallan {
 1.1  macallan 	uint8_t reg;
 1.1  macallan
 1.1  macallan 	reg = cuda_read_reg(sc, vBufB);
 1.1  macallan 	reg |= vPB4;
 1.1  macallan 	cuda_write_reg(sc, vBufB, reg);
 1.1  macallan }
 1.1  macallan
 1.1  macallan static int
 1.1  macallan cuda_intr_state(struct cuda_softc *sc)
 1.1  macallan {
 1.1  macallan 	return ((cuda_read_reg(sc, vBufB) & vPB3) == 0);
 1.1  macallan }
 1.1  macallan
 1.1  macallan static int
 1.1  macallan cuda_intr(void *arg)
 1.1  macallan {
 1.1  macallan 	struct cuda_softc *sc = arg;
1.19       mrg 	int ending, type;
 1.1  macallan 	uint8_t reg;
 1.1  macallan
 1.1  macallan 	reg = cuda_read_reg(sc, vIFR);		/* Read the interrupts */
 1.2  macallan 	DPRINTF("[");
 1.1  macallan 	if ((reg & 0x80) == 0) {
 1.2  macallan 		DPRINTF("irq %02x]", reg);
 1.1  macallan 		return 0;			/* No interrupts to process */
 1.1  macallan 	}
 1.1  macallan 	DPRINTF(":");
 1.1  macallan
 1.2  macallan 	cuda_write_reg(sc, vIFR, 0x7f);	/* Clear 'em */
 1.1  macallan
 1.1  macallan switch_start:
 1.1  macallan 	switch (sc->sc_state) {
 1.1  macallan 	case CUDA_IDLE:
 1.1  macallan 		/*
 1.1  macallan 		 * This is an unexpected packet, so grab the first (dummy)
 1.1  macallan 		 * byte, set up the proper vars, and tell the chip we are
 1.1  macallan 		 * starting to receive the packet by setting the TIP bit.
 1.1  macallan 		 */
 1.1  macallan 		sc->sc_in[1] = cuda_read_reg(sc, vSR);
 1.1  macallan 		DPRINTF("start: %02x", sc->sc_in[1]);
 1.1  macallan 		if (cuda_intr_state(sc) == 0) {
 1.1  macallan 			/* must have been a fake start */
 1.1  macallan 			DPRINTF(" ... fake start\n");
 1.1  macallan 			if (sc->sc_waiting) {
 1.1  macallan 				/* start over */
 1.1  macallan 				delay(150);
 1.1  macallan 				sc->sc_state = CUDA_OUT;
 1.1  macallan 				sc->sc_sent = 0;
 1.1  macallan 				cuda_out(sc);
 1.1  macallan 				cuda_write_reg(sc, vSR, sc->sc_out[1]);
 1.1  macallan 				cuda_ack_off(sc);
 1.1  macallan 				cuda_tip(sc);
 1.1  macallan 			}
 1.1  macallan 			break;
 1.1  macallan 		}
 1.1  macallan
 1.1  macallan 		cuda_in(sc);
 1.1  macallan 		cuda_tip(sc);
 1.1  macallan
 1.1  macallan 		sc->sc_received = 1;
 1.1  macallan 		sc->sc_state = CUDA_IN;
 1.1  macallan 		DPRINTF(" CUDA_IN");
 1.1  macallan 		break;
 1.1  macallan
 1.1  macallan 	case CUDA_IN:
 1.1  macallan 		sc->sc_in[sc->sc_received] = cuda_read_reg(sc, vSR);
 1.1  macallan 		DPRINTF(" %02x", sc->sc_in[sc->sc_received]);
 1.1  macallan 		ending = 0;
 1.1  macallan 		if (sc->sc_received > 255) {
 1.1  macallan 			/* bitch only once */
 1.1  macallan 			if (sc->sc_received == 256) {
1.20  macallan 				aprint_error_dev(sc->sc_dev,
1.20  macallan 				    "input overflow\n");
 1.1  macallan 				ending = 1;
 1.1  macallan 			}
 1.1  macallan 		} else
 1.1  macallan 			sc->sc_received++;
 1.1  macallan 		if (sc->sc_received > 3) {
 1.1  macallan 			if ((sc->sc_in[3] == CMD_IIC) &&
 1.1  macallan 			    (sc->sc_received > (sc->sc_i2c_read_len + 4))) {
 1.1  macallan 				ending = 1;
 1.1  macallan 			}
 1.1  macallan 		}
 1.1  macallan
 1.1  macallan 		/* intr off means this is the last byte (end of frame) */
 1.1  macallan 		if (cuda_intr_state(sc) == 0) {
 1.1  macallan 			ending = 1;
 1.1  macallan 			DPRINTF(".\n");
 1.1  macallan 		} else {
 1.1  macallan 			cuda_toggle_ack(sc);
 1.1  macallan 		}
 1.1  macallan
 1.1  macallan 		if (ending == 1) {	/* end of message? */
 1.1  macallan
 1.1  macallan 			sc->sc_in[0] = sc->sc_received - 1;
 1.1  macallan
 1.1  macallan 			/* reset vars and signal the end of this frame */
 1.1  macallan 			cuda_idle(sc);
 1.1  macallan
 1.1  macallan 			/* check if we have a handler for this message */
 1.1  macallan 			type = sc->sc_in[1];
 1.1  macallan 			if ((type >= 0) && (type < 16)) {
 1.1  macallan 				CudaHandler *me = &sc->sc_handlers[type];
 1.1  macallan
 1.1  macallan 				if (me->handler != NULL) {
 1.1  macallan 					me->handler(me->cookie,
 1.1  macallan 					    sc->sc_received - 1, &sc->sc_in[1]);
 1.1  macallan 				} else {
1.20  macallan 					aprint_error_dev(sc->sc_dev,
1.20  macallan 					  "no handler for type %02x\n", type);
 1.1  macallan 					panic("barf");
 1.1  macallan 				}
 1.1  macallan 			}
 1.1  macallan
 1.2  macallan 			DPRINTF("CUDA_IDLE");
 1.2  macallan 			sc->sc_state = CUDA_IDLE;
 1.2  macallan
 1.1  macallan 			sc->sc_received = 0;
 1.1  macallan
 1.1  macallan 			/*
 1.1  macallan 			 * If there is something waiting to be sent out,
 1.2  macallan 			 * set everything up and send the first byte.
 1.1  macallan 			 */
 1.1  macallan 			if (sc->sc_waiting == 1) {
 1.1  macallan
 1.1  macallan 				DPRINTF("pending write\n");
 1.1  macallan 				delay(1500);	/* required */
 1.1  macallan 				sc->sc_sent = 0;
 1.1  macallan 				sc->sc_state = CUDA_OUT;
 1.1  macallan
 1.1  macallan 				/*
 1.1  macallan 				 * If the interrupt is on, we were too slow
 1.1  macallan 				 * and the chip has already started to send
 1.1  macallan 				 * something to us, so back out of the write
 1.1  macallan 				 * and start a read cycle.
 1.1  macallan 				 */
 1.1  macallan 				if (cuda_intr_state(sc)) {
 1.1  macallan 					cuda_in(sc);
 1.1  macallan 					cuda_idle(sc);
 1.1  macallan 					sc->sc_sent = 0;
 1.1  macallan 					sc->sc_state = CUDA_IDLE;
 1.1  macallan 					sc->sc_received = 0;
 1.1  macallan 					delay(150);
 1.1  macallan 					DPRINTF("too slow - incoming message\n");
 1.1  macallan 					goto switch_start;
 1.1  macallan 				}
 1.1  macallan 				/*
 1.1  macallan 				 * If we got here, it's ok to start sending
 1.1  macallan 				 * so load the first byte and tell the chip
 1.1  macallan 				 * we want to send.
 1.1  macallan 				 */
 1.2  macallan 				DPRINTF("sending ");
 1.2  macallan
 1.1  macallan 				cuda_out(sc);
 1.1  macallan 				cuda_write_reg(sc, vSR,
 1.1  macallan 				    sc->sc_out[sc->sc_sent]);
 1.2  macallan 				cuda_ack_off(sc);
 1.2  macallan 				cuda_tip(sc);
 1.1  macallan 			}
 1.1  macallan 		}
 1.1  macallan 		break;
 1.1  macallan
 1.1  macallan 	case CUDA_OUT:
1.19       mrg 		(void)cuda_read_reg(sc, vSR);	/* reset SR-intr in IFR */
 1.1  macallan
 1.1  macallan 		sc->sc_sent++;
 1.1  macallan 		if (cuda_intr_state(sc)) {	/* ADB intr low during write */
 1.1  macallan
 1.1  macallan 			DPRINTF("incoming msg during send\n");
 1.1  macallan 			cuda_in(sc);	/* make sure SR is set to IN */
 1.1  macallan 			cuda_idle(sc);
 1.1  macallan 			sc->sc_sent = 0;	/* must start all over */
 1.1  macallan 			sc->sc_state = CUDA_IDLE;	/* new state */
 1.1  macallan 			sc->sc_received = 0;
 1.1  macallan 			sc->sc_waiting = 1;	/* must retry when done with
 1.1  macallan 						 * read */
 1.1  macallan 			delay(150);
 1.1  macallan 			goto switch_start;	/* process next state right
 1.1  macallan 						 * now */
 1.1  macallan 			break;
 1.1  macallan 		}
 1.1  macallan 		if (sc->sc_out_length == sc->sc_sent) {	/* check for done */
 1.1  macallan
 1.1  macallan 			sc->sc_waiting = 0;	/* done writing */
 1.1  macallan 			sc->sc_state = CUDA_IDLE;	/* signal bus is idle */
 1.1  macallan 			cuda_in(sc);
 1.1  macallan 			cuda_idle(sc);
 1.1  macallan 			DPRINTF("done sending\n");
 1.1  macallan 		} else {
 1.1  macallan 			/* send next byte */
 1.1  macallan 			cuda_write_reg(sc, vSR, sc->sc_out[sc->sc_sent]);
1.20  macallan 			DPRINTF("%02x", sc->sc_out[sc->sc_sent]);
 1.1  macallan 			cuda_toggle_ack(sc);	/* signal byte ready to
 1.1  macallan 							 * shift */
 1.1  macallan 		}
 1.1  macallan 		break;
 1.1  macallan
 1.1  macallan 	case CUDA_NOTREADY:
 1.1  macallan 		DPRINTF("adb: not yet initialized\n");
 1.1  macallan 		break;
 1.1  macallan
 1.1  macallan 	default:
 1.1  macallan 		DPRINTF("intr: unknown ADB state\n");
 1.1  macallan 		break;
 1.1  macallan 	}
 1.1  macallan
 1.2  macallan 	DPRINTF("]");
 1.1  macallan 	return 1;
 1.1  macallan }
 1.1  macallan
 1.1  macallan static int
 1.1  macallan cuda_error_handler(void *cookie, int len, uint8_t *data)
 1.1  macallan {
 1.1  macallan 	struct cuda_softc *sc = cookie;
 1.1  macallan
 1.1  macallan 	/*
 1.1  macallan 	 * something went wrong
 1.1  macallan 	 * byte 3 seems to be the failed command
 1.1  macallan 	 */
 1.1  macallan 	sc->sc_error = 1;
1.30  macallan 	DPRINTF("cuda error %02x %02x %02x %02x\n", data[0], data[1], data[2], data[3]);
1.30  macallan 	cv_signal(&sc->sc_todev);
 1.1  macallan 	return 0;
 1.1  macallan }
 1.1  macallan
 1.1  macallan
 1.1  macallan /* real time clock */
 1.1  macallan
 1.1  macallan static int
 1.1  macallan cuda_todr_handler(void *cookie, int len, uint8_t *data)
 1.1  macallan {
 1.1  macallan 	struct cuda_softc *sc = cookie;
 1.1  macallan
 1.1  macallan #ifdef CUDA_DEBUG
 1.1  macallan 	int i;
 1.1  macallan 	printf("msg: %02x", data[0]);
 1.1  macallan 	for (i = 1; i < len; i++) {
 1.1  macallan 		printf(" %02x", data[i]);
 1.1  macallan 	}
 1.1  macallan 	printf("\n");
 1.1  macallan #endif
 1.1  macallan
 1.1  macallan 	switch(data[2]) {
 1.1  macallan 		case CMD_READ_RTC:
 1.1  macallan 			memcpy(&sc->sc_tod, &data[3], 4);
 1.1  macallan 			break;
 1.1  macallan 		case CMD_WRITE_RTC:
 1.1  macallan 			sc->sc_tod = 0xffffffff;
 1.1  macallan 			break;
 1.1  macallan 		case CMD_AUTOPOLL:
 1.1  macallan 			sc->sc_autopoll = 1;
 1.1  macallan 			break;
 1.1  macallan 		case CMD_IIC:
 1.1  macallan 			sc->sc_iic_done = len;
 1.1  macallan 			break;
 1.1  macallan 	}
1.30  macallan 	cv_signal(&sc->sc_todev);
 1.1  macallan 	return 0;
 1.1  macallan }
 1.1  macallan
 1.1  macallan #define DIFF19041970 2082844800
 1.1  macallan
 1.1  macallan static int
1.15   tsutsui cuda_todr_get(todr_chip_handle_t tch, struct timeval *tvp)
 1.1  macallan {
1.31   thorpej 	struct cuda_softc *sc = device_private(tch->todr_dev);
 1.1  macallan 	int cnt = 0;
 1.1  macallan 	uint8_t cmd[] = { CUDA_PSEUDO, CMD_READ_RTC};
 1.1  macallan
 1.1  macallan 	sc->sc_tod = 0;
1.20  macallan 	while (sc->sc_tod == 0) {
1.20  macallan 		cuda_send(sc, 0, 2, cmd);
 1.1  macallan
1.20  macallan 		while ((sc->sc_tod == 0) && (cnt < 10)) {
1.30  macallan 			mutex_enter(&sc->sc_todevmtx);
1.30  macallan 			cv_timedwait(&sc->sc_todev, &sc->sc_todevmtx, hz);
1.30  macallan 			mutex_exit(&sc->sc_todevmtx);
1.30  macallan
1.20  macallan 			cnt++;
1.20  macallan 		}
1.20  macallan
1.20  macallan 		if (sc->sc_tod == 0) {
1.20  macallan 			aprint_error_dev(sc->sc_dev,
1.20  macallan 			    "unable to read a sane RTC value\n");
1.20  macallan 			return EIO;
1.20  macallan 		}
1.20  macallan 		if ((sc->sc_tod > 0xf0000000UL) ||
1.20  macallan 		    (sc->sc_tod < DIFF19041970)) {
1.20  macallan 			/* huh? try again */
1.20  macallan 			sc->sc_tod = 0;
1.20  macallan 			aprint_verbose_dev(sc->sc_dev,
1.20  macallan 			    "got garbage reading RTC, trying again\n");
1.20  macallan 		}
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	tvp->tv_sec = sc->sc_tod - DIFF19041970;
1.12  macallan 	DPRINTF("tod: %" PRIo64 "\n", tvp->tv_sec);
 1.1  macallan 	tvp->tv_usec = 0;
 1.1  macallan 	return 0;
 1.1  macallan }
 1.1  macallan
 1.1  macallan static int
1.15   tsutsui cuda_todr_set(todr_chip_handle_t tch, struct timeval *tvp)
 1.1  macallan {
1.31   thorpej 	struct cuda_softc *sc = device_private(tch->todr_dev);
 1.1  macallan 	uint32_t sec;
 1.1  macallan 	uint8_t cmd[] = {CUDA_PSEUDO, CMD_WRITE_RTC, 0, 0, 0, 0};
 1.1  macallan
 1.1  macallan 	sec = tvp->tv_sec + DIFF19041970;
 1.1  macallan 	memcpy(&cmd[2], &sec, 4);
 1.1  macallan 	sc->sc_tod = 0;
 1.1  macallan 	if (cuda_send(sc, 0, 6, cmd) == 0) {
 1.1  macallan 		while (sc->sc_tod == 0) {
1.30  macallan 			mutex_enter(&sc->sc_todevmtx);
1.30  macallan 			cv_timedwait(&sc->sc_todev, &sc->sc_todevmtx, hz);
1.30  macallan 			mutex_exit(&sc->sc_todevmtx);
 1.1  macallan 		}
 1.1  macallan 		return 0;
 1.1  macallan 	}
1.20  macallan 	aprint_error_dev(sc->sc_dev, "%s failed\n", __func__);
 1.1  macallan 	return -1;
 1.1  macallan
 1.1  macallan }
 1.1  macallan
 1.1  macallan /* poweroff and reboot */
 1.1  macallan
 1.1  macallan void
1.14    cegger cuda_poweroff(void)
 1.1  macallan {
 1.1  macallan 	struct cuda_softc *sc;
 1.1  macallan 	uint8_t cmd[] = {CUDA_PSEUDO, CMD_POWEROFF};
 1.1  macallan
 1.1  macallan 	if (cuda0 == NULL)
 1.1  macallan 		return;
 1.1  macallan 	sc = cuda0->cookie;
 1.1  macallan 	sc->sc_polling = 1;
 1.1  macallan 	cuda0->poll(sc);
 1.1  macallan 	if (cuda0->send(sc, 1, 2, cmd) == 0)
 1.1  macallan 		while (1);
 1.1  macallan }
 1.1  macallan
 1.1  macallan void
1.14    cegger cuda_restart(void)
 1.1  macallan {
 1.1  macallan 	struct cuda_softc *sc;
 1.1  macallan 	uint8_t cmd[] = {CUDA_PSEUDO, CMD_RESET};
 1.1  macallan
 1.1  macallan 	if (cuda0 == NULL)
 1.1  macallan 		return;
 1.1  macallan 	sc = cuda0->cookie;
 1.1  macallan 	sc->sc_polling = 1;
 1.1  macallan 	cuda0->poll(sc);
 1.1  macallan 	if (cuda0->send(sc, 1, 2, cmd) == 0)
 1.1  macallan 		while (1);
 1.1  macallan }
 1.1  macallan
 1.1  macallan /* ADB message handling */
 1.1  macallan
 1.1  macallan static void
 1.1  macallan cuda_autopoll(void *cookie, int flag)
 1.1  macallan {
 1.1  macallan 	struct cuda_softc *sc = cookie;
 1.1  macallan 	uint8_t cmd[] = {CUDA_PSEUDO, CMD_AUTOPOLL, (flag != 0)};
 1.1  macallan
 1.1  macallan 	if (cmd[2] == sc->sc_autopoll)
 1.1  macallan 		return;
 1.1  macallan
 1.1  macallan 	sc->sc_autopoll = -1;
 1.1  macallan 	cuda_send(sc, 0, 3, cmd);
 1.1  macallan 	while(sc->sc_autopoll == -1) {
 1.1  macallan 		if (sc->sc_polling || cold) {
 1.1  macallan 			cuda_poll(sc);
1.30  macallan 		} else {
1.30  macallan 			mutex_enter(&sc->sc_todevmtx);
1.30  macallan 			cv_timedwait(&sc->sc_todev, &sc->sc_todevmtx, hz);
1.30  macallan 			mutex_exit(&sc->sc_todevmtx);
1.30  macallan 		}
 1.1  macallan 	}
 1.1  macallan }
 1.1  macallan
 1.1  macallan static int
 1.1  macallan cuda_adb_handler(void *cookie, int len, uint8_t *data)
 1.1  macallan {
 1.1  macallan 	struct cuda_softc *sc = cookie;
 1.1  macallan
 1.1  macallan 	if (sc->sc_adb_handler != NULL) {
 1.1  macallan 		sc->sc_adb_handler(sc->sc_adb_cookie, len - 1,
 1.1  macallan 		    &data[1]);
 1.1  macallan 		return 0;
 1.1  macallan 	}
 1.1  macallan 	return -1;
 1.1  macallan }
 1.1  macallan
 1.1  macallan static int
 1.1  macallan cuda_adb_send(void *cookie, int poll, int command, int len, uint8_t *data)
 1.1  macallan {
 1.1  macallan 	struct cuda_softc *sc = cookie;
 1.1  macallan 	int i, s = 0;
 1.1  macallan 	uint8_t packet[16];
 1.1  macallan
 1.1  macallan 	/* construct an ADB command packet and send it */
 1.1  macallan 	packet[0] = CUDA_ADB;
 1.1  macallan 	packet[1] = command;
 1.1  macallan 	for (i = 0; i < len; i++)
 1.1  macallan 		packet[i + 2] = data[i];
 1.1  macallan 	if (poll || cold) {
 1.1  macallan 		s = splhigh();
 1.1  macallan 		cuda_poll(sc);
 1.1  macallan 	}
 1.1  macallan 	cuda_send(sc, poll, len + 2, packet);
 1.1  macallan 	if (poll || cold) {
 1.1  macallan 		cuda_poll(sc);
 1.1  macallan 		splx(s);
 1.1  macallan 	}
 1.1  macallan 	return 0;
 1.1  macallan }
 1.1  macallan
 1.1  macallan static int
 1.1  macallan cuda_adb_set_handler(void *cookie, void (*handler)(void *, int, uint8_t *),
 1.1  macallan     void *hcookie)
 1.1  macallan {
 1.1  macallan 	struct cuda_softc *sc = cookie;
 1.1  macallan
 1.1  macallan 	/* register a callback for incoming ADB messages */
 1.1  macallan 	sc->sc_adb_handler = handler;
 1.1  macallan 	sc->sc_adb_cookie = hcookie;
 1.1  macallan 	return 0;
 1.1  macallan }
 1.1  macallan
 1.1  macallan /* i2c message handling */
 1.1  macallan
 1.1  macallan static int
 1.1  macallan cuda_i2c_exec(void *cookie, i2c_op_t op, i2c_addr_t addr, const void *_send,
 1.1  macallan     size_t send_len, void *_recv, size_t recv_len, int flags)
 1.1  macallan {
 1.1  macallan 	struct cuda_softc *sc = cookie;
 1.1  macallan 	const uint8_t *send = _send;
 1.1  macallan 	uint8_t *recv = _recv;
 1.1  macallan 	uint8_t command[16] = {CUDA_PSEUDO, CMD_IIC};
 1.1  macallan
 1.1  macallan 	DPRINTF("cuda_i2c_exec(%02x)\n", addr);
 1.1  macallan 	command[2] = addr;
 1.1  macallan
1.13  pgoyette 	/* Copy command and output data bytes, if any, to buffer */
1.13  pgoyette 	if (send_len > 0)
1.23  riastrad 		memcpy(&command[3], send, uimin((int)send_len, 12));
1.13  pgoyette 	else if (I2C_OP_READ_P(op) && (recv_len == 0)) {
1.13  pgoyette 		/*
1.13  pgoyette 		 * If no data bytes in either direction, it's a "quick"
1.13  pgoyette 		 * i2c operation.  We don't know how to do a quick_read
1.13  pgoyette 		 * since that requires us to set the low bit of the
1.13  pgoyette 		 * address byte after it has been left-shifted.
1.13  pgoyette 		 */
1.13  pgoyette 		sc->sc_error = 0;
1.13  pgoyette 		return -1;
1.13  pgoyette 	}
 1.1  macallan
 1.1  macallan 	sc->sc_iic_done = 0;
 1.1  macallan 	cuda_send(sc, sc->sc_polling, send_len + 3, command);
 1.1  macallan
 1.1  macallan 	while ((sc->sc_iic_done == 0) && (sc->sc_error == 0)) {
 1.1  macallan 		if (sc->sc_polling || cold) {
 1.1  macallan 			cuda_poll(sc);
1.30  macallan 		} else {
1.30  macallan 			mutex_enter(&sc->sc_todevmtx);
1.30  macallan 			cv_timedwait(&sc->sc_todev, &sc->sc_todevmtx, hz);
1.30  macallan 			mutex_exit(&sc->sc_todevmtx);
1.30  macallan 		}
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	if (sc->sc_error) {
 1.1  macallan 		sc->sc_error = 0;
1.20  macallan 		aprint_error_dev(sc->sc_dev, "error doing I2C\n");
 1.1  macallan 		return -1;
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	/* see if we're supposed to do a read */
 1.1  macallan 	if (recv_len > 0) {
 1.1  macallan 		sc->sc_iic_done = 0;
 1.1  macallan 		command[2] |= 1;
 1.1  macallan 		command[3] = 0;
 1.1  macallan
 1.1  macallan 		/*
 1.1  macallan 		 * XXX we need to do something to limit the size of the answer
 1.1  macallan 		 * - apparently the chip keeps sending until we tell it to stop
 1.1  macallan 		 */
 1.1  macallan 		sc->sc_i2c_read_len = recv_len;
 1.1  macallan 		DPRINTF("rcv_len: %d\n", recv_len);
 1.1  macallan 		cuda_send(sc, sc->sc_polling, 3, command);
 1.1  macallan 		while ((sc->sc_iic_done == 0) && (sc->sc_error == 0)) {
 1.1  macallan 			if (sc->sc_polling || cold) {
 1.1  macallan 				cuda_poll(sc);
1.30  macallan 			} else {
1.30  macallan 				mutex_enter(&sc->sc_todevmtx);
1.30  macallan 				cv_timedwait(&sc->sc_todev, &sc->sc_todevmtx, hz);
1.30  macallan 				mutex_exit(&sc->sc_todevmtx);
1.30  macallan 			}
 1.1  macallan 		}
 1.1  macallan
 1.1  macallan 		if (sc->sc_error) {
1.20  macallan 			aprint_error_dev(sc->sc_dev,
1.20  macallan 			    "error trying to read from I2C\n");
 1.1  macallan 			sc->sc_error = 0;
 1.1  macallan 			return -1;
 1.1  macallan 		}
 1.1  macallan 	}
 1.1  macallan
 1.1  macallan 	DPRINTF("received: %d\n", sc->sc_iic_done);
 1.1  macallan 	if ((sc->sc_iic_done > 3) && (recv_len > 0)) {
 1.1  macallan 		int rlen;
 1.1  macallan
 1.1  macallan 		/* we got an answer */
1.23  riastrad 		rlen = uimin(sc->sc_iic_done - 3, recv_len);
 1.1  macallan 		memcpy(recv, &sc->sc_in[4], rlen);
 1.1  macallan #ifdef CUDA_DEBUG
 1.1  macallan 		{
 1.1  macallan 			int i;
 1.1  macallan 			printf("ret:");
 1.1  macallan 			for (i = 0; i < rlen; i++)
 1.1  macallan 				printf(" %02x", recv[i]);
 1.1  macallan 			printf("\n");
 1.1  macallan 		}
 1.1  macallan #endif
 1.1  macallan 		return rlen;
 1.1  macallan 	}
 1.1  macallan 	return 0;
 1.1  macallan }