1fec754d4SMike Smith /*- 298aa9cd0SNate Lawson * Copyright (c) 2003-2005 Nate Lawson (SDG) 3fec754d4SMike Smith * Copyright (c) 2001 Michael Smith 4fec754d4SMike Smith * All rights reserved. 5fec754d4SMike Smith * 6fec754d4SMike Smith * Redistribution and use in source and binary forms, with or without 7fec754d4SMike Smith * modification, are permitted provided that the following conditions 8fec754d4SMike Smith * are met: 9fec754d4SMike Smith * 1. Redistributions of source code must retain the above copyright 10fec754d4SMike Smith * notice, this list of conditions and the following disclaimer. 11fec754d4SMike Smith * 2. Redistributions in binary form must reproduce the above copyright 12fec754d4SMike Smith * notice, this list of conditions and the following disclaimer in the 13fec754d4SMike Smith * documentation and/or other materials provided with the distribution. 14fec754d4SMike Smith * 15fec754d4SMike Smith * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 16fec754d4SMike Smith * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 17fec754d4SMike Smith * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 18fec754d4SMike Smith * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 19fec754d4SMike Smith * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 20fec754d4SMike Smith * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 21fec754d4SMike Smith * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 22fec754d4SMike Smith * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 23fec754d4SMike Smith * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 24fec754d4SMike Smith * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 25fec754d4SMike Smith * SUCH DAMAGE. 26fec754d4SMike Smith */ 27fec754d4SMike Smith 28aad970f1SDavid E. O'Brien #include <sys/cdefs.h> 29aad970f1SDavid E. O'Brien __FBSDID("$FreeBSD$"); 30aad970f1SDavid E. O'Brien 31fec754d4SMike Smith #include "opt_acpi.h" 32fec754d4SMike Smith #include <sys/param.h> 33fec754d4SMike Smith #include <sys/bus.h> 3498aa9cd0SNate Lawson #include <sys/cpu.h> 3556a70eadSNate Lawson #include <sys/kernel.h> 36447a5fa1SJohn Baldwin #include <sys/malloc.h> 37fe12f24bSPoul-Henning Kamp #include <sys/module.h> 386b74f9b7SNate Lawson #include <sys/pcpu.h> 3956a70eadSNate Lawson #include <sys/power.h> 4056a70eadSNate Lawson #include <sys/proc.h> 41f51d43feSAndriy Gapon #include <sys/sched.h> 4256a70eadSNate Lawson #include <sys/sbuf.h> 436b74f9b7SNate Lawson #include <sys/smp.h> 44fec754d4SMike Smith 456b74f9b7SNate Lawson #include <dev/pci/pcivar.h> 4656a70eadSNate Lawson #include <machine/atomic.h> 47fec754d4SMike Smith #include <machine/bus.h> 48e1c9d39eSJung-uk Kim #if defined(__amd64__) || defined(__i386__) 49e1c9d39eSJung-uk Kim #include <machine/clock.h> 50e1c9d39eSJung-uk Kim #endif 5156a70eadSNate Lawson #include <sys/rman.h> 52fec754d4SMike Smith 53129d3046SJung-uk Kim #include <contrib/dev/acpica/include/acpi.h> 54129d3046SJung-uk Kim #include <contrib/dev/acpica/include/accommon.h> 55129d3046SJung-uk Kim 56fec754d4SMike Smith #include <dev/acpica/acpivar.h> 57fec754d4SMike Smith 58fec754d4SMike Smith /* 598c5468e3SNate Lawson * Support for ACPI Processor devices, including C[1-3] sleep states. 60fec754d4SMike Smith */ 61fec754d4SMike Smith 62be2b1797SNate Lawson /* Hooks for the ACPI CA debugging infrastructure */ 63fec754d4SMike Smith #define _COMPONENT ACPI_PROCESSOR 649127281cSMike Smith ACPI_MODULE_NAME("PROCESSOR") 65fec754d4SMike Smith 666b74f9b7SNate Lawson struct acpi_cx { 676b74f9b7SNate Lawson struct resource *p_lvlx; /* Register to read to enter state. */ 686b74f9b7SNate Lawson uint32_t type; /* C1-3 (C4 and up treated as C3). */ 696b74f9b7SNate Lawson uint32_t trans_lat; /* Transition latency (usec). */ 706b74f9b7SNate Lawson uint32_t power; /* Power consumed (mW). */ 71f4eb0418SNate Lawson int res_type; /* Resource type for p_lvlx. */ 72f51d43feSAndriy Gapon int res_rid; /* Resource ID for p_lvlx. */ 736b74f9b7SNate Lawson }; 746b74f9b7SNate Lawson #define MAX_CX_STATES 8 756b74f9b7SNate Lawson 76fec754d4SMike Smith struct acpi_cpu_softc { 77fec754d4SMike Smith device_t cpu_dev; 78fec754d4SMike Smith ACPI_HANDLE cpu_handle; 7998aa9cd0SNate Lawson struct pcpu *cpu_pcpu; 8098aa9cd0SNate Lawson uint32_t cpu_acpi_id; /* ACPI processor id */ 8156a70eadSNate Lawson uint32_t cpu_p_blk; /* ACPI P_BLK location */ 8256a70eadSNate Lawson uint32_t cpu_p_blk_len; /* P_BLK length (must be 6). */ 836b74f9b7SNate Lawson struct acpi_cx cpu_cx_states[MAX_CX_STATES]; 8456a70eadSNate Lawson int cpu_cx_count; /* Number of valid Cx states. */ 85a2afe45aSNate Lawson int cpu_prev_sleep;/* Last idle sleep duration. */ 86b29224c2SNate Lawson int cpu_features; /* Child driver supported features. */ 87907b6777SNate Lawson /* Runtime state. */ 88907b6777SNate Lawson int cpu_non_c3; /* Index of lowest non-C3 state. */ 89907b6777SNate Lawson u_int cpu_cx_stats[MAX_CX_STATES];/* Cx usage history. */ 90907b6777SNate Lawson /* Values for sysctl. */ 91907b6777SNate Lawson struct sysctl_ctx_list cpu_sysctl_ctx; 92907b6777SNate Lawson struct sysctl_oid *cpu_sysctl_tree; 9355fb7f36SSean Bruno int cpu_cx_lowest; 94d30b88afSAndriy Gapon int cpu_cx_lowest_lim; 9509424d43SAndriy Gapon int cpu_disable_idle; /* Disable entry to idle function */ 96907b6777SNate Lawson char cpu_cx_supported[64]; 97fec754d4SMike Smith }; 98fec754d4SMike Smith 9998aa9cd0SNate Lawson struct acpi_cpu_device { 10098aa9cd0SNate Lawson struct resource_list ad_rl; 10198aa9cd0SNate Lawson }; 10298aa9cd0SNate Lawson 1036b74f9b7SNate Lawson #define CPU_GET_REG(reg, width) \ 1046b74f9b7SNate Lawson (bus_space_read_ ## width(rman_get_bustag((reg)), \ 1056b74f9b7SNate Lawson rman_get_bushandle((reg)), 0)) 1066b74f9b7SNate Lawson #define CPU_SET_REG(reg, width, val) \ 1076b74f9b7SNate Lawson (bus_space_write_ ## width(rman_get_bustag((reg)), \ 1086b74f9b7SNate Lawson rman_get_bushandle((reg)), 0, (val))) 109be2b1797SNate Lawson 1106b74f9b7SNate Lawson #define PM_USEC(x) ((x) >> 2) /* ~4 clocks per usec (3.57955 Mhz) */ 111fec754d4SMike Smith 1128b888c66SNate Lawson #define ACPI_NOTIFY_CX_STATES 0x81 /* _CST changed. */ 113fec754d4SMike Smith 11418ececa0SNate Lawson #define CPU_QUIRK_NO_C3 (1<<0) /* C3-type states are not usable. */ 11518ececa0SNate Lawson #define CPU_QUIRK_NO_BM_CTRL (1<<2) /* No bus mastering control. */ 1166b74f9b7SNate Lawson 1176b74f9b7SNate Lawson #define PCI_VENDOR_INTEL 0x8086 1186b74f9b7SNate Lawson #define PCI_DEVICE_82371AB_3 0x7113 /* PIIX4 chipset for quirks. */ 1196b74f9b7SNate Lawson #define PCI_REVISION_A_STEP 0 1206b74f9b7SNate Lawson #define PCI_REVISION_B_STEP 1 1216b74f9b7SNate Lawson #define PCI_REVISION_4E 2 1226b74f9b7SNate Lawson #define PCI_REVISION_4M 3 1238a000acaSRui Paulo #define PIIX4_DEVACTB_REG 0x58 1248a000acaSRui Paulo #define PIIX4_BRLD_EN_IRQ0 (1<<0) 1258a000acaSRui Paulo #define PIIX4_BRLD_EN_IRQ (1<<1) 1268a000acaSRui Paulo #define PIIX4_BRLD_EN_IRQ8 (1<<5) 1278a000acaSRui Paulo #define PIIX4_STOP_BREAK_MASK (PIIX4_BRLD_EN_IRQ0 | PIIX4_BRLD_EN_IRQ | PIIX4_BRLD_EN_IRQ8) 1288a000acaSRui Paulo #define PIIX4_PCNTRL_BST_EN (1<<10) 1296b74f9b7SNate Lawson 130e4cd9dcfSJohn Baldwin /* Allow users to ignore processor orders in MADT. */ 131e4cd9dcfSJohn Baldwin static int cpu_unordered; 132e4cd9dcfSJohn Baldwin TUNABLE_INT("debug.acpi.cpu_unordered", &cpu_unordered); 133e4cd9dcfSJohn Baldwin SYSCTL_INT(_debug_acpi, OID_AUTO, cpu_unordered, CTLFLAG_RDTUN, 134e4cd9dcfSJohn Baldwin &cpu_unordered, 0, 135e4cd9dcfSJohn Baldwin "Do not use the MADT to match ACPI Processor objects to CPUs."); 136e4cd9dcfSJohn Baldwin 1376b74f9b7SNate Lawson /* Platform hardware resource information. */ 1386b74f9b7SNate Lawson static uint32_t cpu_smi_cmd; /* Value to write to SMI_CMD. */ 13956a70eadSNate Lawson static uint8_t cpu_cst_cnt; /* Indicate we are _CST aware. */ 140a2afe45aSNate Lawson static int cpu_quirks; /* Indicate any hardware bugs. */ 1416b74f9b7SNate Lawson 1426b74f9b7SNate Lawson /* Values for sysctl. */ 143907b6777SNate Lawson static struct sysctl_ctx_list cpu_sysctl_ctx; 144907b6777SNate Lawson static struct sysctl_oid *cpu_sysctl_tree; 145907b6777SNate Lawson static int cpu_cx_generic; 146d30b88afSAndriy Gapon static int cpu_cx_lowest_lim; 147fec754d4SMike Smith 148fec754d4SMike Smith static device_t *cpu_devices; 149fec754d4SMike Smith static int cpu_ndevices; 150447a5fa1SJohn Baldwin static struct acpi_cpu_softc **cpu_softc; 151d92a2ebdSNate Lawson ACPI_SERIAL_DECL(cpu, "ACPI CPU"); 152fec754d4SMike Smith 153fec754d4SMike Smith static int acpi_cpu_probe(device_t dev); 154fec754d4SMike Smith static int acpi_cpu_attach(device_t dev); 1553331373cSNate Lawson static int acpi_cpu_suspend(device_t dev); 1563331373cSNate Lawson static int acpi_cpu_resume(device_t dev); 157e4cd9dcfSJohn Baldwin static int acpi_pcpu_get_id(device_t dev, uint32_t *acpi_id, 158b6426963SNate Lawson uint32_t *cpu_id); 15998aa9cd0SNate Lawson static struct resource_list *acpi_cpu_get_rlist(device_t dev, device_t child); 1603d844eddSAndriy Gapon static device_t acpi_cpu_add_child(device_t dev, u_int order, const char *name, 16198aa9cd0SNate Lawson int unit); 16298aa9cd0SNate Lawson static int acpi_cpu_read_ivar(device_t dev, device_t child, int index, 16398aa9cd0SNate Lawson uintptr_t *result); 16456a70eadSNate Lawson static int acpi_cpu_shutdown(device_t dev); 165907b6777SNate Lawson static void acpi_cpu_cx_probe(struct acpi_cpu_softc *sc); 166907b6777SNate Lawson static void acpi_cpu_generic_cx_probe(struct acpi_cpu_softc *sc); 1676b74f9b7SNate Lawson static int acpi_cpu_cx_cst(struct acpi_cpu_softc *sc); 1686b74f9b7SNate Lawson static void acpi_cpu_startup(void *arg); 169907b6777SNate Lawson static void acpi_cpu_startup_cx(struct acpi_cpu_softc *sc); 17089ab2a7aSRui Paulo static void acpi_cpu_cx_list(struct acpi_cpu_softc *sc); 171acccf7d8SDavide Italiano static void acpi_cpu_idle(sbintime_t sbt); 1726b74f9b7SNate Lawson static void acpi_cpu_notify(ACPI_HANDLE h, UINT32 notify, void *context); 173907b6777SNate Lawson static int acpi_cpu_quirks(void); 174a2afe45aSNate Lawson static int acpi_cpu_usage_sysctl(SYSCTL_HANDLER_ARGS); 175d30b88afSAndriy Gapon static int acpi_cpu_set_cx_lowest(struct acpi_cpu_softc *sc); 1766b74f9b7SNate Lawson static int acpi_cpu_cx_lowest_sysctl(SYSCTL_HANDLER_ARGS); 177907b6777SNate Lawson static int acpi_cpu_global_cx_lowest_sysctl(SYSCTL_HANDLER_ARGS); 178fec754d4SMike Smith 179fec754d4SMike Smith static device_method_t acpi_cpu_methods[] = { 180fec754d4SMike Smith /* Device interface */ 181fec754d4SMike Smith DEVMETHOD(device_probe, acpi_cpu_probe), 182fec754d4SMike Smith DEVMETHOD(device_attach, acpi_cpu_attach), 18398aa9cd0SNate Lawson DEVMETHOD(device_detach, bus_generic_detach), 18456a70eadSNate Lawson DEVMETHOD(device_shutdown, acpi_cpu_shutdown), 1853331373cSNate Lawson DEVMETHOD(device_suspend, acpi_cpu_suspend), 1863331373cSNate Lawson DEVMETHOD(device_resume, acpi_cpu_resume), 18798aa9cd0SNate Lawson 18898aa9cd0SNate Lawson /* Bus interface */ 18998aa9cd0SNate Lawson DEVMETHOD(bus_add_child, acpi_cpu_add_child), 19098aa9cd0SNate Lawson DEVMETHOD(bus_read_ivar, acpi_cpu_read_ivar), 19198aa9cd0SNate Lawson DEVMETHOD(bus_get_resource_list, acpi_cpu_get_rlist), 19298aa9cd0SNate Lawson DEVMETHOD(bus_get_resource, bus_generic_rl_get_resource), 19398aa9cd0SNate Lawson DEVMETHOD(bus_set_resource, bus_generic_rl_set_resource), 19498aa9cd0SNate Lawson DEVMETHOD(bus_alloc_resource, bus_generic_rl_alloc_resource), 19598aa9cd0SNate Lawson DEVMETHOD(bus_release_resource, bus_generic_rl_release_resource), 19698aa9cd0SNate Lawson DEVMETHOD(bus_activate_resource, bus_generic_activate_resource), 19798aa9cd0SNate Lawson DEVMETHOD(bus_deactivate_resource, bus_generic_deactivate_resource), 19898aa9cd0SNate Lawson DEVMETHOD(bus_setup_intr, bus_generic_setup_intr), 19998aa9cd0SNate Lawson DEVMETHOD(bus_teardown_intr, bus_generic_teardown_intr), 200fec754d4SMike Smith 2014b7ec270SMarius Strobl DEVMETHOD_END 202fec754d4SMike Smith }; 203fec754d4SMike Smith 204fec754d4SMike Smith static driver_t acpi_cpu_driver = { 205b0e2b625SNate Lawson "cpu", 206fec754d4SMike Smith acpi_cpu_methods, 207fec754d4SMike Smith sizeof(struct acpi_cpu_softc), 208fec754d4SMike Smith }; 209fec754d4SMike Smith 2103045c8afSNate Lawson static devclass_t acpi_cpu_devclass; 2113045c8afSNate Lawson DRIVER_MODULE(cpu, acpi, acpi_cpu_driver, acpi_cpu_devclass, 0, 0); 212b0e2b625SNate Lawson MODULE_DEPEND(cpu, acpi, 1, 1, 1); 21356a70eadSNate Lawson 214fec754d4SMike Smith static int 215fec754d4SMike Smith acpi_cpu_probe(device_t dev) 216fec754d4SMike Smith { 217b29224c2SNate Lawson int acpi_id, cpu_id; 218b0e2b625SNate Lawson ACPI_BUFFER buf; 219b0e2b625SNate Lawson ACPI_HANDLE handle; 220b0e2b625SNate Lawson ACPI_OBJECT *obj; 221b0e2b625SNate Lawson ACPI_STATUS status; 222b0e2b625SNate Lawson 223b0e2b625SNate Lawson if (acpi_disabled("cpu") || acpi_get_type(dev) != ACPI_TYPE_PROCESSOR) 224b0e2b625SNate Lawson return (ENXIO); 225b0e2b625SNate Lawson 226b0e2b625SNate Lawson handle = acpi_get_handle(dev); 227447a5fa1SJohn Baldwin if (cpu_softc == NULL) 228447a5fa1SJohn Baldwin cpu_softc = malloc(sizeof(struct acpi_cpu_softc *) * 229447a5fa1SJohn Baldwin (mp_maxid + 1), M_TEMP /* XXX */, M_WAITOK | M_ZERO); 230b0e2b625SNate Lawson 231b0e2b625SNate Lawson /* Get our Processor object. */ 232b0e2b625SNate Lawson buf.Pointer = NULL; 233b0e2b625SNate Lawson buf.Length = ACPI_ALLOCATE_BUFFER; 234b0e2b625SNate Lawson status = AcpiEvaluateObject(handle, NULL, NULL, &buf); 235b0e2b625SNate Lawson if (ACPI_FAILURE(status)) { 236b0e2b625SNate Lawson device_printf(dev, "probe failed to get Processor obj - %s\n", 237b0e2b625SNate Lawson AcpiFormatException(status)); 238b0e2b625SNate Lawson return (ENXIO); 239b0e2b625SNate Lawson } 240b0e2b625SNate Lawson obj = (ACPI_OBJECT *)buf.Pointer; 241b0e2b625SNate Lawson if (obj->Type != ACPI_TYPE_PROCESSOR) { 242b0e2b625SNate Lawson device_printf(dev, "Processor object has bad type %d\n", obj->Type); 243b0e2b625SNate Lawson AcpiOsFree(obj); 244b0e2b625SNate Lawson return (ENXIO); 245fec754d4SMike Smith } 246be2b1797SNate Lawson 247b0e2b625SNate Lawson /* 248b0e2b625SNate Lawson * Find the processor associated with our unit. We could use the 249b0e2b625SNate Lawson * ProcId as a key, however, some boxes do not have the same values 250b0e2b625SNate Lawson * in their Processor object as the ProcId values in the MADT. 251b0e2b625SNate Lawson */ 252b0e2b625SNate Lawson acpi_id = obj->Processor.ProcId; 253b0e2b625SNate Lawson AcpiOsFree(obj); 254e4cd9dcfSJohn Baldwin if (acpi_pcpu_get_id(dev, &acpi_id, &cpu_id) != 0) 255fec754d4SMike Smith return (ENXIO); 256b0e2b625SNate Lawson 257b0e2b625SNate Lawson /* 258b0e2b625SNate Lawson * Check if we already probed this processor. We scan the bus twice 259b0e2b625SNate Lawson * so it's possible we've already seen this one. 260b0e2b625SNate Lawson */ 261b0e2b625SNate Lawson if (cpu_softc[cpu_id] != NULL) 262b0e2b625SNate Lawson return (ENXIO); 263b0e2b625SNate Lawson 264b0e2b625SNate Lawson /* Mark this processor as in-use and save our derived id for attach. */ 265b0e2b625SNate Lawson cpu_softc[cpu_id] = (void *)1; 266f6eb382cSAndriy Gapon acpi_set_private(dev, (void*)(intptr_t)cpu_id); 267b29224c2SNate Lawson device_set_desc(dev, "ACPI CPU"); 268b0e2b625SNate Lawson 269b0e2b625SNate Lawson return (0); 270fec754d4SMike Smith } 271fec754d4SMike Smith 272fec754d4SMike Smith static int 273fec754d4SMike Smith acpi_cpu_attach(device_t dev) 274fec754d4SMike Smith { 275b0e2b625SNate Lawson ACPI_BUFFER buf; 276c961facaSNate Lawson ACPI_OBJECT arg[4], *obj; 277bce92885SNate Lawson ACPI_OBJECT_LIST arglist; 27898aa9cd0SNate Lawson struct pcpu *pcpu_data; 279fec754d4SMike Smith struct acpi_cpu_softc *sc; 280fec754d4SMike Smith struct acpi_softc *acpi_sc; 281fec754d4SMike Smith ACPI_STATUS status; 282b29224c2SNate Lawson u_int features; 283b29224c2SNate Lawson int cpu_id, drv_count, i; 284b29224c2SNate Lawson driver_t **drivers; 285bce92885SNate Lawson uint32_t cap_set[3]; 286fec754d4SMike Smith 287c961facaSNate Lawson /* UUID needed by _OSC evaluation */ 288c961facaSNate Lawson static uint8_t cpu_oscuuid[16] = { 0x16, 0xA6, 0x77, 0x40, 0x0C, 0x29, 289c961facaSNate Lawson 0xBE, 0x47, 0x9E, 0xBD, 0xD8, 0x70, 290c961facaSNate Lawson 0x58, 0x71, 0x39, 0x53 }; 291c961facaSNate Lawson 292b4a05238SPeter Wemm ACPI_FUNCTION_TRACE((char *)(uintptr_t)__func__); 293fec754d4SMike Smith 294fec754d4SMike Smith sc = device_get_softc(dev); 295fec754d4SMike Smith sc->cpu_dev = dev; 296fec754d4SMike Smith sc->cpu_handle = acpi_get_handle(dev); 297f6eb382cSAndriy Gapon cpu_id = (int)(intptr_t)acpi_get_private(dev); 29898aa9cd0SNate Lawson cpu_softc[cpu_id] = sc; 29998aa9cd0SNate Lawson pcpu_data = pcpu_find(cpu_id); 30098aa9cd0SNate Lawson pcpu_data->pc_device = dev; 30198aa9cd0SNate Lawson sc->cpu_pcpu = pcpu_data; 3022be4e471SJung-uk Kim cpu_smi_cmd = AcpiGbl_FADT.SmiCommand; 3032be4e471SJung-uk Kim cpu_cst_cnt = AcpiGbl_FADT.CstControl; 304fec754d4SMike Smith 305b0e2b625SNate Lawson buf.Pointer = NULL; 306b0e2b625SNate Lawson buf.Length = ACPI_ALLOCATE_BUFFER; 3076b74f9b7SNate Lawson status = AcpiEvaluateObject(sc->cpu_handle, NULL, NULL, &buf); 3086b74f9b7SNate Lawson if (ACPI_FAILURE(status)) { 309b0e2b625SNate Lawson device_printf(dev, "attach failed to get Processor obj - %s\n", 3106b74f9b7SNate Lawson AcpiFormatException(status)); 3116b74f9b7SNate Lawson return (ENXIO); 312b0e2b625SNate Lawson } 313b0e2b625SNate Lawson obj = (ACPI_OBJECT *)buf.Pointer; 314b0e2b625SNate Lawson sc->cpu_p_blk = obj->Processor.PblkAddress; 315b0e2b625SNate Lawson sc->cpu_p_blk_len = obj->Processor.PblkLength; 31698aa9cd0SNate Lawson sc->cpu_acpi_id = obj->Processor.ProcId; 317b0e2b625SNate Lawson AcpiOsFree(obj); 31856a70eadSNate Lawson ACPI_DEBUG_PRINT((ACPI_DB_INFO, "acpi_cpu%d: P_BLK at %#x/%d\n", 31956a70eadSNate Lawson device_get_unit(dev), sc->cpu_p_blk, sc->cpu_p_blk_len)); 3206b74f9b7SNate Lawson 321907b6777SNate Lawson /* 322907b6777SNate Lawson * If this is the first cpu we attach, create and initialize the generic 323907b6777SNate Lawson * resources that will be used by all acpi cpu devices. 324907b6777SNate Lawson */ 325907b6777SNate Lawson if (device_get_unit(dev) == 0) { 326907b6777SNate Lawson /* Assume we won't be using generic Cx mode by default */ 327907b6777SNate Lawson cpu_cx_generic = FALSE; 328907b6777SNate Lawson 329907b6777SNate Lawson /* Install hw.acpi.cpu sysctl tree */ 330fec754d4SMike Smith acpi_sc = acpi_device_get_parent_softc(dev); 331907b6777SNate Lawson sysctl_ctx_init(&cpu_sysctl_ctx); 332907b6777SNate Lawson cpu_sysctl_tree = SYSCTL_ADD_NODE(&cpu_sysctl_ctx, 33398aa9cd0SNate Lawson SYSCTL_CHILDREN(acpi_sc->acpi_sysctl_tree), OID_AUTO, "cpu", 334907b6777SNate Lawson CTLFLAG_RD, 0, "node for CPU children"); 335907b6777SNate Lawson 336907b6777SNate Lawson /* Queue post cpu-probing task handler */ 3372be4e471SJung-uk Kim AcpiOsExecute(OSL_NOTIFY_HANDLER, acpi_cpu_startup, NULL); 338907b6777SNate Lawson } 339fec754d4SMike Smith 3406b74f9b7SNate Lawson /* 341b29224c2SNate Lawson * Before calling any CPU methods, collect child driver feature hints 342f2d94257SNate Lawson * and notify ACPI of them. We support unified SMP power control 343f2d94257SNate Lawson * so advertise this ourselves. Note this is not the same as independent 344f2d94257SNate Lawson * SMP control where each CPU can have different settings. 345b29224c2SNate Lawson */ 346f2d94257SNate Lawson sc->cpu_features = ACPI_CAP_SMP_SAME | ACPI_CAP_SMP_SAME_C3; 347b29224c2SNate Lawson if (devclass_get_drivers(acpi_cpu_devclass, &drivers, &drv_count) == 0) { 348b29224c2SNate Lawson for (i = 0; i < drv_count; i++) { 349b29224c2SNate Lawson if (ACPI_GET_FEATURES(drivers[i], &features) == 0) 350b29224c2SNate Lawson sc->cpu_features |= features; 351b29224c2SNate Lawson } 352b29224c2SNate Lawson free(drivers, M_TEMP); 353b29224c2SNate Lawson } 354bce92885SNate Lawson 355bce92885SNate Lawson /* 356f4ab0cccSAndriy Gapon * CPU capabilities are specified in 357f4ab0cccSAndriy Gapon * Intel Processor Vendor-Specific ACPI Interface Specification. 358bce92885SNate Lawson */ 359bce92885SNate Lawson if (sc->cpu_features) { 360c961facaSNate Lawson arglist.Pointer = arg; 361c961facaSNate Lawson arglist.Count = 4; 362c961facaSNate Lawson arg[0].Type = ACPI_TYPE_BUFFER; 363c961facaSNate Lawson arg[0].Buffer.Length = sizeof(cpu_oscuuid); 364c961facaSNate Lawson arg[0].Buffer.Pointer = cpu_oscuuid; /* UUID */ 365c961facaSNate Lawson arg[1].Type = ACPI_TYPE_INTEGER; 366c961facaSNate Lawson arg[1].Integer.Value = 1; /* revision */ 367c961facaSNate Lawson arg[2].Type = ACPI_TYPE_INTEGER; 368c961facaSNate Lawson arg[2].Integer.Value = 1; /* count */ 369c961facaSNate Lawson arg[3].Type = ACPI_TYPE_BUFFER; 370c961facaSNate Lawson arg[3].Buffer.Length = sizeof(cap_set); /* Capabilities buffer */ 371c961facaSNate Lawson arg[3].Buffer.Pointer = (uint8_t *)cap_set; 372877a6d99SAndriy Gapon cap_set[0] = 0; /* status */ 373877a6d99SAndriy Gapon cap_set[1] = sc->cpu_features; 374f4ab0cccSAndriy Gapon status = AcpiEvaluateObject(sc->cpu_handle, "_OSC", &arglist, NULL); 375f4ab0cccSAndriy Gapon if (ACPI_SUCCESS(status)) { 376f4ab0cccSAndriy Gapon if (cap_set[0] != 0) 377f4ab0cccSAndriy Gapon device_printf(dev, "_OSC returned status %#x\n", cap_set[0]); 378f4ab0cccSAndriy Gapon } 379f4ab0cccSAndriy Gapon else { 380f4ab0cccSAndriy Gapon arglist.Pointer = arg; 381f4ab0cccSAndriy Gapon arglist.Count = 1; 382f4ab0cccSAndriy Gapon arg[0].Type = ACPI_TYPE_BUFFER; 383f4ab0cccSAndriy Gapon arg[0].Buffer.Length = sizeof(cap_set); 384f4ab0cccSAndriy Gapon arg[0].Buffer.Pointer = (uint8_t *)cap_set; 385f4ab0cccSAndriy Gapon cap_set[0] = 1; /* revision */ 386f4ab0cccSAndriy Gapon cap_set[1] = 1; /* number of capabilities integers */ 387f4ab0cccSAndriy Gapon cap_set[2] = sc->cpu_features; 388f4ab0cccSAndriy Gapon AcpiEvaluateObject(sc->cpu_handle, "_PDC", &arglist, NULL); 389f4ab0cccSAndriy Gapon } 390bce92885SNate Lawson } 391b29224c2SNate Lawson 392907b6777SNate Lawson /* Probe for Cx state support. */ 393907b6777SNate Lawson acpi_cpu_cx_probe(sc); 3946b74f9b7SNate Lawson 39598aa9cd0SNate Lawson return (0); 3966b74f9b7SNate Lawson } 3976b74f9b7SNate Lawson 398aa835160SAndriy Gapon static void 399aa835160SAndriy Gapon acpi_cpu_postattach(void *unused __unused) 400aa835160SAndriy Gapon { 401aa835160SAndriy Gapon device_t *devices; 402aa835160SAndriy Gapon int err; 403aa835160SAndriy Gapon int i, n; 404aa835160SAndriy Gapon 405aa835160SAndriy Gapon err = devclass_get_devices(acpi_cpu_devclass, &devices, &n); 406aa835160SAndriy Gapon if (err != 0) { 407aa835160SAndriy Gapon printf("devclass_get_devices(acpi_cpu_devclass) failed\n"); 408aa835160SAndriy Gapon return; 409aa835160SAndriy Gapon } 410aa835160SAndriy Gapon for (i = 0; i < n; i++) 411aa835160SAndriy Gapon bus_generic_probe(devices[i]); 412aa835160SAndriy Gapon for (i = 0; i < n; i++) 413aa835160SAndriy Gapon bus_generic_attach(devices[i]); 414aa835160SAndriy Gapon free(devices, M_TEMP); 415aa835160SAndriy Gapon } 416aa835160SAndriy Gapon 417aa835160SAndriy Gapon SYSINIT(acpi_cpu, SI_SUB_CONFIGURE, SI_ORDER_MIDDLE, 418aa835160SAndriy Gapon acpi_cpu_postattach, NULL); 419aa835160SAndriy Gapon 42009424d43SAndriy Gapon static void 42109424d43SAndriy Gapon disable_idle(struct acpi_cpu_softc *sc) 42209424d43SAndriy Gapon { 42309424d43SAndriy Gapon cpuset_t cpuset; 42409424d43SAndriy Gapon 42509424d43SAndriy Gapon CPU_SETOF(sc->cpu_pcpu->pc_cpuid, &cpuset); 42609424d43SAndriy Gapon sc->cpu_disable_idle = TRUE; 42709424d43SAndriy Gapon 42809424d43SAndriy Gapon /* 42909424d43SAndriy Gapon * Ensure that the CPU is not in idle state or in acpi_cpu_idle(). 43009424d43SAndriy Gapon * Note that this code depends on the fact that the rendezvous IPI 43109424d43SAndriy Gapon * can not penetrate context where interrupts are disabled and acpi_cpu_idle 43209424d43SAndriy Gapon * is called and executed in such a context with interrupts being re-enabled 43309424d43SAndriy Gapon * right before return. 43409424d43SAndriy Gapon */ 43509424d43SAndriy Gapon smp_rendezvous_cpus(cpuset, smp_no_rendevous_barrier, NULL, 43609424d43SAndriy Gapon smp_no_rendevous_barrier, NULL); 43709424d43SAndriy Gapon } 43809424d43SAndriy Gapon 43909424d43SAndriy Gapon static void 44009424d43SAndriy Gapon enable_idle(struct acpi_cpu_softc *sc) 44109424d43SAndriy Gapon { 44209424d43SAndriy Gapon 44309424d43SAndriy Gapon sc->cpu_disable_idle = FALSE; 44409424d43SAndriy Gapon } 44509424d43SAndriy Gapon 44609424d43SAndriy Gapon static int 44709424d43SAndriy Gapon is_idle_disabled(struct acpi_cpu_softc *sc) 44809424d43SAndriy Gapon { 44909424d43SAndriy Gapon 45009424d43SAndriy Gapon return (sc->cpu_disable_idle); 45109424d43SAndriy Gapon } 45209424d43SAndriy Gapon 453b6426963SNate Lawson /* 4543331373cSNate Lawson * Disable any entry to the idle function during suspend and re-enable it 4553331373cSNate Lawson * during resume. 4563331373cSNate Lawson */ 4573331373cSNate Lawson static int 4583331373cSNate Lawson acpi_cpu_suspend(device_t dev) 4593331373cSNate Lawson { 4603331373cSNate Lawson int error; 4613331373cSNate Lawson 4623331373cSNate Lawson error = bus_generic_suspend(dev); 4633331373cSNate Lawson if (error) 4643331373cSNate Lawson return (error); 46509424d43SAndriy Gapon disable_idle(device_get_softc(dev)); 4663331373cSNate Lawson return (0); 4673331373cSNate Lawson } 4683331373cSNate Lawson 4693331373cSNate Lawson static int 4703331373cSNate Lawson acpi_cpu_resume(device_t dev) 4713331373cSNate Lawson { 4723331373cSNate Lawson 47309424d43SAndriy Gapon enable_idle(device_get_softc(dev)); 4743331373cSNate Lawson return (bus_generic_resume(dev)); 4753331373cSNate Lawson } 4763331373cSNate Lawson 4773331373cSNate Lawson /* 478e4cd9dcfSJohn Baldwin * Find the processor associated with a given ACPI ID. By default, 479e4cd9dcfSJohn Baldwin * use the MADT to map ACPI IDs to APIC IDs and use that to locate a 480e4cd9dcfSJohn Baldwin * processor. Some systems have inconsistent ASL and MADT however. 481e4cd9dcfSJohn Baldwin * For these systems the cpu_unordered tunable can be set in which 482e4cd9dcfSJohn Baldwin * case we assume that Processor objects are listed in the same order 483e4cd9dcfSJohn Baldwin * in both the MADT and ASL. 484b6426963SNate Lawson */ 485b6426963SNate Lawson static int 486e4cd9dcfSJohn Baldwin acpi_pcpu_get_id(device_t dev, uint32_t *acpi_id, uint32_t *cpu_id) 487b6426963SNate Lawson { 488e4cd9dcfSJohn Baldwin struct pcpu *pc; 489e4cd9dcfSJohn Baldwin uint32_t i, idx; 490b6426963SNate Lawson 491b6426963SNate Lawson KASSERT(acpi_id != NULL, ("Null acpi_id")); 492b6426963SNate Lawson KASSERT(cpu_id != NULL, ("Null cpu_id")); 493e4cd9dcfSJohn Baldwin idx = device_get_unit(dev); 494e4cd9dcfSJohn Baldwin 495e4cd9dcfSJohn Baldwin /* 496e4cd9dcfSJohn Baldwin * If pc_acpi_id for CPU 0 is not initialized (e.g. a non-APIC 497e4cd9dcfSJohn Baldwin * UP box) use the ACPI ID from the first processor we find. 498e4cd9dcfSJohn Baldwin */ 499e4cd9dcfSJohn Baldwin if (idx == 0 && mp_ncpus == 1) { 500e4cd9dcfSJohn Baldwin pc = pcpu_find(0); 501e4cd9dcfSJohn Baldwin if (pc->pc_acpi_id == 0xffffffff) 502e4cd9dcfSJohn Baldwin pc->pc_acpi_id = *acpi_id; 503e4cd9dcfSJohn Baldwin *cpu_id = 0; 504e4cd9dcfSJohn Baldwin return (0); 505e4cd9dcfSJohn Baldwin } 506e4cd9dcfSJohn Baldwin 5073aa6d94eSJohn Baldwin CPU_FOREACH(i) { 508e4cd9dcfSJohn Baldwin pc = pcpu_find(i); 509e4cd9dcfSJohn Baldwin KASSERT(pc != NULL, ("no pcpu data for %d", i)); 510e4cd9dcfSJohn Baldwin if (cpu_unordered) { 511b6426963SNate Lawson if (idx-- == 0) { 512b6426963SNate Lawson /* 513e4cd9dcfSJohn Baldwin * If pc_acpi_id doesn't match the ACPI ID from the 514e4cd9dcfSJohn Baldwin * ASL, prefer the MADT-derived value. 515b6426963SNate Lawson */ 516e4cd9dcfSJohn Baldwin if (pc->pc_acpi_id != *acpi_id) 517e4cd9dcfSJohn Baldwin *acpi_id = pc->pc_acpi_id; 518e4cd9dcfSJohn Baldwin *cpu_id = pc->pc_cpuid; 519e4cd9dcfSJohn Baldwin return (0); 520e4cd9dcfSJohn Baldwin } 521e4cd9dcfSJohn Baldwin } else { 522e4cd9dcfSJohn Baldwin if (pc->pc_acpi_id == *acpi_id) { 523e4cd9dcfSJohn Baldwin if (bootverbose) 5242aa7a9e6SJung-uk Kim device_printf(dev, 5252aa7a9e6SJung-uk Kim "Processor %s (ACPI ID %u) -> APIC ID %d\n", 5262aa7a9e6SJung-uk Kim acpi_name(acpi_get_handle(dev)), *acpi_id, 5272aa7a9e6SJung-uk Kim pc->pc_cpuid); 528e4cd9dcfSJohn Baldwin *cpu_id = pc->pc_cpuid; 529b6426963SNate Lawson return (0); 530b6426963SNate Lawson } 531b6426963SNate Lawson } 532e4cd9dcfSJohn Baldwin } 533e4cd9dcfSJohn Baldwin 534e4cd9dcfSJohn Baldwin if (bootverbose) 535e4cd9dcfSJohn Baldwin printf("ACPI: Processor %s (ACPI ID %u) ignored\n", 536e4cd9dcfSJohn Baldwin acpi_name(acpi_get_handle(dev)), *acpi_id); 537b6426963SNate Lawson 538b6426963SNate Lawson return (ESRCH); 539b6426963SNate Lawson } 540b6426963SNate Lawson 54198aa9cd0SNate Lawson static struct resource_list * 54298aa9cd0SNate Lawson acpi_cpu_get_rlist(device_t dev, device_t child) 54398aa9cd0SNate Lawson { 54498aa9cd0SNate Lawson struct acpi_cpu_device *ad; 54598aa9cd0SNate Lawson 54698aa9cd0SNate Lawson ad = device_get_ivars(child); 54798aa9cd0SNate Lawson if (ad == NULL) 54898aa9cd0SNate Lawson return (NULL); 54998aa9cd0SNate Lawson return (&ad->ad_rl); 55098aa9cd0SNate Lawson } 55198aa9cd0SNate Lawson 55298aa9cd0SNate Lawson static device_t 5533d844eddSAndriy Gapon acpi_cpu_add_child(device_t dev, u_int order, const char *name, int unit) 55498aa9cd0SNate Lawson { 55598aa9cd0SNate Lawson struct acpi_cpu_device *ad; 55698aa9cd0SNate Lawson device_t child; 55798aa9cd0SNate Lawson 55898aa9cd0SNate Lawson if ((ad = malloc(sizeof(*ad), M_TEMP, M_NOWAIT | M_ZERO)) == NULL) 55998aa9cd0SNate Lawson return (NULL); 56098aa9cd0SNate Lawson 56198aa9cd0SNate Lawson resource_list_init(&ad->ad_rl); 56298aa9cd0SNate Lawson 56398aa9cd0SNate Lawson child = device_add_child_ordered(dev, order, name, unit); 56498aa9cd0SNate Lawson if (child != NULL) 56598aa9cd0SNate Lawson device_set_ivars(child, ad); 56643ce1c77SNate Lawson else 56743ce1c77SNate Lawson free(ad, M_TEMP); 56898aa9cd0SNate Lawson return (child); 56998aa9cd0SNate Lawson } 57098aa9cd0SNate Lawson 57198aa9cd0SNate Lawson static int 57298aa9cd0SNate Lawson acpi_cpu_read_ivar(device_t dev, device_t child, int index, uintptr_t *result) 57398aa9cd0SNate Lawson { 57498aa9cd0SNate Lawson struct acpi_cpu_softc *sc; 57598aa9cd0SNate Lawson 57698aa9cd0SNate Lawson sc = device_get_softc(dev); 57798aa9cd0SNate Lawson switch (index) { 57898aa9cd0SNate Lawson case ACPI_IVAR_HANDLE: 57998aa9cd0SNate Lawson *result = (uintptr_t)sc->cpu_handle; 58098aa9cd0SNate Lawson break; 58198aa9cd0SNate Lawson case CPU_IVAR_PCPU: 58298aa9cd0SNate Lawson *result = (uintptr_t)sc->cpu_pcpu; 58398aa9cd0SNate Lawson break; 584e1c9d39eSJung-uk Kim #if defined(__amd64__) || defined(__i386__) 585e1c9d39eSJung-uk Kim case CPU_IVAR_NOMINAL_MHZ: 586e1c9d39eSJung-uk Kim if (tsc_is_invariant) { 5873453537fSJung-uk Kim *result = (uintptr_t)(atomic_load_acq_64(&tsc_freq) / 1000000); 588e1c9d39eSJung-uk Kim break; 589e1c9d39eSJung-uk Kim } 590e1c9d39eSJung-uk Kim /* FALLTHROUGH */ 591e1c9d39eSJung-uk Kim #endif 59298aa9cd0SNate Lawson default: 59398aa9cd0SNate Lawson return (ENOENT); 59498aa9cd0SNate Lawson } 59598aa9cd0SNate Lawson return (0); 59698aa9cd0SNate Lawson } 59798aa9cd0SNate Lawson 5986b74f9b7SNate Lawson static int 59956a70eadSNate Lawson acpi_cpu_shutdown(device_t dev) 60056a70eadSNate Lawson { 60156a70eadSNate Lawson ACPI_FUNCTION_TRACE((char *)(uintptr_t)__func__); 60256a70eadSNate Lawson 60398aa9cd0SNate Lawson /* Allow children to shutdown first. */ 60498aa9cd0SNate Lawson bus_generic_shutdown(dev); 60598aa9cd0SNate Lawson 606cc3c11f9SNate Lawson /* 60709424d43SAndriy Gapon * Disable any entry to the idle function. 608cc3c11f9SNate Lawson */ 60909424d43SAndriy Gapon disable_idle(device_get_softc(dev)); 61009424d43SAndriy Gapon 61109424d43SAndriy Gapon /* 61209424d43SAndriy Gapon * CPU devices are not truely detached and remain referenced, 61309424d43SAndriy Gapon * so their resources are not freed. 61409424d43SAndriy Gapon */ 61556a70eadSNate Lawson 61656a70eadSNate Lawson return_VALUE (0); 61756a70eadSNate Lawson } 61856a70eadSNate Lawson 619907b6777SNate Lawson static void 6206b74f9b7SNate Lawson acpi_cpu_cx_probe(struct acpi_cpu_softc *sc) 6216b74f9b7SNate Lawson { 622907b6777SNate Lawson ACPI_FUNCTION_TRACE((char *)(uintptr_t)__func__); 623907b6777SNate Lawson 624907b6777SNate Lawson /* Use initial sleep value of 1 sec. to start with lowest idle state. */ 625907b6777SNate Lawson sc->cpu_prev_sleep = 1000000; 626907b6777SNate Lawson sc->cpu_cx_lowest = 0; 627d30b88afSAndriy Gapon sc->cpu_cx_lowest_lim = 0; 628907b6777SNate Lawson 629907b6777SNate Lawson /* 630907b6777SNate Lawson * Check for the ACPI 2.0 _CST sleep states object. If we can't find 631907b6777SNate Lawson * any, we'll revert to generic FADT/P_BLK Cx control method which will 632907b6777SNate Lawson * be handled by acpi_cpu_startup. We need to defer to after having 633907b6777SNate Lawson * probed all the cpus in the system before probing for generic Cx 634907b6777SNate Lawson * states as we may already have found cpus with valid _CST packages 635907b6777SNate Lawson */ 636907b6777SNate Lawson if (!cpu_cx_generic && acpi_cpu_cx_cst(sc) != 0) { 637907b6777SNate Lawson /* 638907b6777SNate Lawson * We were unable to find a _CST package for this cpu or there 639907b6777SNate Lawson * was an error parsing it. Switch back to generic mode. 640907b6777SNate Lawson */ 641907b6777SNate Lawson cpu_cx_generic = TRUE; 642bd826803SNate Lawson if (bootverbose) 643bd826803SNate Lawson device_printf(sc->cpu_dev, "switching to generic Cx mode\n"); 644907b6777SNate Lawson } 645907b6777SNate Lawson 646907b6777SNate Lawson /* 647907b6777SNate Lawson * TODO: _CSD Package should be checked here. 648907b6777SNate Lawson */ 649907b6777SNate Lawson } 650907b6777SNate Lawson 651907b6777SNate Lawson static void 652907b6777SNate Lawson acpi_cpu_generic_cx_probe(struct acpi_cpu_softc *sc) 653907b6777SNate Lawson { 6546b74f9b7SNate Lawson ACPI_GENERIC_ADDRESS gas; 6556b74f9b7SNate Lawson struct acpi_cx *cx_ptr; 65656a70eadSNate Lawson 65756a70eadSNate Lawson sc->cpu_cx_count = 0; 6586b74f9b7SNate Lawson cx_ptr = sc->cpu_cx_states; 659fec754d4SMike Smith 660907b6777SNate Lawson /* Use initial sleep value of 1 sec. to start with lowest idle state. */ 661907b6777SNate Lawson sc->cpu_prev_sleep = 1000000; 662907b6777SNate Lawson 6636b74f9b7SNate Lawson /* C1 has been required since just after ACPI 1.0 */ 6646b74f9b7SNate Lawson cx_ptr->type = ACPI_STATE_C1; 6656b74f9b7SNate Lawson cx_ptr->trans_lat = 0; 6666b74f9b7SNate Lawson cx_ptr++; 667987e5277SAndriy Gapon sc->cpu_non_c3 = sc->cpu_cx_count; 66856a70eadSNate Lawson sc->cpu_cx_count++; 66956a70eadSNate Lawson 670c181b89bSNate Lawson /* 671c181b89bSNate Lawson * The spec says P_BLK must be 6 bytes long. However, some systems 672c181b89bSNate Lawson * use it to indicate a fractional set of features present so we 673c181b89bSNate Lawson * take 5 as C2. Some may also have a value of 7 to indicate 674c181b89bSNate Lawson * another C3 but most use _CST for this (as required) and having 675c181b89bSNate Lawson * "only" C1-C3 is not a hardship. 676c181b89bSNate Lawson */ 677c181b89bSNate Lawson if (sc->cpu_p_blk_len < 5) 678907b6777SNate Lawson return; 679fec754d4SMike Smith 6806b74f9b7SNate Lawson /* Validate and allocate resources for C2 (P_LVL2). */ 6812be4e471SJung-uk Kim gas.SpaceId = ACPI_ADR_SPACE_SYSTEM_IO; 6822be4e471SJung-uk Kim gas.BitWidth = 8; 6832be4e471SJung-uk Kim if (AcpiGbl_FADT.C2Latency <= 100) { 68456a70eadSNate Lawson gas.Address = sc->cpu_p_blk + 4; 685f51d43feSAndriy Gapon cx_ptr->res_rid = 0; 686f51d43feSAndriy Gapon acpi_bus_alloc_gas(sc->cpu_dev, &cx_ptr->res_type, &cx_ptr->res_rid, 687907b6777SNate Lawson &gas, &cx_ptr->p_lvlx, RF_SHAREABLE); 6886b74f9b7SNate Lawson if (cx_ptr->p_lvlx != NULL) { 6896b74f9b7SNate Lawson cx_ptr->type = ACPI_STATE_C2; 6902be4e471SJung-uk Kim cx_ptr->trans_lat = AcpiGbl_FADT.C2Latency; 6916b74f9b7SNate Lawson cx_ptr++; 692987e5277SAndriy Gapon sc->cpu_non_c3 = sc->cpu_cx_count; 69356a70eadSNate Lawson sc->cpu_cx_count++; 694fec754d4SMike Smith } 695fec754d4SMike Smith } 696c181b89bSNate Lawson if (sc->cpu_p_blk_len < 6) 697907b6777SNate Lawson return; 698be2b1797SNate Lawson 6996b74f9b7SNate Lawson /* Validate and allocate resources for C3 (P_LVL3). */ 7006e1de64dSRui Paulo if (AcpiGbl_FADT.C3Latency <= 1000 && !(cpu_quirks & CPU_QUIRK_NO_C3)) { 70156a70eadSNate Lawson gas.Address = sc->cpu_p_blk + 5; 702f51d43feSAndriy Gapon cx_ptr->res_rid = 1; 703f51d43feSAndriy Gapon acpi_bus_alloc_gas(sc->cpu_dev, &cx_ptr->res_type, &cx_ptr->res_rid, 704f51d43feSAndriy Gapon &gas, &cx_ptr->p_lvlx, RF_SHAREABLE); 7056b74f9b7SNate Lawson if (cx_ptr->p_lvlx != NULL) { 7066b74f9b7SNate Lawson cx_ptr->type = ACPI_STATE_C3; 7072be4e471SJung-uk Kim cx_ptr->trans_lat = AcpiGbl_FADT.C3Latency; 7086b74f9b7SNate Lawson cx_ptr++; 70956a70eadSNate Lawson sc->cpu_cx_count++; 710412ef220SAndriy Gapon cpu_can_deep_sleep = 1; 7116b74f9b7SNate Lawson } 7126b74f9b7SNate Lawson } 7136b74f9b7SNate Lawson } 7146b74f9b7SNate Lawson 7156b74f9b7SNate Lawson /* 7166b74f9b7SNate Lawson * Parse a _CST package and set up its Cx states. Since the _CST object 7176b74f9b7SNate Lawson * can change dynamically, our notify handler may call this function 7186b74f9b7SNate Lawson * to clean up and probe the new _CST package. 7196b74f9b7SNate Lawson */ 7206b74f9b7SNate Lawson static int 7216b74f9b7SNate Lawson acpi_cpu_cx_cst(struct acpi_cpu_softc *sc) 7226b74f9b7SNate Lawson { 7236b74f9b7SNate Lawson struct acpi_cx *cx_ptr; 7246b74f9b7SNate Lawson ACPI_STATUS status; 7256b74f9b7SNate Lawson ACPI_BUFFER buf; 7266b74f9b7SNate Lawson ACPI_OBJECT *top; 7276b74f9b7SNate Lawson ACPI_OBJECT *pkg; 7286b74f9b7SNate Lawson uint32_t count; 7296b74f9b7SNate Lawson int i; 7306b74f9b7SNate Lawson 73156a70eadSNate Lawson ACPI_FUNCTION_TRACE((char *)(uintptr_t)__func__); 73256a70eadSNate Lawson 7336b74f9b7SNate Lawson buf.Pointer = NULL; 7346b74f9b7SNate Lawson buf.Length = ACPI_ALLOCATE_BUFFER; 7356b74f9b7SNate Lawson status = AcpiEvaluateObject(sc->cpu_handle, "_CST", NULL, &buf); 736bd826803SNate Lawson if (ACPI_FAILURE(status)) 7376b74f9b7SNate Lawson return (ENXIO); 7386b74f9b7SNate Lawson 7396b74f9b7SNate Lawson /* _CST is a package with a count and at least one Cx package. */ 7406b74f9b7SNate Lawson top = (ACPI_OBJECT *)buf.Pointer; 74121cea91fSNate Lawson if (!ACPI_PKG_VALID(top, 2) || acpi_PkgInt32(top, 0, &count) != 0) { 742bd826803SNate Lawson device_printf(sc->cpu_dev, "invalid _CST package\n"); 7436b74f9b7SNate Lawson AcpiOsFree(buf.Pointer); 7446b74f9b7SNate Lawson return (ENXIO); 7456b74f9b7SNate Lawson } 7466b74f9b7SNate Lawson if (count != top->Package.Count - 1) { 747bd826803SNate Lawson device_printf(sc->cpu_dev, "invalid _CST state count (%d != %d)\n", 7486b74f9b7SNate Lawson count, top->Package.Count - 1); 7496b74f9b7SNate Lawson count = top->Package.Count - 1; 7506b74f9b7SNate Lawson } 7516b74f9b7SNate Lawson if (count > MAX_CX_STATES) { 75256a70eadSNate Lawson device_printf(sc->cpu_dev, "_CST has too many states (%d)\n", count); 7536b74f9b7SNate Lawson count = MAX_CX_STATES; 7546b74f9b7SNate Lawson } 7556b74f9b7SNate Lawson 75668d5e11cSJung-uk Kim sc->cpu_non_c3 = 0; 75756a70eadSNate Lawson sc->cpu_cx_count = 0; 7586b74f9b7SNate Lawson cx_ptr = sc->cpu_cx_states; 75968d5e11cSJung-uk Kim 76068d5e11cSJung-uk Kim /* 76168d5e11cSJung-uk Kim * C1 has been required since just after ACPI 1.0. 76268d5e11cSJung-uk Kim * Reserve the first slot for it. 76368d5e11cSJung-uk Kim */ 76468d5e11cSJung-uk Kim cx_ptr->type = ACPI_STATE_C0; 76568d5e11cSJung-uk Kim cx_ptr++; 76668d5e11cSJung-uk Kim sc->cpu_cx_count++; 76768d5e11cSJung-uk Kim 76868d5e11cSJung-uk Kim /* Set up all valid states. */ 7696b74f9b7SNate Lawson for (i = 0; i < count; i++) { 7706b74f9b7SNate Lawson pkg = &top->Package.Elements[i + 1]; 77121cea91fSNate Lawson if (!ACPI_PKG_VALID(pkg, 4) || 77221cea91fSNate Lawson acpi_PkgInt32(pkg, 1, &cx_ptr->type) != 0 || 77321cea91fSNate Lawson acpi_PkgInt32(pkg, 2, &cx_ptr->trans_lat) != 0 || 77421cea91fSNate Lawson acpi_PkgInt32(pkg, 3, &cx_ptr->power) != 0) { 77521cea91fSNate Lawson 77680f006a1SNate Lawson device_printf(sc->cpu_dev, "skipping invalid Cx state package\n"); 7776b74f9b7SNate Lawson continue; 7786b74f9b7SNate Lawson } 7796b74f9b7SNate Lawson 7806b74f9b7SNate Lawson /* Validate the state to see if we should use it. */ 7816b74f9b7SNate Lawson switch (cx_ptr->type) { 7826b74f9b7SNate Lawson case ACPI_STATE_C1: 78368d5e11cSJung-uk Kim if (sc->cpu_cx_states[0].type == ACPI_STATE_C0) { 78468d5e11cSJung-uk Kim /* This is the first C1 state. Use the reserved slot. */ 78568d5e11cSJung-uk Kim sc->cpu_cx_states[0] = *cx_ptr; 78668d5e11cSJung-uk Kim } else { 78756101001SAndriy Gapon sc->cpu_non_c3 = sc->cpu_cx_count; 7886b74f9b7SNate Lawson cx_ptr++; 78956a70eadSNate Lawson sc->cpu_cx_count++; 79068d5e11cSJung-uk Kim } 7916b74f9b7SNate Lawson continue; 7926b74f9b7SNate Lawson case ACPI_STATE_C2: 79356101001SAndriy Gapon sc->cpu_non_c3 = sc->cpu_cx_count; 7946b74f9b7SNate Lawson break; 7956b74f9b7SNate Lawson case ACPI_STATE_C3: 7966b74f9b7SNate Lawson default: 79709c22c66SAndriy Gapon if ((cpu_quirks & CPU_QUIRK_NO_C3) != 0) { 79856a70eadSNate Lawson ACPI_DEBUG_PRINT((ACPI_DB_INFO, 79956a70eadSNate Lawson "acpi_cpu%d: C3[%d] not available.\n", 80056a70eadSNate Lawson device_get_unit(sc->cpu_dev), i)); 8016b74f9b7SNate Lawson continue; 802412ef220SAndriy Gapon } else 803412ef220SAndriy Gapon cpu_can_deep_sleep = 1; 8046b74f9b7SNate Lawson break; 8056b74f9b7SNate Lawson } 8066b74f9b7SNate Lawson 8076b74f9b7SNate Lawson /* Free up any previous register. */ 8086b74f9b7SNate Lawson if (cx_ptr->p_lvlx != NULL) { 809f51d43feSAndriy Gapon bus_release_resource(sc->cpu_dev, cx_ptr->res_type, cx_ptr->res_rid, 810f51d43feSAndriy Gapon cx_ptr->p_lvlx); 8116b74f9b7SNate Lawson cx_ptr->p_lvlx = NULL; 8126b74f9b7SNate Lawson } 8136b74f9b7SNate Lawson 8146b74f9b7SNate Lawson /* Allocate the control register for C2 or C3. */ 815f51d43feSAndriy Gapon cx_ptr->res_rid = sc->cpu_cx_count; 816f51d43feSAndriy Gapon acpi_PkgGas(sc->cpu_dev, pkg, 0, &cx_ptr->res_type, &cx_ptr->res_rid, 817907b6777SNate Lawson &cx_ptr->p_lvlx, RF_SHAREABLE); 818f4eb0418SNate Lawson if (cx_ptr->p_lvlx) { 81956a70eadSNate Lawson ACPI_DEBUG_PRINT((ACPI_DB_INFO, 82056a70eadSNate Lawson "acpi_cpu%d: Got C%d - %d latency\n", 82156a70eadSNate Lawson device_get_unit(sc->cpu_dev), cx_ptr->type, 82256a70eadSNate Lawson cx_ptr->trans_lat)); 8236b74f9b7SNate Lawson cx_ptr++; 82456a70eadSNate Lawson sc->cpu_cx_count++; 8256b74f9b7SNate Lawson } 8266b74f9b7SNate Lawson } 8276b74f9b7SNate Lawson AcpiOsFree(buf.Pointer); 8286b74f9b7SNate Lawson 82968d5e11cSJung-uk Kim /* If C1 state was not found, we need one now. */ 83068d5e11cSJung-uk Kim cx_ptr = sc->cpu_cx_states; 83168d5e11cSJung-uk Kim if (cx_ptr->type == ACPI_STATE_C0) { 83268d5e11cSJung-uk Kim cx_ptr->type = ACPI_STATE_C1; 83368d5e11cSJung-uk Kim cx_ptr->trans_lat = 0; 83468d5e11cSJung-uk Kim } 83568d5e11cSJung-uk Kim 8366b74f9b7SNate Lawson return (0); 837fec754d4SMike Smith } 838fec754d4SMike Smith 839fec754d4SMike Smith /* 840fec754d4SMike Smith * Call this *after* all CPUs have been attached. 841fec754d4SMike Smith */ 842fec754d4SMike Smith static void 8436b74f9b7SNate Lawson acpi_cpu_startup(void *arg) 844fec754d4SMike Smith { 84556a70eadSNate Lawson struct acpi_cpu_softc *sc; 846907b6777SNate Lawson int i; 847fec754d4SMike Smith 848be2b1797SNate Lawson /* Get set of CPU devices */ 8493045c8afSNate Lawson devclass_get_devices(acpi_cpu_devclass, &cpu_devices, &cpu_ndevices); 850fec754d4SMike Smith 85156a70eadSNate Lawson /* 852907b6777SNate Lawson * Setup any quirks that might necessary now that we have probed 853907b6777SNate Lawson * all the CPUs 85456a70eadSNate Lawson */ 855907b6777SNate Lawson acpi_cpu_quirks(); 856907b6777SNate Lawson 857907b6777SNate Lawson if (cpu_cx_generic) { 858907b6777SNate Lawson /* 859907b6777SNate Lawson * We are using generic Cx mode, probe for available Cx states 860907b6777SNate Lawson * for all processors. 861907b6777SNate Lawson */ 86256a70eadSNate Lawson for (i = 0; i < cpu_ndevices; i++) { 86356a70eadSNate Lawson sc = device_get_softc(cpu_devices[i]); 864907b6777SNate Lawson acpi_cpu_generic_cx_probe(sc); 865907b6777SNate Lawson } 866907b6777SNate Lawson } else { 867907b6777SNate Lawson /* 868907b6777SNate Lawson * We are using _CST mode, remove C3 state if necessary. 869907b6777SNate Lawson * As we now know for sure that we will be using _CST mode 870907b6777SNate Lawson * install our notify handler. 871907b6777SNate Lawson */ 872907b6777SNate Lawson for (i = 0; i < cpu_ndevices; i++) { 873907b6777SNate Lawson sc = device_get_softc(cpu_devices[i]); 8747a310721SJohn Baldwin if (cpu_quirks & CPU_QUIRK_NO_C3) { 875907b6777SNate Lawson sc->cpu_cx_count = sc->cpu_non_c3 + 1; 876907b6777SNate Lawson } 877907b6777SNate Lawson AcpiInstallNotifyHandler(sc->cpu_handle, ACPI_DEVICE_NOTIFY, 878907b6777SNate Lawson acpi_cpu_notify, sc); 879907b6777SNate Lawson } 880907b6777SNate Lawson } 88156a70eadSNate Lawson 8828c5468e3SNate Lawson /* Perform Cx final initialization. */ 883907b6777SNate Lawson for (i = 0; i < cpu_ndevices; i++) { 884907b6777SNate Lawson sc = device_get_softc(cpu_devices[i]); 885907b6777SNate Lawson acpi_cpu_startup_cx(sc); 886907b6777SNate Lawson } 887907b6777SNate Lawson 888907b6777SNate Lawson /* Add a sysctl handler to handle global Cx lowest setting */ 889907b6777SNate Lawson SYSCTL_ADD_PROC(&cpu_sysctl_ctx, SYSCTL_CHILDREN(cpu_sysctl_tree), 890907b6777SNate Lawson OID_AUTO, "cx_lowest", CTLTYPE_STRING | CTLFLAG_RW, 891907b6777SNate Lawson NULL, 0, acpi_cpu_global_cx_lowest_sysctl, "A", 892907b6777SNate Lawson "Global lowest Cx sleep state to use"); 893907b6777SNate Lawson 894907b6777SNate Lawson /* Take over idling from cpu_idle_default(). */ 895d30b88afSAndriy Gapon cpu_cx_lowest_lim = 0; 89609424d43SAndriy Gapon for (i = 0; i < cpu_ndevices; i++) { 89709424d43SAndriy Gapon sc = device_get_softc(cpu_devices[i]); 89809424d43SAndriy Gapon enable_idle(sc); 89909424d43SAndriy Gapon } 900907b6777SNate Lawson cpu_idle_hook = acpi_cpu_idle; 9016b74f9b7SNate Lawson } 9026b74f9b7SNate Lawson 90356a70eadSNate Lawson static void 90489ab2a7aSRui Paulo acpi_cpu_cx_list(struct acpi_cpu_softc *sc) 90556a70eadSNate Lawson { 90656a70eadSNate Lawson struct sbuf sb; 90756a70eadSNate Lawson int i; 90856a70eadSNate Lawson 909ae56b59fSNate Lawson /* 910907b6777SNate Lawson * Set up the list of Cx states 911ae56b59fSNate Lawson */ 912907b6777SNate Lawson sbuf_new(&sb, sc->cpu_cx_supported, sizeof(sc->cpu_cx_supported), 913907b6777SNate Lawson SBUF_FIXEDLEN); 914412ef220SAndriy Gapon for (i = 0; i < sc->cpu_cx_count; i++) 9153c5c5559SAlexander Motin sbuf_printf(&sb, "C%d/%d/%d ", i + 1, sc->cpu_cx_states[i].type, 9163c5c5559SAlexander Motin sc->cpu_cx_states[i].trans_lat); 91756a70eadSNate Lawson sbuf_trim(&sb); 91856a70eadSNate Lawson sbuf_finish(&sb); 91989ab2a7aSRui Paulo } 92089ab2a7aSRui Paulo 92189ab2a7aSRui Paulo static void 92289ab2a7aSRui Paulo acpi_cpu_startup_cx(struct acpi_cpu_softc *sc) 92389ab2a7aSRui Paulo { 92489ab2a7aSRui Paulo acpi_cpu_cx_list(sc); 925907b6777SNate Lawson 926907b6777SNate Lawson SYSCTL_ADD_STRING(&sc->cpu_sysctl_ctx, 927907b6777SNate Lawson SYSCTL_CHILDREN(device_get_sysctl_tree(sc->cpu_dev)), 928907b6777SNate Lawson OID_AUTO, "cx_supported", CTLFLAG_RD, 929907b6777SNate Lawson sc->cpu_cx_supported, 0, 930907b6777SNate Lawson "Cx/microsecond values for supported Cx states"); 931907b6777SNate Lawson SYSCTL_ADD_PROC(&sc->cpu_sysctl_ctx, 932907b6777SNate Lawson SYSCTL_CHILDREN(device_get_sysctl_tree(sc->cpu_dev)), 933ccc09458SNate Lawson OID_AUTO, "cx_lowest", CTLTYPE_STRING | CTLFLAG_RW, 934907b6777SNate Lawson (void *)sc, 0, acpi_cpu_cx_lowest_sysctl, "A", 93556a70eadSNate Lawson "lowest Cx sleep state to use"); 936907b6777SNate Lawson SYSCTL_ADD_PROC(&sc->cpu_sysctl_ctx, 937907b6777SNate Lawson SYSCTL_CHILDREN(device_get_sysctl_tree(sc->cpu_dev)), 938a2afe45aSNate Lawson OID_AUTO, "cx_usage", CTLTYPE_STRING | CTLFLAG_RD, 939907b6777SNate Lawson (void *)sc, 0, acpi_cpu_usage_sysctl, "A", 940a2afe45aSNate Lawson "percent usage for each Cx state"); 94156a70eadSNate Lawson 94256a70eadSNate Lawson /* Signal platform that we can handle _CST notification. */ 943907b6777SNate Lawson if (!cpu_cx_generic && cpu_cst_cnt != 0) { 944d92a2ebdSNate Lawson ACPI_LOCK(acpi); 94556a70eadSNate Lawson AcpiOsWritePort(cpu_smi_cmd, cpu_cst_cnt, 8); 946d92a2ebdSNate Lawson ACPI_UNLOCK(acpi); 94756a70eadSNate Lawson } 94856a70eadSNate Lawson } 94956a70eadSNate Lawson 950fec754d4SMike Smith /* 951a2afe45aSNate Lawson * Idle the CPU in the lowest state possible. This function is called with 952a2afe45aSNate Lawson * interrupts disabled. Note that once it re-enables interrupts, a task 953a2afe45aSNate Lawson * switch can occur so do not access shared data (i.e. the softc) after 954a2afe45aSNate Lawson * interrupts are re-enabled. 9556b74f9b7SNate Lawson */ 9566b74f9b7SNate Lawson static void 957acccf7d8SDavide Italiano acpi_cpu_idle(sbintime_t sbt) 9586b74f9b7SNate Lawson { 9596b74f9b7SNate Lawson struct acpi_cpu_softc *sc; 96056a70eadSNate Lawson struct acpi_cx *cx_next; 9613c5c5559SAlexander Motin uint64_t cputicks; 9626b74f9b7SNate Lawson uint32_t start_time, end_time; 963acccf7d8SDavide Italiano int bm_active, cx_next_idx, i, us; 9646b74f9b7SNate Lawson 965cd1f3db9SNate Lawson /* 966cd1f3db9SNate Lawson * Look up our CPU id to get our softc. If it's NULL, we'll use C1 967cd1f3db9SNate Lawson * since there is no ACPI processor object for this CPU. This occurs 968cd1f3db9SNate Lawson * for logical CPUs in the HTT case. 969cd1f3db9SNate Lawson */ 970cd1f3db9SNate Lawson sc = cpu_softc[PCPU_GET(cpuid)]; 971cd1f3db9SNate Lawson if (sc == NULL) { 972cd1f3db9SNate Lawson acpi_cpu_c1(); 973cd1f3db9SNate Lawson return; 974cd1f3db9SNate Lawson } 975cd1f3db9SNate Lawson 97630bf6110SAndriy Gapon /* If disabled, take the safe path. */ 97709424d43SAndriy Gapon if (is_idle_disabled(sc)) { 97830bf6110SAndriy Gapon acpi_cpu_c1(); 97909424d43SAndriy Gapon return; 98009424d43SAndriy Gapon } 98109424d43SAndriy Gapon 982bb1d6ad5SAlexander Motin /* Find the lowest state that has small enough latency. */ 983acccf7d8SDavide Italiano us = sc->cpu_prev_sleep; 984*d9ddf0c0SDavide Italiano if (sbt >= 0 && us > (sbt >> 12)) 985*d9ddf0c0SDavide Italiano us = (sbt >> 12); 986b0baaaaeSAlexander Motin cx_next_idx = 0; 98755fb7f36SSean Bruno if (cpu_disable_deep_sleep) 98848fe2e67SAlexander Motin i = min(sc->cpu_cx_lowest, sc->cpu_non_c3); 98955fb7f36SSean Bruno else 990a157e425SAlexander Motin i = sc->cpu_cx_lowest; 991a157e425SAlexander Motin for (; i >= 0; i--) { 992acccf7d8SDavide Italiano if (sc->cpu_cx_states[i].trans_lat * 3 <= us) { 993a2afe45aSNate Lawson cx_next_idx = i; 994a2afe45aSNate Lawson break; 995a2afe45aSNate Lawson } 99680f006a1SNate Lawson } 99756a70eadSNate Lawson 9986b74f9b7SNate Lawson /* 9996b74f9b7SNate Lawson * Check for bus master activity. If there was activity, clear 10006b74f9b7SNate Lawson * the bit and use the lowest non-C3 state. Note that the USB 10016b74f9b7SNate Lawson * driver polling for new devices keeps this bit set all the 1002f435261dSNate Lawson * time if USB is loaded. 10036b74f9b7SNate Lawson */ 10043c5c5559SAlexander Motin if ((cpu_quirks & CPU_QUIRK_NO_BM_CTRL) == 0 && 10053c5c5559SAlexander Motin cx_next_idx > sc->cpu_non_c3) { 1006129d3046SJung-uk Kim AcpiReadBitRegister(ACPI_BITREG_BUS_MASTER_STATUS, &bm_active); 10076b74f9b7SNate Lawson if (bm_active != 0) { 1008129d3046SJung-uk Kim AcpiWriteBitRegister(ACPI_BITREG_BUS_MASTER_STATUS, 1); 10093c5c5559SAlexander Motin cx_next_idx = sc->cpu_non_c3; 10106b74f9b7SNate Lawson } 1011f435261dSNate Lawson } 10126b74f9b7SNate Lawson 1013a2afe45aSNate Lawson /* Select the next state and update statistics. */ 1014a2afe45aSNate Lawson cx_next = &sc->cpu_cx_states[cx_next_idx]; 1015907b6777SNate Lawson sc->cpu_cx_stats[cx_next_idx]++; 1016a2afe45aSNate Lawson KASSERT(cx_next->type != ACPI_STATE_C0, ("acpi_cpu_idle: C0 sleep")); 10176b74f9b7SNate Lawson 10186b74f9b7SNate Lawson /* 1019a2afe45aSNate Lawson * Execute HLT (or equivalent) and wait for an interrupt. We can't 10207150e671SAlexander Motin * precisely calculate the time spent in C1 since the place we wake up 1021a157e425SAlexander Motin * is an ISR. Assume we slept no more then half of quantum, unless 1022a157e425SAlexander Motin * we are called inside critical section, delaying context switch. 10236b74f9b7SNate Lawson */ 1024a2afe45aSNate Lawson if (cx_next->type == ACPI_STATE_C1) { 10253c5c5559SAlexander Motin cputicks = cpu_ticks(); 1026a2afe45aSNate Lawson acpi_cpu_c1(); 10273c5c5559SAlexander Motin end_time = ((cpu_ticks() - cputicks) << 20) / cpu_tickrate(); 1028a157e425SAlexander Motin if (curthread->td_critnest == 0) 1029a157e425SAlexander Motin end_time = min(end_time, 500000 / hz); 1030a157e425SAlexander Motin sc->cpu_prev_sleep = (sc->cpu_prev_sleep * 3 + end_time) / 4; 1031a2afe45aSNate Lawson return; 1032a2afe45aSNate Lawson } 1033a2afe45aSNate Lawson 1034f435261dSNate Lawson /* 1035f435261dSNate Lawson * For C3, disable bus master arbitration and enable bus master wake 1036f435261dSNate Lawson * if BM control is available, otherwise flush the CPU cache. 1037f435261dSNate Lawson */ 1038a2afe45aSNate Lawson if (cx_next->type == ACPI_STATE_C3) { 1039f435261dSNate Lawson if ((cpu_quirks & CPU_QUIRK_NO_BM_CTRL) == 0) { 1040129d3046SJung-uk Kim AcpiWriteBitRegister(ACPI_BITREG_ARB_DISABLE, 1); 1041129d3046SJung-uk Kim AcpiWriteBitRegister(ACPI_BITREG_BUS_MASTER_RLD, 1); 1042f435261dSNate Lawson } else 1043f435261dSNate Lawson ACPI_FLUSH_CPU_CACHE(); 1044a2afe45aSNate Lawson } 1045a2afe45aSNate Lawson 10466b74f9b7SNate Lawson /* 1047a2afe45aSNate Lawson * Read from P_LVLx to enter C2(+), checking time spent asleep. 10486b74f9b7SNate Lawson * Use the ACPI timer for measuring sleep time. Since we need to 10496b74f9b7SNate Lawson * get the time very close to the CPU start/stop clock logic, this 10506b74f9b7SNate Lawson * is the only reliable time source. 10516b74f9b7SNate Lawson */ 10523c5c5559SAlexander Motin if (cx_next->type == ACPI_STATE_C3) { 105392488a57SJung-uk Kim AcpiHwRead(&start_time, &AcpiGbl_FADT.XPmTimerBlock); 10543c5c5559SAlexander Motin cputicks = 0; 10553c5c5559SAlexander Motin } else { 10563c5c5559SAlexander Motin start_time = 0; 10573c5c5559SAlexander Motin cputicks = cpu_ticks(); 10583c5c5559SAlexander Motin } 10596b74f9b7SNate Lawson CPU_GET_REG(cx_next->p_lvlx, 1); 10606b74f9b7SNate Lawson 10616b74f9b7SNate Lawson /* 10626b74f9b7SNate Lawson * Read the end time twice. Since it may take an arbitrary time 10636b74f9b7SNate Lawson * to enter the idle state, the first read may be executed before 10646b74f9b7SNate Lawson * the processor has stopped. Doing it again provides enough 10656b74f9b7SNate Lawson * margin that we are certain to have a correct value. 10666b74f9b7SNate Lawson */ 106792488a57SJung-uk Kim AcpiHwRead(&end_time, &AcpiGbl_FADT.XPmTimerBlock); 10683c5c5559SAlexander Motin if (cx_next->type == ACPI_STATE_C3) { 106992488a57SJung-uk Kim AcpiHwRead(&end_time, &AcpiGbl_FADT.XPmTimerBlock); 10703c5c5559SAlexander Motin end_time = acpi_TimerDelta(end_time, start_time); 10713c5c5559SAlexander Motin } else 10723c5c5559SAlexander Motin end_time = ((cpu_ticks() - cputicks) << 20) / cpu_tickrate(); 10736b74f9b7SNate Lawson 10746b74f9b7SNate Lawson /* Enable bus master arbitration and disable bus master wakeup. */ 107518ececa0SNate Lawson if (cx_next->type == ACPI_STATE_C3 && 107618ececa0SNate Lawson (cpu_quirks & CPU_QUIRK_NO_BM_CTRL) == 0) { 1077129d3046SJung-uk Kim AcpiWriteBitRegister(ACPI_BITREG_ARB_DISABLE, 0); 1078129d3046SJung-uk Kim AcpiWriteBitRegister(ACPI_BITREG_BUS_MASTER_RLD, 0); 10796b74f9b7SNate Lawson } 108080f006a1SNate Lawson ACPI_ENABLE_IRQS(); 10816b74f9b7SNate Lawson 1082b0baaaaeSAlexander Motin sc->cpu_prev_sleep = (sc->cpu_prev_sleep * 3 + PM_USEC(end_time)) / 4; 10836b74f9b7SNate Lawson } 10846b74f9b7SNate Lawson 10856b74f9b7SNate Lawson /* 10868b888c66SNate Lawson * Re-evaluate the _CST object when we are notified that it changed. 10876b74f9b7SNate Lawson */ 10886b74f9b7SNate Lawson static void 10896b74f9b7SNate Lawson acpi_cpu_notify(ACPI_HANDLE h, UINT32 notify, void *context) 10906b74f9b7SNate Lawson { 10916b74f9b7SNate Lawson struct acpi_cpu_softc *sc = (struct acpi_cpu_softc *)context; 10926b74f9b7SNate Lawson 10938b888c66SNate Lawson if (notify != ACPI_NOTIFY_CX_STATES) 10948b888c66SNate Lawson return; 10958b888c66SNate Lawson 109630bf6110SAndriy Gapon /* 109730bf6110SAndriy Gapon * C-state data for target CPU is going to be in flux while we execute 109830bf6110SAndriy Gapon * acpi_cpu_cx_cst, so disable entering acpi_cpu_idle. 109930bf6110SAndriy Gapon * Also, it may happen that multiple ACPI taskqueues may concurrently 110030bf6110SAndriy Gapon * execute notifications for the same CPU. ACPI_SERIAL is used to 110130bf6110SAndriy Gapon * protect against that. 110230bf6110SAndriy Gapon */ 110330bf6110SAndriy Gapon ACPI_SERIAL_BEGIN(cpu); 110430bf6110SAndriy Gapon disable_idle(sc); 110530bf6110SAndriy Gapon 110689ab2a7aSRui Paulo /* Update the list of Cx states. */ 110789ab2a7aSRui Paulo acpi_cpu_cx_cst(sc); 110889ab2a7aSRui Paulo acpi_cpu_cx_list(sc); 1109d30b88afSAndriy Gapon acpi_cpu_set_cx_lowest(sc); 111030bf6110SAndriy Gapon 111130bf6110SAndriy Gapon enable_idle(sc); 111289ab2a7aSRui Paulo ACPI_SERIAL_END(cpu); 1113154fc7b6SAndriy Gapon 1114154fc7b6SAndriy Gapon acpi_UserNotify("PROCESSOR", sc->cpu_handle, notify); 11156b74f9b7SNate Lawson } 11166b74f9b7SNate Lawson 11176b74f9b7SNate Lawson static int 1118907b6777SNate Lawson acpi_cpu_quirks(void) 11196b74f9b7SNate Lawson { 1120ae56b59fSNate Lawson device_t acpi_dev; 11218a000acaSRui Paulo uint32_t val; 11226b74f9b7SNate Lawson 11237826bf98SNate Lawson ACPI_FUNCTION_TRACE((char *)(uintptr_t)__func__); 11247826bf98SNate Lawson 11256b74f9b7SNate Lawson /* 1126907b6777SNate Lawson * Bus mastering arbitration control is needed to keep caches coherent 1127907b6777SNate Lawson * while sleeping in C3. If it's not present but a working flush cache 1128907b6777SNate Lawson * instruction is present, flush the caches before entering C3 instead. 1129907b6777SNate Lawson * Otherwise, just disable C3 completely. 11306b74f9b7SNate Lawson */ 11312be4e471SJung-uk Kim if (AcpiGbl_FADT.Pm2ControlBlock == 0 || 11322be4e471SJung-uk Kim AcpiGbl_FADT.Pm2ControlLength == 0) { 11332be4e471SJung-uk Kim if ((AcpiGbl_FADT.Flags & ACPI_FADT_WBINVD) && 11342be4e471SJung-uk Kim (AcpiGbl_FADT.Flags & ACPI_FADT_WBINVD_FLUSH) == 0) { 1135907b6777SNate Lawson cpu_quirks |= CPU_QUIRK_NO_BM_CTRL; 1136907b6777SNate Lawson ACPI_DEBUG_PRINT((ACPI_DB_INFO, 113730dd6af3SNate Lawson "acpi_cpu: no BM control, using flush cache method\n")); 1138907b6777SNate Lawson } else { 1139907b6777SNate Lawson cpu_quirks |= CPU_QUIRK_NO_C3; 1140907b6777SNate Lawson ACPI_DEBUG_PRINT((ACPI_DB_INFO, 114130dd6af3SNate Lawson "acpi_cpu: no BM control, C3 not available\n")); 1142907b6777SNate Lawson } 1143907b6777SNate Lawson } 1144907b6777SNate Lawson 1145907b6777SNate Lawson /* 1146907b6777SNate Lawson * If we are using generic Cx mode, C3 on multiple CPUs requires using 1147907b6777SNate Lawson * the expensive flush cache instruction. 1148907b6777SNate Lawson */ 114930dd6af3SNate Lawson if (cpu_cx_generic && mp_ncpus > 1) { 115018ececa0SNate Lawson cpu_quirks |= CPU_QUIRK_NO_BM_CTRL; 115130dd6af3SNate Lawson ACPI_DEBUG_PRINT((ACPI_DB_INFO, 115230dd6af3SNate Lawson "acpi_cpu: SMP, using flush cache mode for C3\n")); 115330dd6af3SNate Lawson } 11546b74f9b7SNate Lawson 11556b74f9b7SNate Lawson /* Look for various quirks of the PIIX4 part. */ 11566b74f9b7SNate Lawson acpi_dev = pci_find_device(PCI_VENDOR_INTEL, PCI_DEVICE_82371AB_3); 11576b74f9b7SNate Lawson if (acpi_dev != NULL) { 11586b74f9b7SNate Lawson switch (pci_get_revid(acpi_dev)) { 11596b74f9b7SNate Lawson /* 11606b74f9b7SNate Lawson * Disable C3 support for all PIIX4 chipsets. Some of these parts 11616b74f9b7SNate Lawson * do not report the BMIDE status to the BM status register and 11626b74f9b7SNate Lawson * others have a livelock bug if Type-F DMA is enabled. Linux 11636b74f9b7SNate Lawson * works around the BMIDE bug by reading the BM status directly 11646b74f9b7SNate Lawson * but we take the simpler approach of disabling C3 for these 11656b74f9b7SNate Lawson * parts. 11666b74f9b7SNate Lawson * 11676b74f9b7SNate Lawson * See erratum #18 ("C3 Power State/BMIDE and Type-F DMA 11686b74f9b7SNate Lawson * Livelock") from the January 2002 PIIX4 specification update. 11696b74f9b7SNate Lawson * Applies to all PIIX4 models. 11708a000acaSRui Paulo * 11718a000acaSRui Paulo * Also, make sure that all interrupts cause a "Stop Break" 11728a000acaSRui Paulo * event to exit from C2 state. 1173f1e1ddc3SAndriy Gapon * Also, BRLD_EN_BM (ACPI_BITREG_BUS_MASTER_RLD in ACPI-speak) 1174f1e1ddc3SAndriy Gapon * should be set to zero, otherwise it causes C2 to short-sleep. 1175f1e1ddc3SAndriy Gapon * PIIX4 doesn't properly support C3 and bus master activity 1176f1e1ddc3SAndriy Gapon * need not break out of C2. 11776b74f9b7SNate Lawson */ 11788a000acaSRui Paulo case PCI_REVISION_A_STEP: 11798a000acaSRui Paulo case PCI_REVISION_B_STEP: 11806b74f9b7SNate Lawson case PCI_REVISION_4E: 11816b74f9b7SNate Lawson case PCI_REVISION_4M: 11826b74f9b7SNate Lawson cpu_quirks |= CPU_QUIRK_NO_C3; 118330dd6af3SNate Lawson ACPI_DEBUG_PRINT((ACPI_DB_INFO, 118430dd6af3SNate Lawson "acpi_cpu: working around PIIX4 bug, disabling C3\n")); 11858a000acaSRui Paulo 11868a000acaSRui Paulo val = pci_read_config(acpi_dev, PIIX4_DEVACTB_REG, 4); 11878a000acaSRui Paulo if ((val & PIIX4_STOP_BREAK_MASK) != PIIX4_STOP_BREAK_MASK) { 11888a000acaSRui Paulo ACPI_DEBUG_PRINT((ACPI_DB_INFO, 1189f1e1ddc3SAndriy Gapon "acpi_cpu: PIIX4: enabling IRQs to generate Stop Break\n")); 11908a000acaSRui Paulo val |= PIIX4_STOP_BREAK_MASK; 11918a000acaSRui Paulo pci_write_config(acpi_dev, PIIX4_DEVACTB_REG, val, 4); 11928a000acaSRui Paulo } 1193129d3046SJung-uk Kim AcpiReadBitRegister(ACPI_BITREG_BUS_MASTER_RLD, &val); 1194f1e1ddc3SAndriy Gapon if (val) { 1195f1e1ddc3SAndriy Gapon ACPI_DEBUG_PRINT((ACPI_DB_INFO, 1196f1e1ddc3SAndriy Gapon "acpi_cpu: PIIX4: reset BRLD_EN_BM\n")); 1197129d3046SJung-uk Kim AcpiWriteBitRegister(ACPI_BITREG_BUS_MASTER_RLD, 0); 1198f1e1ddc3SAndriy Gapon } 11996b74f9b7SNate Lawson break; 12006b74f9b7SNate Lawson default: 12016b74f9b7SNate Lawson break; 12026b74f9b7SNate Lawson } 12036b74f9b7SNate Lawson } 12046b74f9b7SNate Lawson 12056b74f9b7SNate Lawson return (0); 12066b74f9b7SNate Lawson } 12076b74f9b7SNate Lawson 12086b74f9b7SNate Lawson static int 1209a2afe45aSNate Lawson acpi_cpu_usage_sysctl(SYSCTL_HANDLER_ARGS) 12106b74f9b7SNate Lawson { 1211907b6777SNate Lawson struct acpi_cpu_softc *sc; 12126b74f9b7SNate Lawson struct sbuf sb; 12136b74f9b7SNate Lawson char buf[128]; 12146b74f9b7SNate Lawson int i; 12154a03551dSNate Lawson uintmax_t fract, sum, whole; 12166b74f9b7SNate Lawson 1217907b6777SNate Lawson sc = (struct acpi_cpu_softc *) arg1; 12183e7fa136SNate Lawson sum = 0; 1219907b6777SNate Lawson for (i = 0; i < sc->cpu_cx_count; i++) 1220907b6777SNate Lawson sum += sc->cpu_cx_stats[i]; 12216b74f9b7SNate Lawson sbuf_new(&sb, buf, sizeof(buf), SBUF_FIXEDLEN); 1222907b6777SNate Lawson for (i = 0; i < sc->cpu_cx_count; i++) { 12233e7fa136SNate Lawson if (sum > 0) { 1224907b6777SNate Lawson whole = (uintmax_t)sc->cpu_cx_stats[i] * 100; 12253e7fa136SNate Lawson fract = (whole % sum) * 100; 12263e7fa136SNate Lawson sbuf_printf(&sb, "%u.%02u%% ", (u_int)(whole / sum), 12273e7fa136SNate Lawson (u_int)(fract / sum)); 12283e7fa136SNate Lawson } else 12292500b6d9SAlexander Motin sbuf_printf(&sb, "0.00%% "); 12303e7fa136SNate Lawson } 12312500b6d9SAlexander Motin sbuf_printf(&sb, "last %dus", sc->cpu_prev_sleep); 12326b74f9b7SNate Lawson sbuf_trim(&sb); 12336b74f9b7SNate Lawson sbuf_finish(&sb); 1234ccc09458SNate Lawson sysctl_handle_string(oidp, sbuf_data(&sb), sbuf_len(&sb), req); 1235ccc09458SNate Lawson sbuf_delete(&sb); 12366b74f9b7SNate Lawson 12376b74f9b7SNate Lawson return (0); 12386b74f9b7SNate Lawson } 12396b74f9b7SNate Lawson 12406b74f9b7SNate Lawson static int 1241d30b88afSAndriy Gapon acpi_cpu_set_cx_lowest(struct acpi_cpu_softc *sc) 12426b74f9b7SNate Lawson { 1243b13cf774SNate Lawson int i; 12446b74f9b7SNate Lawson 1245b13cf774SNate Lawson ACPI_SERIAL_ASSERT(cpu); 1246d30b88afSAndriy Gapon sc->cpu_cx_lowest = min(sc->cpu_cx_lowest_lim, sc->cpu_cx_count - 1); 1247907b6777SNate Lawson 1248907b6777SNate Lawson /* If not disabling, cache the new lowest non-C3 state. */ 1249907b6777SNate Lawson sc->cpu_non_c3 = 0; 1250907b6777SNate Lawson for (i = sc->cpu_cx_lowest; i >= 0; i--) { 1251907b6777SNate Lawson if (sc->cpu_cx_states[i].type < ACPI_STATE_C3) { 1252907b6777SNate Lawson sc->cpu_non_c3 = i; 1253907b6777SNate Lawson break; 1254907b6777SNate Lawson } 1255907b6777SNate Lawson } 1256907b6777SNate Lawson 1257907b6777SNate Lawson /* Reset the statistics counters. */ 1258907b6777SNate Lawson bzero(sc->cpu_cx_stats, sizeof(sc->cpu_cx_stats)); 1259b13cf774SNate Lawson return (0); 1260b13cf774SNate Lawson } 1261b13cf774SNate Lawson 1262b13cf774SNate Lawson static int 1263b13cf774SNate Lawson acpi_cpu_cx_lowest_sysctl(SYSCTL_HANDLER_ARGS) 1264b13cf774SNate Lawson { 1265b13cf774SNate Lawson struct acpi_cpu_softc *sc; 1266b13cf774SNate Lawson char state[8]; 1267b13cf774SNate Lawson int val, error; 1268b13cf774SNate Lawson 1269b13cf774SNate Lawson sc = (struct acpi_cpu_softc *) arg1; 1270d30b88afSAndriy Gapon snprintf(state, sizeof(state), "C%d", sc->cpu_cx_lowest_lim + 1); 1271b13cf774SNate Lawson error = sysctl_handle_string(oidp, state, sizeof(state), req); 1272b13cf774SNate Lawson if (error != 0 || req->newptr == NULL) 1273b13cf774SNate Lawson return (error); 1274b13cf774SNate Lawson if (strlen(state) < 2 || toupper(state[0]) != 'C') 1275b13cf774SNate Lawson return (EINVAL); 1276d30b88afSAndriy Gapon if (strcasecmp(state, "Cmax") == 0) 1277d30b88afSAndriy Gapon val = MAX_CX_STATES; 1278d30b88afSAndriy Gapon else { 1279d30b88afSAndriy Gapon val = (int) strtol(state + 1, NULL, 10); 1280d30b88afSAndriy Gapon if (val < 1 || val > MAX_CX_STATES) 1281b13cf774SNate Lawson return (EINVAL); 1282d30b88afSAndriy Gapon } 1283b13cf774SNate Lawson 1284b13cf774SNate Lawson ACPI_SERIAL_BEGIN(cpu); 1285d30b88afSAndriy Gapon sc->cpu_cx_lowest_lim = val - 1; 1286d30b88afSAndriy Gapon acpi_cpu_set_cx_lowest(sc); 1287907b6777SNate Lawson ACPI_SERIAL_END(cpu); 1288907b6777SNate Lawson 128955fb7f36SSean Bruno return (0); 1290907b6777SNate Lawson } 1291907b6777SNate Lawson 1292907b6777SNate Lawson static int 1293907b6777SNate Lawson acpi_cpu_global_cx_lowest_sysctl(SYSCTL_HANDLER_ARGS) 1294907b6777SNate Lawson { 1295907b6777SNate Lawson struct acpi_cpu_softc *sc; 1296907b6777SNate Lawson char state[8]; 1297b13cf774SNate Lawson int val, error, i; 1298907b6777SNate Lawson 1299d30b88afSAndriy Gapon snprintf(state, sizeof(state), "C%d", cpu_cx_lowest_lim + 1); 1300ccc09458SNate Lawson error = sysctl_handle_string(oidp, state, sizeof(state), req); 13016b74f9b7SNate Lawson if (error != 0 || req->newptr == NULL) 13026b74f9b7SNate Lawson return (error); 1303ccc09458SNate Lawson if (strlen(state) < 2 || toupper(state[0]) != 'C') 1304ccc09458SNate Lawson return (EINVAL); 1305d30b88afSAndriy Gapon if (strcasecmp(state, "Cmax") == 0) 1306d30b88afSAndriy Gapon val = MAX_CX_STATES; 1307d30b88afSAndriy Gapon else { 1308d30b88afSAndriy Gapon val = (int) strtol(state + 1, NULL, 10); 1309d30b88afSAndriy Gapon if (val < 1 || val > MAX_CX_STATES) 13106b74f9b7SNate Lawson return (EINVAL); 1311d30b88afSAndriy Gapon } 13126b74f9b7SNate Lawson 1313b13cf774SNate Lawson /* Update the new lowest useable Cx state for all CPUs. */ 1314907b6777SNate Lawson ACPI_SERIAL_BEGIN(cpu); 1315d30b88afSAndriy Gapon cpu_cx_lowest_lim = val - 1; 1316907b6777SNate Lawson for (i = 0; i < cpu_ndevices; i++) { 1317907b6777SNate Lawson sc = device_get_softc(cpu_devices[i]); 1318d30b88afSAndriy Gapon sc->cpu_cx_lowest_lim = cpu_cx_lowest_lim; 1319d30b88afSAndriy Gapon acpi_cpu_set_cx_lowest(sc); 1320907b6777SNate Lawson } 1321d92a2ebdSNate Lawson ACPI_SERIAL_END(cpu); 13226b74f9b7SNate Lawson 13236b74f9b7SNate Lawson return (0); 13246b74f9b7SNate Lawson } 1325