14ad7e9b0SAdrian Chadd /*- 24d846d26SWarner Losh * SPDX-License-Identifier: BSD-2-Clause 36e778a7eSPedro F. Giffuni * 4f4a3eb02SAdrian Chadd * Copyright (c) 2015-2016 Landon Fuller <landon@landonf.org> 5f4a3eb02SAdrian Chadd * Copyright (c) 2016 Michael Zhilin <mizhka@gmail.com> 68e35bf83SLandon J. Fuller * Copyright (c) 2017 The FreeBSD Foundation 74ad7e9b0SAdrian Chadd * All rights reserved. 84ad7e9b0SAdrian Chadd * 94e96bf3aSLandon J. Fuller * Portions of this software were developed by Landon Fuller 104e96bf3aSLandon J. Fuller * under sponsorship from the FreeBSD Foundation. 118e35bf83SLandon J. Fuller * 124ad7e9b0SAdrian Chadd * Redistribution and use in source and binary forms, with or without 134ad7e9b0SAdrian Chadd * modification, are permitted provided that the following conditions 144ad7e9b0SAdrian Chadd * are met: 154ad7e9b0SAdrian Chadd * 1. Redistributions of source code must retain the above copyright 164ad7e9b0SAdrian Chadd * notice, this list of conditions and the following disclaimer, 174ad7e9b0SAdrian Chadd * without modification. 184ad7e9b0SAdrian Chadd * 2. Redistributions in binary form must reproduce at minimum a disclaimer 194ad7e9b0SAdrian Chadd * similar to the "NO WARRANTY" disclaimer below ("Disclaimer") and any 204ad7e9b0SAdrian Chadd * redistribution must be conditioned upon including a substantially 214ad7e9b0SAdrian Chadd * similar Disclaimer requirement for further binary redistribution. 224ad7e9b0SAdrian Chadd * 234ad7e9b0SAdrian Chadd * NO WARRANTY 244ad7e9b0SAdrian Chadd * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 254ad7e9b0SAdrian Chadd * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 264ad7e9b0SAdrian Chadd * LIMITED TO, THE IMPLIED WARRANTIES OF NONINFRINGEMENT, MERCHANTIBILITY 274ad7e9b0SAdrian Chadd * AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL 284ad7e9b0SAdrian Chadd * THE COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR SPECIAL, EXEMPLARY, 294ad7e9b0SAdrian Chadd * OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 304ad7e9b0SAdrian Chadd * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 314ad7e9b0SAdrian Chadd * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER 324ad7e9b0SAdrian Chadd * IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 334ad7e9b0SAdrian Chadd * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF 344ad7e9b0SAdrian Chadd * THE POSSIBILITY OF SUCH DAMAGES. 354ad7e9b0SAdrian Chadd */ 364ad7e9b0SAdrian Chadd 374ad7e9b0SAdrian Chadd #include <sys/cdefs.h> 384ad7e9b0SAdrian Chadd /* 394ad7e9b0SAdrian Chadd * Broadcom ChipCommon driver. 404ad7e9b0SAdrian Chadd * 414ad7e9b0SAdrian Chadd * With the exception of some very early chipsets, the ChipCommon core 424ad7e9b0SAdrian Chadd * has been included in all HND SoCs and chipsets based on the siba(4) 434ad7e9b0SAdrian Chadd * and bcma(4) interconnects, providing a common interface to chipset 440c91e892SLandon J. Fuller * identification, bus enumeration, UARTs, clocks, watchdog interrupts, 450c91e892SLandon J. Fuller * GPIO, flash, etc. 464ad7e9b0SAdrian Chadd */ 474ad7e9b0SAdrian Chadd 484ad7e9b0SAdrian Chadd #include <sys/param.h> 494ad7e9b0SAdrian Chadd #include <sys/kernel.h> 50f4a3eb02SAdrian Chadd #include <sys/lock.h> 514ad7e9b0SAdrian Chadd #include <sys/bus.h> 52e129bcd6SLandon J. Fuller #include <sys/rman.h> 53f4a3eb02SAdrian Chadd #include <sys/malloc.h> 544ad7e9b0SAdrian Chadd #include <sys/module.h> 55f4a3eb02SAdrian Chadd #include <sys/mutex.h> 564ad7e9b0SAdrian Chadd #include <sys/systm.h> 574ad7e9b0SAdrian Chadd 584ad7e9b0SAdrian Chadd #include <machine/bus.h> 594ad7e9b0SAdrian Chadd #include <machine/resource.h> 604ad7e9b0SAdrian Chadd 614ad7e9b0SAdrian Chadd #include <dev/bhnd/bhnd.h> 62f4a3eb02SAdrian Chadd #include <dev/bhnd/bhndvar.h> 63e83ce340SAdrian Chadd 644ad7e9b0SAdrian Chadd #include "chipcreg.h" 654ad7e9b0SAdrian Chadd #include "chipcvar.h" 660c91e892SLandon J. Fuller 67f4a3eb02SAdrian Chadd #include "chipc_private.h" 684ad7e9b0SAdrian Chadd 6936e4410aSAdrian Chadd static struct bhnd_device_quirk chipc_quirks[]; 7036e4410aSAdrian Chadd 714ad7e9b0SAdrian Chadd /* Supported device identifiers */ 7236e4410aSAdrian Chadd static const struct bhnd_device chipc_devices[] = { 73b0b9c854SLandon J. Fuller BHND_DEVICE(BCM, CC, NULL, chipc_quirks), 744cb7084eSLandon J. Fuller BHND_DEVICE(BCM, 4706_CC, NULL, chipc_quirks), 7536e4410aSAdrian Chadd BHND_DEVICE_END 764ad7e9b0SAdrian Chadd }; 774ad7e9b0SAdrian Chadd 784ad7e9b0SAdrian Chadd /* Device quirks table */ 794ad7e9b0SAdrian Chadd static struct bhnd_device_quirk chipc_quirks[] = { 8056a4cdd1SLandon J. Fuller /* HND OTP controller revisions */ 8156a4cdd1SLandon J. Fuller BHND_CORE_QUIRK (HWREV_EQ (12), CHIPC_QUIRK_OTP_HND), /* (?) */ 8256a4cdd1SLandon J. Fuller BHND_CORE_QUIRK (HWREV_EQ (17), CHIPC_QUIRK_OTP_HND), /* BCM4311 */ 8356a4cdd1SLandon J. Fuller BHND_CORE_QUIRK (HWREV_EQ (22), CHIPC_QUIRK_OTP_HND), /* BCM4312 */ 8456a4cdd1SLandon J. Fuller 8556a4cdd1SLandon J. Fuller /* IPX OTP controller revisions */ 8656a4cdd1SLandon J. Fuller BHND_CORE_QUIRK (HWREV_EQ (21), CHIPC_QUIRK_OTP_IPX), 8756a4cdd1SLandon J. Fuller BHND_CORE_QUIRK (HWREV_GTE(23), CHIPC_QUIRK_OTP_IPX), 8856a4cdd1SLandon J. Fuller 895ad9ac03SAdrian Chadd BHND_CORE_QUIRK (HWREV_GTE(32), CHIPC_QUIRK_SUPPORTS_SPROM), 905ad9ac03SAdrian Chadd BHND_CORE_QUIRK (HWREV_GTE(35), CHIPC_QUIRK_SUPPORTS_CAP_EXT), 9156a4cdd1SLandon J. Fuller BHND_CORE_QUIRK (HWREV_GTE(49), CHIPC_QUIRK_IPX_OTPL_SIZE), 925ad9ac03SAdrian Chadd 935ad9ac03SAdrian Chadd /* 4706 variant quirks */ 945ad9ac03SAdrian Chadd BHND_CORE_QUIRK (HWREV_EQ (38), CHIPC_QUIRK_4706_NFLASH), /* BCM5357? */ 955ad9ac03SAdrian Chadd BHND_CHIP_QUIRK (4706, HWREV_ANY, CHIPC_QUIRK_4706_NFLASH), 965ad9ac03SAdrian Chadd 975ad9ac03SAdrian Chadd /* 4331 quirks*/ 985ad9ac03SAdrian Chadd BHND_CHIP_QUIRK (4331, HWREV_ANY, CHIPC_QUIRK_4331_EXTPA_MUX_SPROM), 995ad9ac03SAdrian Chadd BHND_PKG_QUIRK (4331, TN, CHIPC_QUIRK_4331_GPIO2_5_MUX_SPROM), 1005ad9ac03SAdrian Chadd BHND_PKG_QUIRK (4331, TNA0, CHIPC_QUIRK_4331_GPIO2_5_MUX_SPROM), 1015ad9ac03SAdrian Chadd BHND_PKG_QUIRK (4331, TT, CHIPC_QUIRK_4331_EXTPA2_MUX_SPROM), 1025ad9ac03SAdrian Chadd 1035ad9ac03SAdrian Chadd /* 4360 quirks */ 1045ad9ac03SAdrian Chadd BHND_CHIP_QUIRK (4352, HWREV_LTE(2), CHIPC_QUIRK_4360_FEM_MUX_SPROM), 1055ad9ac03SAdrian Chadd BHND_CHIP_QUIRK (43460, HWREV_LTE(2), CHIPC_QUIRK_4360_FEM_MUX_SPROM), 1065ad9ac03SAdrian Chadd BHND_CHIP_QUIRK (43462, HWREV_LTE(2), CHIPC_QUIRK_4360_FEM_MUX_SPROM), 1075ad9ac03SAdrian Chadd BHND_CHIP_QUIRK (43602, HWREV_LTE(2), CHIPC_QUIRK_4360_FEM_MUX_SPROM), 108f4a3eb02SAdrian Chadd 10936e4410aSAdrian Chadd BHND_DEVICE_QUIRK_END 1104ad7e9b0SAdrian Chadd }; 1114ad7e9b0SAdrian Chadd 1120c91e892SLandon J. Fuller static int chipc_add_children(struct chipc_softc *sc); 113f4a3eb02SAdrian Chadd 11456a4cdd1SLandon J. Fuller static bhnd_nvram_src chipc_find_nvram_src(struct chipc_softc *sc, 11556a4cdd1SLandon J. Fuller struct chipc_caps *caps); 116f4a3eb02SAdrian Chadd static int chipc_read_caps(struct chipc_softc *sc, 117f4a3eb02SAdrian Chadd struct chipc_caps *caps); 118f4a3eb02SAdrian Chadd 119f90f4b65SLandon J. Fuller static bool chipc_should_enable_muxed_sprom( 120f4a3eb02SAdrian Chadd struct chipc_softc *sc); 121f90f4b65SLandon J. Fuller static int chipc_enable_otp_power(struct chipc_softc *sc); 122f90f4b65SLandon J. Fuller static void chipc_disable_otp_power(struct chipc_softc *sc); 123f90f4b65SLandon J. Fuller static int chipc_enable_sprom_pins(struct chipc_softc *sc); 124f90f4b65SLandon J. Fuller static void chipc_disable_sprom_pins(struct chipc_softc *sc); 125f4a3eb02SAdrian Chadd 1263a48dfe1SJohn Baldwin static int chipc_try_activate_resource(device_t dev, 1272baed46eSJohn Baldwin device_t child, struct resource *r, 1282baed46eSJohn Baldwin bool req_direct); 1290c91e892SLandon J. Fuller 130f4a3eb02SAdrian Chadd static int chipc_init_rman(struct chipc_softc *sc); 131f4a3eb02SAdrian Chadd static void chipc_free_rman(struct chipc_softc *sc); 1323a48dfe1SJohn Baldwin static struct rman *chipc_get_rman(device_t dev, int type, u_int flags); 133f4a3eb02SAdrian Chadd 1344ad7e9b0SAdrian Chadd /* quirk and capability flag convenience macros */ 1354ad7e9b0SAdrian Chadd #define CHIPC_QUIRK(_sc, _name) \ 1364ad7e9b0SAdrian Chadd ((_sc)->quirks & CHIPC_QUIRK_ ## _name) 1374ad7e9b0SAdrian Chadd 1384ad7e9b0SAdrian Chadd #define CHIPC_CAP(_sc, _name) \ 139f4a3eb02SAdrian Chadd ((_sc)->caps._name) 1404ad7e9b0SAdrian Chadd 1414ad7e9b0SAdrian Chadd #define CHIPC_ASSERT_QUIRK(_sc, name) \ 1424ad7e9b0SAdrian Chadd KASSERT(CHIPC_QUIRK((_sc), name), ("quirk " __STRING(_name) " not set")) 1434ad7e9b0SAdrian Chadd 1444ad7e9b0SAdrian Chadd #define CHIPC_ASSERT_CAP(_sc, name) \ 1454ad7e9b0SAdrian Chadd KASSERT(CHIPC_CAP((_sc), name), ("capability " __STRING(_name) " not set")) 1464ad7e9b0SAdrian Chadd 1474ad7e9b0SAdrian Chadd static int 1484ad7e9b0SAdrian Chadd chipc_probe(device_t dev) 1494ad7e9b0SAdrian Chadd { 15036e4410aSAdrian Chadd const struct bhnd_device *id; 1514ad7e9b0SAdrian Chadd 15236e4410aSAdrian Chadd id = bhnd_device_lookup(dev, chipc_devices, sizeof(chipc_devices[0])); 15336e4410aSAdrian Chadd if (id == NULL) 1544ad7e9b0SAdrian Chadd return (ENXIO); 15536e4410aSAdrian Chadd 15636e4410aSAdrian Chadd bhnd_set_default_core_desc(dev); 15736e4410aSAdrian Chadd return (BUS_PROBE_DEFAULT); 1584ad7e9b0SAdrian Chadd } 1594ad7e9b0SAdrian Chadd 1604ad7e9b0SAdrian Chadd static int 1614ad7e9b0SAdrian Chadd chipc_attach(device_t dev) 1624ad7e9b0SAdrian Chadd { 1634ad7e9b0SAdrian Chadd struct chipc_softc *sc; 1644ad7e9b0SAdrian Chadd int error; 1654ad7e9b0SAdrian Chadd 1664ad7e9b0SAdrian Chadd sc = device_get_softc(dev); 1674ad7e9b0SAdrian Chadd sc->dev = dev; 16836e4410aSAdrian Chadd sc->quirks = bhnd_device_quirks(dev, chipc_devices, 16936e4410aSAdrian Chadd sizeof(chipc_devices[0])); 170f4a3eb02SAdrian Chadd sc->sprom_refcnt = 0; 171e83ce340SAdrian Chadd 172e83ce340SAdrian Chadd CHIPC_LOCK_INIT(sc); 173f4a3eb02SAdrian Chadd STAILQ_INIT(&sc->mem_regions); 1744ad7e9b0SAdrian Chadd 175f4a3eb02SAdrian Chadd /* Set up resource management */ 176f4a3eb02SAdrian Chadd if ((error = chipc_init_rman(sc))) { 177f4a3eb02SAdrian Chadd device_printf(sc->dev, 178f4a3eb02SAdrian Chadd "failed to initialize chipc resource state: %d\n", error); 179f4a3eb02SAdrian Chadd goto failed; 180f4a3eb02SAdrian Chadd } 1814ad7e9b0SAdrian Chadd 1820c91e892SLandon J. Fuller /* Allocate the region containing the chipc register block */ 183f4a3eb02SAdrian Chadd if ((sc->core_region = chipc_find_region_by_rid(sc, 0)) == NULL) { 184f4a3eb02SAdrian Chadd error = ENXIO; 185f4a3eb02SAdrian Chadd goto failed; 186f4a3eb02SAdrian Chadd } 187f4a3eb02SAdrian Chadd 188f4a3eb02SAdrian Chadd error = chipc_retain_region(sc, sc->core_region, 189f4a3eb02SAdrian Chadd RF_ALLOCATED|RF_ACTIVE); 190f4a3eb02SAdrian Chadd if (error) { 191f4a3eb02SAdrian Chadd sc->core_region = NULL; 192f4a3eb02SAdrian Chadd goto failed; 1930c91e892SLandon J. Fuller } 1940c91e892SLandon J. Fuller 1950c91e892SLandon J. Fuller /* Save a direct reference to our chipc registers */ 196f4a3eb02SAdrian Chadd sc->core = sc->core_region->cr_res; 1974ad7e9b0SAdrian Chadd 198f4a3eb02SAdrian Chadd /* Fetch and parse capability register(s) */ 199f4a3eb02SAdrian Chadd if ((error = chipc_read_caps(sc, &sc->caps))) 200f4a3eb02SAdrian Chadd goto failed; 2014ad7e9b0SAdrian Chadd 202f4a3eb02SAdrian Chadd if (bootverbose) 203f4a3eb02SAdrian Chadd chipc_print_caps(sc->dev, &sc->caps); 204f4a3eb02SAdrian Chadd 2050c91e892SLandon J. Fuller /* Attach all supported child devices */ 2060c91e892SLandon J. Fuller if ((error = chipc_add_children(sc))) 2070c91e892SLandon J. Fuller goto failed; 2080c91e892SLandon J. Fuller 2094e96bf3aSLandon J. Fuller /* 2104e96bf3aSLandon J. Fuller * Register ourselves with the bus; we're fully initialized and can 2114e96bf3aSLandon J. Fuller * response to ChipCommin API requests. 2124e96bf3aSLandon J. Fuller * 2134e96bf3aSLandon J. Fuller * Since our children may need access to ChipCommon, this must be done 21418250ec6SJohn Baldwin * before attaching our children below (via bus_attach_children). 2154e96bf3aSLandon J. Fuller */ 2164e96bf3aSLandon J. Fuller if ((error = bhnd_register_provider(dev, BHND_SERVICE_CHIPC))) 217f4a3eb02SAdrian Chadd goto failed; 2184ad7e9b0SAdrian Chadd 21918250ec6SJohn Baldwin bus_attach_children(dev); 2208e35bf83SLandon J. Fuller 2214ad7e9b0SAdrian Chadd return (0); 2224ad7e9b0SAdrian Chadd 223f4a3eb02SAdrian Chadd failed: 2247d1fb1aaSLandon J. Fuller device_delete_children(sc->dev); 2257d1fb1aaSLandon J. Fuller 226f4a3eb02SAdrian Chadd if (sc->core_region != NULL) { 227f4a3eb02SAdrian Chadd chipc_release_region(sc, sc->core_region, 228f4a3eb02SAdrian Chadd RF_ALLOCATED|RF_ACTIVE); 229f4a3eb02SAdrian Chadd } 230f4a3eb02SAdrian Chadd 231f4a3eb02SAdrian Chadd chipc_free_rman(sc); 232e83ce340SAdrian Chadd CHIPC_LOCK_DESTROY(sc); 2334ad7e9b0SAdrian Chadd return (error); 2344ad7e9b0SAdrian Chadd } 2354ad7e9b0SAdrian Chadd 2364ad7e9b0SAdrian Chadd static int 2374ad7e9b0SAdrian Chadd chipc_detach(device_t dev) 2384ad7e9b0SAdrian Chadd { 2394ad7e9b0SAdrian Chadd struct chipc_softc *sc; 240f4a3eb02SAdrian Chadd int error; 2414ad7e9b0SAdrian Chadd 2424ad7e9b0SAdrian Chadd sc = device_get_softc(dev); 243f4a3eb02SAdrian Chadd 24419b3e4aaSLandon J. Fuller if ((error = bus_generic_detach(dev))) 2458e35bf83SLandon J. Fuller return (error); 2468e35bf83SLandon J. Fuller 24719b3e4aaSLandon J. Fuller if ((error = bhnd_deregister_provider(dev, BHND_SERVICE_ANY))) 248f4a3eb02SAdrian Chadd return (error); 249f4a3eb02SAdrian Chadd 250f4a3eb02SAdrian Chadd chipc_release_region(sc, sc->core_region, RF_ALLOCATED|RF_ACTIVE); 251f4a3eb02SAdrian Chadd chipc_free_rman(sc); 252e83ce340SAdrian Chadd 253e83ce340SAdrian Chadd CHIPC_LOCK_DESTROY(sc); 2544ad7e9b0SAdrian Chadd 2554ad7e9b0SAdrian Chadd return (0); 2564ad7e9b0SAdrian Chadd } 2574ad7e9b0SAdrian Chadd 2580c91e892SLandon J. Fuller static int 2590c91e892SLandon J. Fuller chipc_add_children(struct chipc_softc *sc) 2600c91e892SLandon J. Fuller { 2610c91e892SLandon J. Fuller device_t child; 2620c91e892SLandon J. Fuller const char *flash_bus; 2630c91e892SLandon J. Fuller int error; 2640c91e892SLandon J. Fuller 2650c91e892SLandon J. Fuller /* SPROM/OTP */ 2660c91e892SLandon J. Fuller if (sc->caps.nvram_src == BHND_NVRAM_SRC_SPROM || 2670c91e892SLandon J. Fuller sc->caps.nvram_src == BHND_NVRAM_SRC_OTP) 2680c91e892SLandon J. Fuller { 269a05a6804SWarner Losh child = BUS_ADD_CHILD(sc->dev, 0, "bhnd_nvram", DEVICE_UNIT_ANY); 2700c91e892SLandon J. Fuller if (child == NULL) { 2710c91e892SLandon J. Fuller device_printf(sc->dev, "failed to add nvram device\n"); 2720c91e892SLandon J. Fuller return (ENXIO); 2730c91e892SLandon J. Fuller } 2740c91e892SLandon J. Fuller 2750c91e892SLandon J. Fuller /* Both OTP and external SPROM are mapped at CHIPC_SPROM_OTP */ 276caeff9a3SLandon J. Fuller error = chipc_set_mem_resource(sc, child, 0, CHIPC_SPROM_OTP, 277caeff9a3SLandon J. Fuller CHIPC_SPROM_OTP_SIZE, 0, 0); 278caeff9a3SLandon J. Fuller if (error) { 279caeff9a3SLandon J. Fuller device_printf(sc->dev, "failed to set OTP memory " 280caeff9a3SLandon J. Fuller "resource: %d\n", error); 2810c91e892SLandon J. Fuller return (error); 2820c91e892SLandon J. Fuller } 283caeff9a3SLandon J. Fuller } 2840c91e892SLandon J. Fuller 2850c91e892SLandon J. Fuller /* 286f90f4b65SLandon J. Fuller * PMU/PWR_CTRL 2870c91e892SLandon J. Fuller * 288f90f4b65SLandon J. Fuller * On AOB ("Always on Bus") devices, the PMU core (if it exists) is 289f90f4b65SLandon J. Fuller * attached directly to the bhnd(4) bus -- not chipc. 2900c91e892SLandon J. Fuller */ 2914e96bf3aSLandon J. Fuller if (sc->caps.pmu && !sc->caps.aob) { 292a05a6804SWarner Losh child = BUS_ADD_CHILD(sc->dev, 0, "bhnd_pmu", DEVICE_UNIT_ANY); 2930c91e892SLandon J. Fuller if (child == NULL) { 2940c91e892SLandon J. Fuller device_printf(sc->dev, "failed to add pmu\n"); 2950c91e892SLandon J. Fuller return (ENXIO); 2960c91e892SLandon J. Fuller } 2974e96bf3aSLandon J. Fuller } else if (sc->caps.pwr_ctrl) { 298a05a6804SWarner Losh child = BUS_ADD_CHILD(sc->dev, 0, "bhnd_pwrctl", DEVICE_UNIT_ANY); 2994e96bf3aSLandon J. Fuller if (child == NULL) { 3004e96bf3aSLandon J. Fuller device_printf(sc->dev, "failed to add pwrctl\n"); 3014e96bf3aSLandon J. Fuller return (ENXIO); 3024e96bf3aSLandon J. Fuller } 3030c91e892SLandon J. Fuller } 3040c91e892SLandon J. Fuller 3052f909a9fSLandon J. Fuller /* GPIO */ 306a05a6804SWarner Losh child = BUS_ADD_CHILD(sc->dev, 0, "gpio", DEVICE_UNIT_ANY); 3072f909a9fSLandon J. Fuller if (child == NULL) { 3082f909a9fSLandon J. Fuller device_printf(sc->dev, "failed to add gpio\n"); 3092f909a9fSLandon J. Fuller return (ENXIO); 3102f909a9fSLandon J. Fuller } 3112f909a9fSLandon J. Fuller 3122f909a9fSLandon J. Fuller error = chipc_set_mem_resource(sc, child, 0, 0, RM_MAX_END, 0, 0); 3132f909a9fSLandon J. Fuller if (error) { 3142f909a9fSLandon J. Fuller device_printf(sc->dev, "failed to set gpio memory resource: " 3152f909a9fSLandon J. Fuller "%d\n", error); 3162f909a9fSLandon J. Fuller return (error); 3172f909a9fSLandon J. Fuller } 3182f909a9fSLandon J. Fuller 3190c91e892SLandon J. Fuller /* All remaining devices are SoC-only */ 3200c91e892SLandon J. Fuller if (bhnd_get_attach_type(sc->dev) != BHND_ATTACH_NATIVE) 3210c91e892SLandon J. Fuller return (0); 3220c91e892SLandon J. Fuller 3230c91e892SLandon J. Fuller /* UARTs */ 3240c91e892SLandon J. Fuller for (u_int i = 0; i < min(sc->caps.num_uarts, CHIPC_UART_MAX); i++) { 325caeff9a3SLandon J. Fuller int irq_rid, mem_rid; 326caeff9a3SLandon J. Fuller 327caeff9a3SLandon J. Fuller irq_rid = 0; 328caeff9a3SLandon J. Fuller mem_rid = 0; 329caeff9a3SLandon J. Fuller 330a05a6804SWarner Losh child = BUS_ADD_CHILD(sc->dev, 0, "uart", DEVICE_UNIT_ANY); 3310c91e892SLandon J. Fuller if (child == NULL) { 3320c91e892SLandon J. Fuller device_printf(sc->dev, "failed to add uart%u\n", i); 3330c91e892SLandon J. Fuller return (ENXIO); 3340c91e892SLandon J. Fuller } 3350c91e892SLandon J. Fuller 3360c91e892SLandon J. Fuller /* Shared IRQ */ 337caeff9a3SLandon J. Fuller error = chipc_set_irq_resource(sc, child, irq_rid, 0); 3380c91e892SLandon J. Fuller if (error) { 3390c91e892SLandon J. Fuller device_printf(sc->dev, "failed to set uart%u irq %u\n", 340caeff9a3SLandon J. Fuller i, 0); 3410c91e892SLandon J. Fuller return (error); 3420c91e892SLandon J. Fuller } 3430c91e892SLandon J. Fuller 3440c91e892SLandon J. Fuller /* UART registers are mapped sequentially */ 345caeff9a3SLandon J. Fuller error = chipc_set_mem_resource(sc, child, mem_rid, 3460c91e892SLandon J. Fuller CHIPC_UART(i), CHIPC_UART_SIZE, 0, 0); 347caeff9a3SLandon J. Fuller if (error) { 348caeff9a3SLandon J. Fuller device_printf(sc->dev, "failed to set uart%u memory " 349caeff9a3SLandon J. Fuller "resource: %d\n", i, error); 3500c91e892SLandon J. Fuller return (error); 3510c91e892SLandon J. Fuller } 352caeff9a3SLandon J. Fuller } 3530c91e892SLandon J. Fuller 3540c91e892SLandon J. Fuller /* Flash */ 3550c91e892SLandon J. Fuller flash_bus = chipc_flash_bus_name(sc->caps.flash_type); 3560c91e892SLandon J. Fuller if (flash_bus != NULL) { 357caeff9a3SLandon J. Fuller int rid; 358caeff9a3SLandon J. Fuller 359a05a6804SWarner Losh child = BUS_ADD_CHILD(sc->dev, 0, flash_bus, DEVICE_UNIT_ANY); 3600c91e892SLandon J. Fuller if (child == NULL) { 3610c91e892SLandon J. Fuller device_printf(sc->dev, "failed to add %s device\n", 3620c91e892SLandon J. Fuller flash_bus); 3630c91e892SLandon J. Fuller return (ENXIO); 3640c91e892SLandon J. Fuller } 3650c91e892SLandon J. Fuller 3660c91e892SLandon J. Fuller /* flash memory mapping */ 367caeff9a3SLandon J. Fuller rid = 0; 368caeff9a3SLandon J. Fuller error = chipc_set_mem_resource(sc, child, rid, 0, RM_MAX_END, 1, 369caeff9a3SLandon J. Fuller 1); 370caeff9a3SLandon J. Fuller if (error) { 371caeff9a3SLandon J. Fuller device_printf(sc->dev, "failed to set flash memory " 372caeff9a3SLandon J. Fuller "resource %d: %d\n", rid, error); 3730c91e892SLandon J. Fuller return (error); 374caeff9a3SLandon J. Fuller } 3750c91e892SLandon J. Fuller 3760c91e892SLandon J. Fuller /* flashctrl registers */ 377caeff9a3SLandon J. Fuller rid++; 378caeff9a3SLandon J. Fuller error = chipc_set_mem_resource(sc, child, rid, 3790c91e892SLandon J. Fuller CHIPC_SFLASH_BASE, CHIPC_SFLASH_SIZE, 0, 0); 380caeff9a3SLandon J. Fuller if (error) { 381caeff9a3SLandon J. Fuller device_printf(sc->dev, "failed to set flash memory " 382caeff9a3SLandon J. Fuller "resource %d: %d\n", rid, error); 3830c91e892SLandon J. Fuller return (error); 3840c91e892SLandon J. Fuller } 385caeff9a3SLandon J. Fuller } 3860c91e892SLandon J. Fuller 3870c91e892SLandon J. Fuller return (0); 3880c91e892SLandon J. Fuller } 3890c91e892SLandon J. Fuller 39056a4cdd1SLandon J. Fuller /** 39156a4cdd1SLandon J. Fuller * Determine the NVRAM data source for this device. 39256a4cdd1SLandon J. Fuller * 39356a4cdd1SLandon J. Fuller * The SPROM, OTP, and flash capability flags must be fully populated in 39456a4cdd1SLandon J. Fuller * @p caps. 39556a4cdd1SLandon J. Fuller * 39656a4cdd1SLandon J. Fuller * @param sc chipc driver state. 39756a4cdd1SLandon J. Fuller * @param caps capability flags to be used to derive NVRAM configuration. 39856a4cdd1SLandon J. Fuller */ 39956a4cdd1SLandon J. Fuller static bhnd_nvram_src 40056a4cdd1SLandon J. Fuller chipc_find_nvram_src(struct chipc_softc *sc, struct chipc_caps *caps) 40156a4cdd1SLandon J. Fuller { 40256a4cdd1SLandon J. Fuller uint32_t otp_st, srom_ctrl; 40356a4cdd1SLandon J. Fuller 40456a4cdd1SLandon J. Fuller /* 40556a4cdd1SLandon J. Fuller * We check for hardware presence in order of precedence. For example, 406060f5c02SGordon Bergling * SPROM is always used in preference to internal OTP if found. 40756a4cdd1SLandon J. Fuller */ 4081728aef2SLandon J. Fuller if (CHIPC_QUIRK(sc, SUPPORTS_SPROM) && caps->sprom) { 40956a4cdd1SLandon J. Fuller srom_ctrl = bhnd_bus_read_4(sc->core, CHIPC_SPROM_CTRL); 41056a4cdd1SLandon J. Fuller if (srom_ctrl & CHIPC_SRC_PRESENT) 41156a4cdd1SLandon J. Fuller return (BHND_NVRAM_SRC_SPROM); 41256a4cdd1SLandon J. Fuller } 41356a4cdd1SLandon J. Fuller 41456a4cdd1SLandon J. Fuller /* Check for programmed OTP H/W subregion (contains SROM data) */ 41556a4cdd1SLandon J. Fuller if (CHIPC_QUIRK(sc, SUPPORTS_OTP) && caps->otp_size > 0) { 41656a4cdd1SLandon J. Fuller /* TODO: need access to HND-OTP device */ 41756a4cdd1SLandon J. Fuller if (!CHIPC_QUIRK(sc, OTP_HND)) { 41856a4cdd1SLandon J. Fuller device_printf(sc->dev, 41956a4cdd1SLandon J. Fuller "NVRAM unavailable: unsupported OTP controller.\n"); 42056a4cdd1SLandon J. Fuller return (BHND_NVRAM_SRC_UNKNOWN); 42156a4cdd1SLandon J. Fuller } 42256a4cdd1SLandon J. Fuller 42356a4cdd1SLandon J. Fuller otp_st = bhnd_bus_read_4(sc->core, CHIPC_OTPST); 42456a4cdd1SLandon J. Fuller if (otp_st & CHIPC_OTPS_GUP_HW) 42556a4cdd1SLandon J. Fuller return (BHND_NVRAM_SRC_OTP); 42656a4cdd1SLandon J. Fuller } 42756a4cdd1SLandon J. Fuller 42856a4cdd1SLandon J. Fuller /* Check for flash */ 42956a4cdd1SLandon J. Fuller if (caps->flash_type != CHIPC_FLASH_NONE) 43056a4cdd1SLandon J. Fuller return (BHND_NVRAM_SRC_FLASH); 43156a4cdd1SLandon J. Fuller 43256a4cdd1SLandon J. Fuller /* No NVRAM hardware capability declared */ 43356a4cdd1SLandon J. Fuller return (BHND_NVRAM_SRC_UNKNOWN); 43456a4cdd1SLandon J. Fuller } 43556a4cdd1SLandon J. Fuller 436f4a3eb02SAdrian Chadd /* Read and parse chipc capabilities */ 4374ad7e9b0SAdrian Chadd static int 438f4a3eb02SAdrian Chadd chipc_read_caps(struct chipc_softc *sc, struct chipc_caps *caps) 4394ad7e9b0SAdrian Chadd { 440f4a3eb02SAdrian Chadd uint32_t cap_reg; 441f4a3eb02SAdrian Chadd uint32_t cap_ext_reg; 442f4a3eb02SAdrian Chadd uint32_t regval; 443f4a3eb02SAdrian Chadd 444f4a3eb02SAdrian Chadd /* Fetch cap registers */ 445f4a3eb02SAdrian Chadd cap_reg = bhnd_bus_read_4(sc->core, CHIPC_CAPABILITIES); 446f4a3eb02SAdrian Chadd cap_ext_reg = 0; 447f4a3eb02SAdrian Chadd if (CHIPC_QUIRK(sc, SUPPORTS_CAP_EXT)) 448f4a3eb02SAdrian Chadd cap_ext_reg = bhnd_bus_read_4(sc->core, CHIPC_CAPABILITIES_EXT); 449f4a3eb02SAdrian Chadd 450f4a3eb02SAdrian Chadd /* Extract values */ 451f4a3eb02SAdrian Chadd caps->num_uarts = CHIPC_GET_BITS(cap_reg, CHIPC_CAP_NUM_UART); 452f4a3eb02SAdrian Chadd caps->mipseb = CHIPC_GET_FLAG(cap_reg, CHIPC_CAP_MIPSEB); 453f4a3eb02SAdrian Chadd caps->uart_gpio = CHIPC_GET_FLAG(cap_reg, CHIPC_CAP_UARTGPIO); 454f4a3eb02SAdrian Chadd caps->uart_clock = CHIPC_GET_BITS(cap_reg, CHIPC_CAP_UCLKSEL); 455f4a3eb02SAdrian Chadd 456f4a3eb02SAdrian Chadd caps->extbus_type = CHIPC_GET_BITS(cap_reg, CHIPC_CAP_EXTBUS); 457f90f4b65SLandon J. Fuller caps->pwr_ctrl = CHIPC_GET_FLAG(cap_reg, CHIPC_CAP_PWR_CTL); 458f4a3eb02SAdrian Chadd caps->jtag_master = CHIPC_GET_FLAG(cap_reg, CHIPC_CAP_JTAGP); 459f4a3eb02SAdrian Chadd 460f4a3eb02SAdrian Chadd caps->pll_type = CHIPC_GET_BITS(cap_reg, CHIPC_CAP_PLL); 461f4a3eb02SAdrian Chadd caps->backplane_64 = CHIPC_GET_FLAG(cap_reg, CHIPC_CAP_BKPLN64); 462f4a3eb02SAdrian Chadd caps->boot_rom = CHIPC_GET_FLAG(cap_reg, CHIPC_CAP_ROM); 463f4a3eb02SAdrian Chadd caps->pmu = CHIPC_GET_FLAG(cap_reg, CHIPC_CAP_PMU); 464f4a3eb02SAdrian Chadd caps->eci = CHIPC_GET_FLAG(cap_reg, CHIPC_CAP_ECI); 465f4a3eb02SAdrian Chadd caps->sprom = CHIPC_GET_FLAG(cap_reg, CHIPC_CAP_SPROM); 466f4a3eb02SAdrian Chadd caps->otp_size = CHIPC_GET_BITS(cap_reg, CHIPC_CAP_OTP_SIZE); 467f4a3eb02SAdrian Chadd 468f4a3eb02SAdrian Chadd caps->seci = CHIPC_GET_FLAG(cap_ext_reg, CHIPC_CAP2_SECI); 469f4a3eb02SAdrian Chadd caps->gsio = CHIPC_GET_FLAG(cap_ext_reg, CHIPC_CAP2_GSIO); 470f4a3eb02SAdrian Chadd caps->aob = CHIPC_GET_FLAG(cap_ext_reg, CHIPC_CAP2_AOB); 471f4a3eb02SAdrian Chadd 472f4a3eb02SAdrian Chadd /* Fetch OTP size for later IPX controller revisions */ 47356a4cdd1SLandon J. Fuller if (CHIPC_QUIRK(sc, IPX_OTPL_SIZE)) { 474f4a3eb02SAdrian Chadd regval = bhnd_bus_read_4(sc->core, CHIPC_OTPLAYOUT); 475f4a3eb02SAdrian Chadd caps->otp_size = CHIPC_GET_BITS(regval, CHIPC_OTPL_SIZE); 4764ad7e9b0SAdrian Chadd } 4774ad7e9b0SAdrian Chadd 4785ad9ac03SAdrian Chadd /* Determine flash type and parameters */ 479f4a3eb02SAdrian Chadd caps->cfi_width = 0; 480f4a3eb02SAdrian Chadd switch (CHIPC_GET_BITS(cap_reg, CHIPC_CAP_FLASH)) { 481f4a3eb02SAdrian Chadd case CHIPC_CAP_SFLASH_ST: 482f4a3eb02SAdrian Chadd caps->flash_type = CHIPC_SFLASH_ST; 483f4a3eb02SAdrian Chadd break; 484f4a3eb02SAdrian Chadd case CHIPC_CAP_SFLASH_AT: 485f4a3eb02SAdrian Chadd caps->flash_type = CHIPC_SFLASH_AT; 486f4a3eb02SAdrian Chadd break; 487f4a3eb02SAdrian Chadd case CHIPC_CAP_NFLASH: 4880c91e892SLandon J. Fuller /* unimplemented */ 489f4a3eb02SAdrian Chadd caps->flash_type = CHIPC_NFLASH; 490f4a3eb02SAdrian Chadd break; 491f4a3eb02SAdrian Chadd case CHIPC_CAP_PFLASH: 492f4a3eb02SAdrian Chadd caps->flash_type = CHIPC_PFLASH_CFI; 493f4a3eb02SAdrian Chadd 494f4a3eb02SAdrian Chadd /* determine cfi width */ 495f4a3eb02SAdrian Chadd regval = bhnd_bus_read_4(sc->core, CHIPC_FLASH_CFG); 496f4a3eb02SAdrian Chadd if (CHIPC_GET_FLAG(regval, CHIPC_FLASH_CFG_DS)) 497f4a3eb02SAdrian Chadd caps->cfi_width = 2; 498f4a3eb02SAdrian Chadd else 499f4a3eb02SAdrian Chadd caps->cfi_width = 1; 500f4a3eb02SAdrian Chadd 501f4a3eb02SAdrian Chadd break; 502f4a3eb02SAdrian Chadd case CHIPC_CAP_FLASH_NONE: 503f4a3eb02SAdrian Chadd caps->flash_type = CHIPC_FLASH_NONE; 504f4a3eb02SAdrian Chadd break; 505f4a3eb02SAdrian Chadd 506f4a3eb02SAdrian Chadd } 507f4a3eb02SAdrian Chadd 508f4a3eb02SAdrian Chadd /* Handle 4706_NFLASH fallback */ 509f4a3eb02SAdrian Chadd if (CHIPC_QUIRK(sc, 4706_NFLASH) && 510f4a3eb02SAdrian Chadd CHIPC_GET_FLAG(cap_reg, CHIPC_CAP_4706_NFLASH)) 5114ad7e9b0SAdrian Chadd { 512f4a3eb02SAdrian Chadd caps->flash_type = CHIPC_NFLASH_4706; 513f4a3eb02SAdrian Chadd } 514f4a3eb02SAdrian Chadd 51556a4cdd1SLandon J. Fuller /* Determine NVRAM source. Must occur after the SPROM/OTP/flash 51656a4cdd1SLandon J. Fuller * capability flags have been populated. */ 51756a4cdd1SLandon J. Fuller caps->nvram_src = chipc_find_nvram_src(sc, caps); 51856a4cdd1SLandon J. Fuller 51956a4cdd1SLandon J. Fuller /* Determine the SPROM offset within OTP (if any). SPROM-formatted 52056a4cdd1SLandon J. Fuller * data is placed within the OTP general use region. */ 52156a4cdd1SLandon J. Fuller caps->sprom_offset = 0; 52256a4cdd1SLandon J. Fuller if (caps->nvram_src == BHND_NVRAM_SRC_OTP) { 52356a4cdd1SLandon J. Fuller CHIPC_ASSERT_QUIRK(sc, OTP_IPX); 52456a4cdd1SLandon J. Fuller 52556a4cdd1SLandon J. Fuller /* Bit offset to GUP HW subregion containing SPROM data */ 52656a4cdd1SLandon J. Fuller regval = bhnd_bus_read_4(sc->core, CHIPC_OTPLAYOUT); 52756a4cdd1SLandon J. Fuller caps->sprom_offset = CHIPC_GET_BITS(regval, CHIPC_OTPL_GUP); 52856a4cdd1SLandon J. Fuller 52956a4cdd1SLandon J. Fuller /* Convert to bytes */ 53056a4cdd1SLandon J. Fuller caps->sprom_offset /= 8; 53156a4cdd1SLandon J. Fuller } 53256a4cdd1SLandon J. Fuller 5334ad7e9b0SAdrian Chadd return (0); 5344ad7e9b0SAdrian Chadd } 5354ad7e9b0SAdrian Chadd 536f4a3eb02SAdrian Chadd static int 537f4a3eb02SAdrian Chadd chipc_suspend(device_t dev) 538f4a3eb02SAdrian Chadd { 539f4a3eb02SAdrian Chadd return (bus_generic_suspend(dev)); 540f4a3eb02SAdrian Chadd } 541f4a3eb02SAdrian Chadd 542f4a3eb02SAdrian Chadd static int 543f4a3eb02SAdrian Chadd chipc_resume(device_t dev) 544f4a3eb02SAdrian Chadd { 545f4a3eb02SAdrian Chadd return (bus_generic_resume(dev)); 546f4a3eb02SAdrian Chadd } 547f4a3eb02SAdrian Chadd 548f4a3eb02SAdrian Chadd static void 549f4a3eb02SAdrian Chadd chipc_probe_nomatch(device_t dev, device_t child) 550f4a3eb02SAdrian Chadd { 551f4a3eb02SAdrian Chadd struct resource_list *rl; 552f4a3eb02SAdrian Chadd const char *name; 553f4a3eb02SAdrian Chadd 554f4a3eb02SAdrian Chadd name = device_get_name(child); 555f4a3eb02SAdrian Chadd if (name == NULL) 556f4a3eb02SAdrian Chadd name = "unknown device"; 557f4a3eb02SAdrian Chadd 558f4a3eb02SAdrian Chadd device_printf(dev, "<%s> at", name); 559f4a3eb02SAdrian Chadd 560f4a3eb02SAdrian Chadd rl = BUS_GET_RESOURCE_LIST(dev, child); 561f4a3eb02SAdrian Chadd if (rl != NULL) { 562f4a3eb02SAdrian Chadd resource_list_print_type(rl, "mem", SYS_RES_MEMORY, "%#jx"); 563f4a3eb02SAdrian Chadd resource_list_print_type(rl, "irq", SYS_RES_IRQ, "%jd"); 564f4a3eb02SAdrian Chadd } 565f4a3eb02SAdrian Chadd 566f4a3eb02SAdrian Chadd printf(" (no driver attached)\n"); 567f4a3eb02SAdrian Chadd } 568f4a3eb02SAdrian Chadd 569f4a3eb02SAdrian Chadd static int 570f4a3eb02SAdrian Chadd chipc_print_child(device_t dev, device_t child) 571f4a3eb02SAdrian Chadd { 572f4a3eb02SAdrian Chadd struct resource_list *rl; 573f4a3eb02SAdrian Chadd int retval = 0; 574f4a3eb02SAdrian Chadd 575f4a3eb02SAdrian Chadd retval += bus_print_child_header(dev, child); 576f4a3eb02SAdrian Chadd 577f4a3eb02SAdrian Chadd rl = BUS_GET_RESOURCE_LIST(dev, child); 578f4a3eb02SAdrian Chadd if (rl != NULL) { 579f4a3eb02SAdrian Chadd retval += resource_list_print_type(rl, "mem", SYS_RES_MEMORY, 580f4a3eb02SAdrian Chadd "%#jx"); 581f4a3eb02SAdrian Chadd retval += resource_list_print_type(rl, "irq", SYS_RES_IRQ, 582f4a3eb02SAdrian Chadd "%jd"); 583f4a3eb02SAdrian Chadd } 584f4a3eb02SAdrian Chadd 585f4a3eb02SAdrian Chadd retval += bus_print_child_domain(dev, child); 586f4a3eb02SAdrian Chadd retval += bus_print_child_footer(dev, child); 587f4a3eb02SAdrian Chadd 588f4a3eb02SAdrian Chadd return (retval); 589f4a3eb02SAdrian Chadd } 590f4a3eb02SAdrian Chadd 591f4a3eb02SAdrian Chadd static device_t 592f4a3eb02SAdrian Chadd chipc_add_child(device_t dev, u_int order, const char *name, int unit) 593f4a3eb02SAdrian Chadd { 594f4a3eb02SAdrian Chadd struct chipc_devinfo *dinfo; 595f4a3eb02SAdrian Chadd device_t child; 5960c91e892SLandon J. Fuller 597f4a3eb02SAdrian Chadd child = device_add_child_ordered(dev, order, name, unit); 598f4a3eb02SAdrian Chadd if (child == NULL) 599f4a3eb02SAdrian Chadd return (NULL); 600f4a3eb02SAdrian Chadd 601f4a3eb02SAdrian Chadd dinfo = malloc(sizeof(struct chipc_devinfo), M_BHND, M_NOWAIT); 602f4a3eb02SAdrian Chadd if (dinfo == NULL) { 603f4a3eb02SAdrian Chadd device_delete_child(dev, child); 604f4a3eb02SAdrian Chadd return (NULL); 605f4a3eb02SAdrian Chadd } 606f4a3eb02SAdrian Chadd 607f4a3eb02SAdrian Chadd resource_list_init(&dinfo->resources); 608caeff9a3SLandon J. Fuller dinfo->irq_mapped = false; 609f4a3eb02SAdrian Chadd device_set_ivars(child, dinfo); 610f4a3eb02SAdrian Chadd 611f4a3eb02SAdrian Chadd return (child); 612f4a3eb02SAdrian Chadd } 613f4a3eb02SAdrian Chadd 614f4a3eb02SAdrian Chadd static void 615f4a3eb02SAdrian Chadd chipc_child_deleted(device_t dev, device_t child) 616f4a3eb02SAdrian Chadd { 617f4a3eb02SAdrian Chadd struct chipc_devinfo *dinfo = device_get_ivars(child); 618f4a3eb02SAdrian Chadd 619f4a3eb02SAdrian Chadd if (dinfo != NULL) { 620caeff9a3SLandon J. Fuller /* Free the child's resource list */ 621f4a3eb02SAdrian Chadd resource_list_free(&dinfo->resources); 622caeff9a3SLandon J. Fuller 623caeff9a3SLandon J. Fuller /* Unmap the child's IRQ */ 624caeff9a3SLandon J. Fuller if (dinfo->irq_mapped) { 625caeff9a3SLandon J. Fuller bhnd_unmap_intr(dev, dinfo->irq); 626caeff9a3SLandon J. Fuller dinfo->irq_mapped = false; 627caeff9a3SLandon J. Fuller } 628caeff9a3SLandon J. Fuller 629f4a3eb02SAdrian Chadd free(dinfo, M_BHND); 630f4a3eb02SAdrian Chadd } 631f4a3eb02SAdrian Chadd 632f4a3eb02SAdrian Chadd device_set_ivars(child, NULL); 633f4a3eb02SAdrian Chadd } 634f4a3eb02SAdrian Chadd 635f4a3eb02SAdrian Chadd static struct resource_list * 636f4a3eb02SAdrian Chadd chipc_get_resource_list(device_t dev, device_t child) 637f4a3eb02SAdrian Chadd { 638f4a3eb02SAdrian Chadd struct chipc_devinfo *dinfo = device_get_ivars(child); 639f4a3eb02SAdrian Chadd return (&dinfo->resources); 640f4a3eb02SAdrian Chadd } 641f4a3eb02SAdrian Chadd 642f4a3eb02SAdrian Chadd /* Allocate region records for the given port, and add the port's memory 643f4a3eb02SAdrian Chadd * range to the mem_rman */ 644f4a3eb02SAdrian Chadd static int 645f4a3eb02SAdrian Chadd chipc_rman_init_regions (struct chipc_softc *sc, bhnd_port_type type, 646f4a3eb02SAdrian Chadd u_int port) 647f4a3eb02SAdrian Chadd { 648f4a3eb02SAdrian Chadd struct chipc_region *cr; 649f4a3eb02SAdrian Chadd rman_res_t start, end; 650f4a3eb02SAdrian Chadd u_int num_regions; 651f4a3eb02SAdrian Chadd int error; 652f4a3eb02SAdrian Chadd 6530c91e892SLandon J. Fuller num_regions = bhnd_get_region_count(sc->dev, type, port); 654f4a3eb02SAdrian Chadd for (u_int region = 0; region < num_regions; region++) { 655f4a3eb02SAdrian Chadd /* Allocate new region record */ 656f4a3eb02SAdrian Chadd cr = chipc_alloc_region(sc, type, port, region); 657f4a3eb02SAdrian Chadd if (cr == NULL) 658f4a3eb02SAdrian Chadd return (ENODEV); 659f4a3eb02SAdrian Chadd 660f4a3eb02SAdrian Chadd /* Can't manage regions that cannot be allocated */ 661f4a3eb02SAdrian Chadd if (cr->cr_rid < 0) { 662f4a3eb02SAdrian Chadd BHND_DEBUG_DEV(sc->dev, "no rid for chipc region " 663f4a3eb02SAdrian Chadd "%s%u.%u", bhnd_port_type_name(type), port, region); 664f4a3eb02SAdrian Chadd chipc_free_region(sc, cr); 665f4a3eb02SAdrian Chadd continue; 666f4a3eb02SAdrian Chadd } 667f4a3eb02SAdrian Chadd 668f4a3eb02SAdrian Chadd /* Add to rman's managed range */ 669f4a3eb02SAdrian Chadd start = cr->cr_addr; 670f4a3eb02SAdrian Chadd end = cr->cr_end; 671f4a3eb02SAdrian Chadd if ((error = rman_manage_region(&sc->mem_rman, start, end))) { 672f4a3eb02SAdrian Chadd chipc_free_region(sc, cr); 673f4a3eb02SAdrian Chadd return (error); 674f4a3eb02SAdrian Chadd } 675f4a3eb02SAdrian Chadd 676f4a3eb02SAdrian Chadd /* Add to region list */ 677f4a3eb02SAdrian Chadd STAILQ_INSERT_TAIL(&sc->mem_regions, cr, cr_link); 678f4a3eb02SAdrian Chadd } 679f4a3eb02SAdrian Chadd 680f4a3eb02SAdrian Chadd return (0); 681f4a3eb02SAdrian Chadd } 682f4a3eb02SAdrian Chadd 683f4a3eb02SAdrian Chadd /* Initialize memory state for all chipc port regions */ 684f4a3eb02SAdrian Chadd static int 685f4a3eb02SAdrian Chadd chipc_init_rman(struct chipc_softc *sc) 686f4a3eb02SAdrian Chadd { 687f4a3eb02SAdrian Chadd u_int num_ports; 688f4a3eb02SAdrian Chadd int error; 689f4a3eb02SAdrian Chadd 690f4a3eb02SAdrian Chadd /* Port types for which we'll register chipc_region mappings */ 691f4a3eb02SAdrian Chadd bhnd_port_type types[] = { 692f4a3eb02SAdrian Chadd BHND_PORT_DEVICE 693f4a3eb02SAdrian Chadd }; 694f4a3eb02SAdrian Chadd 695f4a3eb02SAdrian Chadd /* Initialize resource manager */ 696f4a3eb02SAdrian Chadd sc->mem_rman.rm_start = 0; 697f4a3eb02SAdrian Chadd sc->mem_rman.rm_end = BUS_SPACE_MAXADDR; 698f4a3eb02SAdrian Chadd sc->mem_rman.rm_type = RMAN_ARRAY; 699f4a3eb02SAdrian Chadd sc->mem_rman.rm_descr = "ChipCommon Device Memory"; 700f4a3eb02SAdrian Chadd if ((error = rman_init(&sc->mem_rman))) { 701f4a3eb02SAdrian Chadd device_printf(sc->dev, "could not initialize mem_rman: %d\n", 702f4a3eb02SAdrian Chadd error); 703f4a3eb02SAdrian Chadd return (error); 704f4a3eb02SAdrian Chadd } 705f4a3eb02SAdrian Chadd 706f4a3eb02SAdrian Chadd /* Populate per-port-region state */ 707f4a3eb02SAdrian Chadd for (u_int i = 0; i < nitems(types); i++) { 708f4a3eb02SAdrian Chadd num_ports = bhnd_get_port_count(sc->dev, types[i]); 709f4a3eb02SAdrian Chadd for (u_int port = 0; port < num_ports; port++) { 710f4a3eb02SAdrian Chadd error = chipc_rman_init_regions(sc, types[i], port); 711f4a3eb02SAdrian Chadd if (error) { 712f4a3eb02SAdrian Chadd device_printf(sc->dev, 713f4a3eb02SAdrian Chadd "region init failed for %s%u: %d\n", 714f4a3eb02SAdrian Chadd bhnd_port_type_name(types[i]), port, 715f4a3eb02SAdrian Chadd error); 716f4a3eb02SAdrian Chadd 717f4a3eb02SAdrian Chadd goto failed; 718f4a3eb02SAdrian Chadd } 719f4a3eb02SAdrian Chadd } 720f4a3eb02SAdrian Chadd } 721f4a3eb02SAdrian Chadd 722f4a3eb02SAdrian Chadd return (0); 723f4a3eb02SAdrian Chadd 724f4a3eb02SAdrian Chadd failed: 725f4a3eb02SAdrian Chadd chipc_free_rman(sc); 726f4a3eb02SAdrian Chadd return (error); 727f4a3eb02SAdrian Chadd } 728f4a3eb02SAdrian Chadd 729f4a3eb02SAdrian Chadd /* Free memory management state */ 730f4a3eb02SAdrian Chadd static void 731f4a3eb02SAdrian Chadd chipc_free_rman(struct chipc_softc *sc) 732f4a3eb02SAdrian Chadd { 733f4a3eb02SAdrian Chadd struct chipc_region *cr, *cr_next; 734f4a3eb02SAdrian Chadd 735f4a3eb02SAdrian Chadd STAILQ_FOREACH_SAFE(cr, &sc->mem_regions, cr_link, cr_next) 736f4a3eb02SAdrian Chadd chipc_free_region(sc, cr); 737f4a3eb02SAdrian Chadd 738f4a3eb02SAdrian Chadd rman_fini(&sc->mem_rman); 739f4a3eb02SAdrian Chadd } 740f4a3eb02SAdrian Chadd 741f4a3eb02SAdrian Chadd /** 742f4a3eb02SAdrian Chadd * Return the rman instance for a given resource @p type, if any. 743f4a3eb02SAdrian Chadd * 744f4a3eb02SAdrian Chadd * @param sc The chipc device state. 745f4a3eb02SAdrian Chadd * @param type The resource type (e.g. SYS_RES_MEMORY, SYS_RES_IRQ, ...) 7463a48dfe1SJohn Baldwin * @param flags Resource flags (e.g. RF_PREFETCHABLE) 747f4a3eb02SAdrian Chadd */ 748f4a3eb02SAdrian Chadd static struct rman * 7493a48dfe1SJohn Baldwin chipc_get_rman(device_t dev, int type, u_int flags) 750f4a3eb02SAdrian Chadd { 7513a48dfe1SJohn Baldwin struct chipc_softc *sc = device_get_softc(dev); 7523a48dfe1SJohn Baldwin 753f4a3eb02SAdrian Chadd switch (type) { 754f4a3eb02SAdrian Chadd case SYS_RES_MEMORY: 755f4a3eb02SAdrian Chadd return (&sc->mem_rman); 756f4a3eb02SAdrian Chadd 757f4a3eb02SAdrian Chadd case SYS_RES_IRQ: 758caeff9a3SLandon J. Fuller /* We delegate IRQ resource management to the parent bus */ 759f4a3eb02SAdrian Chadd return (NULL); 760f4a3eb02SAdrian Chadd 761f4a3eb02SAdrian Chadd default: 762f4a3eb02SAdrian Chadd return (NULL); 763f4a3eb02SAdrian Chadd }; 764f4a3eb02SAdrian Chadd } 765f4a3eb02SAdrian Chadd 766f4a3eb02SAdrian Chadd static struct resource * 767f4a3eb02SAdrian Chadd chipc_alloc_resource(device_t dev, device_t child, int type, 768f4a3eb02SAdrian Chadd int *rid, rman_res_t start, rman_res_t end, rman_res_t count, u_int flags) 769f4a3eb02SAdrian Chadd { 770f4a3eb02SAdrian Chadd struct chipc_softc *sc; 771f4a3eb02SAdrian Chadd struct chipc_region *cr; 772f4a3eb02SAdrian Chadd struct resource_list_entry *rle; 773f4a3eb02SAdrian Chadd struct resource *rv; 774f4a3eb02SAdrian Chadd struct rman *rm; 775f4a3eb02SAdrian Chadd int error; 776f4a3eb02SAdrian Chadd bool passthrough, isdefault; 777f4a3eb02SAdrian Chadd 778f4a3eb02SAdrian Chadd sc = device_get_softc(dev); 779f4a3eb02SAdrian Chadd passthrough = (device_get_parent(child) != dev); 780f4a3eb02SAdrian Chadd isdefault = RMAN_IS_DEFAULT_RANGE(start, end); 781f4a3eb02SAdrian Chadd rle = NULL; 782f4a3eb02SAdrian Chadd 783f4a3eb02SAdrian Chadd /* Fetch the resource manager, delegate request if necessary */ 7843a48dfe1SJohn Baldwin rm = chipc_get_rman(dev, type, flags); 785f4a3eb02SAdrian Chadd if (rm == NULL) { 786f4a3eb02SAdrian Chadd /* Requested resource type is delegated to our parent */ 787f4a3eb02SAdrian Chadd rv = bus_generic_rl_alloc_resource(dev, child, type, rid, 788f4a3eb02SAdrian Chadd start, end, count, flags); 789f4a3eb02SAdrian Chadd return (rv); 790f4a3eb02SAdrian Chadd } 791f4a3eb02SAdrian Chadd 792f4a3eb02SAdrian Chadd /* Populate defaults */ 793f4a3eb02SAdrian Chadd if (!passthrough && isdefault) { 794f4a3eb02SAdrian Chadd /* Fetch the resource list entry. */ 795f4a3eb02SAdrian Chadd rle = resource_list_find(BUS_GET_RESOURCE_LIST(dev, child), 796f4a3eb02SAdrian Chadd type, *rid); 797f4a3eb02SAdrian Chadd if (rle == NULL) { 798f4a3eb02SAdrian Chadd device_printf(dev, 799f4a3eb02SAdrian Chadd "default resource %#x type %d for child %s " 800f4a3eb02SAdrian Chadd "not found\n", *rid, type, 801f4a3eb02SAdrian Chadd device_get_nameunit(child)); 802f4a3eb02SAdrian Chadd return (NULL); 803f4a3eb02SAdrian Chadd } 804f4a3eb02SAdrian Chadd 805f4a3eb02SAdrian Chadd if (rle->res != NULL) { 806f4a3eb02SAdrian Chadd device_printf(dev, 8072b693a88SLandon J. Fuller "resource entry %#x type %d for child %s is busy " 8082b693a88SLandon J. Fuller "[%d]\n", 8092b693a88SLandon J. Fuller *rid, type, device_get_nameunit(child), 8102b693a88SLandon J. Fuller rman_get_flags(rle->res)); 811f4a3eb02SAdrian Chadd 812f4a3eb02SAdrian Chadd return (NULL); 813f4a3eb02SAdrian Chadd } 814f4a3eb02SAdrian Chadd 815f4a3eb02SAdrian Chadd start = rle->start; 816f4a3eb02SAdrian Chadd end = rle->end; 817f4a3eb02SAdrian Chadd count = ulmax(count, rle->count); 818f4a3eb02SAdrian Chadd } 819f4a3eb02SAdrian Chadd 820f4a3eb02SAdrian Chadd /* Locate a mapping region */ 821f4a3eb02SAdrian Chadd if ((cr = chipc_find_region(sc, start, end)) == NULL) { 822f4a3eb02SAdrian Chadd /* Resource requests outside our shared port regions can be 823f4a3eb02SAdrian Chadd * delegated to our parent. */ 824f4a3eb02SAdrian Chadd rv = bus_generic_rl_alloc_resource(dev, child, type, rid, 825f4a3eb02SAdrian Chadd start, end, count, flags); 826f4a3eb02SAdrian Chadd return (rv); 827f4a3eb02SAdrian Chadd } 828f4a3eb02SAdrian Chadd 8292f909a9fSLandon J. Fuller /* 8302f909a9fSLandon J. Fuller * As a special case, children that map the complete ChipCommon register 8312f909a9fSLandon J. Fuller * block are delegated to our parent. 8322f909a9fSLandon J. Fuller * 8332f909a9fSLandon J. Fuller * The rman API does not support sharing resources that are not 8342f909a9fSLandon J. Fuller * identical in size; since we allocate subregions to various children, 8352f909a9fSLandon J. Fuller * any children that need to map the entire register block (e.g. because 8362f909a9fSLandon J. Fuller * they require access to discontiguous register ranges) must make the 8372f909a9fSLandon J. Fuller * allocation through our parent, where we hold a compatible 8382f909a9fSLandon J. Fuller * RF_SHAREABLE allocation. 8392f909a9fSLandon J. Fuller */ 8402f909a9fSLandon J. Fuller if (cr == sc->core_region && cr->cr_addr == start && 8412f909a9fSLandon J. Fuller cr->cr_end == end && cr->cr_count == count) 8422f909a9fSLandon J. Fuller { 8432f909a9fSLandon J. Fuller rv = bus_generic_rl_alloc_resource(dev, child, type, rid, 8442f909a9fSLandon J. Fuller start, end, count, flags); 8452f909a9fSLandon J. Fuller return (rv); 8462f909a9fSLandon J. Fuller } 8472f909a9fSLandon J. Fuller 848f4a3eb02SAdrian Chadd /* Try to retain a region reference */ 8497d1fb1aaSLandon J. Fuller if ((error = chipc_retain_region(sc, cr, RF_ALLOCATED))) 850f4a3eb02SAdrian Chadd return (NULL); 851f4a3eb02SAdrian Chadd 852f4a3eb02SAdrian Chadd /* Make our rman reservation */ 8533a48dfe1SJohn Baldwin rv = bus_generic_rman_alloc_resource(dev, child, type, rid, start, end, 8543a48dfe1SJohn Baldwin count, flags); 855f4a3eb02SAdrian Chadd if (rv == NULL) { 856f4a3eb02SAdrian Chadd chipc_release_region(sc, cr, RF_ALLOCATED); 857f4a3eb02SAdrian Chadd return (NULL); 858f4a3eb02SAdrian Chadd } 859f4a3eb02SAdrian Chadd 860f4a3eb02SAdrian Chadd /* Update child's resource list entry */ 861f4a3eb02SAdrian Chadd if (rle != NULL) { 862f4a3eb02SAdrian Chadd rle->res = rv; 863f4a3eb02SAdrian Chadd rle->start = rman_get_start(rv); 864f4a3eb02SAdrian Chadd rle->end = rman_get_end(rv); 865f4a3eb02SAdrian Chadd rle->count = rman_get_size(rv); 866f4a3eb02SAdrian Chadd } 867f4a3eb02SAdrian Chadd 868f4a3eb02SAdrian Chadd return (rv); 869f4a3eb02SAdrian Chadd } 870f4a3eb02SAdrian Chadd 871f4a3eb02SAdrian Chadd static int 8729dbf5b0eSJohn Baldwin chipc_release_resource(device_t dev, device_t child, struct resource *r) 873f4a3eb02SAdrian Chadd { 874f4a3eb02SAdrian Chadd struct chipc_softc *sc; 875f4a3eb02SAdrian Chadd struct chipc_region *cr; 876f4a3eb02SAdrian Chadd struct rman *rm; 8772b693a88SLandon J. Fuller struct resource_list_entry *rle; 878f4a3eb02SAdrian Chadd int error; 879f4a3eb02SAdrian Chadd 880f4a3eb02SAdrian Chadd sc = device_get_softc(dev); 881f4a3eb02SAdrian Chadd 882f4a3eb02SAdrian Chadd /* Handled by parent bus? */ 8839dbf5b0eSJohn Baldwin rm = chipc_get_rman(dev, rman_get_type(r), rman_get_flags(r)); 884f4a3eb02SAdrian Chadd if (rm == NULL || !rman_is_region_manager(r, rm)) { 8859dbf5b0eSJohn Baldwin return (bus_generic_rl_release_resource(dev, child, r)); 886f4a3eb02SAdrian Chadd } 887f4a3eb02SAdrian Chadd 888f4a3eb02SAdrian Chadd /* Locate the mapping region */ 889f4a3eb02SAdrian Chadd cr = chipc_find_region(sc, rman_get_start(r), rman_get_end(r)); 890f4a3eb02SAdrian Chadd if (cr == NULL) 891f4a3eb02SAdrian Chadd return (EINVAL); 892f4a3eb02SAdrian Chadd 893*6ea1ce22SGavin Atkinson /* Cache rle */ 894*6ea1ce22SGavin Atkinson rle = resource_list_find(BUS_GET_RESOURCE_LIST(dev, child), 895*6ea1ce22SGavin Atkinson rman_get_type(r), rman_get_rid(r)); 896*6ea1ce22SGavin Atkinson 897f4a3eb02SAdrian Chadd /* Deactivate resources */ 8989dbf5b0eSJohn Baldwin error = bus_generic_rman_release_resource(dev, child, r); 8993a48dfe1SJohn Baldwin if (error != 0) 900f4a3eb02SAdrian Chadd return (error); 901f4a3eb02SAdrian Chadd 902f4a3eb02SAdrian Chadd /* Drop allocation reference */ 903f4a3eb02SAdrian Chadd chipc_release_region(sc, cr, RF_ALLOCATED); 904f4a3eb02SAdrian Chadd 9052b693a88SLandon J. Fuller /* Clear reference from the resource list entry if exists */ 9062b693a88SLandon J. Fuller if (rle != NULL) 9072b693a88SLandon J. Fuller rle->res = NULL; 9082b693a88SLandon J. Fuller 909f4a3eb02SAdrian Chadd return (0); 910f4a3eb02SAdrian Chadd } 911f4a3eb02SAdrian Chadd 912f4a3eb02SAdrian Chadd static int 913fef01f04SJohn Baldwin chipc_adjust_resource(device_t dev, device_t child, 914f4a3eb02SAdrian Chadd struct resource *r, rman_res_t start, rman_res_t end) 915f4a3eb02SAdrian Chadd { 916f4a3eb02SAdrian Chadd struct chipc_softc *sc; 917f4a3eb02SAdrian Chadd struct chipc_region *cr; 918f4a3eb02SAdrian Chadd struct rman *rm; 919f4a3eb02SAdrian Chadd 920f4a3eb02SAdrian Chadd sc = device_get_softc(dev); 921f4a3eb02SAdrian Chadd 922f4a3eb02SAdrian Chadd /* Handled by parent bus? */ 923fef01f04SJohn Baldwin rm = chipc_get_rman(dev, rman_get_type(r), rman_get_flags(r)); 924f4a3eb02SAdrian Chadd if (rm == NULL || !rman_is_region_manager(r, rm)) { 925fef01f04SJohn Baldwin return (bus_generic_adjust_resource(dev, child, r, start, end)); 926f4a3eb02SAdrian Chadd } 927f4a3eb02SAdrian Chadd 928f4a3eb02SAdrian Chadd /* The range is limited to the existing region mapping */ 929f4a3eb02SAdrian Chadd cr = chipc_find_region(sc, rman_get_start(r), rman_get_end(r)); 930f4a3eb02SAdrian Chadd if (cr == NULL) 931f4a3eb02SAdrian Chadd return (EINVAL); 932f4a3eb02SAdrian Chadd 933f4a3eb02SAdrian Chadd if (end <= start) 934f4a3eb02SAdrian Chadd return (EINVAL); 935f4a3eb02SAdrian Chadd 936f4a3eb02SAdrian Chadd if (start < cr->cr_addr || end > cr->cr_end) 937f4a3eb02SAdrian Chadd return (EINVAL); 938f4a3eb02SAdrian Chadd 939f4a3eb02SAdrian Chadd /* Range falls within the existing region */ 940f4a3eb02SAdrian Chadd return (rman_adjust_resource(r, start, end)); 941f4a3eb02SAdrian Chadd } 942f4a3eb02SAdrian Chadd 943f4a3eb02SAdrian Chadd /** 944f4a3eb02SAdrian Chadd * Retain an RF_ACTIVE reference to the region mapping @p r, and 945f4a3eb02SAdrian Chadd * configure @p r with its subregion values. 946f4a3eb02SAdrian Chadd * 947f4a3eb02SAdrian Chadd * @param sc Driver instance state. 948f4a3eb02SAdrian Chadd * @param child Requesting child device. 949f4a3eb02SAdrian Chadd * @param r resource to be activated. 950f4a3eb02SAdrian Chadd * @param req_direct If true, failure to allocate a direct bhnd resource 951f4a3eb02SAdrian Chadd * will be treated as an error. If false, the resource will not be marked 952f4a3eb02SAdrian Chadd * as RF_ACTIVE if bhnd direct resource allocation fails. 953f4a3eb02SAdrian Chadd */ 954f4a3eb02SAdrian Chadd static int 9552baed46eSJohn Baldwin chipc_try_activate_resource(device_t dev, device_t child, 9562baed46eSJohn Baldwin struct resource *r, bool req_direct) 957f4a3eb02SAdrian Chadd { 9583a48dfe1SJohn Baldwin struct chipc_softc *sc = device_get_softc(dev); 959f4a3eb02SAdrian Chadd struct rman *rm; 960f4a3eb02SAdrian Chadd struct chipc_region *cr; 961f4a3eb02SAdrian Chadd bhnd_size_t cr_offset; 962f4a3eb02SAdrian Chadd rman_res_t r_start, r_end, r_size; 963f4a3eb02SAdrian Chadd int error; 964f4a3eb02SAdrian Chadd 9652baed46eSJohn Baldwin rm = chipc_get_rman(dev, rman_get_type(r), rman_get_flags(r)); 966f4a3eb02SAdrian Chadd if (rm == NULL || !rman_is_region_manager(r, rm)) 967f4a3eb02SAdrian Chadd return (EINVAL); 968f4a3eb02SAdrian Chadd 969f4a3eb02SAdrian Chadd r_start = rman_get_start(r); 970f4a3eb02SAdrian Chadd r_end = rman_get_end(r); 971f4a3eb02SAdrian Chadd r_size = rman_get_size(r); 972f4a3eb02SAdrian Chadd 973f4a3eb02SAdrian Chadd /* Find the corresponding chipc region */ 974f4a3eb02SAdrian Chadd cr = chipc_find_region(sc, r_start, r_end); 975f4a3eb02SAdrian Chadd if (cr == NULL) 976f4a3eb02SAdrian Chadd return (EINVAL); 977f4a3eb02SAdrian Chadd 978f4a3eb02SAdrian Chadd /* Calculate subregion offset within the chipc region */ 979f4a3eb02SAdrian Chadd cr_offset = r_start - cr->cr_addr; 980f4a3eb02SAdrian Chadd 981f4a3eb02SAdrian Chadd /* Retain (and activate, if necessary) the chipc region */ 982f4a3eb02SAdrian Chadd if ((error = chipc_retain_region(sc, cr, RF_ACTIVE))) 983f4a3eb02SAdrian Chadd return (error); 984f4a3eb02SAdrian Chadd 985f4a3eb02SAdrian Chadd /* Configure child resource with its subregion values. */ 986f4a3eb02SAdrian Chadd if (cr->cr_res->direct) { 987f4a3eb02SAdrian Chadd error = chipc_init_child_resource(r, cr->cr_res->res, 988f4a3eb02SAdrian Chadd cr_offset, r_size); 989f4a3eb02SAdrian Chadd if (error) 990f4a3eb02SAdrian Chadd goto cleanup; 991f4a3eb02SAdrian Chadd 992f4a3eb02SAdrian Chadd /* Mark active */ 993f4a3eb02SAdrian Chadd if ((error = rman_activate_resource(r))) 994f4a3eb02SAdrian Chadd goto cleanup; 995f4a3eb02SAdrian Chadd } else if (req_direct) { 996f4a3eb02SAdrian Chadd error = ENOMEM; 997f4a3eb02SAdrian Chadd goto cleanup; 998f4a3eb02SAdrian Chadd } 999f4a3eb02SAdrian Chadd 1000f4a3eb02SAdrian Chadd return (0); 1001f4a3eb02SAdrian Chadd 1002f4a3eb02SAdrian Chadd cleanup: 1003f4a3eb02SAdrian Chadd chipc_release_region(sc, cr, RF_ACTIVE); 1004f4a3eb02SAdrian Chadd return (error); 1005f4a3eb02SAdrian Chadd } 1006f4a3eb02SAdrian Chadd 1007f4a3eb02SAdrian Chadd static int 1008f4a3eb02SAdrian Chadd chipc_activate_bhnd_resource(device_t dev, device_t child, int type, 1009f4a3eb02SAdrian Chadd int rid, struct bhnd_resource *r) 1010f4a3eb02SAdrian Chadd { 1011f4a3eb02SAdrian Chadd struct rman *rm; 1012f4a3eb02SAdrian Chadd int error; 1013f4a3eb02SAdrian Chadd 1014f4a3eb02SAdrian Chadd /* Delegate non-locally managed resources to parent */ 10153a48dfe1SJohn Baldwin rm = chipc_get_rman(dev, type, rman_get_flags(r->res)); 1016f4a3eb02SAdrian Chadd if (rm == NULL || !rman_is_region_manager(r->res, rm)) { 1017f4a3eb02SAdrian Chadd return (bhnd_bus_generic_activate_resource(dev, child, type, 1018f4a3eb02SAdrian Chadd rid, r)); 1019f4a3eb02SAdrian Chadd } 1020f4a3eb02SAdrian Chadd 1021f4a3eb02SAdrian Chadd /* Try activating the chipc region resource */ 10222baed46eSJohn Baldwin error = chipc_try_activate_resource(dev, child, r->res, false); 1023f4a3eb02SAdrian Chadd if (error) 1024f4a3eb02SAdrian Chadd return (error); 1025f4a3eb02SAdrian Chadd 1026f4a3eb02SAdrian Chadd /* Mark the child resource as direct according to the returned resource 1027f4a3eb02SAdrian Chadd * state */ 1028f4a3eb02SAdrian Chadd if (rman_get_flags(r->res) & RF_ACTIVE) 1029f4a3eb02SAdrian Chadd r->direct = true; 1030f4a3eb02SAdrian Chadd 1031f4a3eb02SAdrian Chadd return (0); 1032f4a3eb02SAdrian Chadd } 1033f4a3eb02SAdrian Chadd 1034f4a3eb02SAdrian Chadd static int 10352baed46eSJohn Baldwin chipc_activate_resource(device_t dev, device_t child, struct resource *r) 1036f4a3eb02SAdrian Chadd { 1037f4a3eb02SAdrian Chadd struct rman *rm; 1038f4a3eb02SAdrian Chadd 1039f4a3eb02SAdrian Chadd /* Delegate non-locally managed resources to parent */ 10402baed46eSJohn Baldwin rm = chipc_get_rman(dev, rman_get_type(r), rman_get_flags(r)); 1041f4a3eb02SAdrian Chadd if (rm == NULL || !rman_is_region_manager(r, rm)) { 10422baed46eSJohn Baldwin return (bus_generic_activate_resource(dev, child, r)); 1043f4a3eb02SAdrian Chadd } 1044f4a3eb02SAdrian Chadd 1045f4a3eb02SAdrian Chadd /* Try activating the chipc region-based resource */ 10462baed46eSJohn Baldwin return (chipc_try_activate_resource(dev, child, r, true)); 1047f4a3eb02SAdrian Chadd } 1048f4a3eb02SAdrian Chadd 1049f4a3eb02SAdrian Chadd /** 1050f4a3eb02SAdrian Chadd * Default bhndb(4) implementation of BUS_DEACTIVATE_RESOURCE(). 1051f4a3eb02SAdrian Chadd */ 1052f4a3eb02SAdrian Chadd static int 10532baed46eSJohn Baldwin chipc_deactivate_resource(device_t dev, device_t child, 10542baed46eSJohn Baldwin struct resource *r) 1055f4a3eb02SAdrian Chadd { 1056f4a3eb02SAdrian Chadd struct chipc_softc *sc; 1057f4a3eb02SAdrian Chadd struct chipc_region *cr; 1058f4a3eb02SAdrian Chadd struct rman *rm; 1059f4a3eb02SAdrian Chadd int error; 1060f4a3eb02SAdrian Chadd 1061f4a3eb02SAdrian Chadd sc = device_get_softc(dev); 1062f4a3eb02SAdrian Chadd 1063f4a3eb02SAdrian Chadd /* Handled by parent bus? */ 10642baed46eSJohn Baldwin rm = chipc_get_rman(dev, rman_get_type(r), rman_get_flags(r)); 1065f4a3eb02SAdrian Chadd if (rm == NULL || !rman_is_region_manager(r, rm)) { 10662baed46eSJohn Baldwin return (bus_generic_deactivate_resource(dev, child, r)); 1067f4a3eb02SAdrian Chadd } 1068f4a3eb02SAdrian Chadd 1069f4a3eb02SAdrian Chadd /* Find the corresponding chipc region */ 1070f4a3eb02SAdrian Chadd cr = chipc_find_region(sc, rman_get_start(r), rman_get_end(r)); 1071f4a3eb02SAdrian Chadd if (cr == NULL) 1072f4a3eb02SAdrian Chadd return (EINVAL); 1073f4a3eb02SAdrian Chadd 1074f4a3eb02SAdrian Chadd /* Mark inactive */ 1075f4a3eb02SAdrian Chadd if ((error = rman_deactivate_resource(r))) 1076f4a3eb02SAdrian Chadd return (error); 1077f4a3eb02SAdrian Chadd 1078f4a3eb02SAdrian Chadd /* Drop associated RF_ACTIVE reference */ 1079f4a3eb02SAdrian Chadd chipc_release_region(sc, cr, RF_ACTIVE); 1080f4a3eb02SAdrian Chadd 1081f4a3eb02SAdrian Chadd return (0); 1082f4a3eb02SAdrian Chadd } 1083f4a3eb02SAdrian Chadd 1084f4a3eb02SAdrian Chadd /** 1085f4a3eb02SAdrian Chadd * Examine bus state and make a best effort determination of whether it's 1086f4a3eb02SAdrian Chadd * likely safe to enable the muxed SPROM pins. 1087f4a3eb02SAdrian Chadd * 1088f4a3eb02SAdrian Chadd * On devices that do not use SPROM pin muxing, always returns true. 1089f4a3eb02SAdrian Chadd * 1090f4a3eb02SAdrian Chadd * @param sc chipc driver state. 1091f4a3eb02SAdrian Chadd */ 1092f4a3eb02SAdrian Chadd static bool 1093f90f4b65SLandon J. Fuller chipc_should_enable_muxed_sprom(struct chipc_softc *sc) 1094f4a3eb02SAdrian Chadd { 1095f4a3eb02SAdrian Chadd device_t *devs; 1096f4a3eb02SAdrian Chadd device_t hostb; 1097f4a3eb02SAdrian Chadd device_t parent; 1098f4a3eb02SAdrian Chadd int devcount; 1099f4a3eb02SAdrian Chadd int error; 1100f4a3eb02SAdrian Chadd bool result; 1101f4a3eb02SAdrian Chadd 1102f4a3eb02SAdrian Chadd /* Nothing to do? */ 1103f4a3eb02SAdrian Chadd if (!CHIPC_QUIRK(sc, MUX_SPROM)) 1104f4a3eb02SAdrian Chadd return (true); 1105f4a3eb02SAdrian Chadd 1106c6df6f53SWarner Losh bus_topo_lock(); 1107f90f4b65SLandon J. Fuller 1108f4a3eb02SAdrian Chadd parent = device_get_parent(sc->dev); 11098e35bf83SLandon J. Fuller hostb = bhnd_bus_find_hostb_device(parent); 1110f4a3eb02SAdrian Chadd 1111f90f4b65SLandon J. Fuller if ((error = device_get_children(parent, &devs, &devcount))) { 1112c6df6f53SWarner Losh bus_topo_unlock(); 1113f4a3eb02SAdrian Chadd return (false); 1114f90f4b65SLandon J. Fuller } 1115f4a3eb02SAdrian Chadd 1116f4a3eb02SAdrian Chadd /* Reject any active devices other than ChipCommon, or the 1117f4a3eb02SAdrian Chadd * host bridge (if any). */ 1118f4a3eb02SAdrian Chadd result = true; 1119f4a3eb02SAdrian Chadd for (int i = 0; i < devcount; i++) { 1120f4a3eb02SAdrian Chadd if (devs[i] == hostb || devs[i] == sc->dev) 1121f4a3eb02SAdrian Chadd continue; 1122f4a3eb02SAdrian Chadd 1123f4a3eb02SAdrian Chadd if (!device_is_attached(devs[i])) 1124f4a3eb02SAdrian Chadd continue; 1125f4a3eb02SAdrian Chadd 1126f4a3eb02SAdrian Chadd if (device_is_suspended(devs[i])) 1127f4a3eb02SAdrian Chadd continue; 1128f4a3eb02SAdrian Chadd 1129f4a3eb02SAdrian Chadd /* Active device; assume SPROM is busy */ 1130f4a3eb02SAdrian Chadd result = false; 1131f4a3eb02SAdrian Chadd break; 1132f4a3eb02SAdrian Chadd } 1133f4a3eb02SAdrian Chadd 1134f4a3eb02SAdrian Chadd free(devs, M_TEMP); 1135c6df6f53SWarner Losh bus_topo_unlock(); 1136f4a3eb02SAdrian Chadd return (result); 1137f4a3eb02SAdrian Chadd } 1138e83ce340SAdrian Chadd 1139f90f4b65SLandon J. Fuller static int 1140f90f4b65SLandon J. Fuller chipc_enable_sprom(device_t dev) 1141f90f4b65SLandon J. Fuller { 1142f90f4b65SLandon J. Fuller struct chipc_softc *sc; 1143f90f4b65SLandon J. Fuller int error; 1144f90f4b65SLandon J. Fuller 1145f90f4b65SLandon J. Fuller sc = device_get_softc(dev); 1146f90f4b65SLandon J. Fuller CHIPC_LOCK(sc); 1147f90f4b65SLandon J. Fuller 1148f90f4b65SLandon J. Fuller /* Already enabled? */ 1149f90f4b65SLandon J. Fuller if (sc->sprom_refcnt >= 1) { 1150f90f4b65SLandon J. Fuller sc->sprom_refcnt++; 1151f90f4b65SLandon J. Fuller CHIPC_UNLOCK(sc); 1152f90f4b65SLandon J. Fuller 1153f90f4b65SLandon J. Fuller return (0); 1154f90f4b65SLandon J. Fuller } 1155f90f4b65SLandon J. Fuller 1156f90f4b65SLandon J. Fuller switch (sc->caps.nvram_src) { 1157f90f4b65SLandon J. Fuller case BHND_NVRAM_SRC_SPROM: 1158f90f4b65SLandon J. Fuller error = chipc_enable_sprom_pins(sc); 1159f90f4b65SLandon J. Fuller break; 1160f90f4b65SLandon J. Fuller case BHND_NVRAM_SRC_OTP: 1161f90f4b65SLandon J. Fuller error = chipc_enable_otp_power(sc); 1162f90f4b65SLandon J. Fuller break; 1163f90f4b65SLandon J. Fuller default: 1164f90f4b65SLandon J. Fuller error = 0; 1165f90f4b65SLandon J. Fuller break; 1166f90f4b65SLandon J. Fuller } 1167f90f4b65SLandon J. Fuller 1168f90f4b65SLandon J. Fuller /* Bump the reference count */ 1169f90f4b65SLandon J. Fuller if (error == 0) 1170f90f4b65SLandon J. Fuller sc->sprom_refcnt++; 1171f90f4b65SLandon J. Fuller 1172f90f4b65SLandon J. Fuller CHIPC_UNLOCK(sc); 1173f90f4b65SLandon J. Fuller return (error); 1174f90f4b65SLandon J. Fuller } 1175f90f4b65SLandon J. Fuller 1176f90f4b65SLandon J. Fuller static void 1177f90f4b65SLandon J. Fuller chipc_disable_sprom(device_t dev) 1178f90f4b65SLandon J. Fuller { 1179f90f4b65SLandon J. Fuller struct chipc_softc *sc; 1180f90f4b65SLandon J. Fuller 1181f90f4b65SLandon J. Fuller sc = device_get_softc(dev); 1182f90f4b65SLandon J. Fuller CHIPC_LOCK(sc); 1183f90f4b65SLandon J. Fuller 1184f90f4b65SLandon J. Fuller /* Check reference count, skip disable if in-use. */ 1185f90f4b65SLandon J. Fuller KASSERT(sc->sprom_refcnt > 0, ("sprom refcnt overrelease")); 1186f90f4b65SLandon J. Fuller sc->sprom_refcnt--; 1187f90f4b65SLandon J. Fuller if (sc->sprom_refcnt > 0) { 1188f90f4b65SLandon J. Fuller CHIPC_UNLOCK(sc); 1189f90f4b65SLandon J. Fuller return; 1190f90f4b65SLandon J. Fuller } 1191f90f4b65SLandon J. Fuller 1192f90f4b65SLandon J. Fuller switch (sc->caps.nvram_src) { 1193f90f4b65SLandon J. Fuller case BHND_NVRAM_SRC_SPROM: 1194f90f4b65SLandon J. Fuller chipc_disable_sprom_pins(sc); 1195f90f4b65SLandon J. Fuller break; 1196f90f4b65SLandon J. Fuller case BHND_NVRAM_SRC_OTP: 1197f90f4b65SLandon J. Fuller chipc_disable_otp_power(sc); 1198f90f4b65SLandon J. Fuller break; 1199f90f4b65SLandon J. Fuller default: 1200f90f4b65SLandon J. Fuller break; 1201f90f4b65SLandon J. Fuller } 1202f90f4b65SLandon J. Fuller 1203f90f4b65SLandon J. Fuller CHIPC_UNLOCK(sc); 1204f90f4b65SLandon J. Fuller } 1205f90f4b65SLandon J. Fuller 1206f90f4b65SLandon J. Fuller static int 1207f90f4b65SLandon J. Fuller chipc_enable_otp_power(struct chipc_softc *sc) 1208f90f4b65SLandon J. Fuller { 1209f90f4b65SLandon J. Fuller // TODO: Enable OTP resource via PMU, and wait up to 100 usec for 1210f90f4b65SLandon J. Fuller // OTPS_READY to be set in `optstatus`. 1211f90f4b65SLandon J. Fuller return (0); 1212f90f4b65SLandon J. Fuller } 1213f90f4b65SLandon J. Fuller 1214f90f4b65SLandon J. Fuller static void 1215f90f4b65SLandon J. Fuller chipc_disable_otp_power(struct chipc_softc *sc) 1216f90f4b65SLandon J. Fuller { 1217f90f4b65SLandon J. Fuller // TODO: Disable OTP resource via PMU 1218f90f4b65SLandon J. Fuller } 1219f90f4b65SLandon J. Fuller 1220e83ce340SAdrian Chadd /** 1221e83ce340SAdrian Chadd * If required by this device, enable access to the SPROM. 1222e83ce340SAdrian Chadd * 1223e83ce340SAdrian Chadd * @param sc chipc driver state. 1224e83ce340SAdrian Chadd */ 1225e83ce340SAdrian Chadd static int 1226f90f4b65SLandon J. Fuller chipc_enable_sprom_pins(struct chipc_softc *sc) 1227e83ce340SAdrian Chadd { 1228e83ce340SAdrian Chadd uint32_t cctrl; 1229e83ce340SAdrian Chadd 1230f90f4b65SLandon J. Fuller CHIPC_LOCK_ASSERT(sc, MA_OWNED); 1231f90f4b65SLandon J. Fuller KASSERT(sc->sprom_refcnt == 0, ("sprom pins already enabled")); 1232e83ce340SAdrian Chadd 1233e83ce340SAdrian Chadd /* Nothing to do? */ 1234e83ce340SAdrian Chadd if (!CHIPC_QUIRK(sc, MUX_SPROM)) 1235e83ce340SAdrian Chadd return (0); 1236e83ce340SAdrian Chadd 1237f4a3eb02SAdrian Chadd /* Check whether bus is busy */ 1238f90f4b65SLandon J. Fuller if (!chipc_should_enable_muxed_sprom(sc)) 1239f90f4b65SLandon J. Fuller return (EBUSY); 1240f4a3eb02SAdrian Chadd 1241e83ce340SAdrian Chadd cctrl = bhnd_bus_read_4(sc->core, CHIPC_CHIPCTRL); 1242e83ce340SAdrian Chadd 1243e83ce340SAdrian Chadd /* 4331 devices */ 1244e83ce340SAdrian Chadd if (CHIPC_QUIRK(sc, 4331_EXTPA_MUX_SPROM)) { 1245e83ce340SAdrian Chadd cctrl &= ~CHIPC_CCTRL4331_EXTPA_EN; 1246e83ce340SAdrian Chadd 1247e83ce340SAdrian Chadd if (CHIPC_QUIRK(sc, 4331_GPIO2_5_MUX_SPROM)) 1248e83ce340SAdrian Chadd cctrl &= ~CHIPC_CCTRL4331_EXTPA_ON_GPIO2_5; 1249e83ce340SAdrian Chadd 1250e83ce340SAdrian Chadd if (CHIPC_QUIRK(sc, 4331_EXTPA2_MUX_SPROM)) 1251e83ce340SAdrian Chadd cctrl &= ~CHIPC_CCTRL4331_EXTPA_EN2; 1252e83ce340SAdrian Chadd 1253e83ce340SAdrian Chadd bhnd_bus_write_4(sc->core, CHIPC_CHIPCTRL, cctrl); 1254f90f4b65SLandon J. Fuller return (0); 1255e83ce340SAdrian Chadd } 1256e83ce340SAdrian Chadd 1257e83ce340SAdrian Chadd /* 4360 devices */ 1258e83ce340SAdrian Chadd if (CHIPC_QUIRK(sc, 4360_FEM_MUX_SPROM)) { 1259e83ce340SAdrian Chadd /* Unimplemented */ 1260e83ce340SAdrian Chadd } 1261e83ce340SAdrian Chadd 1262e83ce340SAdrian Chadd /* Refuse to proceed on unsupported devices with muxed SPROM pins */ 1263e83ce340SAdrian Chadd device_printf(sc->dev, "muxed sprom lines on unrecognized device\n"); 1264f90f4b65SLandon J. Fuller return (ENXIO); 1265e83ce340SAdrian Chadd } 1266e83ce340SAdrian Chadd 1267e83ce340SAdrian Chadd /** 1268e83ce340SAdrian Chadd * If required by this device, revert any GPIO/pin configuration applied 1269e83ce340SAdrian Chadd * to allow SPROM access. 1270e83ce340SAdrian Chadd * 1271e83ce340SAdrian Chadd * @param sc chipc driver state. 1272e83ce340SAdrian Chadd */ 1273f4a3eb02SAdrian Chadd static void 1274f90f4b65SLandon J. Fuller chipc_disable_sprom_pins(struct chipc_softc *sc) 1275e83ce340SAdrian Chadd { 1276e83ce340SAdrian Chadd uint32_t cctrl; 1277e83ce340SAdrian Chadd 1278e83ce340SAdrian Chadd /* Nothing to do? */ 1279e83ce340SAdrian Chadd if (!CHIPC_QUIRK(sc, MUX_SPROM)) 1280f4a3eb02SAdrian Chadd return; 1281f4a3eb02SAdrian Chadd 1282f90f4b65SLandon J. Fuller CHIPC_LOCK_ASSERT(sc, MA_OWNED); 1283315cf4daSLandon J. Fuller KASSERT(sc->sprom_refcnt == 0, ("sprom pins in use")); 1284e83ce340SAdrian Chadd 1285e83ce340SAdrian Chadd cctrl = bhnd_bus_read_4(sc->core, CHIPC_CHIPCTRL); 1286e83ce340SAdrian Chadd 1287e83ce340SAdrian Chadd /* 4331 devices */ 1288e83ce340SAdrian Chadd if (CHIPC_QUIRK(sc, 4331_EXTPA_MUX_SPROM)) { 1289e83ce340SAdrian Chadd cctrl |= CHIPC_CCTRL4331_EXTPA_EN; 1290e83ce340SAdrian Chadd 1291e83ce340SAdrian Chadd if (CHIPC_QUIRK(sc, 4331_GPIO2_5_MUX_SPROM)) 1292e83ce340SAdrian Chadd cctrl |= CHIPC_CCTRL4331_EXTPA_ON_GPIO2_5; 1293e83ce340SAdrian Chadd 1294e83ce340SAdrian Chadd if (CHIPC_QUIRK(sc, 4331_EXTPA2_MUX_SPROM)) 1295e83ce340SAdrian Chadd cctrl |= CHIPC_CCTRL4331_EXTPA_EN2; 1296e83ce340SAdrian Chadd 1297e83ce340SAdrian Chadd bhnd_bus_write_4(sc->core, CHIPC_CHIPCTRL, cctrl); 1298f90f4b65SLandon J. Fuller return; 1299e83ce340SAdrian Chadd } 1300e83ce340SAdrian Chadd 1301e83ce340SAdrian Chadd /* 4360 devices */ 1302e83ce340SAdrian Chadd if (CHIPC_QUIRK(sc, 4360_FEM_MUX_SPROM)) { 1303e83ce340SAdrian Chadd /* Unimplemented */ 1304e83ce340SAdrian Chadd } 1305f90f4b65SLandon J. Fuller } 1306e83ce340SAdrian Chadd 1307f90f4b65SLandon J. Fuller static uint32_t 1308f90f4b65SLandon J. Fuller chipc_read_chipst(device_t dev) 1309f90f4b65SLandon J. Fuller { 1310f90f4b65SLandon J. Fuller struct chipc_softc *sc = device_get_softc(dev); 1311f90f4b65SLandon J. Fuller return (bhnd_bus_read_4(sc->core, CHIPC_CHIPST)); 1312e83ce340SAdrian Chadd } 1313e83ce340SAdrian Chadd 13148ef24a0dSAdrian Chadd static void 13158ef24a0dSAdrian Chadd chipc_write_chipctrl(device_t dev, uint32_t value, uint32_t mask) 13168ef24a0dSAdrian Chadd { 13178ef24a0dSAdrian Chadd struct chipc_softc *sc; 13188ef24a0dSAdrian Chadd uint32_t cctrl; 13198ef24a0dSAdrian Chadd 13208ef24a0dSAdrian Chadd sc = device_get_softc(dev); 13218ef24a0dSAdrian Chadd 13228ef24a0dSAdrian Chadd CHIPC_LOCK(sc); 13238ef24a0dSAdrian Chadd 13248ef24a0dSAdrian Chadd cctrl = bhnd_bus_read_4(sc->core, CHIPC_CHIPCTRL); 13258ef24a0dSAdrian Chadd cctrl = (cctrl & ~mask) | (value | mask); 13268ef24a0dSAdrian Chadd bhnd_bus_write_4(sc->core, CHIPC_CHIPCTRL, cctrl); 13278ef24a0dSAdrian Chadd 13288ef24a0dSAdrian Chadd CHIPC_UNLOCK(sc); 13298ef24a0dSAdrian Chadd } 13308ef24a0dSAdrian Chadd 13312b693a88SLandon J. Fuller static struct chipc_caps * 13322b693a88SLandon J. Fuller chipc_get_caps(device_t dev) 13332b693a88SLandon J. Fuller { 13342b693a88SLandon J. Fuller struct chipc_softc *sc; 13352b693a88SLandon J. Fuller 13362b693a88SLandon J. Fuller sc = device_get_softc(dev); 13372b693a88SLandon J. Fuller return (&sc->caps); 13382b693a88SLandon J. Fuller } 13392b693a88SLandon J. Fuller 13404ad7e9b0SAdrian Chadd static device_method_t chipc_methods[] = { 13414ad7e9b0SAdrian Chadd /* Device interface */ 13424ad7e9b0SAdrian Chadd DEVMETHOD(device_probe, chipc_probe), 13434ad7e9b0SAdrian Chadd DEVMETHOD(device_attach, chipc_attach), 13444ad7e9b0SAdrian Chadd DEVMETHOD(device_detach, chipc_detach), 13454ad7e9b0SAdrian Chadd DEVMETHOD(device_suspend, chipc_suspend), 13464ad7e9b0SAdrian Chadd DEVMETHOD(device_resume, chipc_resume), 13474ad7e9b0SAdrian Chadd 1348f4a3eb02SAdrian Chadd /* Bus interface */ 1349f4a3eb02SAdrian Chadd DEVMETHOD(bus_probe_nomatch, chipc_probe_nomatch), 1350f4a3eb02SAdrian Chadd DEVMETHOD(bus_print_child, chipc_print_child), 1351f4a3eb02SAdrian Chadd 1352f4a3eb02SAdrian Chadd DEVMETHOD(bus_add_child, chipc_add_child), 1353f4a3eb02SAdrian Chadd DEVMETHOD(bus_child_deleted, chipc_child_deleted), 1354f4a3eb02SAdrian Chadd 1355f4a3eb02SAdrian Chadd DEVMETHOD(bus_set_resource, bus_generic_rl_set_resource), 1356f4a3eb02SAdrian Chadd DEVMETHOD(bus_get_resource, bus_generic_rl_get_resource), 1357f4a3eb02SAdrian Chadd DEVMETHOD(bus_delete_resource, bus_generic_rl_delete_resource), 1358f4a3eb02SAdrian Chadd DEVMETHOD(bus_alloc_resource, chipc_alloc_resource), 1359f4a3eb02SAdrian Chadd DEVMETHOD(bus_release_resource, chipc_release_resource), 1360f4a3eb02SAdrian Chadd DEVMETHOD(bus_adjust_resource, chipc_adjust_resource), 1361f4a3eb02SAdrian Chadd DEVMETHOD(bus_activate_resource, chipc_activate_resource), 1362f4a3eb02SAdrian Chadd DEVMETHOD(bus_deactivate_resource, chipc_deactivate_resource), 1363f4a3eb02SAdrian Chadd DEVMETHOD(bus_get_resource_list, chipc_get_resource_list), 13643a48dfe1SJohn Baldwin DEVMETHOD(bus_get_rman, chipc_get_rman), 1365f4a3eb02SAdrian Chadd 1366f4a3eb02SAdrian Chadd DEVMETHOD(bus_setup_intr, bus_generic_setup_intr), 1367f4a3eb02SAdrian Chadd DEVMETHOD(bus_teardown_intr, bus_generic_teardown_intr), 1368f4a3eb02SAdrian Chadd DEVMETHOD(bus_config_intr, bus_generic_config_intr), 1369f4a3eb02SAdrian Chadd DEVMETHOD(bus_bind_intr, bus_generic_bind_intr), 1370f4a3eb02SAdrian Chadd DEVMETHOD(bus_describe_intr, bus_generic_describe_intr), 1371f4a3eb02SAdrian Chadd 1372f4a3eb02SAdrian Chadd /* BHND bus inteface */ 1373f4a3eb02SAdrian Chadd DEVMETHOD(bhnd_bus_activate_resource, chipc_activate_bhnd_resource), 1374f4a3eb02SAdrian Chadd 13754ad7e9b0SAdrian Chadd /* ChipCommon interface */ 1376f90f4b65SLandon J. Fuller DEVMETHOD(bhnd_chipc_read_chipst, chipc_read_chipst), 13778ef24a0dSAdrian Chadd DEVMETHOD(bhnd_chipc_write_chipctrl, chipc_write_chipctrl), 1378f90f4b65SLandon J. Fuller DEVMETHOD(bhnd_chipc_enable_sprom, chipc_enable_sprom), 1379f90f4b65SLandon J. Fuller DEVMETHOD(bhnd_chipc_disable_sprom, chipc_disable_sprom), 13802b693a88SLandon J. Fuller DEVMETHOD(bhnd_chipc_get_caps, chipc_get_caps), 1381e83ce340SAdrian Chadd 13824ad7e9b0SAdrian Chadd DEVMETHOD_END 13834ad7e9b0SAdrian Chadd }; 13844ad7e9b0SAdrian Chadd 1385f90f4b65SLandon J. Fuller DEFINE_CLASS_0(bhnd_chipc, bhnd_chipc_driver, chipc_methods, sizeof(struct chipc_softc)); 1386162c26adSJohn Baldwin EARLY_DRIVER_MODULE(bhnd_chipc, bhnd, bhnd_chipc_driver, 0, 0, 1387e129bcd6SLandon J. Fuller BUS_PASS_BUS + BUS_PASS_ORDER_MIDDLE); 138896546b75SAdrian Chadd MODULE_DEPEND(bhnd_chipc, bhnd, 1, 1, 1); 13894ad7e9b0SAdrian Chadd MODULE_VERSION(bhnd_chipc, 1); 1390