/* $OpenBSD: aps.c,v 1.23 2011/01/05 07:37:09 deraadt Exp $ */ /* * Copyright (c) 2005 Jonathan Gray * Copyright (c) 2008 Can Erkin Acar * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ /* * A driver for the ThinkPad Active Protection System based on notes from * http://www.almaden.ibm.com/cs/people/marksmith/tpaps.html */ #include #include #include #include #include #include #include #include #include #include #ifdef __i386__ #include "apm.h" #include #include #include #endif #if defined(APSDEBUG) #define DPRINTF(x) do { printf x; } while (0) #else #define DPRINTF(x) #endif /* * EC interface on Thinkpad Laptops, from Linux HDAPS driver notes. * From Renesans H8S/2140B Group Hardware Manual * http://documentation.renesas.com/eng/products/mpumcu/rej09b0300_2140bhm.pdf * * EC uses LPC Channel 3 registers TWR0..15 */ /* STR3 status register */ #define APS_STR3 0x04 #define APS_STR3_IBF3B 0x80 /* Input buffer full (host->slave) */ #define APS_STR3_OBF3B 0x40 /* Output buffer full (slave->host)*/ #define APS_STR3_MWMF 0x20 /* Master write mode */ #define APS_STR3_SWMF 0x10 /* Slave write mode */ /* Base address of TWR registers */ #define APS_TWR_BASE 0x10 #define APS_TWR_RET 0x1f /* TWR registers */ #define APS_CMD 0x00 #define APS_ARG1 0x01 #define APS_ARG2 0x02 #define APS_ARG3 0x03 #define APS_RET 0x0f /* Sensor values */ #define APS_STATE 0x01 #define APS_XACCEL 0x02 #define APS_YACCEL 0x04 #define APS_TEMP 0x06 #define APS_XVAR 0x07 #define APS_YVAR 0x09 #define APS_TEMP2 0x0b #define APS_UNKNOWN 0x0c #define APS_INPUT 0x0d /* write masks for I/O, send command + 0-3 arguments*/ #define APS_WRITE_0 0x0001 #define APS_WRITE_1 0x0003 #define APS_WRITE_2 0x0007 #define APS_WRITE_3 0x000f /* read masks for I/O, read 0-3 values (skip command byte) */ #define APS_READ_0 0x0000 #define APS_READ_1 0x0002 #define APS_READ_2 0x0006 #define APS_READ_3 0x000e #define APS_READ_RET 0x8000 #define APS_READ_ALL 0xffff /* Bit definitions for APS_INPUT value */ #define APS_INPUT_KB (1 << 5) #define APS_INPUT_MS (1 << 6) #define APS_INPUT_LIDOPEN (1 << 7) #define APS_ADDR_SIZE 0x1f struct sensor_rec { u_int8_t state; u_int16_t x_accel; u_int16_t y_accel; u_int8_t temp1; u_int16_t x_var; u_int16_t y_var; u_int8_t temp2; u_int8_t unk; u_int8_t input; }; #define APS_NUM_SENSORS 9 #define APS_SENSOR_XACCEL 0 #define APS_SENSOR_YACCEL 1 #define APS_SENSOR_XVAR 2 #define APS_SENSOR_YVAR 3 #define APS_SENSOR_TEMP1 4 #define APS_SENSOR_TEMP2 5 #define APS_SENSOR_KBACT 6 #define APS_SENSOR_MSACT 7 #define APS_SENSOR_LIDOPEN 8 struct aps_softc { struct device sc_dev; bus_space_tag_t aps_iot; bus_space_handle_t aps_ioh; struct ksensor sensors[APS_NUM_SENSORS]; struct ksensordev sensordev; void (*refresh_sensor_data)(struct aps_softc *); struct sensor_rec aps_data; }; int aps_match(struct device *, void *, void *); void aps_attach(struct device *, struct device *, void *); int aps_activate(struct device *, int); int aps_init(bus_space_tag_t, bus_space_handle_t); int aps_read_data(struct aps_softc *); void aps_refresh_sensor_data(struct aps_softc *); void aps_refresh(void *); int aps_do_io(bus_space_tag_t, bus_space_handle_t, unsigned char *, int, int); struct cfattach aps_ca = { sizeof(struct aps_softc), aps_match, aps_attach, NULL, aps_activate }; struct cfdriver aps_cd = { NULL, "aps", DV_DULL }; struct timeout aps_timeout; /* properly communicate with the controller, writing a set of memory * locations and reading back another set */ int aps_do_io(bus_space_tag_t iot, bus_space_handle_t ioh, unsigned char *buf, int wmask, int rmask) { int bp, stat, n; DPRINTF(("aps_do_io: CMD: 0x%02x, wmask: 0x%04x, rmask: 0x%04x\n", buf[0], wmask, rmask)); /* write init byte using arbitration */ for (n = 0; n < 100; n++) { stat = bus_space_read_1(iot, ioh, APS_STR3); if (stat & (APS_STR3_OBF3B | APS_STR3_SWMF)) { bus_space_read_1(iot, ioh, APS_TWR_RET); continue; } bus_space_write_1(iot, ioh, APS_TWR_BASE, buf[0]); stat = bus_space_read_1(iot, ioh, APS_STR3); if (stat & (APS_STR3_MWMF)) break; delay(1); } if (n == 100) { DPRINTF(("aps_do_io: Failed to get bus\n")); return (1); } /* write data bytes, init already sent */ /* make sure last bye is always written as this will trigger slave */ wmask |= APS_READ_RET; buf[APS_RET] = 0x01; for (n = 1, bp = 2; n < 16; bp <<= 1, n++) { if (wmask & bp) { bus_space_write_1(iot, ioh, APS_TWR_BASE + n, buf[n]); DPRINTF(("aps_do_io: write %2d 0x%02x\n", n, buf[n])); } } for (n = 0; n < 100; n++) { stat = bus_space_read_1(iot, ioh, APS_STR3); if (stat & (APS_STR3_OBF3B)) break; delay(5 * 100); } if (n == 100) { DPRINTF(("aps_do_io: timeout waiting response\n")); return (1); } /* wait for data available */ /* make sure to read the final byte to clear status */ rmask |= APS_READ_RET; /* read cmd and data bytes */ for (n = 0, bp = 1; n < 16; bp <<= 1, n++) { if (rmask & bp) { buf[n] = bus_space_read_1(iot, ioh, APS_TWR_BASE + n); DPRINTF(("aps_do_io: read %2d 0x%02x\n", n, buf[n])); } } return (0); } int aps_match(struct device *parent, void *match, void *aux) { bus_space_tag_t iot; bus_space_handle_t ioh; struct isa_attach_args *ia = aux; int iobase; u_int8_t cr; unsigned char iobuf[16]; iot = ia->ia_iot; iobase = ia->ipa_io[0].base; if (bus_space_map(iot, iobase, APS_ADDR_SIZE, 0, &ioh)) { DPRINTF(("aps: can't map i/o space\n")); return (0); } /* See if this machine has APS */ /* get APS mode */ iobuf[APS_CMD] = 0x13; if (aps_do_io(iot, ioh, iobuf, APS_WRITE_0, APS_READ_1)) { bus_space_unmap(iot, ioh, APS_ADDR_SIZE); return (0); } /* * Observed values from Linux driver: * 0x01: T42 * 0x02: chip already initialised * 0x03: T41 * 0x05: T61 */ cr = iobuf[APS_ARG1]; bus_space_unmap(iot, ioh, APS_ADDR_SIZE); DPRINTF(("aps: state register 0x%x\n", cr)); if (iobuf[APS_RET] != 0 || cr < 1 || cr > 5) { DPRINTF(("aps0: unsupported state %d\n", cr)); return (0); } ia->ipa_nio = 1; ia->ipa_io[0].length = APS_ADDR_SIZE; ia->ipa_nmem = 0; ia->ipa_nirq = 0; ia->ipa_ndrq = 0; return (1); } void aps_attach(struct device *parent, struct device *self, void *aux) { struct aps_softc *sc = (void *)self; int iobase, i; bus_space_tag_t iot; bus_space_handle_t ioh; struct isa_attach_args *ia = aux; iobase = ia->ipa_io[0].base; iot = sc->aps_iot = ia->ia_iot; if (bus_space_map(iot, iobase, APS_ADDR_SIZE, 0, &sc->aps_ioh)) { printf(": can't map i/o space\n"); return; } ioh = sc->aps_ioh; printf("\n"); if (aps_init(iot, ioh)) goto out; sc->sensors[APS_SENSOR_XACCEL].type = SENSOR_INTEGER; snprintf(sc->sensors[APS_SENSOR_XACCEL].desc, sizeof(sc->sensors[APS_SENSOR_XACCEL].desc), "X_ACCEL"); sc->sensors[APS_SENSOR_YACCEL].type = SENSOR_INTEGER; snprintf(sc->sensors[APS_SENSOR_YACCEL].desc, sizeof(sc->sensors[APS_SENSOR_YACCEL].desc), "Y_ACCEL"); sc->sensors[APS_SENSOR_TEMP1].type = SENSOR_TEMP; sc->sensors[APS_SENSOR_TEMP2].type = SENSOR_TEMP; sc->sensors[APS_SENSOR_XVAR].type = SENSOR_INTEGER; snprintf(sc->sensors[APS_SENSOR_XVAR].desc, sizeof(sc->sensors[APS_SENSOR_XVAR].desc), "X_VAR"); sc->sensors[APS_SENSOR_YVAR].type = SENSOR_INTEGER; snprintf(sc->sensors[APS_SENSOR_YVAR].desc, sizeof(sc->sensors[APS_SENSOR_YVAR].desc), "Y_VAR"); sc->sensors[APS_SENSOR_KBACT].type = SENSOR_INDICATOR; snprintf(sc->sensors[APS_SENSOR_KBACT].desc, sizeof(sc->sensors[APS_SENSOR_KBACT].desc), "Keyboard Active"); sc->sensors[APS_SENSOR_MSACT].type = SENSOR_INDICATOR; snprintf(sc->sensors[APS_SENSOR_MSACT].desc, sizeof(sc->sensors[APS_SENSOR_MSACT].desc), "Mouse Active"); sc->sensors[APS_SENSOR_LIDOPEN].type = SENSOR_INDICATOR; snprintf(sc->sensors[APS_SENSOR_LIDOPEN].desc, sizeof(sc->sensors[APS_SENSOR_LIDOPEN].desc), "Lid Open"); /* stop hiding and report to the authorities */ strlcpy(sc->sensordev.xname, sc->sc_dev.dv_xname, sizeof(sc->sensordev.xname)); for (i = 0; i < APS_NUM_SENSORS ; i++) { sensor_attach(&sc->sensordev, &sc->sensors[i]); } sensordev_install(&sc->sensordev); /* Refresh sensor data every 0.5 seconds */ timeout_set(&aps_timeout, aps_refresh, sc); timeout_add_msec(&aps_timeout, 500); return; out: printf("%s: failed to initialize\n", sc->sc_dev.dv_xname); return; } int aps_init(bus_space_tag_t iot, bus_space_handle_t ioh) { unsigned char iobuf[16]; /* command 0x17/0x81: check EC */ iobuf[APS_CMD] = 0x17; iobuf[APS_ARG1] = 0x81; if (aps_do_io(iot, ioh, iobuf, APS_WRITE_1, APS_READ_3)) return (1); if (iobuf[APS_RET] != 0 ||iobuf[APS_ARG3] != 0) return (1); /* Test values from the Linux driver */ if ((iobuf[APS_ARG1] != 0 || iobuf[APS_ARG2] != 0x60) && (iobuf[APS_ARG1] != 1 || iobuf[APS_ARG2] != 0)) return (1); /* command 0x14: set power */ iobuf[APS_CMD] = 0x14; iobuf[APS_ARG1] = 0x01; if (aps_do_io(iot, ioh, iobuf, APS_WRITE_1, APS_READ_0)) return (1); if (iobuf[APS_RET] != 0) return (1); /* command 0x10: set config (sample rate and order) */ iobuf[APS_CMD] = 0x10; iobuf[APS_ARG1] = 0xc8; iobuf[APS_ARG2] = 0x00; iobuf[APS_ARG3] = 0x02; if (aps_do_io(iot, ioh, iobuf, APS_WRITE_3, APS_READ_0)) return (1); if (iobuf[APS_RET] != 0) return (1); /* command 0x11: refresh data */ iobuf[APS_CMD] = 0x11; if (aps_do_io(iot, ioh, iobuf, APS_WRITE_0, APS_READ_1)) return (1); if (iobuf[APS_ARG1] != 0) return (1); return (0); } int aps_read_data(struct aps_softc *sc) { bus_space_tag_t iot = sc->aps_iot; bus_space_handle_t ioh = sc->aps_ioh; unsigned char iobuf[16]; /* command 0x11: refresh data */ iobuf[APS_CMD] = 0x11; if (aps_do_io(iot, ioh, iobuf, APS_WRITE_0, APS_READ_ALL)) return (1); sc->aps_data.state = iobuf[APS_STATE]; sc->aps_data.x_accel = iobuf[APS_XACCEL] + 256 * iobuf[APS_XACCEL + 1]; sc->aps_data.y_accel = iobuf[APS_YACCEL] + 256 * iobuf[APS_YACCEL + 1]; sc->aps_data.temp1 = iobuf[APS_TEMP]; sc->aps_data.x_var = iobuf[APS_XVAR] + 256 * iobuf[APS_XVAR + 1]; sc->aps_data.y_var = iobuf[APS_YVAR] + 256 * iobuf[APS_YVAR + 1]; sc->aps_data.temp2 = iobuf[APS_TEMP2]; sc->aps_data.input = iobuf[APS_INPUT]; return (0); } void aps_refresh_sensor_data(struct aps_softc *sc) { int64_t temp; int i; #if NAPM > 0 extern int lid_suspend; extern int apm_lidclose; #endif if (aps_read_data(sc)) return; for (i = 0; i < APS_NUM_SENSORS; i++) { sc->sensors[i].flags &= ~SENSOR_FINVALID; } sc->sensors[APS_SENSOR_XACCEL].value = sc->aps_data.x_accel; sc->sensors[APS_SENSOR_YACCEL].value = sc->aps_data.y_accel; /* convert to micro (mu) degrees */ temp = sc->aps_data.temp1 * 1000000; /* convert to kelvin */ temp += 273150000; sc->sensors[APS_SENSOR_TEMP1].value = temp; /* convert to micro (mu) degrees */ temp = sc->aps_data.temp2 * 1000000; /* convert to kelvin */ temp += 273150000; sc->sensors[APS_SENSOR_TEMP2].value = temp; sc->sensors[APS_SENSOR_XVAR].value = sc->aps_data.x_var; sc->sensors[APS_SENSOR_YVAR].value = sc->aps_data.y_var; sc->sensors[APS_SENSOR_KBACT].value = (sc->aps_data.input & APS_INPUT_KB) ? 1 : 0; sc->sensors[APS_SENSOR_MSACT].value = (sc->aps_data.input & APS_INPUT_MS) ? 1 : 0; #if NAPM > 0 if (lid_suspend && (sc->sensors[APS_SENSOR_LIDOPEN].value == 1) && (sc->aps_data.input & APS_INPUT_LIDOPEN) == 0) /* Inform APM that the lid has closed */ apm_lidclose = 1; #endif sc->sensors[APS_SENSOR_LIDOPEN].value = (sc->aps_data.input & APS_INPUT_LIDOPEN) ? 1 : 0; } void aps_refresh(void *arg) { struct aps_softc *sc = (struct aps_softc *)arg; aps_refresh_sensor_data(sc); timeout_add_msec(&aps_timeout, 500); } int aps_activate(struct device *self, int act) { struct aps_softc *sc = (struct aps_softc *)self; bus_space_tag_t iot = sc->aps_iot; bus_space_handle_t ioh = sc->aps_ioh; unsigned char iobuf[16]; switch (act) { case DVACT_SUSPEND: timeout_del(&aps_timeout); break; case DVACT_RESUME: /* * Redo the init sequence on resume, because APS is * as forgetful as it is deaf. */ /* get APS mode */ iobuf[APS_CMD] = 0x13; if (aps_do_io(iot, ioh, iobuf, APS_WRITE_0, APS_READ_1) || aps_init(iot, ioh)) printf("aps: failed to wake up\n"); else timeout_add_msec(&aps_timeout, 500); break; } return (0); }