11016f143SNathan Whitehorn /*-
24d846d26SWarner Losh * SPDX-License-Identifier: BSD-2-Clause
371e3c308SPedro F. Giffuni *
41016f143SNathan Whitehorn * Copyright (c) 2009 Nathan Whitehorn
51016f143SNathan Whitehorn * All rights reserved.
61016f143SNathan Whitehorn *
71016f143SNathan Whitehorn * Redistribution and use in source and binary forms, with or without
81016f143SNathan Whitehorn * modification, are permitted provided that the following conditions
91016f143SNathan Whitehorn * are met:
101016f143SNathan Whitehorn * 1. Redistributions of source code must retain the above copyright
111016f143SNathan Whitehorn * notice, this list of conditions and the following disclaimer.
121016f143SNathan Whitehorn * 2. Redistributions in binary form must reproduce the above copyright
131016f143SNathan Whitehorn * notice, this list of conditions and the following disclaimer in the
141016f143SNathan Whitehorn * documentation and/or other materials provided with the distribution.
151016f143SNathan Whitehorn *
161016f143SNathan Whitehorn * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
171016f143SNathan Whitehorn * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
181016f143SNathan Whitehorn * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
191016f143SNathan Whitehorn * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
201016f143SNathan Whitehorn * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
211016f143SNathan Whitehorn * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
221016f143SNathan Whitehorn * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
231016f143SNathan Whitehorn * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
241016f143SNathan Whitehorn * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
251016f143SNathan Whitehorn * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
261016f143SNathan Whitehorn * SUCH DAMAGE.
271016f143SNathan Whitehorn *
281016f143SNathan Whitehorn */
291016f143SNathan Whitehorn
301016f143SNathan Whitehorn #include <sys/param.h>
311016f143SNathan Whitehorn #include <sys/bus.h>
32e2e050c8SConrad Meyer #include <sys/eventhandler.h>
331016f143SNathan Whitehorn #include <sys/systm.h>
341016f143SNathan Whitehorn #include <sys/module.h>
351016f143SNathan Whitehorn #include <sys/conf.h>
361016f143SNathan Whitehorn #include <sys/cpu.h>
373df9e037SNathan Whitehorn #include <sys/clock.h>
386abc7eb7SNathan Whitehorn #include <sys/ctype.h>
391016f143SNathan Whitehorn #include <sys/kernel.h>
4098dc2964SNathan Whitehorn #include <sys/kthread.h>
41e2e050c8SConrad Meyer #include <sys/lock.h>
42e2e050c8SConrad Meyer #include <sys/mutex.h>
43f41c8c17SNathan Whitehorn #include <sys/reboot.h>
441016f143SNathan Whitehorn #include <sys/rman.h>
451016f143SNathan Whitehorn #include <sys/sysctl.h>
4698dc2964SNathan Whitehorn #include <sys/unistd.h>
471016f143SNathan Whitehorn
481016f143SNathan Whitehorn #include <machine/bus.h>
4998dc2964SNathan Whitehorn #include <machine/intr_machdep.h>
501016f143SNathan Whitehorn #include <machine/md_var.h>
511016f143SNathan Whitehorn
5245f7ed01SNathan Whitehorn #include <dev/iicbus/iicbus.h>
5345f7ed01SNathan Whitehorn #include <dev/iicbus/iiconf.h>
5490a1456bSNathan Whitehorn #include <dev/led/led.h>
551016f143SNathan Whitehorn #include <dev/ofw/openfirm.h>
561016f143SNathan Whitehorn #include <dev/ofw/ofw_bus.h>
5745f7ed01SNathan Whitehorn #include <dev/ofw/ofw_bus_subr.h>
581016f143SNathan Whitehorn #include <powerpc/powermac/macgpiovar.h>
5984d77676SNathan Whitehorn #include <powerpc/powermac/powermac_thermal.h>
601016f143SNathan Whitehorn
613df9e037SNathan Whitehorn #include "clock_if.h"
6245f7ed01SNathan Whitehorn #include "iicbus_if.h"
633df9e037SNathan Whitehorn
641016f143SNathan Whitehorn struct smu_cmd {
656abc7eb7SNathan Whitehorn volatile uint8_t cmd;
661016f143SNathan Whitehorn uint8_t len;
671016f143SNathan Whitehorn uint8_t data[254];
6898dc2964SNathan Whitehorn
6998dc2964SNathan Whitehorn STAILQ_ENTRY(smu_cmd) cmd_q;
701016f143SNathan Whitehorn };
711016f143SNathan Whitehorn
7298dc2964SNathan Whitehorn STAILQ_HEAD(smu_cmdq, smu_cmd);
7398dc2964SNathan Whitehorn
746abc7eb7SNathan Whitehorn struct smu_fan {
7584d77676SNathan Whitehorn struct pmac_fan fan;
7684d77676SNathan Whitehorn device_t dev;
776abc7eb7SNathan Whitehorn cell_t reg;
78f41c8c17SNathan Whitehorn
790cb99154SAndreas Tobler enum {
800cb99154SAndreas Tobler SMU_FAN_RPM,
810cb99154SAndreas Tobler SMU_FAN_PWM
820cb99154SAndreas Tobler } type;
83f41c8c17SNathan Whitehorn int setpoint;
847f3d2746SNathan Whitehorn int old_style;
850cb99154SAndreas Tobler int rpm;
860cb99154SAndreas Tobler };
870cb99154SAndreas Tobler
880cb99154SAndreas Tobler /* We can read the PWM and the RPM from a PWM controlled fan.
890cb99154SAndreas Tobler * Offer both values via sysctl.
900cb99154SAndreas Tobler */
910cb99154SAndreas Tobler enum {
920cb99154SAndreas Tobler SMU_PWM_SYSCTL_PWM = 1 << 8,
930cb99154SAndreas Tobler SMU_PWM_SYSCTL_RPM = 2 << 8
946abc7eb7SNathan Whitehorn };
956abc7eb7SNathan Whitehorn
966abc7eb7SNathan Whitehorn struct smu_sensor {
9784d77676SNathan Whitehorn struct pmac_therm therm;
9884d77676SNathan Whitehorn device_t dev;
9984d77676SNathan Whitehorn
1006abc7eb7SNathan Whitehorn cell_t reg;
1016abc7eb7SNathan Whitehorn enum {
1026abc7eb7SNathan Whitehorn SMU_CURRENT_SENSOR,
1036abc7eb7SNathan Whitehorn SMU_VOLTAGE_SENSOR,
1046abc7eb7SNathan Whitehorn SMU_POWER_SENSOR,
1056abc7eb7SNathan Whitehorn SMU_TEMP_SENSOR
1066abc7eb7SNathan Whitehorn } type;
1076abc7eb7SNathan Whitehorn };
1086abc7eb7SNathan Whitehorn
1091016f143SNathan Whitehorn struct smu_softc {
1101016f143SNathan Whitehorn device_t sc_dev;
1111016f143SNathan Whitehorn struct mtx sc_mtx;
1121016f143SNathan Whitehorn
1131016f143SNathan Whitehorn struct resource *sc_memr;
1141016f143SNathan Whitehorn int sc_memrid;
115a62a5fd2SNathan Whitehorn int sc_u3;
1161016f143SNathan Whitehorn
1171016f143SNathan Whitehorn bus_dma_tag_t sc_dmatag;
1181016f143SNathan Whitehorn bus_space_tag_t sc_bt;
1191016f143SNathan Whitehorn bus_space_handle_t sc_mailbox;
1201016f143SNathan Whitehorn
12198dc2964SNathan Whitehorn struct smu_cmd *sc_cmd, *sc_cur_cmd;
1221016f143SNathan Whitehorn bus_addr_t sc_cmd_phys;
1231016f143SNathan Whitehorn bus_dmamap_t sc_cmd_dmamap;
12498dc2964SNathan Whitehorn struct smu_cmdq sc_cmdq;
1256abc7eb7SNathan Whitehorn
1266abc7eb7SNathan Whitehorn struct smu_fan *sc_fans;
1276abc7eb7SNathan Whitehorn int sc_nfans;
1287f3d2746SNathan Whitehorn int old_style_fans;
1296abc7eb7SNathan Whitehorn struct smu_sensor *sc_sensors;
1306abc7eb7SNathan Whitehorn int sc_nsensors;
1316abc7eb7SNathan Whitehorn
13298dc2964SNathan Whitehorn int sc_doorbellirqid;
13398dc2964SNathan Whitehorn struct resource *sc_doorbellirq;
13498dc2964SNathan Whitehorn void *sc_doorbellirqcookie;
13598dc2964SNathan Whitehorn
13698dc2964SNathan Whitehorn struct proc *sc_fanmgt_proc;
137f41c8c17SNathan Whitehorn time_t sc_lastuserchange;
138f41c8c17SNathan Whitehorn
1396abc7eb7SNathan Whitehorn /* Calibration data */
1406abc7eb7SNathan Whitehorn uint16_t sc_cpu_diode_scale;
1416abc7eb7SNathan Whitehorn int16_t sc_cpu_diode_offset;
1426abc7eb7SNathan Whitehorn
1436abc7eb7SNathan Whitehorn uint16_t sc_cpu_volt_scale;
1446abc7eb7SNathan Whitehorn int16_t sc_cpu_volt_offset;
1456abc7eb7SNathan Whitehorn uint16_t sc_cpu_curr_scale;
1466abc7eb7SNathan Whitehorn int16_t sc_cpu_curr_offset;
1476abc7eb7SNathan Whitehorn
1486abc7eb7SNathan Whitehorn uint16_t sc_slots_pow_scale;
1496abc7eb7SNathan Whitehorn int16_t sc_slots_pow_offset;
150f41c8c17SNathan Whitehorn
15190a1456bSNathan Whitehorn struct cdev *sc_leddev;
1521016f143SNathan Whitehorn };
1531016f143SNathan Whitehorn
1541016f143SNathan Whitehorn /* regular bus attachment functions */
1551016f143SNathan Whitehorn
1561016f143SNathan Whitehorn static int smu_probe(device_t);
1571016f143SNathan Whitehorn static int smu_attach(device_t);
15845f7ed01SNathan Whitehorn static const struct ofw_bus_devinfo *
15945f7ed01SNathan Whitehorn smu_get_devinfo(device_t bus, device_t dev);
1601016f143SNathan Whitehorn
1611016f143SNathan Whitehorn /* cpufreq notification hooks */
1621016f143SNathan Whitehorn
1631016f143SNathan Whitehorn static void smu_cpufreq_pre_change(device_t, const struct cf_level *level);
1641016f143SNathan Whitehorn static void smu_cpufreq_post_change(device_t, const struct cf_level *level);
1651016f143SNathan Whitehorn
1663df9e037SNathan Whitehorn /* clock interface */
1673df9e037SNathan Whitehorn static int smu_gettime(device_t dev, struct timespec *ts);
1683df9e037SNathan Whitehorn static int smu_settime(device_t dev, struct timespec *ts);
1693df9e037SNathan Whitehorn
1706abc7eb7SNathan Whitehorn /* utility functions */
17198dc2964SNathan Whitehorn static int smu_run_cmd(device_t dev, struct smu_cmd *cmd, int wait);
1726abc7eb7SNathan Whitehorn static int smu_get_datablock(device_t dev, int8_t id, uint8_t *buf,
1736abc7eb7SNathan Whitehorn size_t len);
17445f7ed01SNathan Whitehorn static void smu_attach_i2c(device_t dev, phandle_t i2croot);
1756abc7eb7SNathan Whitehorn static void smu_attach_fans(device_t dev, phandle_t fanroot);
1766abc7eb7SNathan Whitehorn static void smu_attach_sensors(device_t dev, phandle_t sensroot);
17790a1456bSNathan Whitehorn static void smu_set_sleepled(void *xdev, int onoff);
178823d02a0SNathan Whitehorn static int smu_server_mode(SYSCTL_HANDLER_ARGS);
17998dc2964SNathan Whitehorn static void smu_doorbell_intr(void *xdev);
180b2a237beSNathan Whitehorn static void smu_shutdown(void *xdev, int howto);
1816abc7eb7SNathan Whitehorn
1821016f143SNathan Whitehorn /* where to find the doorbell GPIO */
1831016f143SNathan Whitehorn
1841016f143SNathan Whitehorn static device_t smu_doorbell = NULL;
1851016f143SNathan Whitehorn
1861016f143SNathan Whitehorn static device_method_t smu_methods[] = {
1871016f143SNathan Whitehorn /* Device interface */
1881016f143SNathan Whitehorn DEVMETHOD(device_probe, smu_probe),
1891016f143SNathan Whitehorn DEVMETHOD(device_attach, smu_attach),
1903df9e037SNathan Whitehorn
1913df9e037SNathan Whitehorn /* Clock interface */
1923df9e037SNathan Whitehorn DEVMETHOD(clock_gettime, smu_gettime),
1933df9e037SNathan Whitehorn DEVMETHOD(clock_settime, smu_settime),
19445f7ed01SNathan Whitehorn
19545f7ed01SNathan Whitehorn /* ofw_bus interface */
196ddfc9c4cSWarner Losh DEVMETHOD(bus_child_pnpinfo, ofw_bus_gen_child_pnpinfo),
19745f7ed01SNathan Whitehorn DEVMETHOD(ofw_bus_get_devinfo, smu_get_devinfo),
19845f7ed01SNathan Whitehorn DEVMETHOD(ofw_bus_get_compat, ofw_bus_gen_get_compat),
19945f7ed01SNathan Whitehorn DEVMETHOD(ofw_bus_get_model, ofw_bus_gen_get_model),
20045f7ed01SNathan Whitehorn DEVMETHOD(ofw_bus_get_name, ofw_bus_gen_get_name),
20145f7ed01SNathan Whitehorn DEVMETHOD(ofw_bus_get_node, ofw_bus_gen_get_node),
20245f7ed01SNathan Whitehorn DEVMETHOD(ofw_bus_get_type, ofw_bus_gen_get_type),
20345f7ed01SNathan Whitehorn
2041016f143SNathan Whitehorn { 0, 0 },
2051016f143SNathan Whitehorn };
2061016f143SNathan Whitehorn
2071016f143SNathan Whitehorn static driver_t smu_driver = {
2081016f143SNathan Whitehorn "smu",
2091016f143SNathan Whitehorn smu_methods,
2101016f143SNathan Whitehorn sizeof(struct smu_softc)
2111016f143SNathan Whitehorn };
2121016f143SNathan Whitehorn
213992ae60bSJohn Baldwin DRIVER_MODULE(smu, ofwbus, smu_driver, 0, 0);
214d745c852SEd Schouten static MALLOC_DEFINE(M_SMU, "smu", "SMU Sensor Information");
2151016f143SNathan Whitehorn
2166abc7eb7SNathan Whitehorn #define SMU_MAILBOX 0x8000860c
21798dc2964SNathan Whitehorn #define SMU_FANMGT_INTERVAL 1000 /* ms */
2181016f143SNathan Whitehorn
2191016f143SNathan Whitehorn /* Command types */
2206abc7eb7SNathan Whitehorn #define SMU_ADC 0xd8
2216abc7eb7SNathan Whitehorn #define SMU_FAN 0x4a
2220cb99154SAndreas Tobler #define SMU_RPM_STATUS 0x01
2230cb99154SAndreas Tobler #define SMU_RPM_SETPOINT 0x02
2240cb99154SAndreas Tobler #define SMU_PWM_STATUS 0x11
2250cb99154SAndreas Tobler #define SMU_PWM_SETPOINT 0x12
2266abc7eb7SNathan Whitehorn #define SMU_I2C 0x9a
2276abc7eb7SNathan Whitehorn #define SMU_I2C_SIMPLE 0x00
2286abc7eb7SNathan Whitehorn #define SMU_I2C_NORMAL 0x01
2296abc7eb7SNathan Whitehorn #define SMU_I2C_COMBINED 0x02
2306abc7eb7SNathan Whitehorn #define SMU_MISC 0xee
2316abc7eb7SNathan Whitehorn #define SMU_MISC_GET_DATA 0x02
232ddc58b93SNathan Whitehorn #define SMU_MISC_LED_CTRL 0x04
2331016f143SNathan Whitehorn #define SMU_POWER 0xaa
234823d02a0SNathan Whitehorn #define SMU_POWER_EVENTS 0x8f
235823d02a0SNathan Whitehorn #define SMU_PWR_GET_POWERUP 0x00
236823d02a0SNathan Whitehorn #define SMU_PWR_SET_POWERUP 0x01
237823d02a0SNathan Whitehorn #define SMU_PWR_CLR_POWERUP 0x02
2383df9e037SNathan Whitehorn #define SMU_RTC 0x8e
2393df9e037SNathan Whitehorn #define SMU_RTC_GET 0x81
2403df9e037SNathan Whitehorn #define SMU_RTC_SET 0x80
241823d02a0SNathan Whitehorn
242823d02a0SNathan Whitehorn /* Power event types */
243823d02a0SNathan Whitehorn #define SMU_WAKEUP_KEYPRESS 0x01
244823d02a0SNathan Whitehorn #define SMU_WAKEUP_AC_INSERT 0x02
245823d02a0SNathan Whitehorn #define SMU_WAKEUP_AC_CHANGE 0x04
246823d02a0SNathan Whitehorn #define SMU_WAKEUP_RING 0x10
2471016f143SNathan Whitehorn
2486abc7eb7SNathan Whitehorn /* Data blocks */
2496abc7eb7SNathan Whitehorn #define SMU_CPUTEMP_CAL 0x18
2506abc7eb7SNathan Whitehorn #define SMU_CPUVOLT_CAL 0x21
2516abc7eb7SNathan Whitehorn #define SMU_SLOTPW_CAL 0x78
2526abc7eb7SNathan Whitehorn
2536abc7eb7SNathan Whitehorn /* Partitions */
2546abc7eb7SNathan Whitehorn #define SMU_PARTITION 0x3e
2556abc7eb7SNathan Whitehorn #define SMU_PARTITION_LATEST 0x01
2566abc7eb7SNathan Whitehorn #define SMU_PARTITION_BASE 0x02
2576abc7eb7SNathan Whitehorn #define SMU_PARTITION_UPDATE 0x03
2586abc7eb7SNathan Whitehorn
2591016f143SNathan Whitehorn static int
smu_probe(device_t dev)2601016f143SNathan Whitehorn smu_probe(device_t dev)
2611016f143SNathan Whitehorn {
2621016f143SNathan Whitehorn const char *name = ofw_bus_get_name(dev);
2631016f143SNathan Whitehorn
2641016f143SNathan Whitehorn if (strcmp(name, "smu") != 0)
2651016f143SNathan Whitehorn return (ENXIO);
2661016f143SNathan Whitehorn
2671016f143SNathan Whitehorn device_set_desc(dev, "Apple System Management Unit");
2681016f143SNathan Whitehorn return (0);
2691016f143SNathan Whitehorn }
2701016f143SNathan Whitehorn
2711016f143SNathan Whitehorn static void
smu_phys_callback(void * xsc,bus_dma_segment_t * segs,int nsegs,int error)2721016f143SNathan Whitehorn smu_phys_callback(void *xsc, bus_dma_segment_t *segs, int nsegs, int error)
2731016f143SNathan Whitehorn {
2741016f143SNathan Whitehorn struct smu_softc *sc = xsc;
2751016f143SNathan Whitehorn
2761016f143SNathan Whitehorn sc->sc_cmd_phys = segs[0].ds_addr;
2771016f143SNathan Whitehorn }
2781016f143SNathan Whitehorn
2791016f143SNathan Whitehorn static int
smu_attach(device_t dev)2801016f143SNathan Whitehorn smu_attach(device_t dev)
2811016f143SNathan Whitehorn {
2821016f143SNathan Whitehorn struct smu_softc *sc;
2836abc7eb7SNathan Whitehorn phandle_t node, child;
2846abc7eb7SNathan Whitehorn uint8_t data[12];
2851016f143SNathan Whitehorn
2861016f143SNathan Whitehorn sc = device_get_softc(dev);
2871016f143SNathan Whitehorn
2881016f143SNathan Whitehorn mtx_init(&sc->sc_mtx, "smu", NULL, MTX_DEF);
28998dc2964SNathan Whitehorn sc->sc_cur_cmd = NULL;
29098dc2964SNathan Whitehorn sc->sc_doorbellirqid = -1;
2911016f143SNathan Whitehorn
292a62a5fd2SNathan Whitehorn sc->sc_u3 = 0;
293a62a5fd2SNathan Whitehorn if (OF_finddevice("/u3") != -1)
294a62a5fd2SNathan Whitehorn sc->sc_u3 = 1;
295a62a5fd2SNathan Whitehorn
2961016f143SNathan Whitehorn /*
2971016f143SNathan Whitehorn * Map the mailbox area. This should be determined from firmware,
2981016f143SNathan Whitehorn * but I have not found a simple way to do that.
2991016f143SNathan Whitehorn */
3001016f143SNathan Whitehorn bus_dma_tag_create(NULL, 16, 0, BUS_SPACE_MAXADDR_32BIT,
3011016f143SNathan Whitehorn BUS_SPACE_MAXADDR, NULL, NULL, PAGE_SIZE, 1, PAGE_SIZE, 0, NULL,
3021016f143SNathan Whitehorn NULL, &(sc->sc_dmatag));
3036abc7eb7SNathan Whitehorn sc->sc_bt = &bs_le_tag;
3041016f143SNathan Whitehorn bus_space_map(sc->sc_bt, SMU_MAILBOX, 4, 0, &sc->sc_mailbox);
3051016f143SNathan Whitehorn
3061016f143SNathan Whitehorn /*
3071016f143SNathan Whitehorn * Allocate the command buffer. This can be anywhere in the low 4 GB
3081016f143SNathan Whitehorn * of memory.
3091016f143SNathan Whitehorn */
3101016f143SNathan Whitehorn bus_dmamem_alloc(sc->sc_dmatag, (void **)&sc->sc_cmd, BUS_DMA_WAITOK |
3111016f143SNathan Whitehorn BUS_DMA_ZERO, &sc->sc_cmd_dmamap);
3121016f143SNathan Whitehorn bus_dmamap_load(sc->sc_dmatag, sc->sc_cmd_dmamap,
3131016f143SNathan Whitehorn sc->sc_cmd, PAGE_SIZE, smu_phys_callback, sc, 0);
31498dc2964SNathan Whitehorn STAILQ_INIT(&sc->sc_cmdq);
3151016f143SNathan Whitehorn
3161016f143SNathan Whitehorn /*
3171016f143SNathan Whitehorn * Set up handlers to change CPU voltage when CPU frequency is changed.
3181016f143SNathan Whitehorn */
3191016f143SNathan Whitehorn EVENTHANDLER_REGISTER(cpufreq_pre_change, smu_cpufreq_pre_change, dev,
3201016f143SNathan Whitehorn EVENTHANDLER_PRI_ANY);
3211016f143SNathan Whitehorn EVENTHANDLER_REGISTER(cpufreq_post_change, smu_cpufreq_post_change, dev,
3221016f143SNathan Whitehorn EVENTHANDLER_PRI_ANY);
3231016f143SNathan Whitehorn
3246abc7eb7SNathan Whitehorn node = ofw_bus_get_node(dev);
3250cb99154SAndreas Tobler
3260cb99154SAndreas Tobler /* Some SMUs have RPM and PWM controlled fans which do not sit
3270cb99154SAndreas Tobler * under the same node. So we have to attach them separately.
3280cb99154SAndreas Tobler */
3290cb99154SAndreas Tobler smu_attach_fans(dev, node);
3300cb99154SAndreas Tobler
3310cb99154SAndreas Tobler /*
3320cb99154SAndreas Tobler * Now detect and attach the other child devices.
3330cb99154SAndreas Tobler */
3346abc7eb7SNathan Whitehorn for (child = OF_child(node); child != 0; child = OF_peer(child)) {
3356abc7eb7SNathan Whitehorn char name[32];
3366abc7eb7SNathan Whitehorn memset(name, 0, sizeof(name));
3376abc7eb7SNathan Whitehorn OF_getprop(child, "name", name, sizeof(name));
3386abc7eb7SNathan Whitehorn
3396abc7eb7SNathan Whitehorn if (strncmp(name, "sensors", 8) == 0)
3406abc7eb7SNathan Whitehorn smu_attach_sensors(dev, child);
34145f7ed01SNathan Whitehorn
34245f7ed01SNathan Whitehorn if (strncmp(name, "smu-i2c-control", 15) == 0)
34345f7ed01SNathan Whitehorn smu_attach_i2c(dev, child);
3446abc7eb7SNathan Whitehorn }
3456abc7eb7SNathan Whitehorn
34645f7ed01SNathan Whitehorn /* Some SMUs have the I2C children directly under the bus. */
34745f7ed01SNathan Whitehorn smu_attach_i2c(dev, node);
34845f7ed01SNathan Whitehorn
3496abc7eb7SNathan Whitehorn /*
3506abc7eb7SNathan Whitehorn * Collect calibration constants.
3516abc7eb7SNathan Whitehorn */
3526abc7eb7SNathan Whitehorn smu_get_datablock(dev, SMU_CPUTEMP_CAL, data, sizeof(data));
3536abc7eb7SNathan Whitehorn sc->sc_cpu_diode_scale = (data[4] << 8) + data[5];
3546abc7eb7SNathan Whitehorn sc->sc_cpu_diode_offset = (data[6] << 8) + data[7];
3556abc7eb7SNathan Whitehorn
3566abc7eb7SNathan Whitehorn smu_get_datablock(dev, SMU_CPUVOLT_CAL, data, sizeof(data));
3576abc7eb7SNathan Whitehorn sc->sc_cpu_volt_scale = (data[4] << 8) + data[5];
3586abc7eb7SNathan Whitehorn sc->sc_cpu_volt_offset = (data[6] << 8) + data[7];
3596abc7eb7SNathan Whitehorn sc->sc_cpu_curr_scale = (data[8] << 8) + data[9];
3606abc7eb7SNathan Whitehorn sc->sc_cpu_curr_offset = (data[10] << 8) + data[11];
3616abc7eb7SNathan Whitehorn
3626abc7eb7SNathan Whitehorn smu_get_datablock(dev, SMU_SLOTPW_CAL, data, sizeof(data));
3636abc7eb7SNathan Whitehorn sc->sc_slots_pow_scale = (data[4] << 8) + data[5];
3646abc7eb7SNathan Whitehorn sc->sc_slots_pow_offset = (data[6] << 8) + data[7];
3656abc7eb7SNathan Whitehorn
366f41c8c17SNathan Whitehorn /*
36790a1456bSNathan Whitehorn * Set up LED interface
36890a1456bSNathan Whitehorn */
36990a1456bSNathan Whitehorn sc->sc_leddev = led_create(smu_set_sleepled, dev, "sleepled");
37090a1456bSNathan Whitehorn
371823d02a0SNathan Whitehorn /*
372823d02a0SNathan Whitehorn * Reset on power loss behavior
373823d02a0SNathan Whitehorn */
374823d02a0SNathan Whitehorn
375823d02a0SNathan Whitehorn SYSCTL_ADD_PROC(device_get_sysctl_ctx(dev),
376823d02a0SNathan Whitehorn SYSCTL_CHILDREN(device_get_sysctl_tree(dev)), OID_AUTO,
3777029da5cSPawel Biernacki "server_mode", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_NEEDGIANT, dev,
3787029da5cSPawel Biernacki 0, smu_server_mode, "I", "Enable reboot after power failure");
379823d02a0SNathan Whitehorn
38098dc2964SNathan Whitehorn /*
38198dc2964SNathan Whitehorn * Set up doorbell interrupt.
38298dc2964SNathan Whitehorn */
38398dc2964SNathan Whitehorn sc->sc_doorbellirqid = 0;
38498dc2964SNathan Whitehorn sc->sc_doorbellirq = bus_alloc_resource_any(smu_doorbell, SYS_RES_IRQ,
38598dc2964SNathan Whitehorn &sc->sc_doorbellirqid, RF_ACTIVE);
38698dc2964SNathan Whitehorn bus_setup_intr(smu_doorbell, sc->sc_doorbellirq,
38798dc2964SNathan Whitehorn INTR_TYPE_MISC | INTR_MPSAFE, NULL, smu_doorbell_intr, dev,
38898dc2964SNathan Whitehorn &sc->sc_doorbellirqcookie);
38998dc2964SNathan Whitehorn powerpc_config_intr(rman_get_start(sc->sc_doorbellirq),
39098dc2964SNathan Whitehorn INTR_TRIGGER_EDGE, INTR_POLARITY_LOW);
39198dc2964SNathan Whitehorn
3923df9e037SNathan Whitehorn /*
3933df9e037SNathan Whitehorn * Connect RTC interface.
3943df9e037SNathan Whitehorn */
3953df9e037SNathan Whitehorn clock_register(dev, 1000);
3963df9e037SNathan Whitehorn
397b2a237beSNathan Whitehorn /*
398b2a237beSNathan Whitehorn * Learn about shutdown events
399b2a237beSNathan Whitehorn */
400b2a237beSNathan Whitehorn EVENTHANDLER_REGISTER(shutdown_final, smu_shutdown, dev,
401b2a237beSNathan Whitehorn SHUTDOWN_PRI_LAST);
402b2a237beSNathan Whitehorn
403*18250ec6SJohn Baldwin bus_attach_children(dev);
404*18250ec6SJohn Baldwin return (0);
40545f7ed01SNathan Whitehorn }
40645f7ed01SNathan Whitehorn
40745f7ed01SNathan Whitehorn static const struct ofw_bus_devinfo *
smu_get_devinfo(device_t bus,device_t dev)40845f7ed01SNathan Whitehorn smu_get_devinfo(device_t bus, device_t dev)
40945f7ed01SNathan Whitehorn {
41045f7ed01SNathan Whitehorn
41145f7ed01SNathan Whitehorn return (device_get_ivars(dev));
4121016f143SNathan Whitehorn }
4131016f143SNathan Whitehorn
41498dc2964SNathan Whitehorn static void
smu_send_cmd(device_t dev,struct smu_cmd * cmd)41598dc2964SNathan Whitehorn smu_send_cmd(device_t dev, struct smu_cmd *cmd)
4161016f143SNathan Whitehorn {
4171016f143SNathan Whitehorn struct smu_softc *sc;
4181016f143SNathan Whitehorn
4191016f143SNathan Whitehorn sc = device_get_softc(dev);
4201016f143SNathan Whitehorn
42198dc2964SNathan Whitehorn mtx_assert(&sc->sc_mtx, MA_OWNED);
4221016f143SNathan Whitehorn
423a62a5fd2SNathan Whitehorn if (sc->sc_u3)
42498dc2964SNathan Whitehorn powerpc_pow_enabled = 0; /* SMU cannot work if we go to NAP */
425a62a5fd2SNathan Whitehorn
42698dc2964SNathan Whitehorn sc->sc_cur_cmd = cmd;
4276abc7eb7SNathan Whitehorn
4281016f143SNathan Whitehorn /* Copy the command to the mailbox */
42998dc2964SNathan Whitehorn sc->sc_cmd->cmd = cmd->cmd;
43098dc2964SNathan Whitehorn sc->sc_cmd->len = cmd->len;
43198dc2964SNathan Whitehorn memcpy(sc->sc_cmd->data, cmd->data, sizeof(cmd->data));
4321016f143SNathan Whitehorn bus_dmamap_sync(sc->sc_dmatag, sc->sc_cmd_dmamap, BUS_DMASYNC_PREWRITE);
4331016f143SNathan Whitehorn bus_space_write_4(sc->sc_bt, sc->sc_mailbox, 0, sc->sc_cmd_phys);
4341016f143SNathan Whitehorn
4356abc7eb7SNathan Whitehorn /* Flush the cacheline it is in -- SMU bypasses the cache */
4366abc7eb7SNathan Whitehorn __asm __volatile("sync; dcbf 0,%0; sync" :: "r"(sc->sc_cmd): "memory");
4371016f143SNathan Whitehorn
4381016f143SNathan Whitehorn /* Ring SMU doorbell */
4391016f143SNathan Whitehorn macgpio_write(smu_doorbell, GPIO_DDR_OUTPUT);
44098dc2964SNathan Whitehorn }
4411016f143SNathan Whitehorn
44298dc2964SNathan Whitehorn static void
smu_doorbell_intr(void * xdev)44398dc2964SNathan Whitehorn smu_doorbell_intr(void *xdev)
44498dc2964SNathan Whitehorn {
44598dc2964SNathan Whitehorn device_t smu;
44698dc2964SNathan Whitehorn struct smu_softc *sc;
44798dc2964SNathan Whitehorn int doorbell_ack;
44898dc2964SNathan Whitehorn
44998dc2964SNathan Whitehorn smu = xdev;
4501016f143SNathan Whitehorn doorbell_ack = macgpio_read(smu_doorbell);
45198dc2964SNathan Whitehorn sc = device_get_softc(smu);
45298dc2964SNathan Whitehorn
45398dc2964SNathan Whitehorn if (doorbell_ack != (GPIO_DDR_OUTPUT | GPIO_LEVEL_RO | GPIO_DATA))
45498dc2964SNathan Whitehorn return;
45598dc2964SNathan Whitehorn
45698dc2964SNathan Whitehorn mtx_lock(&sc->sc_mtx);
45798dc2964SNathan Whitehorn
45898dc2964SNathan Whitehorn if (sc->sc_cur_cmd == NULL) /* spurious */
45998dc2964SNathan Whitehorn goto done;
4601016f143SNathan Whitehorn
4611016f143SNathan Whitehorn /* Check result. First invalidate the cache again... */
4621016f143SNathan Whitehorn __asm __volatile("dcbf 0,%0; sync" :: "r"(sc->sc_cmd) : "memory");
4631016f143SNathan Whitehorn
4641016f143SNathan Whitehorn bus_dmamap_sync(sc->sc_dmatag, sc->sc_cmd_dmamap, BUS_DMASYNC_POSTREAD);
4651016f143SNathan Whitehorn
46698dc2964SNathan Whitehorn sc->sc_cur_cmd->cmd = sc->sc_cmd->cmd;
46798dc2964SNathan Whitehorn sc->sc_cur_cmd->len = sc->sc_cmd->len;
46898dc2964SNathan Whitehorn memcpy(sc->sc_cur_cmd->data, sc->sc_cmd->data,
46998dc2964SNathan Whitehorn sizeof(sc->sc_cmd->data));
47098dc2964SNathan Whitehorn wakeup(sc->sc_cur_cmd);
47198dc2964SNathan Whitehorn sc->sc_cur_cmd = NULL;
472a62a5fd2SNathan Whitehorn if (sc->sc_u3)
47398dc2964SNathan Whitehorn powerpc_pow_enabled = 1;
4741016f143SNathan Whitehorn
47598dc2964SNathan Whitehorn done:
47698dc2964SNathan Whitehorn /* Queue next command if one is pending */
47798dc2964SNathan Whitehorn if (STAILQ_FIRST(&sc->sc_cmdq) != NULL) {
47898dc2964SNathan Whitehorn sc->sc_cur_cmd = STAILQ_FIRST(&sc->sc_cmdq);
47998dc2964SNathan Whitehorn STAILQ_REMOVE_HEAD(&sc->sc_cmdq, cmd_q);
48098dc2964SNathan Whitehorn smu_send_cmd(smu, sc->sc_cur_cmd);
48198dc2964SNathan Whitehorn }
4826abc7eb7SNathan Whitehorn
4831016f143SNathan Whitehorn mtx_unlock(&sc->sc_mtx);
48498dc2964SNathan Whitehorn }
4851016f143SNathan Whitehorn
48698dc2964SNathan Whitehorn static int
smu_run_cmd(device_t dev,struct smu_cmd * cmd,int wait)48798dc2964SNathan Whitehorn smu_run_cmd(device_t dev, struct smu_cmd *cmd, int wait)
48898dc2964SNathan Whitehorn {
48998dc2964SNathan Whitehorn struct smu_softc *sc;
49098dc2964SNathan Whitehorn uint8_t cmd_code;
49198dc2964SNathan Whitehorn int error;
49298dc2964SNathan Whitehorn
49398dc2964SNathan Whitehorn sc = device_get_softc(dev);
49498dc2964SNathan Whitehorn cmd_code = cmd->cmd;
49598dc2964SNathan Whitehorn
49698dc2964SNathan Whitehorn mtx_lock(&sc->sc_mtx);
49798dc2964SNathan Whitehorn if (sc->sc_cur_cmd != NULL) {
49898dc2964SNathan Whitehorn STAILQ_INSERT_TAIL(&sc->sc_cmdq, cmd, cmd_q);
49998dc2964SNathan Whitehorn } else
50098dc2964SNathan Whitehorn smu_send_cmd(dev, cmd);
50198dc2964SNathan Whitehorn mtx_unlock(&sc->sc_mtx);
50298dc2964SNathan Whitehorn
50398dc2964SNathan Whitehorn if (!wait)
50498dc2964SNathan Whitehorn return (0);
50598dc2964SNathan Whitehorn
50698dc2964SNathan Whitehorn if (sc->sc_doorbellirqid < 0) {
50798dc2964SNathan Whitehorn /* Poll if the IRQ has not been set up yet */
50898dc2964SNathan Whitehorn do {
50998dc2964SNathan Whitehorn DELAY(50);
51098dc2964SNathan Whitehorn smu_doorbell_intr(dev);
51198dc2964SNathan Whitehorn } while (sc->sc_cur_cmd != NULL);
51298dc2964SNathan Whitehorn } else {
51398dc2964SNathan Whitehorn /* smu_doorbell_intr will wake us when the command is ACK'ed */
51498dc2964SNathan Whitehorn error = tsleep(cmd, 0, "smu", 800 * hz / 1000);
51598dc2964SNathan Whitehorn if (error != 0)
51698dc2964SNathan Whitehorn smu_doorbell_intr(dev); /* One last chance */
51798dc2964SNathan Whitehorn
51898dc2964SNathan Whitehorn if (error != 0) {
51998dc2964SNathan Whitehorn mtx_lock(&sc->sc_mtx);
52098dc2964SNathan Whitehorn if (cmd->cmd == cmd_code) { /* Never processed */
52198dc2964SNathan Whitehorn /* Abort this command if we timed out */
52298dc2964SNathan Whitehorn if (sc->sc_cur_cmd == cmd)
52398dc2964SNathan Whitehorn sc->sc_cur_cmd = NULL;
52498dc2964SNathan Whitehorn else
52598dc2964SNathan Whitehorn STAILQ_REMOVE(&sc->sc_cmdq, cmd, smu_cmd,
52698dc2964SNathan Whitehorn cmd_q);
52798dc2964SNathan Whitehorn mtx_unlock(&sc->sc_mtx);
52898dc2964SNathan Whitehorn return (error);
52998dc2964SNathan Whitehorn }
53098dc2964SNathan Whitehorn error = 0;
53198dc2964SNathan Whitehorn mtx_unlock(&sc->sc_mtx);
53298dc2964SNathan Whitehorn }
53398dc2964SNathan Whitehorn }
53498dc2964SNathan Whitehorn
53598dc2964SNathan Whitehorn /* SMU acks the command by inverting the command bits */
53698dc2964SNathan Whitehorn if (cmd->cmd == ((~cmd_code) & 0xff))
53798dc2964SNathan Whitehorn error = 0;
53898dc2964SNathan Whitehorn else
53998dc2964SNathan Whitehorn error = EIO;
54098dc2964SNathan Whitehorn
54198dc2964SNathan Whitehorn return (error);
5421016f143SNathan Whitehorn }
5431016f143SNathan Whitehorn
5446abc7eb7SNathan Whitehorn static int
smu_get_datablock(device_t dev,int8_t id,uint8_t * buf,size_t len)5456abc7eb7SNathan Whitehorn smu_get_datablock(device_t dev, int8_t id, uint8_t *buf, size_t len)
5466abc7eb7SNathan Whitehorn {
5476abc7eb7SNathan Whitehorn struct smu_cmd cmd;
5486abc7eb7SNathan Whitehorn uint8_t addr[4];
5496abc7eb7SNathan Whitehorn
5506abc7eb7SNathan Whitehorn cmd.cmd = SMU_PARTITION;
5516abc7eb7SNathan Whitehorn cmd.len = 2;
5526abc7eb7SNathan Whitehorn cmd.data[0] = SMU_PARTITION_LATEST;
5536abc7eb7SNathan Whitehorn cmd.data[1] = id;
5546abc7eb7SNathan Whitehorn
55598dc2964SNathan Whitehorn smu_run_cmd(dev, &cmd, 1);
5566abc7eb7SNathan Whitehorn
5576abc7eb7SNathan Whitehorn addr[0] = addr[1] = 0;
5586abc7eb7SNathan Whitehorn addr[2] = cmd.data[0];
5596abc7eb7SNathan Whitehorn addr[3] = cmd.data[1];
5606abc7eb7SNathan Whitehorn
5616abc7eb7SNathan Whitehorn cmd.cmd = SMU_MISC;
5626abc7eb7SNathan Whitehorn cmd.len = 7;
5636abc7eb7SNathan Whitehorn cmd.data[0] = SMU_MISC_GET_DATA;
5646abc7eb7SNathan Whitehorn cmd.data[1] = sizeof(addr);
5656abc7eb7SNathan Whitehorn memcpy(&cmd.data[2], addr, sizeof(addr));
5666abc7eb7SNathan Whitehorn cmd.data[6] = len;
5676abc7eb7SNathan Whitehorn
56898dc2964SNathan Whitehorn smu_run_cmd(dev, &cmd, 1);
5696abc7eb7SNathan Whitehorn memcpy(buf, cmd.data, len);
5706abc7eb7SNathan Whitehorn return (0);
5716abc7eb7SNathan Whitehorn }
5726abc7eb7SNathan Whitehorn
5731016f143SNathan Whitehorn static void
smu_slew_cpu_voltage(device_t dev,int to)5741016f143SNathan Whitehorn smu_slew_cpu_voltage(device_t dev, int to)
5751016f143SNathan Whitehorn {
5761016f143SNathan Whitehorn struct smu_cmd cmd;
5771016f143SNathan Whitehorn
5781016f143SNathan Whitehorn cmd.cmd = SMU_POWER;
5791016f143SNathan Whitehorn cmd.len = 8;
5801016f143SNathan Whitehorn cmd.data[0] = 'V';
5811016f143SNathan Whitehorn cmd.data[1] = 'S';
5821016f143SNathan Whitehorn cmd.data[2] = 'L';
5831016f143SNathan Whitehorn cmd.data[3] = 'E';
5841016f143SNathan Whitehorn cmd.data[4] = 'W';
5851016f143SNathan Whitehorn cmd.data[5] = 0xff;
5861016f143SNathan Whitehorn cmd.data[6] = 1;
5871016f143SNathan Whitehorn cmd.data[7] = to;
5881016f143SNathan Whitehorn
58998dc2964SNathan Whitehorn smu_run_cmd(dev, &cmd, 1);
5901016f143SNathan Whitehorn }
5911016f143SNathan Whitehorn
5921016f143SNathan Whitehorn static void
smu_cpufreq_pre_change(device_t dev,const struct cf_level * level)5931016f143SNathan Whitehorn smu_cpufreq_pre_change(device_t dev, const struct cf_level *level)
5941016f143SNathan Whitehorn {
5951016f143SNathan Whitehorn /*
5961016f143SNathan Whitehorn * Make sure the CPU voltage is raised before we raise
5971016f143SNathan Whitehorn * the clock.
5981016f143SNathan Whitehorn */
5991016f143SNathan Whitehorn
6001016f143SNathan Whitehorn if (level->rel_set[0].freq == 10000 /* max */)
6011016f143SNathan Whitehorn smu_slew_cpu_voltage(dev, 0);
6021016f143SNathan Whitehorn }
6031016f143SNathan Whitehorn
6041016f143SNathan Whitehorn static void
smu_cpufreq_post_change(device_t dev,const struct cf_level * level)6051016f143SNathan Whitehorn smu_cpufreq_post_change(device_t dev, const struct cf_level *level)
6061016f143SNathan Whitehorn {
6071016f143SNathan Whitehorn /* We are safe to reduce CPU voltage after a downward transition */
6081016f143SNathan Whitehorn
6091016f143SNathan Whitehorn if (level->rel_set[0].freq < 10000 /* max */)
6101016f143SNathan Whitehorn smu_slew_cpu_voltage(dev, 1); /* XXX: 1/4 voltage for 970MP? */
6111016f143SNathan Whitehorn }
6121016f143SNathan Whitehorn
6131016f143SNathan Whitehorn /* Routines for probing the SMU doorbell GPIO */
6141016f143SNathan Whitehorn static int doorbell_probe(device_t dev);
6151016f143SNathan Whitehorn static int doorbell_attach(device_t dev);
6161016f143SNathan Whitehorn
6171016f143SNathan Whitehorn static device_method_t doorbell_methods[] = {
6181016f143SNathan Whitehorn /* Device interface */
6191016f143SNathan Whitehorn DEVMETHOD(device_probe, doorbell_probe),
6201016f143SNathan Whitehorn DEVMETHOD(device_attach, doorbell_attach),
6211016f143SNathan Whitehorn { 0, 0 },
6221016f143SNathan Whitehorn };
6231016f143SNathan Whitehorn
6241016f143SNathan Whitehorn static driver_t doorbell_driver = {
6251016f143SNathan Whitehorn "smudoorbell",
6261016f143SNathan Whitehorn doorbell_methods,
6271016f143SNathan Whitehorn 0
6281016f143SNathan Whitehorn };
6291016f143SNathan Whitehorn
630992ae60bSJohn Baldwin EARLY_DRIVER_MODULE(smudoorbell, macgpio, doorbell_driver, 0, 0,
631992ae60bSJohn Baldwin BUS_PASS_SUPPORTDEV);
6321016f143SNathan Whitehorn
6331016f143SNathan Whitehorn static int
doorbell_probe(device_t dev)6341016f143SNathan Whitehorn doorbell_probe(device_t dev)
6351016f143SNathan Whitehorn {
6361016f143SNathan Whitehorn const char *name = ofw_bus_get_name(dev);
6371016f143SNathan Whitehorn
6381016f143SNathan Whitehorn if (strcmp(name, "smu-doorbell") != 0)
6391016f143SNathan Whitehorn return (ENXIO);
6401016f143SNathan Whitehorn
6411016f143SNathan Whitehorn device_set_desc(dev, "SMU Doorbell GPIO");
6421016f143SNathan Whitehorn device_quiet(dev);
6431016f143SNathan Whitehorn return (0);
6441016f143SNathan Whitehorn }
6451016f143SNathan Whitehorn
6461016f143SNathan Whitehorn static int
doorbell_attach(device_t dev)6471016f143SNathan Whitehorn doorbell_attach(device_t dev)
6481016f143SNathan Whitehorn {
6491016f143SNathan Whitehorn smu_doorbell = dev;
6501016f143SNathan Whitehorn return (0);
6511016f143SNathan Whitehorn }
6526abc7eb7SNathan Whitehorn
6536abc7eb7SNathan Whitehorn /*
6546abc7eb7SNathan Whitehorn * Sensor and fan management
6556abc7eb7SNathan Whitehorn */
6566abc7eb7SNathan Whitehorn
6576abc7eb7SNathan Whitehorn static int
smu_fan_check_old_style(struct smu_fan * fan)6587f3d2746SNathan Whitehorn smu_fan_check_old_style(struct smu_fan *fan)
6597f3d2746SNathan Whitehorn {
6607f3d2746SNathan Whitehorn device_t smu = fan->dev;
6617f3d2746SNathan Whitehorn struct smu_softc *sc = device_get_softc(smu);
6627f3d2746SNathan Whitehorn struct smu_cmd cmd;
6637f3d2746SNathan Whitehorn int error;
6647f3d2746SNathan Whitehorn
6657f3d2746SNathan Whitehorn if (sc->old_style_fans != -1)
6667f3d2746SNathan Whitehorn return (sc->old_style_fans);
6677f3d2746SNathan Whitehorn
6687f3d2746SNathan Whitehorn /*
6697f3d2746SNathan Whitehorn * Apple has two fan control mechanisms. We can't distinguish
6707f3d2746SNathan Whitehorn * them except by seeing if the new one fails. If the new one
6717f3d2746SNathan Whitehorn * fails, use the old one.
6727f3d2746SNathan Whitehorn */
6737f3d2746SNathan Whitehorn
6747f3d2746SNathan Whitehorn cmd.cmd = SMU_FAN;
6757f3d2746SNathan Whitehorn cmd.len = 2;
6767f3d2746SNathan Whitehorn cmd.data[0] = 0x31;
6777f3d2746SNathan Whitehorn cmd.data[1] = fan->reg;
6787f3d2746SNathan Whitehorn
6797f3d2746SNathan Whitehorn do {
6807f3d2746SNathan Whitehorn error = smu_run_cmd(smu, &cmd, 1);
6817f3d2746SNathan Whitehorn } while (error == EWOULDBLOCK);
6827f3d2746SNathan Whitehorn
6837f3d2746SNathan Whitehorn sc->old_style_fans = (error != 0);
6847f3d2746SNathan Whitehorn
6857f3d2746SNathan Whitehorn return (sc->old_style_fans);
6867f3d2746SNathan Whitehorn }
6877f3d2746SNathan Whitehorn
6887f3d2746SNathan Whitehorn static int
smu_fan_set_rpm(struct smu_fan * fan,int rpm)68984d77676SNathan Whitehorn smu_fan_set_rpm(struct smu_fan *fan, int rpm)
6906abc7eb7SNathan Whitehorn {
69184d77676SNathan Whitehorn device_t smu = fan->dev;
6926abc7eb7SNathan Whitehorn struct smu_cmd cmd;
693ddc58b93SNathan Whitehorn int error;
6946abc7eb7SNathan Whitehorn
6956abc7eb7SNathan Whitehorn cmd.cmd = SMU_FAN;
696ddc58b93SNathan Whitehorn error = EIO;
697ddc58b93SNathan Whitehorn
698ddc58b93SNathan Whitehorn /* Clamp to allowed range */
69984d77676SNathan Whitehorn rpm = max(fan->fan.min_rpm, rpm);
70084d77676SNathan Whitehorn rpm = min(fan->fan.max_rpm, rpm);
701ddc58b93SNathan Whitehorn
7027f3d2746SNathan Whitehorn smu_fan_check_old_style(fan);
703ddc58b93SNathan Whitehorn
704ddc58b93SNathan Whitehorn if (!fan->old_style) {
705ddc58b93SNathan Whitehorn cmd.len = 4;
706ddc58b93SNathan Whitehorn cmd.data[0] = 0x30;
707ddc58b93SNathan Whitehorn cmd.data[1] = fan->reg;
708ddc58b93SNathan Whitehorn cmd.data[2] = (rpm >> 8) & 0xff;
709ddc58b93SNathan Whitehorn cmd.data[3] = rpm & 0xff;
710ddc58b93SNathan Whitehorn
71198dc2964SNathan Whitehorn error = smu_run_cmd(smu, &cmd, 1);
712ad84e440SNathan Whitehorn if (error && error != EWOULDBLOCK)
713ddc58b93SNathan Whitehorn fan->old_style = 1;
7147f3d2746SNathan Whitehorn } else {
7156abc7eb7SNathan Whitehorn cmd.len = 14;
7160cb99154SAndreas Tobler cmd.data[0] = 0x00; /* RPM fan. */
7176abc7eb7SNathan Whitehorn cmd.data[1] = 1 << fan->reg;
718ddc58b93SNathan Whitehorn cmd.data[2 + 2*fan->reg] = (rpm >> 8) & 0xff;
719ddc58b93SNathan Whitehorn cmd.data[3 + 2*fan->reg] = rpm & 0xff;
72098dc2964SNathan Whitehorn error = smu_run_cmd(smu, &cmd, 1);
721ddc58b93SNathan Whitehorn }
7226abc7eb7SNathan Whitehorn
723f41c8c17SNathan Whitehorn if (error == 0)
724f41c8c17SNathan Whitehorn fan->setpoint = rpm;
725f41c8c17SNathan Whitehorn
726ddc58b93SNathan Whitehorn return (error);
7276abc7eb7SNathan Whitehorn }
7286abc7eb7SNathan Whitehorn
7296abc7eb7SNathan Whitehorn static int
smu_fan_read_rpm(struct smu_fan * fan)73084d77676SNathan Whitehorn smu_fan_read_rpm(struct smu_fan *fan)
7316abc7eb7SNathan Whitehorn {
73284d77676SNathan Whitehorn device_t smu = fan->dev;
7336abc7eb7SNathan Whitehorn struct smu_cmd cmd;
734bf17422aSNathan Whitehorn int rpm, error;
7356abc7eb7SNathan Whitehorn
7367f3d2746SNathan Whitehorn smu_fan_check_old_style(fan);
7377f3d2746SNathan Whitehorn
738bf17422aSNathan Whitehorn if (!fan->old_style) {
739bf17422aSNathan Whitehorn cmd.cmd = SMU_FAN;
740bf17422aSNathan Whitehorn cmd.len = 2;
741bf17422aSNathan Whitehorn cmd.data[0] = 0x31;
742bf17422aSNathan Whitehorn cmd.data[1] = fan->reg;
743bf17422aSNathan Whitehorn
744bf17422aSNathan Whitehorn error = smu_run_cmd(smu, &cmd, 1);
745ad84e440SNathan Whitehorn if (error && error != EWOULDBLOCK)
746bf17422aSNathan Whitehorn fan->old_style = 1;
747bf17422aSNathan Whitehorn
748bf17422aSNathan Whitehorn rpm = (cmd.data[0] << 8) | cmd.data[1];
749bf17422aSNathan Whitehorn }
750bf17422aSNathan Whitehorn
751bf17422aSNathan Whitehorn if (fan->old_style) {
7526abc7eb7SNathan Whitehorn cmd.cmd = SMU_FAN;
753ddc58b93SNathan Whitehorn cmd.len = 1;
7540cb99154SAndreas Tobler cmd.data[0] = SMU_RPM_STATUS;
7556abc7eb7SNathan Whitehorn
756bf17422aSNathan Whitehorn error = smu_run_cmd(smu, &cmd, 1);
757bf17422aSNathan Whitehorn if (error)
758bf17422aSNathan Whitehorn return (error);
7596abc7eb7SNathan Whitehorn
760bf17422aSNathan Whitehorn rpm = (cmd.data[fan->reg*2+1] << 8) | cmd.data[fan->reg*2+2];
761bf17422aSNathan Whitehorn }
762bf17422aSNathan Whitehorn
763bf17422aSNathan Whitehorn return (rpm);
7646abc7eb7SNathan Whitehorn }
7650cb99154SAndreas Tobler static int
smu_fan_set_pwm(struct smu_fan * fan,int pwm)7660cb99154SAndreas Tobler smu_fan_set_pwm(struct smu_fan *fan, int pwm)
7670cb99154SAndreas Tobler {
7680cb99154SAndreas Tobler device_t smu = fan->dev;
7690cb99154SAndreas Tobler struct smu_cmd cmd;
7700cb99154SAndreas Tobler int error;
7710cb99154SAndreas Tobler
7720cb99154SAndreas Tobler cmd.cmd = SMU_FAN;
7730cb99154SAndreas Tobler error = EIO;
7740cb99154SAndreas Tobler
7750cb99154SAndreas Tobler /* Clamp to allowed range */
7760cb99154SAndreas Tobler pwm = max(fan->fan.min_rpm, pwm);
7770cb99154SAndreas Tobler pwm = min(fan->fan.max_rpm, pwm);
7780cb99154SAndreas Tobler
7790cb99154SAndreas Tobler /*
7800cb99154SAndreas Tobler * Apple has two fan control mechanisms. We can't distinguish
7810cb99154SAndreas Tobler * them except by seeing if the new one fails. If the new one
7820cb99154SAndreas Tobler * fails, use the old one.
7830cb99154SAndreas Tobler */
7840cb99154SAndreas Tobler
7850cb99154SAndreas Tobler if (!fan->old_style) {
7860cb99154SAndreas Tobler cmd.len = 4;
7870cb99154SAndreas Tobler cmd.data[0] = 0x30;
7880cb99154SAndreas Tobler cmd.data[1] = fan->reg;
7890cb99154SAndreas Tobler cmd.data[2] = (pwm >> 8) & 0xff;
7900cb99154SAndreas Tobler cmd.data[3] = pwm & 0xff;
7910cb99154SAndreas Tobler
7920cb99154SAndreas Tobler error = smu_run_cmd(smu, &cmd, 1);
7930cb99154SAndreas Tobler if (error && error != EWOULDBLOCK)
7940cb99154SAndreas Tobler fan->old_style = 1;
7950cb99154SAndreas Tobler }
7960cb99154SAndreas Tobler
7970cb99154SAndreas Tobler if (fan->old_style) {
7980cb99154SAndreas Tobler cmd.len = 14;
7990cb99154SAndreas Tobler cmd.data[0] = 0x10; /* PWM fan. */
8000cb99154SAndreas Tobler cmd.data[1] = 1 << fan->reg;
8010cb99154SAndreas Tobler cmd.data[2 + 2*fan->reg] = (pwm >> 8) & 0xff;
8020cb99154SAndreas Tobler cmd.data[3 + 2*fan->reg] = pwm & 0xff;
8030cb99154SAndreas Tobler error = smu_run_cmd(smu, &cmd, 1);
8040cb99154SAndreas Tobler }
8050cb99154SAndreas Tobler
8060cb99154SAndreas Tobler if (error == 0)
8070cb99154SAndreas Tobler fan->setpoint = pwm;
8080cb99154SAndreas Tobler
8090cb99154SAndreas Tobler return (error);
8100cb99154SAndreas Tobler }
8110cb99154SAndreas Tobler
8120cb99154SAndreas Tobler static int
smu_fan_read_pwm(struct smu_fan * fan,int * pwm,int * rpm)8130cb99154SAndreas Tobler smu_fan_read_pwm(struct smu_fan *fan, int *pwm, int *rpm)
8140cb99154SAndreas Tobler {
8150cb99154SAndreas Tobler device_t smu = fan->dev;
8160cb99154SAndreas Tobler struct smu_cmd cmd;
8170cb99154SAndreas Tobler int error;
8180cb99154SAndreas Tobler
8190cb99154SAndreas Tobler if (!fan->old_style) {
8200cb99154SAndreas Tobler cmd.cmd = SMU_FAN;
8210cb99154SAndreas Tobler cmd.len = 2;
8220cb99154SAndreas Tobler cmd.data[0] = 0x31;
8230cb99154SAndreas Tobler cmd.data[1] = fan->reg;
8240cb99154SAndreas Tobler
8250cb99154SAndreas Tobler error = smu_run_cmd(smu, &cmd, 1);
8260cb99154SAndreas Tobler if (error && error != EWOULDBLOCK)
8270cb99154SAndreas Tobler fan->old_style = 1;
8280cb99154SAndreas Tobler
8290cb99154SAndreas Tobler *rpm = (cmd.data[0] << 8) | cmd.data[1];
8300cb99154SAndreas Tobler }
8310cb99154SAndreas Tobler
8320cb99154SAndreas Tobler if (fan->old_style) {
8330cb99154SAndreas Tobler cmd.cmd = SMU_FAN;
8340cb99154SAndreas Tobler cmd.len = 1;
8350cb99154SAndreas Tobler cmd.data[0] = SMU_PWM_STATUS;
8360cb99154SAndreas Tobler
8370cb99154SAndreas Tobler error = smu_run_cmd(smu, &cmd, 1);
8380cb99154SAndreas Tobler if (error)
8390cb99154SAndreas Tobler return (error);
8400cb99154SAndreas Tobler
8410cb99154SAndreas Tobler *rpm = (cmd.data[fan->reg*2+1] << 8) | cmd.data[fan->reg*2+2];
8420cb99154SAndreas Tobler }
8430cb99154SAndreas Tobler if (fan->old_style) {
8440cb99154SAndreas Tobler cmd.cmd = SMU_FAN;
8450cb99154SAndreas Tobler cmd.len = 14;
8460cb99154SAndreas Tobler cmd.data[0] = SMU_PWM_SETPOINT;
8470cb99154SAndreas Tobler cmd.data[1] = 1 << fan->reg;
8480cb99154SAndreas Tobler
8490cb99154SAndreas Tobler error = smu_run_cmd(smu, &cmd, 1);
8500cb99154SAndreas Tobler if (error)
8510cb99154SAndreas Tobler return (error);
8520cb99154SAndreas Tobler
8530cb99154SAndreas Tobler *pwm = cmd.data[fan->reg*2+2];
8540cb99154SAndreas Tobler }
8550cb99154SAndreas Tobler return (0);
8560cb99154SAndreas Tobler }
8576abc7eb7SNathan Whitehorn
8586abc7eb7SNathan Whitehorn static int
smu_fanrpm_sysctl(SYSCTL_HANDLER_ARGS)8596abc7eb7SNathan Whitehorn smu_fanrpm_sysctl(SYSCTL_HANDLER_ARGS)
8606abc7eb7SNathan Whitehorn {
8616abc7eb7SNathan Whitehorn device_t smu;
8626abc7eb7SNathan Whitehorn struct smu_softc *sc;
8636abc7eb7SNathan Whitehorn struct smu_fan *fan;
8640cb99154SAndreas Tobler int pwm = 0, rpm, error = 0;
8656abc7eb7SNathan Whitehorn
8666abc7eb7SNathan Whitehorn smu = arg1;
8676abc7eb7SNathan Whitehorn sc = device_get_softc(smu);
8680cb99154SAndreas Tobler fan = &sc->sc_fans[arg2 & 0xff];
8696abc7eb7SNathan Whitehorn
8700cb99154SAndreas Tobler if (fan->type == SMU_FAN_RPM) {
87184d77676SNathan Whitehorn rpm = smu_fan_read_rpm(fan);
872bf17422aSNathan Whitehorn if (rpm < 0)
873bf17422aSNathan Whitehorn return (rpm);
874bf17422aSNathan Whitehorn
8756abc7eb7SNathan Whitehorn error = sysctl_handle_int(oidp, &rpm, 0, req);
8760cb99154SAndreas Tobler } else {
8770cb99154SAndreas Tobler error = smu_fan_read_pwm(fan, &pwm, &rpm);
8780cb99154SAndreas Tobler if (error < 0)
8790cb99154SAndreas Tobler return (EIO);
8800cb99154SAndreas Tobler
8810cb99154SAndreas Tobler switch (arg2 & 0xff00) {
8820cb99154SAndreas Tobler case SMU_PWM_SYSCTL_PWM:
8830cb99154SAndreas Tobler error = sysctl_handle_int(oidp, &pwm, 0, req);
8840cb99154SAndreas Tobler break;
8850cb99154SAndreas Tobler case SMU_PWM_SYSCTL_RPM:
8860cb99154SAndreas Tobler error = sysctl_handle_int(oidp, &rpm, 0, req);
8870cb99154SAndreas Tobler break;
8880cb99154SAndreas Tobler default:
8890cb99154SAndreas Tobler /* This should never happen */
8900cb99154SAndreas Tobler return (EINVAL);
89174b8d63dSPedro F. Giffuni }
8920cb99154SAndreas Tobler }
8930cb99154SAndreas Tobler /* We can only read the RPM from a PWM controlled fan, so return. */
8940cb99154SAndreas Tobler if ((arg2 & 0xff00) == SMU_PWM_SYSCTL_RPM)
8950cb99154SAndreas Tobler return (0);
8966abc7eb7SNathan Whitehorn
8976abc7eb7SNathan Whitehorn if (error || !req->newptr)
8986abc7eb7SNathan Whitehorn return (error);
8996abc7eb7SNathan Whitehorn
900f41c8c17SNathan Whitehorn sc->sc_lastuserchange = time_uptime;
9016abc7eb7SNathan Whitehorn
9020cb99154SAndreas Tobler if (fan->type == SMU_FAN_RPM)
90384d77676SNathan Whitehorn return (smu_fan_set_rpm(fan, rpm));
9040cb99154SAndreas Tobler else
9050cb99154SAndreas Tobler return (smu_fan_set_pwm(fan, pwm));
9060cb99154SAndreas Tobler }
9070cb99154SAndreas Tobler
9080cb99154SAndreas Tobler static void
smu_fill_fan_prop(device_t dev,phandle_t child,int id)9090cb99154SAndreas Tobler smu_fill_fan_prop(device_t dev, phandle_t child, int id)
9100cb99154SAndreas Tobler {
9110cb99154SAndreas Tobler struct smu_fan *fan;
9120cb99154SAndreas Tobler struct smu_softc *sc;
9130cb99154SAndreas Tobler char type[32];
9140cb99154SAndreas Tobler
9150cb99154SAndreas Tobler sc = device_get_softc(dev);
9160cb99154SAndreas Tobler fan = &sc->sc_fans[id];
9170cb99154SAndreas Tobler
9180cb99154SAndreas Tobler OF_getprop(child, "device_type", type, sizeof(type));
9190cb99154SAndreas Tobler /* We have either RPM or PWM controlled fans. */
9200cb99154SAndreas Tobler if (strcmp(type, "fan-rpm-control") == 0)
9210cb99154SAndreas Tobler fan->type = SMU_FAN_RPM;
9220cb99154SAndreas Tobler else
9230cb99154SAndreas Tobler fan->type = SMU_FAN_PWM;
9240cb99154SAndreas Tobler
9250cb99154SAndreas Tobler fan->dev = dev;
9260cb99154SAndreas Tobler fan->old_style = 0;
9270cb99154SAndreas Tobler OF_getprop(child, "reg", &fan->reg,
9280cb99154SAndreas Tobler sizeof(cell_t));
9290cb99154SAndreas Tobler OF_getprop(child, "min-value", &fan->fan.min_rpm,
9300cb99154SAndreas Tobler sizeof(int));
9310cb99154SAndreas Tobler OF_getprop(child, "max-value", &fan->fan.max_rpm,
9320cb99154SAndreas Tobler sizeof(int));
9330cb99154SAndreas Tobler OF_getprop(child, "zone", &fan->fan.zone,
9340cb99154SAndreas Tobler sizeof(int));
9350cb99154SAndreas Tobler
9360cb99154SAndreas Tobler if (OF_getprop(child, "unmanaged-value",
9370cb99154SAndreas Tobler &fan->fan.default_rpm,
9380cb99154SAndreas Tobler sizeof(int)) != sizeof(int))
9390cb99154SAndreas Tobler fan->fan.default_rpm = fan->fan.max_rpm;
9400cb99154SAndreas Tobler
9410cb99154SAndreas Tobler OF_getprop(child, "location", fan->fan.name,
9420cb99154SAndreas Tobler sizeof(fan->fan.name));
9430cb99154SAndreas Tobler
9440cb99154SAndreas Tobler if (fan->type == SMU_FAN_RPM)
9450cb99154SAndreas Tobler fan->setpoint = smu_fan_read_rpm(fan);
9460cb99154SAndreas Tobler else
9470cb99154SAndreas Tobler smu_fan_read_pwm(fan, &fan->setpoint, &fan->rpm);
9480cb99154SAndreas Tobler }
9490cb99154SAndreas Tobler
9500cb99154SAndreas Tobler /* On the first call count the number of fans. In the second call,
9510cb99154SAndreas Tobler * after allocating the fan struct, fill the properties of the fans.
9520cb99154SAndreas Tobler */
9530cb99154SAndreas Tobler static int
smu_count_fans(device_t dev)9540cb99154SAndreas Tobler smu_count_fans(device_t dev)
9550cb99154SAndreas Tobler {
9560cb99154SAndreas Tobler struct smu_softc *sc;
9570cb99154SAndreas Tobler phandle_t child, node, root;
9580cb99154SAndreas Tobler int nfans = 0;
9590cb99154SAndreas Tobler
9600cb99154SAndreas Tobler node = ofw_bus_get_node(dev);
9610cb99154SAndreas Tobler sc = device_get_softc(dev);
9620cb99154SAndreas Tobler
9630cb99154SAndreas Tobler /* First find the fanroots and count the number of fans. */
9640cb99154SAndreas Tobler for (root = OF_child(node); root != 0; root = OF_peer(root)) {
9650cb99154SAndreas Tobler char name[32];
9660cb99154SAndreas Tobler memset(name, 0, sizeof(name));
9670cb99154SAndreas Tobler OF_getprop(root, "name", name, sizeof(name));
9680cb99154SAndreas Tobler if (strncmp(name, "rpm-fans", 9) == 0 ||
9690cb99154SAndreas Tobler strncmp(name, "pwm-fans", 9) == 0 ||
9700cb99154SAndreas Tobler strncmp(name, "fans", 5) == 0)
9710cb99154SAndreas Tobler for (child = OF_child(root); child != 0;
9720cb99154SAndreas Tobler child = OF_peer(child)) {
9730cb99154SAndreas Tobler nfans++;
9740cb99154SAndreas Tobler /* When allocated, fill the fan properties. */
9757f3d2746SNathan Whitehorn if (sc->sc_fans != NULL) {
9760cb99154SAndreas Tobler smu_fill_fan_prop(dev, child,
9770cb99154SAndreas Tobler nfans - 1);
9780cb99154SAndreas Tobler }
9790cb99154SAndreas Tobler }
9807f3d2746SNathan Whitehorn }
9810cb99154SAndreas Tobler if (nfans == 0) {
9820cb99154SAndreas Tobler device_printf(dev, "WARNING: No fans detected!\n");
9830cb99154SAndreas Tobler return (0);
9840cb99154SAndreas Tobler }
9850cb99154SAndreas Tobler return (nfans);
9866abc7eb7SNathan Whitehorn }
9876abc7eb7SNathan Whitehorn
9886abc7eb7SNathan Whitehorn static void
smu_attach_fans(device_t dev,phandle_t fanroot)9896abc7eb7SNathan Whitehorn smu_attach_fans(device_t dev, phandle_t fanroot)
9906abc7eb7SNathan Whitehorn {
9916abc7eb7SNathan Whitehorn struct smu_fan *fan;
9926abc7eb7SNathan Whitehorn struct smu_softc *sc;
9936abc7eb7SNathan Whitehorn struct sysctl_oid *oid, *fanroot_oid;
9946abc7eb7SNathan Whitehorn struct sysctl_ctx_list *ctx;
9950cb99154SAndreas Tobler char sysctl_name[32];
9960cb99154SAndreas Tobler int i, j;
9976abc7eb7SNathan Whitehorn
9986abc7eb7SNathan Whitehorn sc = device_get_softc(dev);
9996abc7eb7SNathan Whitehorn
10000cb99154SAndreas Tobler /* Get the number of fans. */
10010cb99154SAndreas Tobler sc->sc_nfans = smu_count_fans(dev);
10020cb99154SAndreas Tobler if (sc->sc_nfans == 0)
10036abc7eb7SNathan Whitehorn return;
10046abc7eb7SNathan Whitehorn
10050cb99154SAndreas Tobler /* Now we're able to allocate memory for the fans struct. */
10066abc7eb7SNathan Whitehorn sc->sc_fans = malloc(sc->sc_nfans * sizeof(struct smu_fan), M_SMU,
10076abc7eb7SNathan Whitehorn M_WAITOK | M_ZERO);
10086abc7eb7SNathan Whitehorn
10090cb99154SAndreas Tobler /* Now fill in the properties. */
10100cb99154SAndreas Tobler smu_count_fans(dev);
10110cb99154SAndreas Tobler
10120cb99154SAndreas Tobler /* Register fans with pmac_thermal */
10130cb99154SAndreas Tobler for (i = 0; i < sc->sc_nfans; i++)
10140cb99154SAndreas Tobler pmac_thermal_fan_register(&sc->sc_fans[i].fan);
10156abc7eb7SNathan Whitehorn
10166abc7eb7SNathan Whitehorn ctx = device_get_sysctl_ctx(dev);
10176abc7eb7SNathan Whitehorn fanroot_oid = SYSCTL_ADD_NODE(ctx,
10186abc7eb7SNathan Whitehorn SYSCTL_CHILDREN(device_get_sysctl_tree(dev)), OID_AUTO, "fans",
10197029da5cSPawel Biernacki CTLFLAG_RD | CTLFLAG_MPSAFE, 0, "SMU Fan Information");
10206abc7eb7SNathan Whitehorn
10216abc7eb7SNathan Whitehorn /* Add sysctls */
10220cb99154SAndreas Tobler for (i = 0; i < sc->sc_nfans; i++) {
10230cb99154SAndreas Tobler fan = &sc->sc_fans[i];
10240cb99154SAndreas Tobler for (j = 0; j < strlen(fan->fan.name); j++) {
10250cb99154SAndreas Tobler sysctl_name[j] = tolower(fan->fan.name[j]);
10260cb99154SAndreas Tobler if (isspace(sysctl_name[j]))
10270cb99154SAndreas Tobler sysctl_name[j] = '_';
10286abc7eb7SNathan Whitehorn }
10290cb99154SAndreas Tobler sysctl_name[j] = 0;
10300cb99154SAndreas Tobler if (fan->type == SMU_FAN_RPM) {
10310cb99154SAndreas Tobler oid = SYSCTL_ADD_NODE(ctx,
10327029da5cSPawel Biernacki SYSCTL_CHILDREN(fanroot_oid), OID_AUTO,
10337029da5cSPawel Biernacki sysctl_name, CTLFLAG_RD | CTLFLAG_MPSAFE, 0,
10347029da5cSPawel Biernacki "Fan Information");
10350cb99154SAndreas Tobler SYSCTL_ADD_INT(ctx, SYSCTL_CHILDREN(oid), OID_AUTO,
1036f0188618SHans Petter Selasky "minrpm", CTLFLAG_RD,
1037f0188618SHans Petter Selasky &fan->fan.min_rpm, 0,
10386abc7eb7SNathan Whitehorn "Minimum allowed RPM");
10390cb99154SAndreas Tobler SYSCTL_ADD_INT(ctx, SYSCTL_CHILDREN(oid), OID_AUTO,
1040f0188618SHans Petter Selasky "maxrpm", CTLFLAG_RD,
1041f0188618SHans Petter Selasky &fan->fan.max_rpm, 0,
10426abc7eb7SNathan Whitehorn "Maximum allowed RPM");
10430cb99154SAndreas Tobler SYSCTL_ADD_PROC(ctx, SYSCTL_CHILDREN(oid), OID_AUTO,
10440cb99154SAndreas Tobler "rpm",CTLTYPE_INT | CTLFLAG_RW |
10450cb99154SAndreas Tobler CTLFLAG_MPSAFE, dev, i,
10460cb99154SAndreas Tobler smu_fanrpm_sysctl, "I", "Fan RPM");
10476abc7eb7SNathan Whitehorn
104884d77676SNathan Whitehorn fan->fan.read = (int (*)(struct pmac_fan *))smu_fan_read_rpm;
104984d77676SNathan Whitehorn fan->fan.set = (int (*)(struct pmac_fan *, int))smu_fan_set_rpm;
105084d77676SNathan Whitehorn
10510cb99154SAndreas Tobler } else {
10520cb99154SAndreas Tobler oid = SYSCTL_ADD_NODE(ctx,
10537029da5cSPawel Biernacki SYSCTL_CHILDREN(fanroot_oid), OID_AUTO,
10547029da5cSPawel Biernacki sysctl_name, CTLFLAG_RD | CTLFLAG_MPSAFE, 0,
10557029da5cSPawel Biernacki "Fan Information");
10560cb99154SAndreas Tobler SYSCTL_ADD_INT(ctx, SYSCTL_CHILDREN(oid), OID_AUTO,
1057f0188618SHans Petter Selasky "minpwm", CTLFLAG_RD,
1058f0188618SHans Petter Selasky &fan->fan.min_rpm, 0,
10590cb99154SAndreas Tobler "Minimum allowed PWM in %");
10600cb99154SAndreas Tobler SYSCTL_ADD_INT(ctx, SYSCTL_CHILDREN(oid), OID_AUTO,
1061f0188618SHans Petter Selasky "maxpwm", CTLFLAG_RD,
1062f0188618SHans Petter Selasky &fan->fan.max_rpm, 0,
10630cb99154SAndreas Tobler "Maximum allowed PWM in %");
10640cb99154SAndreas Tobler SYSCTL_ADD_PROC(ctx, SYSCTL_CHILDREN(oid), OID_AUTO,
10650cb99154SAndreas Tobler "pwm",CTLTYPE_INT | CTLFLAG_RW |
10660cb99154SAndreas Tobler CTLFLAG_MPSAFE, dev,
10670cb99154SAndreas Tobler SMU_PWM_SYSCTL_PWM | i,
10680cb99154SAndreas Tobler smu_fanrpm_sysctl, "I", "Fan PWM in %");
10690cb99154SAndreas Tobler SYSCTL_ADD_PROC(ctx, SYSCTL_CHILDREN(oid), OID_AUTO,
10700cb99154SAndreas Tobler "rpm",CTLTYPE_INT | CTLFLAG_RD |
10710cb99154SAndreas Tobler CTLFLAG_MPSAFE, dev,
10720cb99154SAndreas Tobler SMU_PWM_SYSCTL_RPM | i,
10730cb99154SAndreas Tobler smu_fanrpm_sysctl, "I", "Fan RPM");
10740cb99154SAndreas Tobler fan->fan.read = NULL;
10750cb99154SAndreas Tobler fan->fan.set = (int (*)(struct pmac_fan *, int))smu_fan_set_pwm;
10760cb99154SAndreas Tobler }
10770cb99154SAndreas Tobler if (bootverbose)
10780cb99154SAndreas Tobler device_printf(dev, "Fan: %s type: %d\n",
10790cb99154SAndreas Tobler fan->fan.name, fan->type);
10806abc7eb7SNathan Whitehorn }
10816abc7eb7SNathan Whitehorn }
10826abc7eb7SNathan Whitehorn
10836abc7eb7SNathan Whitehorn static int
smu_sensor_read(struct smu_sensor * sens)108484d77676SNathan Whitehorn smu_sensor_read(struct smu_sensor *sens)
10856abc7eb7SNathan Whitehorn {
108684d77676SNathan Whitehorn device_t smu = sens->dev;
10876abc7eb7SNathan Whitehorn struct smu_cmd cmd;
10886abc7eb7SNathan Whitehorn struct smu_softc *sc;
10896abc7eb7SNathan Whitehorn int64_t value;
109098dc2964SNathan Whitehorn int error;
10916abc7eb7SNathan Whitehorn
10926abc7eb7SNathan Whitehorn cmd.cmd = SMU_ADC;
10936abc7eb7SNathan Whitehorn cmd.len = 1;
10946abc7eb7SNathan Whitehorn cmd.data[0] = sens->reg;
109598dc2964SNathan Whitehorn error = 0;
10966abc7eb7SNathan Whitehorn
109798dc2964SNathan Whitehorn error = smu_run_cmd(smu, &cmd, 1);
109898dc2964SNathan Whitehorn if (error != 0)
109984d77676SNathan Whitehorn return (-1);
11006abc7eb7SNathan Whitehorn
11016abc7eb7SNathan Whitehorn sc = device_get_softc(smu);
11026abc7eb7SNathan Whitehorn value = (cmd.data[0] << 8) | cmd.data[1];
11036abc7eb7SNathan Whitehorn
11046abc7eb7SNathan Whitehorn switch (sens->type) {
11056abc7eb7SNathan Whitehorn case SMU_TEMP_SENSOR:
11066abc7eb7SNathan Whitehorn value *= sc->sc_cpu_diode_scale;
11076abc7eb7SNathan Whitehorn value >>= 3;
11086abc7eb7SNathan Whitehorn value += ((int64_t)sc->sc_cpu_diode_offset) << 9;
11096abc7eb7SNathan Whitehorn value <<= 1;
11106abc7eb7SNathan Whitehorn
111184d77676SNathan Whitehorn /* Convert from 16.16 fixed point degC into integer 0.1 K. */
11129d6672e1SLuiz Otavio O Souza value = 10*(value >> 16) + ((10*(value & 0xffff)) >> 16) + 2731;
11136abc7eb7SNathan Whitehorn break;
11146abc7eb7SNathan Whitehorn case SMU_VOLTAGE_SENSOR:
11156abc7eb7SNathan Whitehorn value *= sc->sc_cpu_volt_scale;
11166abc7eb7SNathan Whitehorn value += sc->sc_cpu_volt_offset;
11176abc7eb7SNathan Whitehorn value <<= 4;
11186abc7eb7SNathan Whitehorn
11196abc7eb7SNathan Whitehorn /* Convert from 16.16 fixed point V into mV. */
11206abc7eb7SNathan Whitehorn value *= 15625;
11216abc7eb7SNathan Whitehorn value /= 1024;
11226abc7eb7SNathan Whitehorn value /= 1000;
11236abc7eb7SNathan Whitehorn break;
11246abc7eb7SNathan Whitehorn case SMU_CURRENT_SENSOR:
11256abc7eb7SNathan Whitehorn value *= sc->sc_cpu_curr_scale;
11266abc7eb7SNathan Whitehorn value += sc->sc_cpu_curr_offset;
11276abc7eb7SNathan Whitehorn value <<= 4;
11286abc7eb7SNathan Whitehorn
11296abc7eb7SNathan Whitehorn /* Convert from 16.16 fixed point A into mA. */
11306abc7eb7SNathan Whitehorn value *= 15625;
11316abc7eb7SNathan Whitehorn value /= 1024;
11326abc7eb7SNathan Whitehorn value /= 1000;
11336abc7eb7SNathan Whitehorn break;
11346abc7eb7SNathan Whitehorn case SMU_POWER_SENSOR:
11356abc7eb7SNathan Whitehorn value *= sc->sc_slots_pow_scale;
11366abc7eb7SNathan Whitehorn value += sc->sc_slots_pow_offset;
11376abc7eb7SNathan Whitehorn value <<= 4;
11386abc7eb7SNathan Whitehorn
11396abc7eb7SNathan Whitehorn /* Convert from 16.16 fixed point W into mW. */
11406abc7eb7SNathan Whitehorn value *= 15625;
11416abc7eb7SNathan Whitehorn value /= 1024;
11426abc7eb7SNathan Whitehorn value /= 1000;
11436abc7eb7SNathan Whitehorn break;
11446abc7eb7SNathan Whitehorn }
11456abc7eb7SNathan Whitehorn
114684d77676SNathan Whitehorn return (value);
11476abc7eb7SNathan Whitehorn }
11486abc7eb7SNathan Whitehorn
11496abc7eb7SNathan Whitehorn static int
smu_sensor_sysctl(SYSCTL_HANDLER_ARGS)11506abc7eb7SNathan Whitehorn smu_sensor_sysctl(SYSCTL_HANDLER_ARGS)
11516abc7eb7SNathan Whitehorn {
11526abc7eb7SNathan Whitehorn device_t smu;
11536abc7eb7SNathan Whitehorn struct smu_softc *sc;
11546abc7eb7SNathan Whitehorn struct smu_sensor *sens;
11556abc7eb7SNathan Whitehorn int value, error;
11566abc7eb7SNathan Whitehorn
11576abc7eb7SNathan Whitehorn smu = arg1;
11586abc7eb7SNathan Whitehorn sc = device_get_softc(smu);
11596abc7eb7SNathan Whitehorn sens = &sc->sc_sensors[arg2];
11606abc7eb7SNathan Whitehorn
116184d77676SNathan Whitehorn value = smu_sensor_read(sens);
116284d77676SNathan Whitehorn if (value < 0)
116384d77676SNathan Whitehorn return (EBUSY);
116498dc2964SNathan Whitehorn
11656abc7eb7SNathan Whitehorn error = sysctl_handle_int(oidp, &value, 0, req);
11666abc7eb7SNathan Whitehorn
11676abc7eb7SNathan Whitehorn return (error);
11686abc7eb7SNathan Whitehorn }
11696abc7eb7SNathan Whitehorn
11706abc7eb7SNathan Whitehorn static void
smu_attach_sensors(device_t dev,phandle_t sensroot)11716abc7eb7SNathan Whitehorn smu_attach_sensors(device_t dev, phandle_t sensroot)
11726abc7eb7SNathan Whitehorn {
11736abc7eb7SNathan Whitehorn struct smu_sensor *sens;
11746abc7eb7SNathan Whitehorn struct smu_softc *sc;
11756abc7eb7SNathan Whitehorn struct sysctl_oid *sensroot_oid;
11766abc7eb7SNathan Whitehorn struct sysctl_ctx_list *ctx;
11776abc7eb7SNathan Whitehorn phandle_t child;
11786abc7eb7SNathan Whitehorn char type[32];
11796abc7eb7SNathan Whitehorn int i;
11806abc7eb7SNathan Whitehorn
11816abc7eb7SNathan Whitehorn sc = device_get_softc(dev);
11826abc7eb7SNathan Whitehorn sc->sc_nsensors = 0;
11836abc7eb7SNathan Whitehorn
11846abc7eb7SNathan Whitehorn for (child = OF_child(sensroot); child != 0; child = OF_peer(child))
11856abc7eb7SNathan Whitehorn sc->sc_nsensors++;
11866abc7eb7SNathan Whitehorn
11876abc7eb7SNathan Whitehorn if (sc->sc_nsensors == 0) {
11886abc7eb7SNathan Whitehorn device_printf(dev, "WARNING: No sensors detected!\n");
11896abc7eb7SNathan Whitehorn return;
11906abc7eb7SNathan Whitehorn }
11916abc7eb7SNathan Whitehorn
1192ddc58b93SNathan Whitehorn sc->sc_sensors = malloc(sc->sc_nsensors * sizeof(struct smu_sensor),
1193ddc58b93SNathan Whitehorn M_SMU, M_WAITOK | M_ZERO);
11946abc7eb7SNathan Whitehorn
11956abc7eb7SNathan Whitehorn sens = sc->sc_sensors;
11966abc7eb7SNathan Whitehorn sc->sc_nsensors = 0;
11976abc7eb7SNathan Whitehorn
11986abc7eb7SNathan Whitehorn ctx = device_get_sysctl_ctx(dev);
11996abc7eb7SNathan Whitehorn sensroot_oid = SYSCTL_ADD_NODE(ctx,
12006abc7eb7SNathan Whitehorn SYSCTL_CHILDREN(device_get_sysctl_tree(dev)), OID_AUTO, "sensors",
12017029da5cSPawel Biernacki CTLFLAG_RD | CTLFLAG_MPSAFE, 0, "SMU Sensor Information");
12026abc7eb7SNathan Whitehorn
12036abc7eb7SNathan Whitehorn for (child = OF_child(sensroot); child != 0; child = OF_peer(child)) {
12046abc7eb7SNathan Whitehorn char sysctl_name[40], sysctl_desc[40];
12056abc7eb7SNathan Whitehorn const char *units;
12066abc7eb7SNathan Whitehorn
120784d77676SNathan Whitehorn sens->dev = dev;
12086abc7eb7SNathan Whitehorn OF_getprop(child, "device_type", type, sizeof(type));
12096abc7eb7SNathan Whitehorn
12106abc7eb7SNathan Whitehorn if (strcmp(type, "current-sensor") == 0) {
12116abc7eb7SNathan Whitehorn sens->type = SMU_CURRENT_SENSOR;
12126abc7eb7SNathan Whitehorn units = "mA";
12136abc7eb7SNathan Whitehorn } else if (strcmp(type, "temp-sensor") == 0) {
12146abc7eb7SNathan Whitehorn sens->type = SMU_TEMP_SENSOR;
12156abc7eb7SNathan Whitehorn units = "C";
12166abc7eb7SNathan Whitehorn } else if (strcmp(type, "voltage-sensor") == 0) {
12176abc7eb7SNathan Whitehorn sens->type = SMU_VOLTAGE_SENSOR;
12186abc7eb7SNathan Whitehorn units = "mV";
12196abc7eb7SNathan Whitehorn } else if (strcmp(type, "power-sensor") == 0) {
12206abc7eb7SNathan Whitehorn sens->type = SMU_POWER_SENSOR;
12216abc7eb7SNathan Whitehorn units = "mW";
12226abc7eb7SNathan Whitehorn } else {
12236abc7eb7SNathan Whitehorn continue;
12246abc7eb7SNathan Whitehorn }
12256abc7eb7SNathan Whitehorn
12266abc7eb7SNathan Whitehorn OF_getprop(child, "reg", &sens->reg, sizeof(cell_t));
122784d77676SNathan Whitehorn OF_getprop(child, "zone", &sens->therm.zone, sizeof(int));
122884d77676SNathan Whitehorn OF_getprop(child, "location", sens->therm.name,
122984d77676SNathan Whitehorn sizeof(sens->therm.name));
12306abc7eb7SNathan Whitehorn
123184d77676SNathan Whitehorn for (i = 0; i < strlen(sens->therm.name); i++) {
123284d77676SNathan Whitehorn sysctl_name[i] = tolower(sens->therm.name[i]);
12336abc7eb7SNathan Whitehorn if (isspace(sysctl_name[i]))
12346abc7eb7SNathan Whitehorn sysctl_name[i] = '_';
12356abc7eb7SNathan Whitehorn }
12366abc7eb7SNathan Whitehorn sysctl_name[i] = 0;
12376abc7eb7SNathan Whitehorn
123884d77676SNathan Whitehorn sprintf(sysctl_desc,"%s (%s)", sens->therm.name, units);
12396abc7eb7SNathan Whitehorn
12406abc7eb7SNathan Whitehorn SYSCTL_ADD_PROC(ctx, SYSCTL_CHILDREN(sensroot_oid), OID_AUTO,
124145f7ed01SNathan Whitehorn sysctl_name, CTLTYPE_INT | CTLFLAG_RD | CTLFLAG_MPSAFE,
124284d77676SNathan Whitehorn dev, sc->sc_nsensors, smu_sensor_sysctl,
124384d77676SNathan Whitehorn (sens->type == SMU_TEMP_SENSOR) ? "IK" : "I", sysctl_desc);
124484d77676SNathan Whitehorn
124584d77676SNathan Whitehorn if (sens->type == SMU_TEMP_SENSOR) {
124684d77676SNathan Whitehorn /* Make up some numbers */
12479d6672e1SLuiz Otavio O Souza sens->therm.target_temp = 500 + 2731; /* 50 C */
12489d6672e1SLuiz Otavio O Souza sens->therm.max_temp = 900 + 2731; /* 90 C */
124984d77676SNathan Whitehorn
125084d77676SNathan Whitehorn sens->therm.read =
125184d77676SNathan Whitehorn (int (*)(struct pmac_therm *))smu_sensor_read;
125284d77676SNathan Whitehorn pmac_thermal_sensor_register(&sens->therm);
125384d77676SNathan Whitehorn }
12546abc7eb7SNathan Whitehorn
12556abc7eb7SNathan Whitehorn sens++;
12566abc7eb7SNathan Whitehorn sc->sc_nsensors++;
12576abc7eb7SNathan Whitehorn }
12586abc7eb7SNathan Whitehorn }
12596abc7eb7SNathan Whitehorn
126098dc2964SNathan Whitehorn static void
smu_set_sleepled(void * xdev,int onoff)126190a1456bSNathan Whitehorn smu_set_sleepled(void *xdev, int onoff)
126290a1456bSNathan Whitehorn {
126398dc2964SNathan Whitehorn static struct smu_cmd cmd;
126490a1456bSNathan Whitehorn device_t smu = xdev;
126590a1456bSNathan Whitehorn
126690a1456bSNathan Whitehorn cmd.cmd = SMU_MISC;
126790a1456bSNathan Whitehorn cmd.len = 3;
126890a1456bSNathan Whitehorn cmd.data[0] = SMU_MISC_LED_CTRL;
126990a1456bSNathan Whitehorn cmd.data[1] = 0;
127090a1456bSNathan Whitehorn cmd.data[2] = onoff;
127190a1456bSNathan Whitehorn
127298dc2964SNathan Whitehorn smu_run_cmd(smu, &cmd, 0);
127390a1456bSNathan Whitehorn }
127490a1456bSNathan Whitehorn
1275823d02a0SNathan Whitehorn static int
smu_server_mode(SYSCTL_HANDLER_ARGS)1276823d02a0SNathan Whitehorn smu_server_mode(SYSCTL_HANDLER_ARGS)
1277823d02a0SNathan Whitehorn {
1278823d02a0SNathan Whitehorn struct smu_cmd cmd;
1279823d02a0SNathan Whitehorn u_int server_mode;
1280823d02a0SNathan Whitehorn device_t smu = arg1;
1281823d02a0SNathan Whitehorn int error;
1282823d02a0SNathan Whitehorn
1283823d02a0SNathan Whitehorn cmd.cmd = SMU_POWER_EVENTS;
1284823d02a0SNathan Whitehorn cmd.len = 1;
1285823d02a0SNathan Whitehorn cmd.data[0] = SMU_PWR_GET_POWERUP;
1286823d02a0SNathan Whitehorn
128798dc2964SNathan Whitehorn error = smu_run_cmd(smu, &cmd, 1);
1288823d02a0SNathan Whitehorn
1289823d02a0SNathan Whitehorn if (error)
1290823d02a0SNathan Whitehorn return (error);
1291823d02a0SNathan Whitehorn
1292823d02a0SNathan Whitehorn server_mode = (cmd.data[1] & SMU_WAKEUP_AC_INSERT) ? 1 : 0;
1293823d02a0SNathan Whitehorn
1294823d02a0SNathan Whitehorn error = sysctl_handle_int(oidp, &server_mode, 0, req);
1295823d02a0SNathan Whitehorn
1296823d02a0SNathan Whitehorn if (error || !req->newptr)
1297823d02a0SNathan Whitehorn return (error);
1298823d02a0SNathan Whitehorn
1299823d02a0SNathan Whitehorn if (server_mode == 1)
1300823d02a0SNathan Whitehorn cmd.data[0] = SMU_PWR_SET_POWERUP;
1301823d02a0SNathan Whitehorn else if (server_mode == 0)
1302823d02a0SNathan Whitehorn cmd.data[0] = SMU_PWR_CLR_POWERUP;
1303823d02a0SNathan Whitehorn else
1304823d02a0SNathan Whitehorn return (EINVAL);
1305823d02a0SNathan Whitehorn
1306823d02a0SNathan Whitehorn cmd.len = 3;
1307823d02a0SNathan Whitehorn cmd.data[1] = 0;
1308823d02a0SNathan Whitehorn cmd.data[2] = SMU_WAKEUP_AC_INSERT;
1309823d02a0SNathan Whitehorn
131098dc2964SNathan Whitehorn return (smu_run_cmd(smu, &cmd, 1));
1311823d02a0SNathan Whitehorn }
1312823d02a0SNathan Whitehorn
1313b2a237beSNathan Whitehorn static void
smu_shutdown(void * xdev,int howto)1314b2a237beSNathan Whitehorn smu_shutdown(void *xdev, int howto)
1315b2a237beSNathan Whitehorn {
1316b2a237beSNathan Whitehorn device_t smu = xdev;
1317b2a237beSNathan Whitehorn struct smu_cmd cmd;
1318b2a237beSNathan Whitehorn
1319b2a237beSNathan Whitehorn cmd.cmd = SMU_POWER;
132041e26e82SMitchell Horne if ((howto & RB_POWEROFF) != 0)
1321b2a237beSNathan Whitehorn strcpy(cmd.data, "SHUTDOWN");
132241e26e82SMitchell Horne else if ((howto & RB_HALT) == 0)
1323b2a237beSNathan Whitehorn strcpy(cmd.data, "RESTART");
132441e26e82SMitchell Horne else
132541e26e82SMitchell Horne return;
1326b2a237beSNathan Whitehorn
1327b2a237beSNathan Whitehorn cmd.len = strlen(cmd.data);
1328b2a237beSNathan Whitehorn
1329b2a237beSNathan Whitehorn smu_run_cmd(smu, &cmd, 1);
1330b2a237beSNathan Whitehorn
1331b2a237beSNathan Whitehorn for (;;);
1332b2a237beSNathan Whitehorn }
1333b2a237beSNathan Whitehorn
13343df9e037SNathan Whitehorn static int
smu_gettime(device_t dev,struct timespec * ts)13353df9e037SNathan Whitehorn smu_gettime(device_t dev, struct timespec *ts)
13363df9e037SNathan Whitehorn {
13373df9e037SNathan Whitehorn struct smu_cmd cmd;
13383df9e037SNathan Whitehorn struct clocktime ct;
13393df9e037SNathan Whitehorn
13403df9e037SNathan Whitehorn cmd.cmd = SMU_RTC;
13413df9e037SNathan Whitehorn cmd.len = 1;
13423df9e037SNathan Whitehorn cmd.data[0] = SMU_RTC_GET;
13433df9e037SNathan Whitehorn
13443df9e037SNathan Whitehorn if (smu_run_cmd(dev, &cmd, 1) != 0)
13453df9e037SNathan Whitehorn return (ENXIO);
13463df9e037SNathan Whitehorn
13473df9e037SNathan Whitehorn ct.nsec = 0;
13483df9e037SNathan Whitehorn ct.sec = bcd2bin(cmd.data[0]);
13493df9e037SNathan Whitehorn ct.min = bcd2bin(cmd.data[1]);
13503df9e037SNathan Whitehorn ct.hour = bcd2bin(cmd.data[2]);
13513df9e037SNathan Whitehorn ct.dow = bcd2bin(cmd.data[3]);
13523df9e037SNathan Whitehorn ct.day = bcd2bin(cmd.data[4]);
13533df9e037SNathan Whitehorn ct.mon = bcd2bin(cmd.data[5]);
13543df9e037SNathan Whitehorn ct.year = bcd2bin(cmd.data[6]) + 2000;
13553df9e037SNathan Whitehorn
13563df9e037SNathan Whitehorn return (clock_ct_to_ts(&ct, ts));
13573df9e037SNathan Whitehorn }
13583df9e037SNathan Whitehorn
13593df9e037SNathan Whitehorn static int
smu_settime(device_t dev,struct timespec * ts)13603df9e037SNathan Whitehorn smu_settime(device_t dev, struct timespec *ts)
13613df9e037SNathan Whitehorn {
1362f4338dacSNathan Whitehorn static struct smu_cmd cmd;
13633df9e037SNathan Whitehorn struct clocktime ct;
13643df9e037SNathan Whitehorn
13653df9e037SNathan Whitehorn cmd.cmd = SMU_RTC;
13663df9e037SNathan Whitehorn cmd.len = 8;
13673df9e037SNathan Whitehorn cmd.data[0] = SMU_RTC_SET;
13683df9e037SNathan Whitehorn
13693df9e037SNathan Whitehorn clock_ts_to_ct(ts, &ct);
13703df9e037SNathan Whitehorn
13713df9e037SNathan Whitehorn cmd.data[1] = bin2bcd(ct.sec);
13723df9e037SNathan Whitehorn cmd.data[2] = bin2bcd(ct.min);
13733df9e037SNathan Whitehorn cmd.data[3] = bin2bcd(ct.hour);
13743df9e037SNathan Whitehorn cmd.data[4] = bin2bcd(ct.dow);
13753df9e037SNathan Whitehorn cmd.data[5] = bin2bcd(ct.day);
13763df9e037SNathan Whitehorn cmd.data[6] = bin2bcd(ct.mon);
13773df9e037SNathan Whitehorn cmd.data[7] = bin2bcd(ct.year - 2000);
13783df9e037SNathan Whitehorn
1379f4338dacSNathan Whitehorn return (smu_run_cmd(dev, &cmd, 0));
13803df9e037SNathan Whitehorn }
13813df9e037SNathan Whitehorn
138245f7ed01SNathan Whitehorn /* SMU I2C Interface */
138345f7ed01SNathan Whitehorn
138445f7ed01SNathan Whitehorn static int smuiic_probe(device_t dev);
138545f7ed01SNathan Whitehorn static int smuiic_attach(device_t dev);
138645f7ed01SNathan Whitehorn static int smuiic_transfer(device_t dev, struct iic_msg *msgs, uint32_t nmsgs);
138745f7ed01SNathan Whitehorn static phandle_t smuiic_get_node(device_t bus, device_t dev);
138845f7ed01SNathan Whitehorn
138945f7ed01SNathan Whitehorn static device_method_t smuiic_methods[] = {
139045f7ed01SNathan Whitehorn /* device interface */
139145f7ed01SNathan Whitehorn DEVMETHOD(device_probe, smuiic_probe),
139245f7ed01SNathan Whitehorn DEVMETHOD(device_attach, smuiic_attach),
139345f7ed01SNathan Whitehorn
139445f7ed01SNathan Whitehorn /* iicbus interface */
139545f7ed01SNathan Whitehorn DEVMETHOD(iicbus_callback, iicbus_null_callback),
139645f7ed01SNathan Whitehorn DEVMETHOD(iicbus_transfer, smuiic_transfer),
139745f7ed01SNathan Whitehorn
139845f7ed01SNathan Whitehorn /* ofw_bus interface */
139945f7ed01SNathan Whitehorn DEVMETHOD(ofw_bus_get_node, smuiic_get_node),
140045f7ed01SNathan Whitehorn { 0, 0 }
140145f7ed01SNathan Whitehorn };
140245f7ed01SNathan Whitehorn
140345f7ed01SNathan Whitehorn struct smuiic_softc {
140445f7ed01SNathan Whitehorn struct mtx sc_mtx;
140545f7ed01SNathan Whitehorn volatile int sc_iic_inuse;
140645f7ed01SNathan Whitehorn int sc_busno;
140745f7ed01SNathan Whitehorn };
140845f7ed01SNathan Whitehorn
140945f7ed01SNathan Whitehorn static driver_t smuiic_driver = {
141045f7ed01SNathan Whitehorn "iichb",
141145f7ed01SNathan Whitehorn smuiic_methods,
141245f7ed01SNathan Whitehorn sizeof(struct smuiic_softc)
141345f7ed01SNathan Whitehorn };
141445f7ed01SNathan Whitehorn
1415992ae60bSJohn Baldwin DRIVER_MODULE(smuiic, smu, smuiic_driver, 0, 0);
141645f7ed01SNathan Whitehorn
141745f7ed01SNathan Whitehorn static void
smu_attach_i2c(device_t smu,phandle_t i2croot)141845f7ed01SNathan Whitehorn smu_attach_i2c(device_t smu, phandle_t i2croot)
141945f7ed01SNathan Whitehorn {
142045f7ed01SNathan Whitehorn phandle_t child;
142145f7ed01SNathan Whitehorn device_t cdev;
142245f7ed01SNathan Whitehorn struct ofw_bus_devinfo *dinfo;
142345f7ed01SNathan Whitehorn char name[32];
142445f7ed01SNathan Whitehorn
142545f7ed01SNathan Whitehorn for (child = OF_child(i2croot); child != 0; child = OF_peer(child)) {
142645f7ed01SNathan Whitehorn if (OF_getprop(child, "name", name, sizeof(name)) <= 0)
142745f7ed01SNathan Whitehorn continue;
142845f7ed01SNathan Whitehorn
142945f7ed01SNathan Whitehorn if (strcmp(name, "i2c-bus") != 0 && strcmp(name, "i2c") != 0)
143045f7ed01SNathan Whitehorn continue;
143145f7ed01SNathan Whitehorn
143245f7ed01SNathan Whitehorn dinfo = malloc(sizeof(struct ofw_bus_devinfo), M_SMU,
143345f7ed01SNathan Whitehorn M_WAITOK | M_ZERO);
143445f7ed01SNathan Whitehorn if (ofw_bus_gen_setup_devinfo(dinfo, child) != 0) {
143545f7ed01SNathan Whitehorn free(dinfo, M_SMU);
143645f7ed01SNathan Whitehorn continue;
143745f7ed01SNathan Whitehorn }
143845f7ed01SNathan Whitehorn
14395b56413dSWarner Losh cdev = device_add_child(smu, NULL, DEVICE_UNIT_ANY);
144045f7ed01SNathan Whitehorn if (cdev == NULL) {
144145f7ed01SNathan Whitehorn device_printf(smu, "<%s>: device_add_child failed\n",
144245f7ed01SNathan Whitehorn dinfo->obd_name);
144345f7ed01SNathan Whitehorn ofw_bus_gen_destroy_devinfo(dinfo);
144445f7ed01SNathan Whitehorn free(dinfo, M_SMU);
144545f7ed01SNathan Whitehorn continue;
144645f7ed01SNathan Whitehorn }
144745f7ed01SNathan Whitehorn device_set_ivars(cdev, dinfo);
144845f7ed01SNathan Whitehorn }
144945f7ed01SNathan Whitehorn }
145045f7ed01SNathan Whitehorn
145145f7ed01SNathan Whitehorn static int
smuiic_probe(device_t dev)145245f7ed01SNathan Whitehorn smuiic_probe(device_t dev)
145345f7ed01SNathan Whitehorn {
145445f7ed01SNathan Whitehorn const char *name;
145545f7ed01SNathan Whitehorn
145645f7ed01SNathan Whitehorn name = ofw_bus_get_name(dev);
145745f7ed01SNathan Whitehorn if (name == NULL)
145845f7ed01SNathan Whitehorn return (ENXIO);
145945f7ed01SNathan Whitehorn
146045f7ed01SNathan Whitehorn if (strcmp(name, "i2c-bus") == 0 || strcmp(name, "i2c") == 0) {
146145f7ed01SNathan Whitehorn device_set_desc(dev, "SMU I2C controller");
146245f7ed01SNathan Whitehorn return (0);
146345f7ed01SNathan Whitehorn }
146445f7ed01SNathan Whitehorn
146545f7ed01SNathan Whitehorn return (ENXIO);
146645f7ed01SNathan Whitehorn }
146745f7ed01SNathan Whitehorn
146845f7ed01SNathan Whitehorn static int
smuiic_attach(device_t dev)146945f7ed01SNathan Whitehorn smuiic_attach(device_t dev)
147045f7ed01SNathan Whitehorn {
147145f7ed01SNathan Whitehorn struct smuiic_softc *sc = device_get_softc(dev);
147245f7ed01SNathan Whitehorn mtx_init(&sc->sc_mtx, "smuiic", NULL, MTX_DEF);
147345f7ed01SNathan Whitehorn sc->sc_iic_inuse = 0;
147445f7ed01SNathan Whitehorn
147545f7ed01SNathan Whitehorn /* Get our bus number */
147645f7ed01SNathan Whitehorn OF_getprop(ofw_bus_get_node(dev), "reg", &sc->sc_busno,
147745f7ed01SNathan Whitehorn sizeof(sc->sc_busno));
147845f7ed01SNathan Whitehorn
147945f7ed01SNathan Whitehorn /* Add the IIC bus layer */
14805b56413dSWarner Losh device_add_child(dev, "iicbus", DEVICE_UNIT_ANY);
148145f7ed01SNathan Whitehorn
1482*18250ec6SJohn Baldwin bus_attach_children(dev);
1483*18250ec6SJohn Baldwin return (0);
148445f7ed01SNathan Whitehorn }
148545f7ed01SNathan Whitehorn
148645f7ed01SNathan Whitehorn static int
smuiic_transfer(device_t dev,struct iic_msg * msgs,uint32_t nmsgs)148745f7ed01SNathan Whitehorn smuiic_transfer(device_t dev, struct iic_msg *msgs, uint32_t nmsgs)
148845f7ed01SNathan Whitehorn {
148945f7ed01SNathan Whitehorn struct smuiic_softc *sc = device_get_softc(dev);
149045f7ed01SNathan Whitehorn struct smu_cmd cmd;
149145f7ed01SNathan Whitehorn int i, j, error;
149245f7ed01SNathan Whitehorn
149345f7ed01SNathan Whitehorn mtx_lock(&sc->sc_mtx);
149445f7ed01SNathan Whitehorn while (sc->sc_iic_inuse)
149545f7ed01SNathan Whitehorn mtx_sleep(sc, &sc->sc_mtx, 0, "smuiic", 100);
149645f7ed01SNathan Whitehorn
149745f7ed01SNathan Whitehorn sc->sc_iic_inuse = 1;
149845f7ed01SNathan Whitehorn error = 0;
149945f7ed01SNathan Whitehorn
150045f7ed01SNathan Whitehorn for (i = 0; i < nmsgs; i++) {
150145f7ed01SNathan Whitehorn cmd.cmd = SMU_I2C;
150245f7ed01SNathan Whitehorn cmd.data[0] = sc->sc_busno;
150345f7ed01SNathan Whitehorn if (msgs[i].flags & IIC_M_NOSTOP)
150445f7ed01SNathan Whitehorn cmd.data[1] = SMU_I2C_COMBINED;
150545f7ed01SNathan Whitehorn else
150645f7ed01SNathan Whitehorn cmd.data[1] = SMU_I2C_SIMPLE;
150745f7ed01SNathan Whitehorn
150845f7ed01SNathan Whitehorn cmd.data[2] = msgs[i].slave;
150945f7ed01SNathan Whitehorn if (msgs[i].flags & IIC_M_RD)
151045f7ed01SNathan Whitehorn cmd.data[2] |= 1;
151145f7ed01SNathan Whitehorn
151245f7ed01SNathan Whitehorn if (msgs[i].flags & IIC_M_NOSTOP) {
151345f7ed01SNathan Whitehorn KASSERT(msgs[i].len < 4,
151445f7ed01SNathan Whitehorn ("oversize I2C combined message"));
151545f7ed01SNathan Whitehorn
151645f7ed01SNathan Whitehorn cmd.data[3] = min(msgs[i].len, 3);
151745f7ed01SNathan Whitehorn memcpy(&cmd.data[4], msgs[i].buf, min(msgs[i].len, 3));
151845f7ed01SNathan Whitehorn i++; /* Advance to next part of message */
151945f7ed01SNathan Whitehorn } else {
152045f7ed01SNathan Whitehorn cmd.data[3] = 0;
152145f7ed01SNathan Whitehorn memset(&cmd.data[4], 0, 3);
152245f7ed01SNathan Whitehorn }
152345f7ed01SNathan Whitehorn
152445f7ed01SNathan Whitehorn cmd.data[7] = msgs[i].slave;
152545f7ed01SNathan Whitehorn if (msgs[i].flags & IIC_M_RD)
152645f7ed01SNathan Whitehorn cmd.data[7] |= 1;
152745f7ed01SNathan Whitehorn
152845f7ed01SNathan Whitehorn cmd.data[8] = msgs[i].len;
152945f7ed01SNathan Whitehorn if (msgs[i].flags & IIC_M_RD) {
153045f7ed01SNathan Whitehorn memset(&cmd.data[9], 0xff, msgs[i].len);
153145f7ed01SNathan Whitehorn cmd.len = 9;
153245f7ed01SNathan Whitehorn } else {
153345f7ed01SNathan Whitehorn memcpy(&cmd.data[9], msgs[i].buf, msgs[i].len);
153445f7ed01SNathan Whitehorn cmd.len = 9 + msgs[i].len;
153545f7ed01SNathan Whitehorn }
153645f7ed01SNathan Whitehorn
153745f7ed01SNathan Whitehorn mtx_unlock(&sc->sc_mtx);
153845f7ed01SNathan Whitehorn smu_run_cmd(device_get_parent(dev), &cmd, 1);
153945f7ed01SNathan Whitehorn mtx_lock(&sc->sc_mtx);
154045f7ed01SNathan Whitehorn
154145f7ed01SNathan Whitehorn for (j = 0; j < 10; j++) {
154245f7ed01SNathan Whitehorn cmd.cmd = SMU_I2C;
154345f7ed01SNathan Whitehorn cmd.len = 1;
154445f7ed01SNathan Whitehorn cmd.data[0] = 0;
154545f7ed01SNathan Whitehorn memset(&cmd.data[1], 0xff, msgs[i].len);
154645f7ed01SNathan Whitehorn
154745f7ed01SNathan Whitehorn mtx_unlock(&sc->sc_mtx);
154845f7ed01SNathan Whitehorn smu_run_cmd(device_get_parent(dev), &cmd, 1);
154945f7ed01SNathan Whitehorn mtx_lock(&sc->sc_mtx);
155045f7ed01SNathan Whitehorn
155145f7ed01SNathan Whitehorn if (!(cmd.data[0] & 0x80))
155245f7ed01SNathan Whitehorn break;
155345f7ed01SNathan Whitehorn
155445f7ed01SNathan Whitehorn mtx_sleep(sc, &sc->sc_mtx, 0, "smuiic", 10);
155545f7ed01SNathan Whitehorn }
155645f7ed01SNathan Whitehorn
155745f7ed01SNathan Whitehorn if (cmd.data[0] & 0x80) {
155845f7ed01SNathan Whitehorn error = EIO;
155945f7ed01SNathan Whitehorn msgs[i].len = 0;
156045f7ed01SNathan Whitehorn goto exit;
156145f7ed01SNathan Whitehorn }
156245f7ed01SNathan Whitehorn memcpy(msgs[i].buf, &cmd.data[1], msgs[i].len);
156345f7ed01SNathan Whitehorn msgs[i].len = cmd.len - 1;
156445f7ed01SNathan Whitehorn }
156545f7ed01SNathan Whitehorn
156645f7ed01SNathan Whitehorn exit:
156745f7ed01SNathan Whitehorn sc->sc_iic_inuse = 0;
156845f7ed01SNathan Whitehorn mtx_unlock(&sc->sc_mtx);
156945f7ed01SNathan Whitehorn wakeup(sc);
157045f7ed01SNathan Whitehorn return (error);
157145f7ed01SNathan Whitehorn }
157245f7ed01SNathan Whitehorn
157345f7ed01SNathan Whitehorn static phandle_t
smuiic_get_node(device_t bus,device_t dev)157445f7ed01SNathan Whitehorn smuiic_get_node(device_t bus, device_t dev)
157545f7ed01SNathan Whitehorn {
157645f7ed01SNathan Whitehorn
157745f7ed01SNathan Whitehorn return (ofw_bus_get_node(bus));
157845f7ed01SNathan Whitehorn }
1579