1*5db2f26eSSascha Wildner /*- 2*5db2f26eSSascha Wildner * Copyright (c) 2003-2005 Nate Lawson (SDG) 3*5db2f26eSSascha Wildner * Copyright (c) 2001 Michael Smith 4*5db2f26eSSascha Wildner * All rights reserved. 5*5db2f26eSSascha Wildner * 6*5db2f26eSSascha Wildner * Redistribution and use in source and binary forms, with or without 7*5db2f26eSSascha Wildner * modification, are permitted provided that the following conditions 8*5db2f26eSSascha Wildner * are met: 9*5db2f26eSSascha Wildner * 1. Redistributions of source code must retain the above copyright 10*5db2f26eSSascha Wildner * notice, this list of conditions and the following disclaimer. 11*5db2f26eSSascha Wildner * 2. Redistributions in binary form must reproduce the above copyright 12*5db2f26eSSascha Wildner * notice, this list of conditions and the following disclaimer in the 13*5db2f26eSSascha Wildner * documentation and/or other materials provided with the distribution. 14*5db2f26eSSascha Wildner * 15*5db2f26eSSascha Wildner * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 16*5db2f26eSSascha Wildner * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 17*5db2f26eSSascha Wildner * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 18*5db2f26eSSascha Wildner * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 19*5db2f26eSSascha Wildner * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 20*5db2f26eSSascha Wildner * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 21*5db2f26eSSascha Wildner * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 22*5db2f26eSSascha Wildner * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 23*5db2f26eSSascha Wildner * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 24*5db2f26eSSascha Wildner * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 25*5db2f26eSSascha Wildner * SUCH DAMAGE. 26*5db2f26eSSascha Wildner * 27*5db2f26eSSascha Wildner * $FreeBSD: src/sys/dev/acpica/acpi_cpu.c,v 1.72 2008/04/12 12:06:00 rpaulo Exp $ 28*5db2f26eSSascha Wildner */ 29*5db2f26eSSascha Wildner 30*5db2f26eSSascha Wildner #include "opt_acpi.h" 31*5db2f26eSSascha Wildner #include <sys/param.h> 32*5db2f26eSSascha Wildner #include <sys/bus.h> 33*5db2f26eSSascha Wildner #include <sys/kernel.h> 34*5db2f26eSSascha Wildner #include <sys/malloc.h> 35*5db2f26eSSascha Wildner #include <sys/globaldata.h> 36*5db2f26eSSascha Wildner #include <sys/power.h> 37*5db2f26eSSascha Wildner #include <sys/proc.h> 38*5db2f26eSSascha Wildner #include <sys/sbuf.h> 39*5db2f26eSSascha Wildner #include <sys/thread2.h> 40*5db2f26eSSascha Wildner #include <sys/mplock2.h> 41*5db2f26eSSascha Wildner 42*5db2f26eSSascha Wildner #include <bus/pci/pcivar.h> 43*5db2f26eSSascha Wildner #include <machine/atomic.h> 44*5db2f26eSSascha Wildner #include <machine/globaldata.h> 45*5db2f26eSSascha Wildner #include <machine/md_var.h> 46*5db2f26eSSascha Wildner #include <machine/smp.h> 47*5db2f26eSSascha Wildner #include <sys/rman.h> 48*5db2f26eSSascha Wildner 49*5db2f26eSSascha Wildner #include "acpi.h" 50*5db2f26eSSascha Wildner #include "acpivar.h" 51*5db2f26eSSascha Wildner #include "acpi_cpu.h" 52*5db2f26eSSascha Wildner 53*5db2f26eSSascha Wildner /* 54*5db2f26eSSascha Wildner * Support for ACPI Processor devices, including C[1-3] sleep states. 55*5db2f26eSSascha Wildner */ 56*5db2f26eSSascha Wildner 57*5db2f26eSSascha Wildner /* Hooks for the ACPI CA debugging infrastructure */ 58*5db2f26eSSascha Wildner #define _COMPONENT ACPI_PROCESSOR 59*5db2f26eSSascha Wildner ACPI_MODULE_NAME("PROCESSOR") 60*5db2f26eSSascha Wildner 61*5db2f26eSSascha Wildner struct acpi_cx { 62*5db2f26eSSascha Wildner struct resource *p_lvlx; /* Register to read to enter state. */ 63*5db2f26eSSascha Wildner int rid; /* rid of p_lvlx */ 64*5db2f26eSSascha Wildner uint32_t type; /* C1-3 (C4 and up treated as C3). */ 65*5db2f26eSSascha Wildner uint32_t trans_lat; /* Transition latency (usec). */ 66*5db2f26eSSascha Wildner uint32_t power; /* Power consumed (mW). */ 67*5db2f26eSSascha Wildner int res_type; /* Resource type for p_lvlx. */ 68*5db2f26eSSascha Wildner }; 69*5db2f26eSSascha Wildner #define MAX_CX_STATES 8 70*5db2f26eSSascha Wildner 71*5db2f26eSSascha Wildner struct acpi_cpu_softc { 72*5db2f26eSSascha Wildner device_t cpu_dev; 73*5db2f26eSSascha Wildner struct acpi_cpux_softc *cpu_parent; 74*5db2f26eSSascha Wildner ACPI_HANDLE cpu_handle; 75*5db2f26eSSascha Wildner struct mdglobaldata *md; 76*5db2f26eSSascha Wildner uint32_t cpu_acpi_id; /* ACPI processor id */ 77*5db2f26eSSascha Wildner uint32_t cpu_p_blk; /* ACPI P_BLK location */ 78*5db2f26eSSascha Wildner uint32_t cpu_p_blk_len; /* P_BLK length (must be 6). */ 79*5db2f26eSSascha Wildner struct acpi_cx cpu_cx_states[MAX_CX_STATES]; 80*5db2f26eSSascha Wildner int cpu_cx_count; /* Number of valid Cx states. */ 81*5db2f26eSSascha Wildner int cpu_prev_sleep;/* Last idle sleep duration. */ 82*5db2f26eSSascha Wildner /* Runtime state. */ 83*5db2f26eSSascha Wildner int cpu_non_c3; /* Index of lowest non-C3 state. */ 84*5db2f26eSSascha Wildner u_int cpu_cx_stats[MAX_CX_STATES];/* Cx usage history. */ 85*5db2f26eSSascha Wildner /* Values for sysctl. */ 86*5db2f26eSSascha Wildner int cpu_cx_lowest; 87*5db2f26eSSascha Wildner char cpu_cx_supported[64]; 88*5db2f26eSSascha Wildner }; 89*5db2f26eSSascha Wildner 90*5db2f26eSSascha Wildner struct acpi_cpu_device { 91*5db2f26eSSascha Wildner struct resource_list ad_rl; 92*5db2f26eSSascha Wildner }; 93*5db2f26eSSascha Wildner 94*5db2f26eSSascha Wildner #define CPU_GET_REG(reg, width) \ 95*5db2f26eSSascha Wildner (bus_space_read_ ## width(rman_get_bustag((reg)), \ 96*5db2f26eSSascha Wildner rman_get_bushandle((reg)), 0)) 97*5db2f26eSSascha Wildner #define CPU_SET_REG(reg, width, val) \ 98*5db2f26eSSascha Wildner (bus_space_write_ ## width(rman_get_bustag((reg)), \ 99*5db2f26eSSascha Wildner rman_get_bushandle((reg)), 0, (val))) 100*5db2f26eSSascha Wildner 101*5db2f26eSSascha Wildner #define PM_USEC(x) ((x) >> 2) /* ~4 clocks per usec (3.57955 Mhz) */ 102*5db2f26eSSascha Wildner 103*5db2f26eSSascha Wildner #define ACPI_NOTIFY_CX_STATES 0x81 /* _CST changed. */ 104*5db2f26eSSascha Wildner 105*5db2f26eSSascha Wildner #define CPU_QUIRK_NO_C3 (1<<0) /* C3-type states are not usable. */ 106*5db2f26eSSascha Wildner #define CPU_QUIRK_NO_BM_CTRL (1<<2) /* No bus mastering control. */ 107*5db2f26eSSascha Wildner 108*5db2f26eSSascha Wildner #define PCI_VENDOR_INTEL 0x8086 109*5db2f26eSSascha Wildner #define PCI_DEVICE_82371AB_3 0x7113 /* PIIX4 chipset for quirks. */ 110*5db2f26eSSascha Wildner #define PCI_REVISION_A_STEP 0 111*5db2f26eSSascha Wildner #define PCI_REVISION_B_STEP 1 112*5db2f26eSSascha Wildner #define PCI_REVISION_4E 2 113*5db2f26eSSascha Wildner #define PCI_REVISION_4M 3 114*5db2f26eSSascha Wildner #define PIIX4_DEVACTB_REG 0x58 115*5db2f26eSSascha Wildner #define PIIX4_BRLD_EN_IRQ0 (1<<0) 116*5db2f26eSSascha Wildner #define PIIX4_BRLD_EN_IRQ (1<<1) 117*5db2f26eSSascha Wildner #define PIIX4_BRLD_EN_IRQ8 (1<<5) 118*5db2f26eSSascha Wildner #define PIIX4_STOP_BREAK_MASK (PIIX4_BRLD_EN_IRQ0 | PIIX4_BRLD_EN_IRQ | PIIX4_BRLD_EN_IRQ8) 119*5db2f26eSSascha Wildner #define PIIX4_PCNTRL_BST_EN (1<<10) 120*5db2f26eSSascha Wildner 121*5db2f26eSSascha Wildner /* Platform hardware resource information. */ 122*5db2f26eSSascha Wildner static uint32_t cpu_smi_cmd; /* Value to write to SMI_CMD. */ 123*5db2f26eSSascha Wildner static uint8_t cpu_cst_cnt; /* Indicate we are _CST aware. */ 124*5db2f26eSSascha Wildner static int cpu_quirks; /* Indicate any hardware bugs. */ 125*5db2f26eSSascha Wildner 126*5db2f26eSSascha Wildner /* Runtime state. */ 127*5db2f26eSSascha Wildner static int cpu_disable_idle; /* Disable entry to idle function */ 128*5db2f26eSSascha Wildner static int cpu_cx_count; /* Number of valid Cx states */ 129*5db2f26eSSascha Wildner 130*5db2f26eSSascha Wildner /* Values for sysctl. */ 131*5db2f26eSSascha Wildner static int cpu_cx_generic; 132*5db2f26eSSascha Wildner static int cpu_cx_lowest; 133*5db2f26eSSascha Wildner 134*5db2f26eSSascha Wildner /* C3 state transition */ 135*5db2f26eSSascha Wildner static int cpu_c3_ncpus; 136*5db2f26eSSascha Wildner 137*5db2f26eSSascha Wildner static device_t *cpu_devices; 138*5db2f26eSSascha Wildner static int cpu_ndevices; 139*5db2f26eSSascha Wildner static struct acpi_cpu_softc **cpu_softc; 140*5db2f26eSSascha Wildner 141*5db2f26eSSascha Wildner static int acpi_cpu_cst_probe(device_t dev); 142*5db2f26eSSascha Wildner static int acpi_cpu_cst_attach(device_t dev); 143*5db2f26eSSascha Wildner static int acpi_cpu_cst_suspend(device_t dev); 144*5db2f26eSSascha Wildner static int acpi_cpu_cst_resume(device_t dev); 145*5db2f26eSSascha Wildner static struct resource_list *acpi_cpu_cst_get_rlist(device_t dev, 146*5db2f26eSSascha Wildner device_t child); 147*5db2f26eSSascha Wildner static device_t acpi_cpu_cst_add_child(device_t bus, device_t parent, 148*5db2f26eSSascha Wildner int order, const char *name, int unit); 149*5db2f26eSSascha Wildner static int acpi_cpu_cst_read_ivar(device_t dev, device_t child, 150*5db2f26eSSascha Wildner int index, uintptr_t *result); 151*5db2f26eSSascha Wildner static int acpi_cpu_cst_shutdown(device_t dev); 152*5db2f26eSSascha Wildner static void acpi_cpu_cx_probe(struct acpi_cpu_softc *sc); 153*5db2f26eSSascha Wildner static void acpi_cpu_generic_cx_probe(struct acpi_cpu_softc *sc); 154*5db2f26eSSascha Wildner static int acpi_cpu_cx_cst(struct acpi_cpu_softc *sc); 155*5db2f26eSSascha Wildner static void acpi_cpu_startup(void *arg); 156*5db2f26eSSascha Wildner static void acpi_cpu_startup_cx(struct acpi_cpu_softc *sc); 157*5db2f26eSSascha Wildner static void acpi_cpu_cx_list(struct acpi_cpu_softc *sc); 158*5db2f26eSSascha Wildner static void acpi_cpu_idle(void); 159*5db2f26eSSascha Wildner static void acpi_cpu_cst_notify(device_t); 160*5db2f26eSSascha Wildner static int acpi_cpu_quirks(void); 161*5db2f26eSSascha Wildner static int acpi_cpu_usage_sysctl(SYSCTL_HANDLER_ARGS); 162*5db2f26eSSascha Wildner static int acpi_cpu_set_cx_lowest(struct acpi_cpu_softc *sc, int val); 163*5db2f26eSSascha Wildner static int acpi_cpu_cx_lowest_sysctl(SYSCTL_HANDLER_ARGS); 164*5db2f26eSSascha Wildner static int acpi_cpu_global_cx_lowest_sysctl(SYSCTL_HANDLER_ARGS); 165*5db2f26eSSascha Wildner 166*5db2f26eSSascha Wildner static void acpi_cpu_c1(void); /* XXX */ 167*5db2f26eSSascha Wildner 168*5db2f26eSSascha Wildner static device_method_t acpi_cpu_cst_methods[] = { 169*5db2f26eSSascha Wildner /* Device interface */ 170*5db2f26eSSascha Wildner DEVMETHOD(device_probe, acpi_cpu_cst_probe), 171*5db2f26eSSascha Wildner DEVMETHOD(device_attach, acpi_cpu_cst_attach), 172*5db2f26eSSascha Wildner DEVMETHOD(device_detach, bus_generic_detach), 173*5db2f26eSSascha Wildner DEVMETHOD(device_shutdown, acpi_cpu_cst_shutdown), 174*5db2f26eSSascha Wildner DEVMETHOD(device_suspend, acpi_cpu_cst_suspend), 175*5db2f26eSSascha Wildner DEVMETHOD(device_resume, acpi_cpu_cst_resume), 176*5db2f26eSSascha Wildner 177*5db2f26eSSascha Wildner /* Bus interface */ 178*5db2f26eSSascha Wildner DEVMETHOD(bus_add_child, acpi_cpu_cst_add_child), 179*5db2f26eSSascha Wildner DEVMETHOD(bus_read_ivar, acpi_cpu_cst_read_ivar), 180*5db2f26eSSascha Wildner DEVMETHOD(bus_get_resource_list, acpi_cpu_cst_get_rlist), 181*5db2f26eSSascha Wildner DEVMETHOD(bus_get_resource, bus_generic_rl_get_resource), 182*5db2f26eSSascha Wildner DEVMETHOD(bus_set_resource, bus_generic_rl_set_resource), 183*5db2f26eSSascha Wildner DEVMETHOD(bus_alloc_resource, bus_generic_rl_alloc_resource), 184*5db2f26eSSascha Wildner DEVMETHOD(bus_release_resource, bus_generic_rl_release_resource), 185*5db2f26eSSascha Wildner DEVMETHOD(bus_driver_added, bus_generic_driver_added), 186*5db2f26eSSascha Wildner DEVMETHOD(bus_activate_resource, bus_generic_activate_resource), 187*5db2f26eSSascha Wildner DEVMETHOD(bus_deactivate_resource, bus_generic_deactivate_resource), 188*5db2f26eSSascha Wildner DEVMETHOD(bus_setup_intr, bus_generic_setup_intr), 189*5db2f26eSSascha Wildner DEVMETHOD(bus_teardown_intr, bus_generic_teardown_intr), 190*5db2f26eSSascha Wildner {0, 0} 191*5db2f26eSSascha Wildner }; 192*5db2f26eSSascha Wildner 193*5db2f26eSSascha Wildner static driver_t acpi_cpu_cst_driver = { 194*5db2f26eSSascha Wildner "cpu_cst", 195*5db2f26eSSascha Wildner acpi_cpu_cst_methods, 196*5db2f26eSSascha Wildner sizeof(struct acpi_cpu_softc), 197*5db2f26eSSascha Wildner }; 198*5db2f26eSSascha Wildner 199*5db2f26eSSascha Wildner static devclass_t acpi_cpu_cst_devclass; 200*5db2f26eSSascha Wildner DRIVER_MODULE(cpu_cst, cpu, acpi_cpu_cst_driver, acpi_cpu_cst_devclass, NULL, NULL); 201*5db2f26eSSascha Wildner MODULE_DEPEND(cpu_cst, acpi, 1, 1, 1); 202*5db2f26eSSascha Wildner 203*5db2f26eSSascha Wildner static int 204*5db2f26eSSascha Wildner acpi_cpu_cst_probe(device_t dev) 205*5db2f26eSSascha Wildner { 206*5db2f26eSSascha Wildner int cpu_id; 207*5db2f26eSSascha Wildner 208*5db2f26eSSascha Wildner if (acpi_disabled("cpu_cst") || acpi_get_type(dev) != ACPI_TYPE_PROCESSOR) 209*5db2f26eSSascha Wildner return (ENXIO); 210*5db2f26eSSascha Wildner 211*5db2f26eSSascha Wildner cpu_id = acpi_get_magic(dev); 212*5db2f26eSSascha Wildner 213*5db2f26eSSascha Wildner if (cpu_softc == NULL) 214*5db2f26eSSascha Wildner cpu_softc = kmalloc(sizeof(struct acpi_cpu_softc *) * 215*5db2f26eSSascha Wildner SMP_MAXCPU, M_TEMP /* XXX */, M_INTWAIT | M_ZERO); 216*5db2f26eSSascha Wildner 217*5db2f26eSSascha Wildner /* 218*5db2f26eSSascha Wildner * Check if we already probed this processor. We scan the bus twice 219*5db2f26eSSascha Wildner * so it's possible we've already seen this one. 220*5db2f26eSSascha Wildner */ 221*5db2f26eSSascha Wildner if (cpu_softc[cpu_id] != NULL) { 222*5db2f26eSSascha Wildner device_printf(dev, "CPU%d cstate already exist\n", cpu_id); 223*5db2f26eSSascha Wildner return (ENXIO); 224*5db2f26eSSascha Wildner } 225*5db2f26eSSascha Wildner 226*5db2f26eSSascha Wildner /* Mark this processor as in-use and save our derived id for attach. */ 227*5db2f26eSSascha Wildner cpu_softc[cpu_id] = (void *)1; 228*5db2f26eSSascha Wildner device_set_desc(dev, "ACPI CPU C-State"); 229*5db2f26eSSascha Wildner 230*5db2f26eSSascha Wildner return (0); 231*5db2f26eSSascha Wildner } 232*5db2f26eSSascha Wildner 233*5db2f26eSSascha Wildner static int 234*5db2f26eSSascha Wildner acpi_cpu_cst_attach(device_t dev) 235*5db2f26eSSascha Wildner { 236*5db2f26eSSascha Wildner ACPI_BUFFER buf; 237*5db2f26eSSascha Wildner ACPI_OBJECT *obj; 238*5db2f26eSSascha Wildner struct mdglobaldata *md; 239*5db2f26eSSascha Wildner struct acpi_cpu_softc *sc; 240*5db2f26eSSascha Wildner ACPI_STATUS status; 241*5db2f26eSSascha Wildner int cpu_id; 242*5db2f26eSSascha Wildner 243*5db2f26eSSascha Wildner ACPI_FUNCTION_TRACE((char *)(uintptr_t)__func__); 244*5db2f26eSSascha Wildner 245*5db2f26eSSascha Wildner sc = device_get_softc(dev); 246*5db2f26eSSascha Wildner sc->cpu_dev = dev; 247*5db2f26eSSascha Wildner sc->cpu_parent = device_get_softc(device_get_parent(dev)); 248*5db2f26eSSascha Wildner sc->cpu_handle = acpi_get_handle(dev); 249*5db2f26eSSascha Wildner cpu_id = acpi_get_magic(dev); 250*5db2f26eSSascha Wildner cpu_softc[cpu_id] = sc; 251*5db2f26eSSascha Wildner md = (struct mdglobaldata *)globaldata_find(device_get_unit(dev)); 252*5db2f26eSSascha Wildner sc->md = md; 253*5db2f26eSSascha Wildner cpu_smi_cmd = AcpiGbl_FADT.SmiCommand; 254*5db2f26eSSascha Wildner cpu_cst_cnt = AcpiGbl_FADT.CstControl; 255*5db2f26eSSascha Wildner 256*5db2f26eSSascha Wildner buf.Pointer = NULL; 257*5db2f26eSSascha Wildner buf.Length = ACPI_ALLOCATE_BUFFER; 258*5db2f26eSSascha Wildner status = AcpiEvaluateObject(sc->cpu_handle, NULL, NULL, &buf); 259*5db2f26eSSascha Wildner if (ACPI_FAILURE(status)) { 260*5db2f26eSSascha Wildner device_printf(dev, "attach failed to get Processor obj - %s\n", 261*5db2f26eSSascha Wildner AcpiFormatException(status)); 262*5db2f26eSSascha Wildner return (ENXIO); 263*5db2f26eSSascha Wildner } 264*5db2f26eSSascha Wildner obj = (ACPI_OBJECT *)buf.Pointer; 265*5db2f26eSSascha Wildner sc->cpu_p_blk = obj->Processor.PblkAddress; 266*5db2f26eSSascha Wildner sc->cpu_p_blk_len = obj->Processor.PblkLength; 267*5db2f26eSSascha Wildner sc->cpu_acpi_id = obj->Processor.ProcId; 268*5db2f26eSSascha Wildner AcpiOsFree(obj); 269*5db2f26eSSascha Wildner ACPI_DEBUG_PRINT((ACPI_DB_INFO, "acpi_cpu%d: P_BLK at %#x/%d\n", 270*5db2f26eSSascha Wildner device_get_unit(dev), sc->cpu_p_blk, sc->cpu_p_blk_len)); 271*5db2f26eSSascha Wildner 272*5db2f26eSSascha Wildner /* 273*5db2f26eSSascha Wildner * If this is the first cpu we attach, create and initialize the generic 274*5db2f26eSSascha Wildner * resources that will be used by all acpi cpu devices. 275*5db2f26eSSascha Wildner */ 276*5db2f26eSSascha Wildner if (device_get_unit(dev) == 0) { 277*5db2f26eSSascha Wildner /* Assume we won't be using generic Cx mode by default */ 278*5db2f26eSSascha Wildner cpu_cx_generic = FALSE; 279*5db2f26eSSascha Wildner 280*5db2f26eSSascha Wildner /* Queue post cpu-probing task handler */ 281*5db2f26eSSascha Wildner AcpiOsExecute(OSL_NOTIFY_HANDLER, acpi_cpu_startup, NULL); 282*5db2f26eSSascha Wildner } 283*5db2f26eSSascha Wildner 284*5db2f26eSSascha Wildner /* Probe for Cx state support. */ 285*5db2f26eSSascha Wildner acpi_cpu_cx_probe(sc); 286*5db2f26eSSascha Wildner 287*5db2f26eSSascha Wildner /* Finally, call identify and probe/attach for child devices. */ 288*5db2f26eSSascha Wildner bus_generic_probe(dev); 289*5db2f26eSSascha Wildner bus_generic_attach(dev); 290*5db2f26eSSascha Wildner 291*5db2f26eSSascha Wildner return (0); 292*5db2f26eSSascha Wildner } 293*5db2f26eSSascha Wildner 294*5db2f26eSSascha Wildner /* 295*5db2f26eSSascha Wildner * Disable any entry to the idle function during suspend and re-enable it 296*5db2f26eSSascha Wildner * during resume. 297*5db2f26eSSascha Wildner */ 298*5db2f26eSSascha Wildner static int 299*5db2f26eSSascha Wildner acpi_cpu_cst_suspend(device_t dev) 300*5db2f26eSSascha Wildner { 301*5db2f26eSSascha Wildner int error; 302*5db2f26eSSascha Wildner 303*5db2f26eSSascha Wildner error = bus_generic_suspend(dev); 304*5db2f26eSSascha Wildner if (error) 305*5db2f26eSSascha Wildner return (error); 306*5db2f26eSSascha Wildner cpu_disable_idle = TRUE; 307*5db2f26eSSascha Wildner return (0); 308*5db2f26eSSascha Wildner } 309*5db2f26eSSascha Wildner 310*5db2f26eSSascha Wildner static int 311*5db2f26eSSascha Wildner acpi_cpu_cst_resume(device_t dev) 312*5db2f26eSSascha Wildner { 313*5db2f26eSSascha Wildner 314*5db2f26eSSascha Wildner cpu_disable_idle = FALSE; 315*5db2f26eSSascha Wildner return (bus_generic_resume(dev)); 316*5db2f26eSSascha Wildner } 317*5db2f26eSSascha Wildner 318*5db2f26eSSascha Wildner static struct resource_list * 319*5db2f26eSSascha Wildner acpi_cpu_cst_get_rlist(device_t dev, device_t child) 320*5db2f26eSSascha Wildner { 321*5db2f26eSSascha Wildner struct acpi_cpu_device *ad; 322*5db2f26eSSascha Wildner 323*5db2f26eSSascha Wildner ad = device_get_ivars(child); 324*5db2f26eSSascha Wildner if (ad == NULL) 325*5db2f26eSSascha Wildner return (NULL); 326*5db2f26eSSascha Wildner return (&ad->ad_rl); 327*5db2f26eSSascha Wildner } 328*5db2f26eSSascha Wildner 329*5db2f26eSSascha Wildner static device_t 330*5db2f26eSSascha Wildner acpi_cpu_cst_add_child(device_t bus, device_t parent, int order, 331*5db2f26eSSascha Wildner const char *name, int unit) 332*5db2f26eSSascha Wildner { 333*5db2f26eSSascha Wildner struct acpi_cpu_device *ad; 334*5db2f26eSSascha Wildner device_t child; 335*5db2f26eSSascha Wildner 336*5db2f26eSSascha Wildner if ((ad = kmalloc(sizeof(*ad), M_TEMP, M_NOWAIT | M_ZERO)) == NULL) 337*5db2f26eSSascha Wildner return (NULL); 338*5db2f26eSSascha Wildner 339*5db2f26eSSascha Wildner resource_list_init(&ad->ad_rl); 340*5db2f26eSSascha Wildner 341*5db2f26eSSascha Wildner child = device_add_child_ordered(parent, order, name, unit); 342*5db2f26eSSascha Wildner if (child != NULL) 343*5db2f26eSSascha Wildner device_set_ivars(child, ad); 344*5db2f26eSSascha Wildner else 345*5db2f26eSSascha Wildner kfree(ad, M_TEMP); 346*5db2f26eSSascha Wildner return (child); 347*5db2f26eSSascha Wildner } 348*5db2f26eSSascha Wildner 349*5db2f26eSSascha Wildner static int 350*5db2f26eSSascha Wildner acpi_cpu_cst_read_ivar(device_t dev, device_t child, int index, 351*5db2f26eSSascha Wildner uintptr_t *result) 352*5db2f26eSSascha Wildner { 353*5db2f26eSSascha Wildner struct acpi_cpu_softc *sc; 354*5db2f26eSSascha Wildner 355*5db2f26eSSascha Wildner sc = device_get_softc(dev); 356*5db2f26eSSascha Wildner switch (index) { 357*5db2f26eSSascha Wildner case ACPI_IVAR_HANDLE: 358*5db2f26eSSascha Wildner *result = (uintptr_t)sc->cpu_handle; 359*5db2f26eSSascha Wildner break; 360*5db2f26eSSascha Wildner #if 0 361*5db2f26eSSascha Wildner case CPU_IVAR_PCPU: 362*5db2f26eSSascha Wildner *result = (uintptr_t)sc->cpu_pcpu; 363*5db2f26eSSascha Wildner break; 364*5db2f26eSSascha Wildner #endif 365*5db2f26eSSascha Wildner default: 366*5db2f26eSSascha Wildner return (ENOENT); 367*5db2f26eSSascha Wildner } 368*5db2f26eSSascha Wildner return (0); 369*5db2f26eSSascha Wildner } 370*5db2f26eSSascha Wildner 371*5db2f26eSSascha Wildner static int 372*5db2f26eSSascha Wildner acpi_cpu_cst_shutdown(device_t dev) 373*5db2f26eSSascha Wildner { 374*5db2f26eSSascha Wildner ACPI_FUNCTION_TRACE((char *)(uintptr_t)__func__); 375*5db2f26eSSascha Wildner 376*5db2f26eSSascha Wildner /* Allow children to shutdown first. */ 377*5db2f26eSSascha Wildner bus_generic_shutdown(dev); 378*5db2f26eSSascha Wildner 379*5db2f26eSSascha Wildner /* 380*5db2f26eSSascha Wildner * Disable any entry to the idle function. There is a small race where 381*5db2f26eSSascha Wildner * an idle thread have passed this check but not gone to sleep. This 382*5db2f26eSSascha Wildner * is ok since device_shutdown() does not free the softc, otherwise 383*5db2f26eSSascha Wildner * we'd have to be sure all threads were evicted before returning. 384*5db2f26eSSascha Wildner */ 385*5db2f26eSSascha Wildner cpu_disable_idle = TRUE; 386*5db2f26eSSascha Wildner 387*5db2f26eSSascha Wildner return_VALUE (0); 388*5db2f26eSSascha Wildner } 389*5db2f26eSSascha Wildner 390*5db2f26eSSascha Wildner static void 391*5db2f26eSSascha Wildner acpi_cpu_cx_probe(struct acpi_cpu_softc *sc) 392*5db2f26eSSascha Wildner { 393*5db2f26eSSascha Wildner ACPI_FUNCTION_TRACE((char *)(uintptr_t)__func__); 394*5db2f26eSSascha Wildner 395*5db2f26eSSascha Wildner /* Use initial sleep value of 1 sec. to start with lowest idle state. */ 396*5db2f26eSSascha Wildner sc->cpu_prev_sleep = 1000000; 397*5db2f26eSSascha Wildner sc->cpu_cx_lowest = 0; 398*5db2f26eSSascha Wildner 399*5db2f26eSSascha Wildner /* 400*5db2f26eSSascha Wildner * Check for the ACPI 2.0 _CST sleep states object. If we can't find 401*5db2f26eSSascha Wildner * any, we'll revert to generic FADT/P_BLK Cx control method which will 402*5db2f26eSSascha Wildner * be handled by acpi_cpu_startup. We need to defer to after having 403*5db2f26eSSascha Wildner * probed all the cpus in the system before probing for generic Cx 404*5db2f26eSSascha Wildner * states as we may already have found cpus with valid _CST packages 405*5db2f26eSSascha Wildner */ 406*5db2f26eSSascha Wildner if (!cpu_cx_generic && acpi_cpu_cx_cst(sc) != 0) { 407*5db2f26eSSascha Wildner /* 408*5db2f26eSSascha Wildner * We were unable to find a _CST package for this cpu or there 409*5db2f26eSSascha Wildner * was an error parsing it. Switch back to generic mode. 410*5db2f26eSSascha Wildner */ 411*5db2f26eSSascha Wildner cpu_cx_generic = TRUE; 412*5db2f26eSSascha Wildner if (bootverbose) 413*5db2f26eSSascha Wildner device_printf(sc->cpu_dev, "switching to generic Cx mode\n"); 414*5db2f26eSSascha Wildner } 415*5db2f26eSSascha Wildner 416*5db2f26eSSascha Wildner /* 417*5db2f26eSSascha Wildner * TODO: _CSD Package should be checked here. 418*5db2f26eSSascha Wildner */ 419*5db2f26eSSascha Wildner } 420*5db2f26eSSascha Wildner 421*5db2f26eSSascha Wildner static void 422*5db2f26eSSascha Wildner acpi_cpu_generic_cx_probe(struct acpi_cpu_softc *sc) 423*5db2f26eSSascha Wildner { 424*5db2f26eSSascha Wildner ACPI_GENERIC_ADDRESS gas; 425*5db2f26eSSascha Wildner struct acpi_cx *cx_ptr; 426*5db2f26eSSascha Wildner 427*5db2f26eSSascha Wildner sc->cpu_cx_count = 0; 428*5db2f26eSSascha Wildner cx_ptr = sc->cpu_cx_states; 429*5db2f26eSSascha Wildner 430*5db2f26eSSascha Wildner /* Use initial sleep value of 1 sec. to start with lowest idle state. */ 431*5db2f26eSSascha Wildner sc->cpu_prev_sleep = 1000000; 432*5db2f26eSSascha Wildner 433*5db2f26eSSascha Wildner /* C1 has been required since just after ACPI 1.0 */ 434*5db2f26eSSascha Wildner cx_ptr->type = ACPI_STATE_C1; 435*5db2f26eSSascha Wildner cx_ptr->trans_lat = 0; 436*5db2f26eSSascha Wildner cx_ptr++; 437*5db2f26eSSascha Wildner sc->cpu_cx_count++; 438*5db2f26eSSascha Wildner 439*5db2f26eSSascha Wildner /* 440*5db2f26eSSascha Wildner * The spec says P_BLK must be 6 bytes long. However, some systems 441*5db2f26eSSascha Wildner * use it to indicate a fractional set of features present so we 442*5db2f26eSSascha Wildner * take 5 as C2. Some may also have a value of 7 to indicate 443*5db2f26eSSascha Wildner * another C3 but most use _CST for this (as required) and having 444*5db2f26eSSascha Wildner * "only" C1-C3 is not a hardship. 445*5db2f26eSSascha Wildner */ 446*5db2f26eSSascha Wildner if (sc->cpu_p_blk_len < 5) 447*5db2f26eSSascha Wildner return; 448*5db2f26eSSascha Wildner 449*5db2f26eSSascha Wildner /* Validate and allocate resources for C2 (P_LVL2). */ 450*5db2f26eSSascha Wildner gas.SpaceId = ACPI_ADR_SPACE_SYSTEM_IO; 451*5db2f26eSSascha Wildner gas.BitWidth = 8; 452*5db2f26eSSascha Wildner if (AcpiGbl_FADT.C2Latency <= 100) { 453*5db2f26eSSascha Wildner gas.Address = sc->cpu_p_blk + 4; 454*5db2f26eSSascha Wildner 455*5db2f26eSSascha Wildner cx_ptr->rid = sc->cpu_parent->cpux_next_rid; 456*5db2f26eSSascha Wildner acpi_bus_alloc_gas(sc->cpu_dev, &cx_ptr->type, &cx_ptr->rid, &gas, &cx_ptr->p_lvlx, 457*5db2f26eSSascha Wildner RF_SHAREABLE); 458*5db2f26eSSascha Wildner if (cx_ptr->p_lvlx != NULL) { 459*5db2f26eSSascha Wildner sc->cpu_parent->cpux_next_rid++; 460*5db2f26eSSascha Wildner cx_ptr->type = ACPI_STATE_C2; 461*5db2f26eSSascha Wildner cx_ptr->trans_lat = AcpiGbl_FADT.C2Latency; 462*5db2f26eSSascha Wildner cx_ptr++; 463*5db2f26eSSascha Wildner sc->cpu_cx_count++; 464*5db2f26eSSascha Wildner } 465*5db2f26eSSascha Wildner } 466*5db2f26eSSascha Wildner if (sc->cpu_p_blk_len < 6) 467*5db2f26eSSascha Wildner return; 468*5db2f26eSSascha Wildner 469*5db2f26eSSascha Wildner /* Validate and allocate resources for C3 (P_LVL3). */ 470*5db2f26eSSascha Wildner if (AcpiGbl_FADT.C3Latency <= 1000 && !(cpu_quirks & CPU_QUIRK_NO_C3)) { 471*5db2f26eSSascha Wildner gas.Address = sc->cpu_p_blk + 5; 472*5db2f26eSSascha Wildner 473*5db2f26eSSascha Wildner cx_ptr->rid = sc->cpu_parent->cpux_next_rid; 474*5db2f26eSSascha Wildner acpi_bus_alloc_gas(sc->cpu_dev, &cx_ptr->type, &cx_ptr->rid, &gas, 475*5db2f26eSSascha Wildner &cx_ptr->p_lvlx, RF_SHAREABLE); 476*5db2f26eSSascha Wildner if (cx_ptr->p_lvlx != NULL) { 477*5db2f26eSSascha Wildner sc->cpu_parent->cpux_next_rid++; 478*5db2f26eSSascha Wildner cx_ptr->type = ACPI_STATE_C3; 479*5db2f26eSSascha Wildner cx_ptr->trans_lat = AcpiGbl_FADT.C3Latency; 480*5db2f26eSSascha Wildner cx_ptr++; 481*5db2f26eSSascha Wildner sc->cpu_cx_count++; 482*5db2f26eSSascha Wildner } 483*5db2f26eSSascha Wildner } 484*5db2f26eSSascha Wildner } 485*5db2f26eSSascha Wildner 486*5db2f26eSSascha Wildner /* 487*5db2f26eSSascha Wildner * Parse a _CST package and set up its Cx states. Since the _CST object 488*5db2f26eSSascha Wildner * can change dynamically, our notify handler may call this function 489*5db2f26eSSascha Wildner * to clean up and probe the new _CST package. 490*5db2f26eSSascha Wildner */ 491*5db2f26eSSascha Wildner static int 492*5db2f26eSSascha Wildner acpi_cpu_cx_cst(struct acpi_cpu_softc *sc) 493*5db2f26eSSascha Wildner { 494*5db2f26eSSascha Wildner struct acpi_cx *cx_ptr; 495*5db2f26eSSascha Wildner ACPI_STATUS status; 496*5db2f26eSSascha Wildner ACPI_BUFFER buf; 497*5db2f26eSSascha Wildner ACPI_OBJECT *top; 498*5db2f26eSSascha Wildner ACPI_OBJECT *pkg; 499*5db2f26eSSascha Wildner uint32_t count; 500*5db2f26eSSascha Wildner int i; 501*5db2f26eSSascha Wildner 502*5db2f26eSSascha Wildner ACPI_FUNCTION_TRACE((char *)(uintptr_t)__func__); 503*5db2f26eSSascha Wildner 504*5db2f26eSSascha Wildner buf.Pointer = NULL; 505*5db2f26eSSascha Wildner buf.Length = ACPI_ALLOCATE_BUFFER; 506*5db2f26eSSascha Wildner status = AcpiEvaluateObject(sc->cpu_handle, "_CST", NULL, &buf); 507*5db2f26eSSascha Wildner if (ACPI_FAILURE(status)) 508*5db2f26eSSascha Wildner return (ENXIO); 509*5db2f26eSSascha Wildner 510*5db2f26eSSascha Wildner /* _CST is a package with a count and at least one Cx package. */ 511*5db2f26eSSascha Wildner top = (ACPI_OBJECT *)buf.Pointer; 512*5db2f26eSSascha Wildner if (!ACPI_PKG_VALID(top, 2) || acpi_PkgInt32(top, 0, &count) != 0) { 513*5db2f26eSSascha Wildner device_printf(sc->cpu_dev, "invalid _CST package\n"); 514*5db2f26eSSascha Wildner AcpiOsFree(buf.Pointer); 515*5db2f26eSSascha Wildner return (ENXIO); 516*5db2f26eSSascha Wildner } 517*5db2f26eSSascha Wildner if (count != top->Package.Count - 1) { 518*5db2f26eSSascha Wildner device_printf(sc->cpu_dev, "invalid _CST state count (%d != %d)\n", 519*5db2f26eSSascha Wildner count, top->Package.Count - 1); 520*5db2f26eSSascha Wildner count = top->Package.Count - 1; 521*5db2f26eSSascha Wildner } 522*5db2f26eSSascha Wildner if (count > MAX_CX_STATES) { 523*5db2f26eSSascha Wildner device_printf(sc->cpu_dev, "_CST has too many states (%d)\n", count); 524*5db2f26eSSascha Wildner count = MAX_CX_STATES; 525*5db2f26eSSascha Wildner } 526*5db2f26eSSascha Wildner 527*5db2f26eSSascha Wildner /* Set up all valid states. */ 528*5db2f26eSSascha Wildner sc->cpu_cx_count = 0; 529*5db2f26eSSascha Wildner cx_ptr = sc->cpu_cx_states; 530*5db2f26eSSascha Wildner for (i = 0; i < count; i++) { 531*5db2f26eSSascha Wildner pkg = &top->Package.Elements[i + 1]; 532*5db2f26eSSascha Wildner if (!ACPI_PKG_VALID(pkg, 4) || 533*5db2f26eSSascha Wildner acpi_PkgInt32(pkg, 1, &cx_ptr->type) != 0 || 534*5db2f26eSSascha Wildner acpi_PkgInt32(pkg, 2, &cx_ptr->trans_lat) != 0 || 535*5db2f26eSSascha Wildner acpi_PkgInt32(pkg, 3, &cx_ptr->power) != 0) { 536*5db2f26eSSascha Wildner 537*5db2f26eSSascha Wildner device_printf(sc->cpu_dev, "skipping invalid Cx state package\n"); 538*5db2f26eSSascha Wildner continue; 539*5db2f26eSSascha Wildner } 540*5db2f26eSSascha Wildner 541*5db2f26eSSascha Wildner /* Validate the state to see if we should use it. */ 542*5db2f26eSSascha Wildner switch (cx_ptr->type) { 543*5db2f26eSSascha Wildner case ACPI_STATE_C1: 544*5db2f26eSSascha Wildner sc->cpu_non_c3 = i; 545*5db2f26eSSascha Wildner cx_ptr++; 546*5db2f26eSSascha Wildner sc->cpu_cx_count++; 547*5db2f26eSSascha Wildner continue; 548*5db2f26eSSascha Wildner case ACPI_STATE_C2: 549*5db2f26eSSascha Wildner sc->cpu_non_c3 = i; 550*5db2f26eSSascha Wildner break; 551*5db2f26eSSascha Wildner case ACPI_STATE_C3: 552*5db2f26eSSascha Wildner default: 553*5db2f26eSSascha Wildner if ((cpu_quirks & CPU_QUIRK_NO_C3) != 0) { 554*5db2f26eSSascha Wildner 555*5db2f26eSSascha Wildner ACPI_DEBUG_PRINT((ACPI_DB_INFO, 556*5db2f26eSSascha Wildner "acpi_cpu%d: C3[%d] not available.\n", 557*5db2f26eSSascha Wildner device_get_unit(sc->cpu_dev), i)); 558*5db2f26eSSascha Wildner continue; 559*5db2f26eSSascha Wildner } 560*5db2f26eSSascha Wildner break; 561*5db2f26eSSascha Wildner } 562*5db2f26eSSascha Wildner 563*5db2f26eSSascha Wildner #ifdef notyet 564*5db2f26eSSascha Wildner /* Free up any previous register. */ 565*5db2f26eSSascha Wildner if (cx_ptr->p_lvlx != NULL) { 566*5db2f26eSSascha Wildner bus_release_resource(sc->cpu_dev, 0, 0, cx_ptr->p_lvlx); 567*5db2f26eSSascha Wildner cx_ptr->p_lvlx = NULL; 568*5db2f26eSSascha Wildner } 569*5db2f26eSSascha Wildner #endif 570*5db2f26eSSascha Wildner 571*5db2f26eSSascha Wildner /* Allocate the control register for C2 or C3. */ 572*5db2f26eSSascha Wildner cx_ptr->rid = sc->cpu_parent->cpux_next_rid; 573*5db2f26eSSascha Wildner acpi_PkgGas(sc->cpu_dev, pkg, 0, &cx_ptr->res_type, &cx_ptr->rid, &cx_ptr->p_lvlx, 574*5db2f26eSSascha Wildner RF_SHAREABLE); 575*5db2f26eSSascha Wildner if (cx_ptr->p_lvlx) { 576*5db2f26eSSascha Wildner sc->cpu_parent->cpux_next_rid++; 577*5db2f26eSSascha Wildner ACPI_DEBUG_PRINT((ACPI_DB_INFO, 578*5db2f26eSSascha Wildner "acpi_cpu%d: Got C%d - %d latency\n", 579*5db2f26eSSascha Wildner device_get_unit(sc->cpu_dev), cx_ptr->type, 580*5db2f26eSSascha Wildner cx_ptr->trans_lat)); 581*5db2f26eSSascha Wildner cx_ptr++; 582*5db2f26eSSascha Wildner sc->cpu_cx_count++; 583*5db2f26eSSascha Wildner } 584*5db2f26eSSascha Wildner } 585*5db2f26eSSascha Wildner AcpiOsFree(buf.Pointer); 586*5db2f26eSSascha Wildner 587*5db2f26eSSascha Wildner return (0); 588*5db2f26eSSascha Wildner } 589*5db2f26eSSascha Wildner 590*5db2f26eSSascha Wildner /* 591*5db2f26eSSascha Wildner * Call this *after* all CPUs have been attached. 592*5db2f26eSSascha Wildner */ 593*5db2f26eSSascha Wildner static void 594*5db2f26eSSascha Wildner acpi_cpu_startup(void *arg) 595*5db2f26eSSascha Wildner { 596*5db2f26eSSascha Wildner struct acpi_cpu_softc *sc; 597*5db2f26eSSascha Wildner int i; 598*5db2f26eSSascha Wildner 599*5db2f26eSSascha Wildner /* Get set of CPU devices */ 600*5db2f26eSSascha Wildner devclass_get_devices(acpi_cpu_cst_devclass, &cpu_devices, &cpu_ndevices); 601*5db2f26eSSascha Wildner 602*5db2f26eSSascha Wildner /* 603*5db2f26eSSascha Wildner * Setup any quirks that might necessary now that we have probed 604*5db2f26eSSascha Wildner * all the CPUs 605*5db2f26eSSascha Wildner */ 606*5db2f26eSSascha Wildner acpi_cpu_quirks(); 607*5db2f26eSSascha Wildner 608*5db2f26eSSascha Wildner cpu_cx_count = 0; 609*5db2f26eSSascha Wildner if (cpu_cx_generic) { 610*5db2f26eSSascha Wildner /* 611*5db2f26eSSascha Wildner * We are using generic Cx mode, probe for available Cx states 612*5db2f26eSSascha Wildner * for all processors. 613*5db2f26eSSascha Wildner */ 614*5db2f26eSSascha Wildner for (i = 0; i < cpu_ndevices; i++) { 615*5db2f26eSSascha Wildner sc = device_get_softc(cpu_devices[i]); 616*5db2f26eSSascha Wildner acpi_cpu_generic_cx_probe(sc); 617*5db2f26eSSascha Wildner if (sc->cpu_cx_count > cpu_cx_count) 618*5db2f26eSSascha Wildner cpu_cx_count = sc->cpu_cx_count; 619*5db2f26eSSascha Wildner } 620*5db2f26eSSascha Wildner 621*5db2f26eSSascha Wildner /* 622*5db2f26eSSascha Wildner * Find the highest Cx state common to all CPUs 623*5db2f26eSSascha Wildner * in the system, taking quirks into account. 624*5db2f26eSSascha Wildner */ 625*5db2f26eSSascha Wildner for (i = 0; i < cpu_ndevices; i++) { 626*5db2f26eSSascha Wildner sc = device_get_softc(cpu_devices[i]); 627*5db2f26eSSascha Wildner if (sc->cpu_cx_count < cpu_cx_count) 628*5db2f26eSSascha Wildner cpu_cx_count = sc->cpu_cx_count; 629*5db2f26eSSascha Wildner } 630*5db2f26eSSascha Wildner } else { 631*5db2f26eSSascha Wildner /* 632*5db2f26eSSascha Wildner * We are using _CST mode, remove C3 state if necessary. 633*5db2f26eSSascha Wildner * Update the largest Cx state supported in the global cpu_cx_count. 634*5db2f26eSSascha Wildner * It will be used in the global Cx sysctl handler. 635*5db2f26eSSascha Wildner * As we now know for sure that we will be using _CST mode 636*5db2f26eSSascha Wildner * install our notify handler. 637*5db2f26eSSascha Wildner */ 638*5db2f26eSSascha Wildner for (i = 0; i < cpu_ndevices; i++) { 639*5db2f26eSSascha Wildner sc = device_get_softc(cpu_devices[i]); 640*5db2f26eSSascha Wildner if (cpu_quirks & CPU_QUIRK_NO_C3) { 641*5db2f26eSSascha Wildner sc->cpu_cx_count = sc->cpu_non_c3 + 1; 642*5db2f26eSSascha Wildner } 643*5db2f26eSSascha Wildner if (sc->cpu_cx_count > cpu_cx_count) 644*5db2f26eSSascha Wildner cpu_cx_count = sc->cpu_cx_count; 645*5db2f26eSSascha Wildner sc->cpu_parent->cpux_cst_notify = acpi_cpu_cst_notify; 646*5db2f26eSSascha Wildner } 647*5db2f26eSSascha Wildner } 648*5db2f26eSSascha Wildner 649*5db2f26eSSascha Wildner /* Perform Cx final initialization. */ 650*5db2f26eSSascha Wildner for (i = 0; i < cpu_ndevices; i++) { 651*5db2f26eSSascha Wildner sc = device_get_softc(cpu_devices[i]); 652*5db2f26eSSascha Wildner acpi_cpu_startup_cx(sc); 653*5db2f26eSSascha Wildner 654*5db2f26eSSascha Wildner if (sc->cpu_parent->glob_sysctl_tree != NULL) { 655*5db2f26eSSascha Wildner struct acpi_cpux_softc *cpux = sc->cpu_parent; 656*5db2f26eSSascha Wildner 657*5db2f26eSSascha Wildner /* Add a sysctl handler to handle global Cx lowest setting */ 658*5db2f26eSSascha Wildner SYSCTL_ADD_PROC(&cpux->glob_sysctl_ctx, 659*5db2f26eSSascha Wildner SYSCTL_CHILDREN(cpux->glob_sysctl_tree), 660*5db2f26eSSascha Wildner OID_AUTO, "cx_lowest", 661*5db2f26eSSascha Wildner CTLTYPE_STRING | CTLFLAG_RW, NULL, 0, 662*5db2f26eSSascha Wildner acpi_cpu_global_cx_lowest_sysctl, "A", 663*5db2f26eSSascha Wildner "Global lowest Cx sleep state to use"); 664*5db2f26eSSascha Wildner } 665*5db2f26eSSascha Wildner } 666*5db2f26eSSascha Wildner 667*5db2f26eSSascha Wildner /* Take over idling from cpu_idle_default(). */ 668*5db2f26eSSascha Wildner cpu_cx_lowest = 0; 669*5db2f26eSSascha Wildner cpu_disable_idle = FALSE; 670*5db2f26eSSascha Wildner cpu_idle_hook = acpi_cpu_idle; 671*5db2f26eSSascha Wildner } 672*5db2f26eSSascha Wildner 673*5db2f26eSSascha Wildner static void 674*5db2f26eSSascha Wildner acpi_cpu_cx_list(struct acpi_cpu_softc *sc) 675*5db2f26eSSascha Wildner { 676*5db2f26eSSascha Wildner struct sbuf sb; 677*5db2f26eSSascha Wildner int i; 678*5db2f26eSSascha Wildner 679*5db2f26eSSascha Wildner /* 680*5db2f26eSSascha Wildner * Set up the list of Cx states 681*5db2f26eSSascha Wildner */ 682*5db2f26eSSascha Wildner sc->cpu_non_c3 = 0; 683*5db2f26eSSascha Wildner sbuf_new(&sb, sc->cpu_cx_supported, sizeof(sc->cpu_cx_supported), 684*5db2f26eSSascha Wildner SBUF_FIXEDLEN); 685*5db2f26eSSascha Wildner for (i = 0; i < sc->cpu_cx_count; i++) { 686*5db2f26eSSascha Wildner sbuf_printf(&sb, "C%d/%d ", i + 1, sc->cpu_cx_states[i].trans_lat); 687*5db2f26eSSascha Wildner if (sc->cpu_cx_states[i].type < ACPI_STATE_C3) 688*5db2f26eSSascha Wildner sc->cpu_non_c3 = i; 689*5db2f26eSSascha Wildner } 690*5db2f26eSSascha Wildner sbuf_trim(&sb); 691*5db2f26eSSascha Wildner sbuf_finish(&sb); 692*5db2f26eSSascha Wildner } 693*5db2f26eSSascha Wildner 694*5db2f26eSSascha Wildner static void 695*5db2f26eSSascha Wildner acpi_cpu_startup_cx(struct acpi_cpu_softc *sc) 696*5db2f26eSSascha Wildner { 697*5db2f26eSSascha Wildner struct acpi_cpux_softc *cpux = sc->cpu_parent; 698*5db2f26eSSascha Wildner 699*5db2f26eSSascha Wildner acpi_cpu_cx_list(sc); 700*5db2f26eSSascha Wildner 701*5db2f26eSSascha Wildner SYSCTL_ADD_STRING(&cpux->pcpu_sysctl_ctx, 702*5db2f26eSSascha Wildner SYSCTL_CHILDREN(cpux->pcpu_sysctl_tree), 703*5db2f26eSSascha Wildner OID_AUTO, "cx_supported", CTLFLAG_RD, 704*5db2f26eSSascha Wildner sc->cpu_cx_supported, 0, 705*5db2f26eSSascha Wildner "Cx/microsecond values for supported Cx states"); 706*5db2f26eSSascha Wildner SYSCTL_ADD_PROC(&cpux->pcpu_sysctl_ctx, 707*5db2f26eSSascha Wildner SYSCTL_CHILDREN(cpux->pcpu_sysctl_tree), 708*5db2f26eSSascha Wildner OID_AUTO, "cx_lowest", CTLTYPE_STRING | CTLFLAG_RW, 709*5db2f26eSSascha Wildner (void *)sc, 0, acpi_cpu_cx_lowest_sysctl, "A", 710*5db2f26eSSascha Wildner "lowest Cx sleep state to use"); 711*5db2f26eSSascha Wildner SYSCTL_ADD_PROC(&cpux->pcpu_sysctl_ctx, 712*5db2f26eSSascha Wildner SYSCTL_CHILDREN(cpux->pcpu_sysctl_tree), 713*5db2f26eSSascha Wildner OID_AUTO, "cx_usage", CTLTYPE_STRING | CTLFLAG_RD, 714*5db2f26eSSascha Wildner (void *)sc, 0, acpi_cpu_usage_sysctl, "A", 715*5db2f26eSSascha Wildner "percent usage for each Cx state"); 716*5db2f26eSSascha Wildner 717*5db2f26eSSascha Wildner #ifdef notyet 718*5db2f26eSSascha Wildner /* Signal platform that we can handle _CST notification. */ 719*5db2f26eSSascha Wildner if (!cpu_cx_generic && cpu_cst_cnt != 0) { 720*5db2f26eSSascha Wildner ACPI_LOCK(acpi); 721*5db2f26eSSascha Wildner AcpiOsWritePort(cpu_smi_cmd, cpu_cst_cnt, 8); 722*5db2f26eSSascha Wildner ACPI_UNLOCK(acpi); 723*5db2f26eSSascha Wildner } 724*5db2f26eSSascha Wildner #endif 725*5db2f26eSSascha Wildner } 726*5db2f26eSSascha Wildner 727*5db2f26eSSascha Wildner /* 728*5db2f26eSSascha Wildner * Idle the CPU in the lowest state possible. This function is called with 729*5db2f26eSSascha Wildner * interrupts disabled. Note that once it re-enables interrupts, a task 730*5db2f26eSSascha Wildner * switch can occur so do not access shared data (i.e. the softc) after 731*5db2f26eSSascha Wildner * interrupts are re-enabled. 732*5db2f26eSSascha Wildner */ 733*5db2f26eSSascha Wildner static void 734*5db2f26eSSascha Wildner acpi_cpu_idle(void) 735*5db2f26eSSascha Wildner { 736*5db2f26eSSascha Wildner struct acpi_cpu_softc *sc; 737*5db2f26eSSascha Wildner struct acpi_cx *cx_next; 738*5db2f26eSSascha Wildner uint64_t start_time, end_time; 739*5db2f26eSSascha Wildner int bm_active, cx_next_idx, i; 740*5db2f26eSSascha Wildner 741*5db2f26eSSascha Wildner /* If disabled, return immediately. */ 742*5db2f26eSSascha Wildner if (cpu_disable_idle) { 743*5db2f26eSSascha Wildner ACPI_ENABLE_IRQS(); 744*5db2f26eSSascha Wildner return; 745*5db2f26eSSascha Wildner } 746*5db2f26eSSascha Wildner 747*5db2f26eSSascha Wildner /* 748*5db2f26eSSascha Wildner * Look up our CPU id to get our softc. If it's NULL, we'll use C1 749*5db2f26eSSascha Wildner * since there is no ACPI processor object for this CPU. This occurs 750*5db2f26eSSascha Wildner * for logical CPUs in the HTT case. 751*5db2f26eSSascha Wildner */ 752*5db2f26eSSascha Wildner sc = cpu_softc[mdcpu->mi.gd_cpuid]; 753*5db2f26eSSascha Wildner if (sc == NULL) { 754*5db2f26eSSascha Wildner acpi_cpu_c1(); 755*5db2f26eSSascha Wildner return; 756*5db2f26eSSascha Wildner } 757*5db2f26eSSascha Wildner 758*5db2f26eSSascha Wildner /* Find the lowest state that has small enough latency. */ 759*5db2f26eSSascha Wildner cx_next_idx = 0; 760*5db2f26eSSascha Wildner for (i = sc->cpu_cx_lowest; i >= 0; i--) { 761*5db2f26eSSascha Wildner if (sc->cpu_cx_states[i].trans_lat * 3 <= sc->cpu_prev_sleep) { 762*5db2f26eSSascha Wildner cx_next_idx = i; 763*5db2f26eSSascha Wildner break; 764*5db2f26eSSascha Wildner } 765*5db2f26eSSascha Wildner } 766*5db2f26eSSascha Wildner 767*5db2f26eSSascha Wildner /* 768*5db2f26eSSascha Wildner * Check for bus master activity. If there was activity, clear 769*5db2f26eSSascha Wildner * the bit and use the lowest non-C3 state. Note that the USB 770*5db2f26eSSascha Wildner * driver polling for new devices keeps this bit set all the 771*5db2f26eSSascha Wildner * time if USB is loaded. 772*5db2f26eSSascha Wildner */ 773*5db2f26eSSascha Wildner if ((cpu_quirks & CPU_QUIRK_NO_BM_CTRL) == 0) { 774*5db2f26eSSascha Wildner AcpiReadBitRegister(ACPI_BITREG_BUS_MASTER_STATUS, &bm_active); 775*5db2f26eSSascha Wildner if (bm_active != 0) { 776*5db2f26eSSascha Wildner AcpiWriteBitRegister(ACPI_BITREG_BUS_MASTER_STATUS, 1); 777*5db2f26eSSascha Wildner cx_next_idx = min(cx_next_idx, sc->cpu_non_c3); 778*5db2f26eSSascha Wildner } 779*5db2f26eSSascha Wildner } 780*5db2f26eSSascha Wildner 781*5db2f26eSSascha Wildner /* Select the next state and update statistics. */ 782*5db2f26eSSascha Wildner cx_next = &sc->cpu_cx_states[cx_next_idx]; 783*5db2f26eSSascha Wildner sc->cpu_cx_stats[cx_next_idx]++; 784*5db2f26eSSascha Wildner KASSERT(cx_next->type != ACPI_STATE_C0, ("acpi_cpu_idle: C0 sleep")); 785*5db2f26eSSascha Wildner 786*5db2f26eSSascha Wildner /* 787*5db2f26eSSascha Wildner * Execute HLT (or equivalent) and wait for an interrupt. We can't 788*5db2f26eSSascha Wildner * calculate the time spent in C1 since the place we wake up is an 789*5db2f26eSSascha Wildner * ISR. Assume we slept half of quantum and return. 790*5db2f26eSSascha Wildner */ 791*5db2f26eSSascha Wildner if (cx_next->type == ACPI_STATE_C1) { 792*5db2f26eSSascha Wildner sc->cpu_prev_sleep = (sc->cpu_prev_sleep * 3 + 500000 / hz) / 4; 793*5db2f26eSSascha Wildner acpi_cpu_c1(); 794*5db2f26eSSascha Wildner return; 795*5db2f26eSSascha Wildner } 796*5db2f26eSSascha Wildner 797*5db2f26eSSascha Wildner /* 798*5db2f26eSSascha Wildner * For C3, disable bus master arbitration and enable bus master wake 799*5db2f26eSSascha Wildner * if BM control is available, otherwise flush the CPU cache. 800*5db2f26eSSascha Wildner */ 801*5db2f26eSSascha Wildner if (cx_next->type == ACPI_STATE_C3) { 802*5db2f26eSSascha Wildner if ((cpu_quirks & CPU_QUIRK_NO_BM_CTRL) == 0) { 803*5db2f26eSSascha Wildner AcpiWriteBitRegister(ACPI_BITREG_ARB_DISABLE, 1); 804*5db2f26eSSascha Wildner AcpiWriteBitRegister(ACPI_BITREG_BUS_MASTER_RLD, 1); 805*5db2f26eSSascha Wildner } else 806*5db2f26eSSascha Wildner ACPI_FLUSH_CPU_CACHE(); 807*5db2f26eSSascha Wildner } 808*5db2f26eSSascha Wildner 809*5db2f26eSSascha Wildner /* 810*5db2f26eSSascha Wildner * Read from P_LVLx to enter C2(+), checking time spent asleep. 811*5db2f26eSSascha Wildner * Use the ACPI timer for measuring sleep time. Since we need to 812*5db2f26eSSascha Wildner * get the time very close to the CPU start/stop clock logic, this 813*5db2f26eSSascha Wildner * is the only reliable time source. 814*5db2f26eSSascha Wildner */ 815*5db2f26eSSascha Wildner AcpiRead(&start_time, &AcpiGbl_FADT.XPmTimerBlock); 816*5db2f26eSSascha Wildner CPU_GET_REG(cx_next->p_lvlx, 1); 817*5db2f26eSSascha Wildner 818*5db2f26eSSascha Wildner /* 819*5db2f26eSSascha Wildner * Read the end time twice. Since it may take an arbitrary time 820*5db2f26eSSascha Wildner * to enter the idle state, the first read may be executed before 821*5db2f26eSSascha Wildner * the processor has stopped. Doing it again provides enough 822*5db2f26eSSascha Wildner * margin that we are certain to have a correct value. 823*5db2f26eSSascha Wildner */ 824*5db2f26eSSascha Wildner AcpiRead(&end_time, &AcpiGbl_FADT.XPmTimerBlock); 825*5db2f26eSSascha Wildner AcpiRead(&end_time, &AcpiGbl_FADT.XPmTimerBlock); 826*5db2f26eSSascha Wildner 827*5db2f26eSSascha Wildner /* Enable bus master arbitration and disable bus master wakeup. */ 828*5db2f26eSSascha Wildner if (cx_next->type == ACPI_STATE_C3) { 829*5db2f26eSSascha Wildner if ((cpu_quirks & CPU_QUIRK_NO_BM_CTRL) == 0) { 830*5db2f26eSSascha Wildner AcpiWriteBitRegister(ACPI_BITREG_ARB_DISABLE, 0); 831*5db2f26eSSascha Wildner AcpiWriteBitRegister(ACPI_BITREG_BUS_MASTER_RLD, 0); 832*5db2f26eSSascha Wildner } 833*5db2f26eSSascha Wildner } 834*5db2f26eSSascha Wildner ACPI_ENABLE_IRQS(); 835*5db2f26eSSascha Wildner 836*5db2f26eSSascha Wildner /* Find the actual time asleep in microseconds. */ 837*5db2f26eSSascha Wildner end_time = acpi_TimerDelta(end_time, start_time); 838*5db2f26eSSascha Wildner sc->cpu_prev_sleep = (sc->cpu_prev_sleep * 3 + PM_USEC(end_time)) / 4; 839*5db2f26eSSascha Wildner } 840*5db2f26eSSascha Wildner 841*5db2f26eSSascha Wildner /* 842*5db2f26eSSascha Wildner * Re-evaluate the _CST object when we are notified that it changed. 843*5db2f26eSSascha Wildner * 844*5db2f26eSSascha Wildner * XXX Re-evaluation disabled until locking is done. 845*5db2f26eSSascha Wildner */ 846*5db2f26eSSascha Wildner static void 847*5db2f26eSSascha Wildner acpi_cpu_cst_notify(device_t dev) 848*5db2f26eSSascha Wildner { 849*5db2f26eSSascha Wildner struct acpi_cpu_softc *sc = device_get_softc(dev); 850*5db2f26eSSascha Wildner struct acpi_cpu_softc *isc; 851*5db2f26eSSascha Wildner int i; 852*5db2f26eSSascha Wildner 853*5db2f26eSSascha Wildner /* Update the list of Cx states. */ 854*5db2f26eSSascha Wildner acpi_cpu_cx_cst(sc); 855*5db2f26eSSascha Wildner acpi_cpu_cx_list(sc); 856*5db2f26eSSascha Wildner 857*5db2f26eSSascha Wildner /* Update the new lowest useable Cx state for all CPUs. */ 858*5db2f26eSSascha Wildner crit_enter(); 859*5db2f26eSSascha Wildner cpu_cx_count = 0; 860*5db2f26eSSascha Wildner for (i = 0; i < cpu_ndevices; i++) { 861*5db2f26eSSascha Wildner isc = device_get_softc(cpu_devices[i]); 862*5db2f26eSSascha Wildner if (isc->cpu_cx_count > cpu_cx_count) 863*5db2f26eSSascha Wildner cpu_cx_count = isc->cpu_cx_count; 864*5db2f26eSSascha Wildner } 865*5db2f26eSSascha Wildner crit_exit(); 866*5db2f26eSSascha Wildner } 867*5db2f26eSSascha Wildner 868*5db2f26eSSascha Wildner static int 869*5db2f26eSSascha Wildner acpi_cpu_quirks(void) 870*5db2f26eSSascha Wildner { 871*5db2f26eSSascha Wildner device_t acpi_dev; 872*5db2f26eSSascha Wildner uint32_t val; 873*5db2f26eSSascha Wildner 874*5db2f26eSSascha Wildner ACPI_FUNCTION_TRACE((char *)(uintptr_t)__func__); 875*5db2f26eSSascha Wildner 876*5db2f26eSSascha Wildner /* 877*5db2f26eSSascha Wildner * Bus mastering arbitration control is needed to keep caches coherent 878*5db2f26eSSascha Wildner * while sleeping in C3. If it's not present but a working flush cache 879*5db2f26eSSascha Wildner * instruction is present, flush the caches before entering C3 instead. 880*5db2f26eSSascha Wildner * Otherwise, just disable C3 completely. 881*5db2f26eSSascha Wildner */ 882*5db2f26eSSascha Wildner if (AcpiGbl_FADT.Pm2ControlBlock == 0 || 883*5db2f26eSSascha Wildner AcpiGbl_FADT.Pm2ControlLength == 0) { 884*5db2f26eSSascha Wildner if ((AcpiGbl_FADT.Flags & ACPI_FADT_WBINVD) && 885*5db2f26eSSascha Wildner (AcpiGbl_FADT.Flags & ACPI_FADT_WBINVD_FLUSH) == 0) { 886*5db2f26eSSascha Wildner cpu_quirks |= CPU_QUIRK_NO_BM_CTRL; 887*5db2f26eSSascha Wildner ACPI_DEBUG_PRINT((ACPI_DB_INFO, 888*5db2f26eSSascha Wildner "acpi_cpu: no BM control, using flush cache method\n")); 889*5db2f26eSSascha Wildner } else { 890*5db2f26eSSascha Wildner cpu_quirks |= CPU_QUIRK_NO_C3; 891*5db2f26eSSascha Wildner ACPI_DEBUG_PRINT((ACPI_DB_INFO, 892*5db2f26eSSascha Wildner "acpi_cpu: no BM control, C3 not available\n")); 893*5db2f26eSSascha Wildner } 894*5db2f26eSSascha Wildner } 895*5db2f26eSSascha Wildner 896*5db2f26eSSascha Wildner /* 897*5db2f26eSSascha Wildner * If we are using generic Cx mode, C3 on multiple CPUs requires using 898*5db2f26eSSascha Wildner * the expensive flush cache instruction. 899*5db2f26eSSascha Wildner */ 900*5db2f26eSSascha Wildner if (cpu_cx_generic && ncpus > 1) { 901*5db2f26eSSascha Wildner cpu_quirks |= CPU_QUIRK_NO_BM_CTRL; 902*5db2f26eSSascha Wildner ACPI_DEBUG_PRINT((ACPI_DB_INFO, 903*5db2f26eSSascha Wildner "acpi_cpu: SMP, using flush cache mode for C3\n")); 904*5db2f26eSSascha Wildner } 905*5db2f26eSSascha Wildner 906*5db2f26eSSascha Wildner /* Look for various quirks of the PIIX4 part. */ 907*5db2f26eSSascha Wildner acpi_dev = pci_find_device(PCI_VENDOR_INTEL, PCI_DEVICE_82371AB_3); 908*5db2f26eSSascha Wildner if (acpi_dev != NULL) { 909*5db2f26eSSascha Wildner switch (pci_get_revid(acpi_dev)) { 910*5db2f26eSSascha Wildner /* 911*5db2f26eSSascha Wildner * Disable C3 support for all PIIX4 chipsets. Some of these parts 912*5db2f26eSSascha Wildner * do not report the BMIDE status to the BM status register and 913*5db2f26eSSascha Wildner * others have a livelock bug if Type-F DMA is enabled. Linux 914*5db2f26eSSascha Wildner * works around the BMIDE bug by reading the BM status directly 915*5db2f26eSSascha Wildner * but we take the simpler approach of disabling C3 for these 916*5db2f26eSSascha Wildner * parts. 917*5db2f26eSSascha Wildner * 918*5db2f26eSSascha Wildner * See erratum #18 ("C3 Power State/BMIDE and Type-F DMA 919*5db2f26eSSascha Wildner * Livelock") from the January 2002 PIIX4 specification update. 920*5db2f26eSSascha Wildner * Applies to all PIIX4 models. 921*5db2f26eSSascha Wildner * 922*5db2f26eSSascha Wildner * Also, make sure that all interrupts cause a "Stop Break" 923*5db2f26eSSascha Wildner * event to exit from C2 state. 924*5db2f26eSSascha Wildner * Also, BRLD_EN_BM (ACPI_BITREG_BUS_MASTER_RLD in ACPI-speak) 925*5db2f26eSSascha Wildner * should be set to zero, otherwise it causes C2 to short-sleep. 926*5db2f26eSSascha Wildner * PIIX4 doesn't properly support C3 and bus master activity 927*5db2f26eSSascha Wildner * need not break out of C2. 928*5db2f26eSSascha Wildner */ 929*5db2f26eSSascha Wildner case PCI_REVISION_A_STEP: 930*5db2f26eSSascha Wildner case PCI_REVISION_B_STEP: 931*5db2f26eSSascha Wildner case PCI_REVISION_4E: 932*5db2f26eSSascha Wildner case PCI_REVISION_4M: 933*5db2f26eSSascha Wildner cpu_quirks |= CPU_QUIRK_NO_C3; 934*5db2f26eSSascha Wildner ACPI_DEBUG_PRINT((ACPI_DB_INFO, 935*5db2f26eSSascha Wildner "acpi_cpu: working around PIIX4 bug, disabling C3\n")); 936*5db2f26eSSascha Wildner 937*5db2f26eSSascha Wildner val = pci_read_config(acpi_dev, PIIX4_DEVACTB_REG, 4); 938*5db2f26eSSascha Wildner if ((val & PIIX4_STOP_BREAK_MASK) != PIIX4_STOP_BREAK_MASK) { 939*5db2f26eSSascha Wildner ACPI_DEBUG_PRINT((ACPI_DB_INFO, 940*5db2f26eSSascha Wildner "acpi_cpu: PIIX4: enabling IRQs to generate Stop Break\n")); 941*5db2f26eSSascha Wildner val |= PIIX4_STOP_BREAK_MASK; 942*5db2f26eSSascha Wildner pci_write_config(acpi_dev, PIIX4_DEVACTB_REG, val, 4); 943*5db2f26eSSascha Wildner } 944*5db2f26eSSascha Wildner AcpiReadBitRegister(ACPI_BITREG_BUS_MASTER_RLD, &val); 945*5db2f26eSSascha Wildner if (val) { 946*5db2f26eSSascha Wildner ACPI_DEBUG_PRINT((ACPI_DB_INFO, 947*5db2f26eSSascha Wildner "acpi_cpu: PIIX4: reset BRLD_EN_BM\n")); 948*5db2f26eSSascha Wildner AcpiWriteBitRegister(ACPI_BITREG_BUS_MASTER_RLD, 0); 949*5db2f26eSSascha Wildner } 950*5db2f26eSSascha Wildner break; 951*5db2f26eSSascha Wildner default: 952*5db2f26eSSascha Wildner break; 953*5db2f26eSSascha Wildner } 954*5db2f26eSSascha Wildner } 955*5db2f26eSSascha Wildner 956*5db2f26eSSascha Wildner return (0); 957*5db2f26eSSascha Wildner } 958*5db2f26eSSascha Wildner 959*5db2f26eSSascha Wildner static int 960*5db2f26eSSascha Wildner acpi_cpu_usage_sysctl(SYSCTL_HANDLER_ARGS) 961*5db2f26eSSascha Wildner { 962*5db2f26eSSascha Wildner struct acpi_cpu_softc *sc; 963*5db2f26eSSascha Wildner struct sbuf sb; 964*5db2f26eSSascha Wildner char buf[128]; 965*5db2f26eSSascha Wildner int i; 966*5db2f26eSSascha Wildner uintmax_t fract, sum, whole; 967*5db2f26eSSascha Wildner 968*5db2f26eSSascha Wildner sc = (struct acpi_cpu_softc *) arg1; 969*5db2f26eSSascha Wildner sum = 0; 970*5db2f26eSSascha Wildner for (i = 0; i < sc->cpu_cx_count; i++) 971*5db2f26eSSascha Wildner sum += sc->cpu_cx_stats[i]; 972*5db2f26eSSascha Wildner sbuf_new(&sb, buf, sizeof(buf), SBUF_FIXEDLEN); 973*5db2f26eSSascha Wildner for (i = 0; i < sc->cpu_cx_count; i++) { 974*5db2f26eSSascha Wildner if (sum > 0) { 975*5db2f26eSSascha Wildner whole = (uintmax_t)sc->cpu_cx_stats[i] * 100; 976*5db2f26eSSascha Wildner fract = (whole % sum) * 100; 977*5db2f26eSSascha Wildner sbuf_printf(&sb, "%u.%02u%% ", (u_int)(whole / sum), 978*5db2f26eSSascha Wildner (u_int)(fract / sum)); 979*5db2f26eSSascha Wildner } else 980*5db2f26eSSascha Wildner sbuf_printf(&sb, "0.00%% "); 981*5db2f26eSSascha Wildner } 982*5db2f26eSSascha Wildner sbuf_printf(&sb, "last %dus", sc->cpu_prev_sleep); 983*5db2f26eSSascha Wildner sbuf_trim(&sb); 984*5db2f26eSSascha Wildner sbuf_finish(&sb); 985*5db2f26eSSascha Wildner sysctl_handle_string(oidp, sbuf_data(&sb), sbuf_len(&sb), req); 986*5db2f26eSSascha Wildner sbuf_delete(&sb); 987*5db2f26eSSascha Wildner 988*5db2f26eSSascha Wildner return (0); 989*5db2f26eSSascha Wildner } 990*5db2f26eSSascha Wildner 991*5db2f26eSSascha Wildner static int 992*5db2f26eSSascha Wildner acpi_cpu_set_cx_lowest(struct acpi_cpu_softc *sc, int val) 993*5db2f26eSSascha Wildner { 994*5db2f26eSSascha Wildner int i, old_lowest, error = 0; 995*5db2f26eSSascha Wildner uint32_t old_type, type; 996*5db2f26eSSascha Wildner 997*5db2f26eSSascha Wildner get_mplock(); 998*5db2f26eSSascha Wildner 999*5db2f26eSSascha Wildner old_lowest = atomic_swap_int(&sc->cpu_cx_lowest, val); 1000*5db2f26eSSascha Wildner 1001*5db2f26eSSascha Wildner old_type = sc->cpu_cx_states[old_lowest].type; 1002*5db2f26eSSascha Wildner type = sc->cpu_cx_states[val].type; 1003*5db2f26eSSascha Wildner if (old_type == ACPI_STATE_C3 && type != ACPI_STATE_C3) { 1004*5db2f26eSSascha Wildner KKASSERT(cpu_c3_ncpus > 0); 1005*5db2f26eSSascha Wildner if (atomic_fetchadd_int(&cpu_c3_ncpus, -1) == 1) { 1006*5db2f26eSSascha Wildner /* 1007*5db2f26eSSascha Wildner * All of the CPUs exit C3 state, use a better 1008*5db2f26eSSascha Wildner * one shot timer. 1009*5db2f26eSSascha Wildner */ 1010*5db2f26eSSascha Wildner error = cputimer_intr_select_caps(CPUTIMER_INTR_CAP_NONE); 1011*5db2f26eSSascha Wildner KKASSERT(!error); 1012*5db2f26eSSascha Wildner cputimer_intr_restart(); 1013*5db2f26eSSascha Wildner } 1014*5db2f26eSSascha Wildner } else if (type == ACPI_STATE_C3 && old_type != ACPI_STATE_C3) { 1015*5db2f26eSSascha Wildner if (atomic_fetchadd_int(&cpu_c3_ncpus, 1) == 0) { 1016*5db2f26eSSascha Wildner /* 1017*5db2f26eSSascha Wildner * When the first CPU enters C3 state, switch 1018*5db2f26eSSascha Wildner * to an one shot timer, which could handle 1019*5db2f26eSSascha Wildner * C3 state, i.e. the timer will not hang. 1020*5db2f26eSSascha Wildner */ 1021*5db2f26eSSascha Wildner error = cputimer_intr_select_caps(CPUTIMER_INTR_CAP_PS); 1022*5db2f26eSSascha Wildner if (!error) { 1023*5db2f26eSSascha Wildner cputimer_intr_restart(); 1024*5db2f26eSSascha Wildner } else { 1025*5db2f26eSSascha Wildner kprintf("no suitable intr cputimer found\n"); 1026*5db2f26eSSascha Wildner 1027*5db2f26eSSascha Wildner /* Restore */ 1028*5db2f26eSSascha Wildner sc->cpu_cx_lowest = old_lowest; 1029*5db2f26eSSascha Wildner atomic_fetchadd_int(&cpu_c3_ncpus, -1); 1030*5db2f26eSSascha Wildner } 1031*5db2f26eSSascha Wildner } 1032*5db2f26eSSascha Wildner } 1033*5db2f26eSSascha Wildner 1034*5db2f26eSSascha Wildner rel_mplock(); 1035*5db2f26eSSascha Wildner 1036*5db2f26eSSascha Wildner if (error) 1037*5db2f26eSSascha Wildner return error; 1038*5db2f26eSSascha Wildner 1039*5db2f26eSSascha Wildner /* If not disabling, cache the new lowest non-C3 state. */ 1040*5db2f26eSSascha Wildner sc->cpu_non_c3 = 0; 1041*5db2f26eSSascha Wildner for (i = sc->cpu_cx_lowest; i >= 0; i--) { 1042*5db2f26eSSascha Wildner if (sc->cpu_cx_states[i].type < ACPI_STATE_C3) { 1043*5db2f26eSSascha Wildner sc->cpu_non_c3 = i; 1044*5db2f26eSSascha Wildner break; 1045*5db2f26eSSascha Wildner } 1046*5db2f26eSSascha Wildner } 1047*5db2f26eSSascha Wildner 1048*5db2f26eSSascha Wildner /* Reset the statistics counters. */ 1049*5db2f26eSSascha Wildner bzero(sc->cpu_cx_stats, sizeof(sc->cpu_cx_stats)); 1050*5db2f26eSSascha Wildner return (0); 1051*5db2f26eSSascha Wildner } 1052*5db2f26eSSascha Wildner 1053*5db2f26eSSascha Wildner static int 1054*5db2f26eSSascha Wildner acpi_cpu_cx_lowest_sysctl(SYSCTL_HANDLER_ARGS) 1055*5db2f26eSSascha Wildner { 1056*5db2f26eSSascha Wildner struct acpi_cpu_softc *sc; 1057*5db2f26eSSascha Wildner char state[8]; 1058*5db2f26eSSascha Wildner int val, error; 1059*5db2f26eSSascha Wildner 1060*5db2f26eSSascha Wildner sc = (struct acpi_cpu_softc *) arg1; 1061*5db2f26eSSascha Wildner ksnprintf(state, sizeof(state), "C%d", sc->cpu_cx_lowest + 1); 1062*5db2f26eSSascha Wildner error = sysctl_handle_string(oidp, state, sizeof(state), req); 1063*5db2f26eSSascha Wildner if (error != 0 || req->newptr == NULL) 1064*5db2f26eSSascha Wildner return (error); 1065*5db2f26eSSascha Wildner if (strlen(state) < 2 || toupper(state[0]) != 'C') 1066*5db2f26eSSascha Wildner return (EINVAL); 1067*5db2f26eSSascha Wildner val = (int) strtol(state + 1, NULL, 10) - 1; 1068*5db2f26eSSascha Wildner if (val < 0 || val > sc->cpu_cx_count - 1) 1069*5db2f26eSSascha Wildner return (EINVAL); 1070*5db2f26eSSascha Wildner 1071*5db2f26eSSascha Wildner crit_enter(); 1072*5db2f26eSSascha Wildner error = acpi_cpu_set_cx_lowest(sc, val); 1073*5db2f26eSSascha Wildner crit_exit(); 1074*5db2f26eSSascha Wildner 1075*5db2f26eSSascha Wildner return error; 1076*5db2f26eSSascha Wildner } 1077*5db2f26eSSascha Wildner 1078*5db2f26eSSascha Wildner static int 1079*5db2f26eSSascha Wildner acpi_cpu_global_cx_lowest_sysctl(SYSCTL_HANDLER_ARGS) 1080*5db2f26eSSascha Wildner { 1081*5db2f26eSSascha Wildner struct acpi_cpu_softc *sc; 1082*5db2f26eSSascha Wildner char state[8]; 1083*5db2f26eSSascha Wildner int val, error, i; 1084*5db2f26eSSascha Wildner 1085*5db2f26eSSascha Wildner ksnprintf(state, sizeof(state), "C%d", cpu_cx_lowest + 1); 1086*5db2f26eSSascha Wildner error = sysctl_handle_string(oidp, state, sizeof(state), req); 1087*5db2f26eSSascha Wildner if (error != 0 || req->newptr == NULL) 1088*5db2f26eSSascha Wildner return (error); 1089*5db2f26eSSascha Wildner if (strlen(state) < 2 || toupper(state[0]) != 'C') 1090*5db2f26eSSascha Wildner return (EINVAL); 1091*5db2f26eSSascha Wildner val = (int) strtol(state + 1, NULL, 10) - 1; 1092*5db2f26eSSascha Wildner if (val < 0 || val > cpu_cx_count - 1) 1093*5db2f26eSSascha Wildner return (EINVAL); 1094*5db2f26eSSascha Wildner cpu_cx_lowest = val; 1095*5db2f26eSSascha Wildner 1096*5db2f26eSSascha Wildner /* Update the new lowest useable Cx state for all CPUs. */ 1097*5db2f26eSSascha Wildner crit_enter(); 1098*5db2f26eSSascha Wildner for (i = 0; i < cpu_ndevices; i++) { 1099*5db2f26eSSascha Wildner sc = device_get_softc(cpu_devices[i]); 1100*5db2f26eSSascha Wildner error = acpi_cpu_set_cx_lowest(sc, val); 1101*5db2f26eSSascha Wildner if (error) { 1102*5db2f26eSSascha Wildner KKASSERT(i == 0); 1103*5db2f26eSSascha Wildner break; 1104*5db2f26eSSascha Wildner } 1105*5db2f26eSSascha Wildner } 1106*5db2f26eSSascha Wildner crit_exit(); 1107*5db2f26eSSascha Wildner 1108*5db2f26eSSascha Wildner return error; 1109*5db2f26eSSascha Wildner } 1110*5db2f26eSSascha Wildner 1111*5db2f26eSSascha Wildner /* 1112*5db2f26eSSascha Wildner * Put the CPU in C1 in a machine-dependant way. 1113*5db2f26eSSascha Wildner * XXX: shouldn't be here! 1114*5db2f26eSSascha Wildner */ 1115*5db2f26eSSascha Wildner static void 1116*5db2f26eSSascha Wildner acpi_cpu_c1(void) 1117*5db2f26eSSascha Wildner { 1118*5db2f26eSSascha Wildner #ifdef __ia64__ 1119*5db2f26eSSascha Wildner ia64_call_pal_static(PAL_HALT_LIGHT, 0, 0, 0); 1120*5db2f26eSSascha Wildner #else 1121*5db2f26eSSascha Wildner splz(); 1122*5db2f26eSSascha Wildner if ((mycpu->gd_reqflags & RQF_IDLECHECK_WK_MASK) == 0) 1123*5db2f26eSSascha Wildner __asm __volatile("sti; hlt"); 1124*5db2f26eSSascha Wildner else 1125*5db2f26eSSascha Wildner __asm __volatile("sti; pause"); 1126*5db2f26eSSascha Wildner #endif /* !__ia64__ */ 1127*5db2f26eSSascha Wildner } 1128