132580301SAttilio Rao /*- 232580301SAttilio Rao * Copyright (c) 2004-2005 Bruno Ducrot 332580301SAttilio Rao * Copyright (c) 2004 FUKUDA Nobuhiko <nfukuda@spa.is.uec.ac.jp> 432580301SAttilio Rao * 532580301SAttilio Rao * Redistribution and use in source and binary forms, with or without 632580301SAttilio Rao * modification, are permitted provided that the following conditions 732580301SAttilio Rao * are met: 832580301SAttilio Rao * 1. Redistributions of source code must retain the above copyright 932580301SAttilio Rao * notice, this list of conditions and the following disclaimer. 1032580301SAttilio Rao * 2. Redistributions in binary form must reproduce the above copyright 1132580301SAttilio Rao * notice, this list of conditions and the following disclaimer in the 1232580301SAttilio Rao * documentation and/or other materials provided with the distribution. 1332580301SAttilio Rao * 1432580301SAttilio Rao * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 1532580301SAttilio Rao * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 1632580301SAttilio Rao * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 1732580301SAttilio Rao * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 1832580301SAttilio Rao * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 1932580301SAttilio Rao * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 2032580301SAttilio Rao * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 2132580301SAttilio Rao * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 2232580301SAttilio Rao * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 2332580301SAttilio Rao * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 2432580301SAttilio Rao */ 2532580301SAttilio Rao 2632580301SAttilio Rao /* 2732580301SAttilio Rao * Many thanks to Nate Lawson for his helpful comments on this driver and 2832580301SAttilio Rao * to Jung-uk Kim for testing. 2932580301SAttilio Rao */ 3032580301SAttilio Rao 3132580301SAttilio Rao #include <sys/cdefs.h> 3232580301SAttilio Rao __FBSDID("$FreeBSD$"); 3332580301SAttilio Rao 3432580301SAttilio Rao #include <sys/param.h> 3532580301SAttilio Rao #include <sys/bus.h> 3632580301SAttilio Rao #include <sys/cpu.h> 3732580301SAttilio Rao #include <sys/kernel.h> 3832580301SAttilio Rao #include <sys/malloc.h> 3932580301SAttilio Rao #include <sys/module.h> 4032580301SAttilio Rao #include <sys/pcpu.h> 4132580301SAttilio Rao #include <sys/systm.h> 4232580301SAttilio Rao 4332580301SAttilio Rao #include <machine/pc/bios.h> 4432580301SAttilio Rao #include <machine/md_var.h> 4532580301SAttilio Rao #include <machine/specialreg.h> 4632580301SAttilio Rao #include <machine/cputypes.h> 4732580301SAttilio Rao #include <machine/vmparam.h> 4832580301SAttilio Rao #include <sys/rman.h> 4932580301SAttilio Rao 5032580301SAttilio Rao #include <vm/vm.h> 5132580301SAttilio Rao #include <vm/pmap.h> 5232580301SAttilio Rao 5332580301SAttilio Rao #include "cpufreq_if.h" 5432580301SAttilio Rao 5532580301SAttilio Rao #define PN7_TYPE 0 5632580301SAttilio Rao #define PN8_TYPE 1 5732580301SAttilio Rao 5832580301SAttilio Rao /* Flags for some hardware bugs. */ 5932580301SAttilio Rao #define A0_ERRATA 0x1 /* Bugs for the rev. A0 of Athlon (K7): 6032580301SAttilio Rao * Interrupts must be disabled and no half 6132580301SAttilio Rao * multipliers are allowed */ 6232580301SAttilio Rao #define PENDING_STUCK 0x2 /* With some buggy chipset and some newer AMD64 6332580301SAttilio Rao * processor (Rev. G?): 6432580301SAttilio Rao * the pending bit from the msr FIDVID_STATUS 6532580301SAttilio Rao * is set forever. No workaround :( */ 6632580301SAttilio Rao 6732580301SAttilio Rao /* Legacy configuration via BIOS table PSB. */ 6832580301SAttilio Rao #define PSB_START 0 6932580301SAttilio Rao #define PSB_STEP 0x10 7032580301SAttilio Rao #define PSB_SIG "AMDK7PNOW!" 7132580301SAttilio Rao #define PSB_LEN 10 7232580301SAttilio Rao #define PSB_OFF 0 7332580301SAttilio Rao 7432580301SAttilio Rao struct psb_header { 7532580301SAttilio Rao char signature[10]; 7632580301SAttilio Rao uint8_t version; 7732580301SAttilio Rao uint8_t flags; 7832580301SAttilio Rao uint16_t settlingtime; 7932580301SAttilio Rao uint8_t res1; 8032580301SAttilio Rao uint8_t numpst; 8132580301SAttilio Rao } __packed; 8232580301SAttilio Rao 8332580301SAttilio Rao struct pst_header { 8432580301SAttilio Rao uint32_t cpuid; 8532580301SAttilio Rao uint8_t fsb; 8632580301SAttilio Rao uint8_t maxfid; 8732580301SAttilio Rao uint8_t startvid; 8832580301SAttilio Rao uint8_t numpstates; 8932580301SAttilio Rao } __packed; 9032580301SAttilio Rao 9132580301SAttilio Rao /* 9232580301SAttilio Rao * MSRs and bits used by Powernow technology 9332580301SAttilio Rao */ 9432580301SAttilio Rao #define MSR_AMDK7_FIDVID_CTL 0xc0010041 9532580301SAttilio Rao #define MSR_AMDK7_FIDVID_STATUS 0xc0010042 9632580301SAttilio Rao 9732580301SAttilio Rao /* Bitfields used by K7 */ 9832580301SAttilio Rao 9932580301SAttilio Rao #define PN7_CTR_FID(x) ((x) & 0x1f) 10032580301SAttilio Rao #define PN7_CTR_VID(x) (((x) & 0x1f) << 8) 10132580301SAttilio Rao #define PN7_CTR_FIDC 0x00010000 10232580301SAttilio Rao #define PN7_CTR_VIDC 0x00020000 10332580301SAttilio Rao #define PN7_CTR_FIDCHRATIO 0x00100000 10432580301SAttilio Rao #define PN7_CTR_SGTC(x) (((uint64_t)(x) & 0x000fffff) << 32) 10532580301SAttilio Rao 10632580301SAttilio Rao #define PN7_STA_CFID(x) ((x) & 0x1f) 10732580301SAttilio Rao #define PN7_STA_SFID(x) (((x) >> 8) & 0x1f) 10832580301SAttilio Rao #define PN7_STA_MFID(x) (((x) >> 16) & 0x1f) 10932580301SAttilio Rao #define PN7_STA_CVID(x) (((x) >> 32) & 0x1f) 11032580301SAttilio Rao #define PN7_STA_SVID(x) (((x) >> 40) & 0x1f) 11132580301SAttilio Rao #define PN7_STA_MVID(x) (((x) >> 48) & 0x1f) 11232580301SAttilio Rao 11332580301SAttilio Rao /* ACPI ctr_val status register to powernow k7 configuration */ 11432580301SAttilio Rao #define ACPI_PN7_CTRL_TO_FID(x) ((x) & 0x1f) 11532580301SAttilio Rao #define ACPI_PN7_CTRL_TO_VID(x) (((x) >> 5) & 0x1f) 11632580301SAttilio Rao #define ACPI_PN7_CTRL_TO_SGTC(x) (((x) >> 10) & 0xffff) 11732580301SAttilio Rao 11832580301SAttilio Rao /* Bitfields used by K8 */ 11932580301SAttilio Rao 12032580301SAttilio Rao #define PN8_CTR_FID(x) ((x) & 0x3f) 12132580301SAttilio Rao #define PN8_CTR_VID(x) (((x) & 0x1f) << 8) 12232580301SAttilio Rao #define PN8_CTR_PENDING(x) (((x) & 1) << 32) 12332580301SAttilio Rao 12432580301SAttilio Rao #define PN8_STA_CFID(x) ((x) & 0x3f) 12532580301SAttilio Rao #define PN8_STA_SFID(x) (((x) >> 8) & 0x3f) 12632580301SAttilio Rao #define PN8_STA_MFID(x) (((x) >> 16) & 0x3f) 12732580301SAttilio Rao #define PN8_STA_PENDING(x) (((x) >> 31) & 0x01) 12832580301SAttilio Rao #define PN8_STA_CVID(x) (((x) >> 32) & 0x1f) 12932580301SAttilio Rao #define PN8_STA_SVID(x) (((x) >> 40) & 0x1f) 13032580301SAttilio Rao #define PN8_STA_MVID(x) (((x) >> 48) & 0x1f) 13132580301SAttilio Rao 13232580301SAttilio Rao /* Reserved1 to powernow k8 configuration */ 13332580301SAttilio Rao #define PN8_PSB_TO_RVO(x) ((x) & 0x03) 13432580301SAttilio Rao #define PN8_PSB_TO_IRT(x) (((x) >> 2) & 0x03) 13532580301SAttilio Rao #define PN8_PSB_TO_MVS(x) (((x) >> 4) & 0x03) 13632580301SAttilio Rao #define PN8_PSB_TO_BATT(x) (((x) >> 6) & 0x03) 13732580301SAttilio Rao 13832580301SAttilio Rao /* ACPI ctr_val status register to powernow k8 configuration */ 13932580301SAttilio Rao #define ACPI_PN8_CTRL_TO_FID(x) ((x) & 0x3f) 14032580301SAttilio Rao #define ACPI_PN8_CTRL_TO_VID(x) (((x) >> 6) & 0x1f) 14132580301SAttilio Rao #define ACPI_PN8_CTRL_TO_VST(x) (((x) >> 11) & 0x1f) 14232580301SAttilio Rao #define ACPI_PN8_CTRL_TO_MVS(x) (((x) >> 18) & 0x03) 14332580301SAttilio Rao #define ACPI_PN8_CTRL_TO_PLL(x) (((x) >> 20) & 0x7f) 14432580301SAttilio Rao #define ACPI_PN8_CTRL_TO_RVO(x) (((x) >> 28) & 0x03) 14532580301SAttilio Rao #define ACPI_PN8_CTRL_TO_IRT(x) (((x) >> 30) & 0x03) 14632580301SAttilio Rao 14732580301SAttilio Rao 14832580301SAttilio Rao #define WRITE_FIDVID(fid, vid, ctrl) \ 14932580301SAttilio Rao wrmsr(MSR_AMDK7_FIDVID_CTL, \ 15032580301SAttilio Rao (((ctrl) << 32) | (1ULL << 16) | ((vid) << 8) | (fid))) 15132580301SAttilio Rao 15232580301SAttilio Rao #define COUNT_OFF_IRT(irt) DELAY(10 * (1 << (irt))) 15332580301SAttilio Rao #define COUNT_OFF_VST(vst) DELAY(20 * (vst)) 15432580301SAttilio Rao 15532580301SAttilio Rao #define FID_TO_VCO_FID(fid) \ 15632580301SAttilio Rao (((fid) < 8) ? (8 + ((fid) << 1)) : (fid)) 15732580301SAttilio Rao 15832580301SAttilio Rao /* 15932580301SAttilio Rao * Divide each value by 10 to get the processor multiplier. 16032580301SAttilio Rao * Some of those tables are the same as the Linux powernow-k7 16132580301SAttilio Rao * implementation by Dave Jones. 16232580301SAttilio Rao */ 16332580301SAttilio Rao static int pn7_fid_to_mult[32] = { 16432580301SAttilio Rao 110, 115, 120, 125, 50, 55, 60, 65, 16532580301SAttilio Rao 70, 75, 80, 85, 90, 95, 100, 105, 16632580301SAttilio Rao 30, 190, 40, 200, 130, 135, 140, 210, 16732580301SAttilio Rao 150, 225, 160, 165, 170, 180, 0, 0, 16832580301SAttilio Rao }; 16932580301SAttilio Rao 17032580301SAttilio Rao 17132580301SAttilio Rao static int pn8_fid_to_mult[64] = { 17232580301SAttilio Rao 40, 45, 50, 55, 60, 65, 70, 75, 17332580301SAttilio Rao 80, 85, 90, 95, 100, 105, 110, 115, 17432580301SAttilio Rao 120, 125, 130, 135, 140, 145, 150, 155, 17532580301SAttilio Rao 160, 165, 170, 175, 180, 185, 190, 195, 17632580301SAttilio Rao 200, 205, 210, 215, 220, 225, 230, 235, 17732580301SAttilio Rao 240, 245, 250, 255, 260, 265, 270, 275, 17832580301SAttilio Rao 280, 285, 290, 295, 300, 305, 310, 315, 17932580301SAttilio Rao 320, 325, 330, 335, 340, 345, 350, 355, 18032580301SAttilio Rao }; 18132580301SAttilio Rao 18232580301SAttilio Rao /* 18332580301SAttilio Rao * Units are in mV. 18432580301SAttilio Rao */ 18532580301SAttilio Rao /* Mobile VRM (K7) */ 18632580301SAttilio Rao static int pn7_mobile_vid_to_volts[] = { 18732580301SAttilio Rao 2000, 1950, 1900, 1850, 1800, 1750, 1700, 1650, 18832580301SAttilio Rao 1600, 1550, 1500, 1450, 1400, 1350, 1300, 0, 18932580301SAttilio Rao 1275, 1250, 1225, 1200, 1175, 1150, 1125, 1100, 19032580301SAttilio Rao 1075, 1050, 1025, 1000, 975, 950, 925, 0, 19132580301SAttilio Rao }; 19232580301SAttilio Rao /* Desktop VRM (K7) */ 19332580301SAttilio Rao static int pn7_desktop_vid_to_volts[] = { 19432580301SAttilio Rao 2000, 1950, 1900, 1850, 1800, 1750, 1700, 1650, 19532580301SAttilio Rao 1600, 1550, 1500, 1450, 1400, 1350, 1300, 0, 19632580301SAttilio Rao 1275, 1250, 1225, 1200, 1175, 1150, 1125, 1100, 19732580301SAttilio Rao 1075, 1050, 1025, 1000, 975, 950, 925, 0, 19832580301SAttilio Rao }; 19932580301SAttilio Rao /* Desktop and Mobile VRM (K8) */ 20032580301SAttilio Rao static int pn8_vid_to_volts[] = { 20132580301SAttilio Rao 1550, 1525, 1500, 1475, 1450, 1425, 1400, 1375, 20232580301SAttilio Rao 1350, 1325, 1300, 1275, 1250, 1225, 1200, 1175, 20332580301SAttilio Rao 1150, 1125, 1100, 1075, 1050, 1025, 1000, 975, 20432580301SAttilio Rao 950, 925, 900, 875, 850, 825, 800, 0, 20532580301SAttilio Rao }; 20632580301SAttilio Rao 20732580301SAttilio Rao #define POWERNOW_MAX_STATES 16 20832580301SAttilio Rao 20932580301SAttilio Rao struct powernow_state { 21032580301SAttilio Rao int freq; 21132580301SAttilio Rao int power; 21232580301SAttilio Rao int fid; 21332580301SAttilio Rao int vid; 21432580301SAttilio Rao }; 21532580301SAttilio Rao 21632580301SAttilio Rao struct pn_softc { 21732580301SAttilio Rao device_t dev; 21832580301SAttilio Rao int pn_type; 21932580301SAttilio Rao struct powernow_state powernow_states[POWERNOW_MAX_STATES]; 22032580301SAttilio Rao u_int fsb; 22132580301SAttilio Rao u_int sgtc; 22232580301SAttilio Rao u_int vst; 22332580301SAttilio Rao u_int mvs; 22432580301SAttilio Rao u_int pll; 22532580301SAttilio Rao u_int rvo; 22632580301SAttilio Rao u_int irt; 22732580301SAttilio Rao int low; 22832580301SAttilio Rao int powernow_max_states; 22932580301SAttilio Rao u_int powernow_state; 23032580301SAttilio Rao u_int errata; 23132580301SAttilio Rao int *vid_to_volts; 23232580301SAttilio Rao }; 23332580301SAttilio Rao 23432580301SAttilio Rao /* 23532580301SAttilio Rao * Offsets in struct cf_setting array for private values given by 23632580301SAttilio Rao * acpi_perf driver. 23732580301SAttilio Rao */ 23832580301SAttilio Rao #define PX_SPEC_CONTROL 0 23932580301SAttilio Rao #define PX_SPEC_STATUS 1 24032580301SAttilio Rao 24132580301SAttilio Rao static void pn_identify(driver_t *driver, device_t parent); 24232580301SAttilio Rao static int pn_probe(device_t dev); 24332580301SAttilio Rao static int pn_attach(device_t dev); 24432580301SAttilio Rao static int pn_detach(device_t dev); 24532580301SAttilio Rao static int pn_set(device_t dev, const struct cf_setting *cf); 24632580301SAttilio Rao static int pn_get(device_t dev, struct cf_setting *cf); 24732580301SAttilio Rao static int pn_settings(device_t dev, struct cf_setting *sets, 24832580301SAttilio Rao int *count); 24932580301SAttilio Rao static int pn_type(device_t dev, int *type); 25032580301SAttilio Rao 25132580301SAttilio Rao static device_method_t pn_methods[] = { 25232580301SAttilio Rao /* Device interface */ 25332580301SAttilio Rao DEVMETHOD(device_identify, pn_identify), 25432580301SAttilio Rao DEVMETHOD(device_probe, pn_probe), 25532580301SAttilio Rao DEVMETHOD(device_attach, pn_attach), 25632580301SAttilio Rao DEVMETHOD(device_detach, pn_detach), 25732580301SAttilio Rao 25832580301SAttilio Rao /* cpufreq interface */ 25932580301SAttilio Rao DEVMETHOD(cpufreq_drv_set, pn_set), 26032580301SAttilio Rao DEVMETHOD(cpufreq_drv_get, pn_get), 26132580301SAttilio Rao DEVMETHOD(cpufreq_drv_settings, pn_settings), 26232580301SAttilio Rao DEVMETHOD(cpufreq_drv_type, pn_type), 26332580301SAttilio Rao 26432580301SAttilio Rao {0, 0} 26532580301SAttilio Rao }; 26632580301SAttilio Rao 26732580301SAttilio Rao static devclass_t pn_devclass; 26832580301SAttilio Rao static driver_t pn_driver = { 26932580301SAttilio Rao "powernow", 27032580301SAttilio Rao pn_methods, 27132580301SAttilio Rao sizeof(struct pn_softc), 27232580301SAttilio Rao }; 27332580301SAttilio Rao 27432580301SAttilio Rao DRIVER_MODULE(powernow, cpu, pn_driver, pn_devclass, 0, 0); 27532580301SAttilio Rao 27632580301SAttilio Rao static int 27732580301SAttilio Rao pn7_setfidvid(struct pn_softc *sc, int fid, int vid) 27832580301SAttilio Rao { 27932580301SAttilio Rao int cfid, cvid; 28032580301SAttilio Rao uint64_t status, ctl; 28132580301SAttilio Rao 28232580301SAttilio Rao status = rdmsr(MSR_AMDK7_FIDVID_STATUS); 28332580301SAttilio Rao cfid = PN7_STA_CFID(status); 28432580301SAttilio Rao cvid = PN7_STA_CVID(status); 28532580301SAttilio Rao 28632580301SAttilio Rao /* We're already at the requested level. */ 28732580301SAttilio Rao if (fid == cfid && vid == cvid) 28832580301SAttilio Rao return (0); 28932580301SAttilio Rao 29032580301SAttilio Rao ctl = rdmsr(MSR_AMDK7_FIDVID_CTL) & PN7_CTR_FIDCHRATIO; 29132580301SAttilio Rao 29232580301SAttilio Rao ctl |= PN7_CTR_FID(fid); 29332580301SAttilio Rao ctl |= PN7_CTR_VID(vid); 29432580301SAttilio Rao ctl |= PN7_CTR_SGTC(sc->sgtc); 29532580301SAttilio Rao 29632580301SAttilio Rao if (sc->errata & A0_ERRATA) 29732580301SAttilio Rao disable_intr(); 29832580301SAttilio Rao 29932580301SAttilio Rao if (pn7_fid_to_mult[fid] < pn7_fid_to_mult[cfid]) { 30032580301SAttilio Rao wrmsr(MSR_AMDK7_FIDVID_CTL, ctl | PN7_CTR_FIDC); 30132580301SAttilio Rao if (vid != cvid) 30232580301SAttilio Rao wrmsr(MSR_AMDK7_FIDVID_CTL, ctl | PN7_CTR_VIDC); 30332580301SAttilio Rao } else { 30432580301SAttilio Rao wrmsr(MSR_AMDK7_FIDVID_CTL, ctl | PN7_CTR_VIDC); 30532580301SAttilio Rao if (fid != cfid) 30632580301SAttilio Rao wrmsr(MSR_AMDK7_FIDVID_CTL, ctl | PN7_CTR_FIDC); 30732580301SAttilio Rao } 30832580301SAttilio Rao 30932580301SAttilio Rao if (sc->errata & A0_ERRATA) 31032580301SAttilio Rao enable_intr(); 31132580301SAttilio Rao 31232580301SAttilio Rao return (0); 31332580301SAttilio Rao } 31432580301SAttilio Rao 31532580301SAttilio Rao static int 31632580301SAttilio Rao pn8_read_pending_wait(uint64_t *status) 31732580301SAttilio Rao { 31832580301SAttilio Rao int i = 10000; 31932580301SAttilio Rao 32032580301SAttilio Rao do 32132580301SAttilio Rao *status = rdmsr(MSR_AMDK7_FIDVID_STATUS); 32232580301SAttilio Rao while (PN8_STA_PENDING(*status) && --i); 32332580301SAttilio Rao 32432580301SAttilio Rao return (i == 0 ? ENXIO : 0); 32532580301SAttilio Rao } 32632580301SAttilio Rao 32732580301SAttilio Rao static int 32832580301SAttilio Rao pn8_write_fidvid(u_int fid, u_int vid, uint64_t ctrl, uint64_t *status) 32932580301SAttilio Rao { 33032580301SAttilio Rao int i = 100; 33132580301SAttilio Rao 33232580301SAttilio Rao do 33332580301SAttilio Rao WRITE_FIDVID(fid, vid, ctrl); 33432580301SAttilio Rao while (pn8_read_pending_wait(status) && --i); 33532580301SAttilio Rao 33632580301SAttilio Rao return (i == 0 ? ENXIO : 0); 33732580301SAttilio Rao } 33832580301SAttilio Rao 33932580301SAttilio Rao static int 34032580301SAttilio Rao pn8_setfidvid(struct pn_softc *sc, int fid, int vid) 34132580301SAttilio Rao { 34232580301SAttilio Rao uint64_t status; 34332580301SAttilio Rao int cfid, cvid; 34432580301SAttilio Rao int rvo; 34532580301SAttilio Rao int rv; 34632580301SAttilio Rao u_int val; 34732580301SAttilio Rao 34832580301SAttilio Rao rv = pn8_read_pending_wait(&status); 34932580301SAttilio Rao if (rv) 35032580301SAttilio Rao return (rv); 35132580301SAttilio Rao 35232580301SAttilio Rao cfid = PN8_STA_CFID(status); 35332580301SAttilio Rao cvid = PN8_STA_CVID(status); 35432580301SAttilio Rao 35532580301SAttilio Rao if (fid == cfid && vid == cvid) 35632580301SAttilio Rao return (0); 35732580301SAttilio Rao 35832580301SAttilio Rao /* 35932580301SAttilio Rao * Phase 1: Raise core voltage to requested VID if frequency is 36032580301SAttilio Rao * going up. 36132580301SAttilio Rao */ 36232580301SAttilio Rao while (cvid > vid) { 36332580301SAttilio Rao val = cvid - (1 << sc->mvs); 36432580301SAttilio Rao rv = pn8_write_fidvid(cfid, (val > 0) ? val : 0, 1ULL, &status); 36532580301SAttilio Rao if (rv) { 36632580301SAttilio Rao sc->errata |= PENDING_STUCK; 36732580301SAttilio Rao return (rv); 36832580301SAttilio Rao } 36932580301SAttilio Rao cvid = PN8_STA_CVID(status); 37032580301SAttilio Rao COUNT_OFF_VST(sc->vst); 37132580301SAttilio Rao } 37232580301SAttilio Rao 37332580301SAttilio Rao /* ... then raise to voltage + RVO (if required) */ 37432580301SAttilio Rao for (rvo = sc->rvo; rvo > 0 && cvid > 0; --rvo) { 37532580301SAttilio Rao /* XXX It's not clear from spec if we have to do that 37632580301SAttilio Rao * in 0.25 step or in MVS. Therefore do it as it's done 37732580301SAttilio Rao * under Linux */ 37832580301SAttilio Rao rv = pn8_write_fidvid(cfid, cvid - 1, 1ULL, &status); 37932580301SAttilio Rao if (rv) { 38032580301SAttilio Rao sc->errata |= PENDING_STUCK; 38132580301SAttilio Rao return (rv); 38232580301SAttilio Rao } 38332580301SAttilio Rao cvid = PN8_STA_CVID(status); 38432580301SAttilio Rao COUNT_OFF_VST(sc->vst); 38532580301SAttilio Rao } 38632580301SAttilio Rao 38732580301SAttilio Rao /* Phase 2: change to requested core frequency */ 38832580301SAttilio Rao if (cfid != fid) { 38932580301SAttilio Rao u_int vco_fid, vco_cfid, fid_delta; 39032580301SAttilio Rao 39132580301SAttilio Rao vco_fid = FID_TO_VCO_FID(fid); 39232580301SAttilio Rao vco_cfid = FID_TO_VCO_FID(cfid); 39332580301SAttilio Rao 39432580301SAttilio Rao while (abs(vco_fid - vco_cfid) > 2) { 39532580301SAttilio Rao fid_delta = (vco_cfid & 1) ? 1 : 2; 39632580301SAttilio Rao if (fid > cfid) { 39732580301SAttilio Rao if (cfid > 7) 39832580301SAttilio Rao val = cfid + fid_delta; 39932580301SAttilio Rao else 40032580301SAttilio Rao val = FID_TO_VCO_FID(cfid) + fid_delta; 40132580301SAttilio Rao } else 40232580301SAttilio Rao val = cfid - fid_delta; 40332580301SAttilio Rao rv = pn8_write_fidvid(val, cvid, 40432580301SAttilio Rao sc->pll * (uint64_t) sc->fsb, 40532580301SAttilio Rao &status); 40632580301SAttilio Rao if (rv) { 40732580301SAttilio Rao sc->errata |= PENDING_STUCK; 40832580301SAttilio Rao return (rv); 40932580301SAttilio Rao } 41032580301SAttilio Rao cfid = PN8_STA_CFID(status); 41132580301SAttilio Rao COUNT_OFF_IRT(sc->irt); 41232580301SAttilio Rao 41332580301SAttilio Rao vco_cfid = FID_TO_VCO_FID(cfid); 41432580301SAttilio Rao } 41532580301SAttilio Rao 41632580301SAttilio Rao rv = pn8_write_fidvid(fid, cvid, 41732580301SAttilio Rao sc->pll * (uint64_t) sc->fsb, 41832580301SAttilio Rao &status); 41932580301SAttilio Rao if (rv) { 42032580301SAttilio Rao sc->errata |= PENDING_STUCK; 42132580301SAttilio Rao return (rv); 42232580301SAttilio Rao } 42332580301SAttilio Rao cfid = PN8_STA_CFID(status); 42432580301SAttilio Rao COUNT_OFF_IRT(sc->irt); 42532580301SAttilio Rao } 42632580301SAttilio Rao 42732580301SAttilio Rao /* Phase 3: change to requested voltage */ 42832580301SAttilio Rao if (cvid != vid) { 42932580301SAttilio Rao rv = pn8_write_fidvid(cfid, vid, 1ULL, &status); 43032580301SAttilio Rao cvid = PN8_STA_CVID(status); 43132580301SAttilio Rao COUNT_OFF_VST(sc->vst); 43232580301SAttilio Rao } 43332580301SAttilio Rao 43432580301SAttilio Rao /* Check if transition failed. */ 43532580301SAttilio Rao if (cfid != fid || cvid != vid) 43632580301SAttilio Rao rv = ENXIO; 43732580301SAttilio Rao 43832580301SAttilio Rao return (rv); 43932580301SAttilio Rao } 44032580301SAttilio Rao 44132580301SAttilio Rao static int 44232580301SAttilio Rao pn_set(device_t dev, const struct cf_setting *cf) 44332580301SAttilio Rao { 44432580301SAttilio Rao struct pn_softc *sc; 44532580301SAttilio Rao int fid, vid; 44632580301SAttilio Rao int i; 44732580301SAttilio Rao int rv; 44832580301SAttilio Rao 44932580301SAttilio Rao if (cf == NULL) 45032580301SAttilio Rao return (EINVAL); 45132580301SAttilio Rao sc = device_get_softc(dev); 45232580301SAttilio Rao 45332580301SAttilio Rao if (sc->errata & PENDING_STUCK) 45432580301SAttilio Rao return (ENXIO); 45532580301SAttilio Rao 45632580301SAttilio Rao for (i = 0; i < sc->powernow_max_states; ++i) 45732580301SAttilio Rao if (CPUFREQ_CMP(sc->powernow_states[i].freq / 1000, cf->freq)) 45832580301SAttilio Rao break; 45932580301SAttilio Rao 46032580301SAttilio Rao fid = sc->powernow_states[i].fid; 46132580301SAttilio Rao vid = sc->powernow_states[i].vid; 46232580301SAttilio Rao 46332580301SAttilio Rao rv = ENODEV; 46432580301SAttilio Rao 46532580301SAttilio Rao switch (sc->pn_type) { 46632580301SAttilio Rao case PN7_TYPE: 46732580301SAttilio Rao rv = pn7_setfidvid(sc, fid, vid); 46832580301SAttilio Rao break; 46932580301SAttilio Rao case PN8_TYPE: 47032580301SAttilio Rao rv = pn8_setfidvid(sc, fid, vid); 47132580301SAttilio Rao break; 47232580301SAttilio Rao } 47332580301SAttilio Rao 47432580301SAttilio Rao return (rv); 47532580301SAttilio Rao } 47632580301SAttilio Rao 47732580301SAttilio Rao static int 47832580301SAttilio Rao pn_get(device_t dev, struct cf_setting *cf) 47932580301SAttilio Rao { 48032580301SAttilio Rao struct pn_softc *sc; 48132580301SAttilio Rao u_int cfid = 0, cvid = 0; 48232580301SAttilio Rao int i; 48332580301SAttilio Rao uint64_t status; 48432580301SAttilio Rao 48532580301SAttilio Rao if (cf == NULL) 48632580301SAttilio Rao return (EINVAL); 48732580301SAttilio Rao sc = device_get_softc(dev); 48832580301SAttilio Rao if (sc->errata & PENDING_STUCK) 48932580301SAttilio Rao return (ENXIO); 49032580301SAttilio Rao 49132580301SAttilio Rao status = rdmsr(MSR_AMDK7_FIDVID_STATUS); 49232580301SAttilio Rao 49332580301SAttilio Rao switch (sc->pn_type) { 49432580301SAttilio Rao case PN7_TYPE: 49532580301SAttilio Rao cfid = PN7_STA_CFID(status); 49632580301SAttilio Rao cvid = PN7_STA_CVID(status); 49732580301SAttilio Rao break; 49832580301SAttilio Rao case PN8_TYPE: 49932580301SAttilio Rao cfid = PN8_STA_CFID(status); 50032580301SAttilio Rao cvid = PN8_STA_CVID(status); 50132580301SAttilio Rao break; 50232580301SAttilio Rao } 50332580301SAttilio Rao for (i = 0; i < sc->powernow_max_states; ++i) 50432580301SAttilio Rao if (cfid == sc->powernow_states[i].fid && 50532580301SAttilio Rao cvid == sc->powernow_states[i].vid) 50632580301SAttilio Rao break; 50732580301SAttilio Rao 50832580301SAttilio Rao if (i < sc->powernow_max_states) { 50932580301SAttilio Rao cf->freq = sc->powernow_states[i].freq / 1000; 51032580301SAttilio Rao cf->power = sc->powernow_states[i].power; 51132580301SAttilio Rao cf->lat = 200; 51232580301SAttilio Rao cf->volts = sc->vid_to_volts[cvid]; 51332580301SAttilio Rao cf->dev = dev; 51432580301SAttilio Rao } else { 51532580301SAttilio Rao memset(cf, CPUFREQ_VAL_UNKNOWN, sizeof(*cf)); 51632580301SAttilio Rao cf->dev = NULL; 51732580301SAttilio Rao } 51832580301SAttilio Rao 51932580301SAttilio Rao return (0); 52032580301SAttilio Rao } 52132580301SAttilio Rao 52232580301SAttilio Rao static int 52332580301SAttilio Rao pn_settings(device_t dev, struct cf_setting *sets, int *count) 52432580301SAttilio Rao { 52532580301SAttilio Rao struct pn_softc *sc; 52632580301SAttilio Rao int i; 52732580301SAttilio Rao 52832580301SAttilio Rao if (sets == NULL|| count == NULL) 52932580301SAttilio Rao return (EINVAL); 53032580301SAttilio Rao sc = device_get_softc(dev); 53132580301SAttilio Rao if (*count < sc->powernow_max_states) 53232580301SAttilio Rao return (E2BIG); 53332580301SAttilio Rao for (i = 0; i < sc->powernow_max_states; ++i) { 53432580301SAttilio Rao sets[i].freq = sc->powernow_states[i].freq / 1000; 53532580301SAttilio Rao sets[i].power = sc->powernow_states[i].power; 53632580301SAttilio Rao sets[i].lat = 200; 53732580301SAttilio Rao sets[i].volts = sc->vid_to_volts[sc->powernow_states[i].vid]; 53832580301SAttilio Rao sets[i].dev = dev; 53932580301SAttilio Rao } 54032580301SAttilio Rao *count = sc->powernow_max_states; 54132580301SAttilio Rao 54232580301SAttilio Rao return (0); 54332580301SAttilio Rao } 54432580301SAttilio Rao 54532580301SAttilio Rao static int 54632580301SAttilio Rao pn_type(device_t dev, int *type) 54732580301SAttilio Rao { 54832580301SAttilio Rao if (type == NULL) 54932580301SAttilio Rao return (EINVAL); 55032580301SAttilio Rao 55132580301SAttilio Rao *type = CPUFREQ_TYPE_ABSOLUTE; 55232580301SAttilio Rao 55332580301SAttilio Rao return (0); 55432580301SAttilio Rao } 55532580301SAttilio Rao 55632580301SAttilio Rao /* 55732580301SAttilio Rao * Given a set of pair of fid/vid, and number of performance states, 55832580301SAttilio Rao * compute powernow_states via an insertion sort. 55932580301SAttilio Rao */ 56032580301SAttilio Rao static int 56132580301SAttilio Rao decode_pst(struct pn_softc *sc, uint8_t *p, int npstates) 56232580301SAttilio Rao { 56332580301SAttilio Rao int i, j, n; 56432580301SAttilio Rao struct powernow_state state; 56532580301SAttilio Rao 56632580301SAttilio Rao for (i = 0; i < POWERNOW_MAX_STATES; ++i) 56732580301SAttilio Rao sc->powernow_states[i].freq = CPUFREQ_VAL_UNKNOWN; 56832580301SAttilio Rao 56932580301SAttilio Rao for (n = 0, i = 0; i < npstates; ++i) { 57032580301SAttilio Rao state.fid = *p++; 57132580301SAttilio Rao state.vid = *p++; 57232580301SAttilio Rao state.power = CPUFREQ_VAL_UNKNOWN; 57332580301SAttilio Rao 57432580301SAttilio Rao switch (sc->pn_type) { 57532580301SAttilio Rao case PN7_TYPE: 57632580301SAttilio Rao state.freq = 100 * pn7_fid_to_mult[state.fid] * sc->fsb; 57732580301SAttilio Rao if ((sc->errata & A0_ERRATA) && 57832580301SAttilio Rao (pn7_fid_to_mult[state.fid] % 10) == 5) 57932580301SAttilio Rao continue; 58032580301SAttilio Rao break; 58132580301SAttilio Rao case PN8_TYPE: 58232580301SAttilio Rao state.freq = 100 * pn8_fid_to_mult[state.fid] * sc->fsb; 58332580301SAttilio Rao break; 58432580301SAttilio Rao } 58532580301SAttilio Rao 58632580301SAttilio Rao j = n; 58732580301SAttilio Rao while (j > 0 && sc->powernow_states[j - 1].freq < state.freq) { 58832580301SAttilio Rao memcpy(&sc->powernow_states[j], 58932580301SAttilio Rao &sc->powernow_states[j - 1], 59032580301SAttilio Rao sizeof(struct powernow_state)); 59132580301SAttilio Rao --j; 59232580301SAttilio Rao } 59332580301SAttilio Rao memcpy(&sc->powernow_states[j], &state, 59432580301SAttilio Rao sizeof(struct powernow_state)); 59532580301SAttilio Rao ++n; 59632580301SAttilio Rao } 59732580301SAttilio Rao 59832580301SAttilio Rao /* 59932580301SAttilio Rao * Fix powernow_max_states, if errata a0 give us less states 60032580301SAttilio Rao * than expected. 60132580301SAttilio Rao */ 60232580301SAttilio Rao sc->powernow_max_states = n; 60332580301SAttilio Rao 60432580301SAttilio Rao if (bootverbose) 60532580301SAttilio Rao for (i = 0; i < sc->powernow_max_states; ++i) { 60632580301SAttilio Rao int fid = sc->powernow_states[i].fid; 60732580301SAttilio Rao int vid = sc->powernow_states[i].vid; 60832580301SAttilio Rao 60932580301SAttilio Rao printf("powernow: %2i %8dkHz FID %02x VID %02x\n", 61032580301SAttilio Rao i, 61132580301SAttilio Rao sc->powernow_states[i].freq, 61232580301SAttilio Rao fid, 61332580301SAttilio Rao vid); 61432580301SAttilio Rao } 61532580301SAttilio Rao 61632580301SAttilio Rao return (0); 61732580301SAttilio Rao } 61832580301SAttilio Rao 61932580301SAttilio Rao static int 62032580301SAttilio Rao cpuid_is_k7(u_int cpuid) 62132580301SAttilio Rao { 62232580301SAttilio Rao 62332580301SAttilio Rao switch (cpuid) { 62432580301SAttilio Rao case 0x760: 62532580301SAttilio Rao case 0x761: 62632580301SAttilio Rao case 0x762: 62732580301SAttilio Rao case 0x770: 62832580301SAttilio Rao case 0x771: 62932580301SAttilio Rao case 0x780: 63032580301SAttilio Rao case 0x781: 63132580301SAttilio Rao case 0x7a0: 63232580301SAttilio Rao return (TRUE); 63332580301SAttilio Rao } 63432580301SAttilio Rao return (FALSE); 63532580301SAttilio Rao } 63632580301SAttilio Rao 63732580301SAttilio Rao static int 63832580301SAttilio Rao pn_decode_pst(device_t dev) 63932580301SAttilio Rao { 64032580301SAttilio Rao int maxpst; 64132580301SAttilio Rao struct pn_softc *sc; 64232580301SAttilio Rao u_int cpuid, maxfid, startvid; 64332580301SAttilio Rao u_long sig; 64432580301SAttilio Rao struct psb_header *psb; 64532580301SAttilio Rao uint8_t *p; 64632580301SAttilio Rao u_int regs[4]; 64732580301SAttilio Rao uint64_t status; 64832580301SAttilio Rao 64932580301SAttilio Rao sc = device_get_softc(dev); 65032580301SAttilio Rao 65132580301SAttilio Rao do_cpuid(0x80000001, regs); 65232580301SAttilio Rao cpuid = regs[0]; 65332580301SAttilio Rao 65432580301SAttilio Rao if ((cpuid & 0xfff) == 0x760) 65532580301SAttilio Rao sc->errata |= A0_ERRATA; 65632580301SAttilio Rao 65732580301SAttilio Rao status = rdmsr(MSR_AMDK7_FIDVID_STATUS); 65832580301SAttilio Rao 65932580301SAttilio Rao switch (sc->pn_type) { 66032580301SAttilio Rao case PN7_TYPE: 66132580301SAttilio Rao maxfid = PN7_STA_MFID(status); 66232580301SAttilio Rao startvid = PN7_STA_SVID(status); 66332580301SAttilio Rao break; 66432580301SAttilio Rao case PN8_TYPE: 66532580301SAttilio Rao maxfid = PN8_STA_MFID(status); 66632580301SAttilio Rao /* 66732580301SAttilio Rao * we should actually use a variable named 'maxvid' if K8, 66832580301SAttilio Rao * but why introducing a new variable for that? 66932580301SAttilio Rao */ 67032580301SAttilio Rao startvid = PN8_STA_MVID(status); 67132580301SAttilio Rao break; 67232580301SAttilio Rao default: 67332580301SAttilio Rao return (ENODEV); 67432580301SAttilio Rao } 67532580301SAttilio Rao 67632580301SAttilio Rao if (bootverbose) { 67732580301SAttilio Rao device_printf(dev, "STATUS: 0x%jx\n", status); 67832580301SAttilio Rao device_printf(dev, "STATUS: maxfid: 0x%02x\n", maxfid); 67932580301SAttilio Rao device_printf(dev, "STATUS: %s: 0x%02x\n", 68032580301SAttilio Rao sc->pn_type == PN7_TYPE ? "startvid" : "maxvid", 68132580301SAttilio Rao startvid); 68232580301SAttilio Rao } 68332580301SAttilio Rao 68432580301SAttilio Rao sig = bios_sigsearch(PSB_START, PSB_SIG, PSB_LEN, PSB_STEP, PSB_OFF); 68532580301SAttilio Rao if (sig) { 68632580301SAttilio Rao struct pst_header *pst; 68732580301SAttilio Rao 68832580301SAttilio Rao psb = (struct psb_header*)(uintptr_t)BIOS_PADDRTOVADDR(sig); 68932580301SAttilio Rao 69032580301SAttilio Rao switch (psb->version) { 69132580301SAttilio Rao default: 69232580301SAttilio Rao return (ENODEV); 69332580301SAttilio Rao case 0x14: 69432580301SAttilio Rao /* 69532580301SAttilio Rao * We can't be picky about numpst since at least 69632580301SAttilio Rao * some systems have a value of 1 and some have 2. 69732580301SAttilio Rao * We trust that cpuid_is_k7() will be better at 69832580301SAttilio Rao * catching that we're on a K8 anyway. 69932580301SAttilio Rao */ 70032580301SAttilio Rao if (sc->pn_type != PN8_TYPE) 70132580301SAttilio Rao return (EINVAL); 70232580301SAttilio Rao sc->vst = psb->settlingtime; 70332580301SAttilio Rao sc->rvo = PN8_PSB_TO_RVO(psb->res1), 70432580301SAttilio Rao sc->irt = PN8_PSB_TO_IRT(psb->res1), 70532580301SAttilio Rao sc->mvs = PN8_PSB_TO_MVS(psb->res1), 70632580301SAttilio Rao sc->low = PN8_PSB_TO_BATT(psb->res1); 70732580301SAttilio Rao if (bootverbose) { 70832580301SAttilio Rao device_printf(dev, "PSB: VST: %d\n", 70932580301SAttilio Rao psb->settlingtime); 71032580301SAttilio Rao device_printf(dev, "PSB: RVO %x IRT %d " 71132580301SAttilio Rao "MVS %d BATT %d\n", 71232580301SAttilio Rao sc->rvo, 71332580301SAttilio Rao sc->irt, 71432580301SAttilio Rao sc->mvs, 71532580301SAttilio Rao sc->low); 71632580301SAttilio Rao } 71732580301SAttilio Rao break; 71832580301SAttilio Rao case 0x12: 71932580301SAttilio Rao if (sc->pn_type != PN7_TYPE) 72032580301SAttilio Rao return (EINVAL); 72132580301SAttilio Rao sc->sgtc = psb->settlingtime * sc->fsb; 72232580301SAttilio Rao if (sc->sgtc < 100 * sc->fsb) 72332580301SAttilio Rao sc->sgtc = 100 * sc->fsb; 72432580301SAttilio Rao break; 72532580301SAttilio Rao } 72632580301SAttilio Rao 72732580301SAttilio Rao p = ((uint8_t *) psb) + sizeof(struct psb_header); 72832580301SAttilio Rao pst = (struct pst_header*) p; 72932580301SAttilio Rao 73032580301SAttilio Rao maxpst = 200; 73132580301SAttilio Rao 73232580301SAttilio Rao do { 73332580301SAttilio Rao struct pst_header *pst = (struct pst_header*) p; 73432580301SAttilio Rao 73532580301SAttilio Rao if (cpuid == pst->cpuid && 73632580301SAttilio Rao maxfid == pst->maxfid && 73732580301SAttilio Rao startvid == pst->startvid) { 73832580301SAttilio Rao sc->powernow_max_states = pst->numpstates; 73932580301SAttilio Rao switch (sc->pn_type) { 74032580301SAttilio Rao case PN7_TYPE: 74132580301SAttilio Rao if (abs(sc->fsb - pst->fsb) > 5) 74232580301SAttilio Rao continue; 74332580301SAttilio Rao break; 74432580301SAttilio Rao case PN8_TYPE: 74532580301SAttilio Rao break; 74632580301SAttilio Rao } 74732580301SAttilio Rao return (decode_pst(sc, 74832580301SAttilio Rao p + sizeof(struct pst_header), 74932580301SAttilio Rao sc->powernow_max_states)); 75032580301SAttilio Rao } 75132580301SAttilio Rao 75232580301SAttilio Rao p += sizeof(struct pst_header) + (2 * pst->numpstates); 75332580301SAttilio Rao } while (cpuid_is_k7(pst->cpuid) && maxpst--); 75432580301SAttilio Rao 75532580301SAttilio Rao device_printf(dev, "no match for extended cpuid %.3x\n", cpuid); 75632580301SAttilio Rao } 75732580301SAttilio Rao 75832580301SAttilio Rao return (ENODEV); 75932580301SAttilio Rao } 76032580301SAttilio Rao 76132580301SAttilio Rao static int 76232580301SAttilio Rao pn_decode_acpi(device_t dev, device_t perf_dev) 76332580301SAttilio Rao { 76432580301SAttilio Rao int i, j, n; 76532580301SAttilio Rao uint64_t status; 76632580301SAttilio Rao uint32_t ctrl; 76732580301SAttilio Rao u_int cpuid; 76832580301SAttilio Rao u_int regs[4]; 76932580301SAttilio Rao struct pn_softc *sc; 77032580301SAttilio Rao struct powernow_state state; 77132580301SAttilio Rao struct cf_setting sets[POWERNOW_MAX_STATES]; 77232580301SAttilio Rao int count = POWERNOW_MAX_STATES; 77332580301SAttilio Rao int type; 77432580301SAttilio Rao int rv; 77532580301SAttilio Rao 77632580301SAttilio Rao if (perf_dev == NULL) 77732580301SAttilio Rao return (ENXIO); 77832580301SAttilio Rao 77932580301SAttilio Rao rv = CPUFREQ_DRV_SETTINGS(perf_dev, sets, &count); 78032580301SAttilio Rao if (rv) 78132580301SAttilio Rao return (ENXIO); 78232580301SAttilio Rao rv = CPUFREQ_DRV_TYPE(perf_dev, &type); 78332580301SAttilio Rao if (rv || (type & CPUFREQ_FLAG_INFO_ONLY) == 0) 78432580301SAttilio Rao return (ENXIO); 78532580301SAttilio Rao 78632580301SAttilio Rao sc = device_get_softc(dev); 78732580301SAttilio Rao 78832580301SAttilio Rao do_cpuid(0x80000001, regs); 78932580301SAttilio Rao cpuid = regs[0]; 79032580301SAttilio Rao if ((cpuid & 0xfff) == 0x760) 79132580301SAttilio Rao sc->errata |= A0_ERRATA; 79232580301SAttilio Rao 79332580301SAttilio Rao ctrl = 0; 79432580301SAttilio Rao sc->sgtc = 0; 79532580301SAttilio Rao for (n = 0, i = 0; i < count; ++i) { 79632580301SAttilio Rao ctrl = sets[i].spec[PX_SPEC_CONTROL]; 79732580301SAttilio Rao switch (sc->pn_type) { 79832580301SAttilio Rao case PN7_TYPE: 79932580301SAttilio Rao state.fid = ACPI_PN7_CTRL_TO_FID(ctrl); 80032580301SAttilio Rao state.vid = ACPI_PN7_CTRL_TO_VID(ctrl); 80132580301SAttilio Rao if ((sc->errata & A0_ERRATA) && 80232580301SAttilio Rao (pn7_fid_to_mult[state.fid] % 10) == 5) 80332580301SAttilio Rao continue; 80432580301SAttilio Rao state.freq = 100 * pn7_fid_to_mult[state.fid] * sc->fsb; 80532580301SAttilio Rao break; 80632580301SAttilio Rao case PN8_TYPE: 80732580301SAttilio Rao state.fid = ACPI_PN8_CTRL_TO_FID(ctrl); 80832580301SAttilio Rao state.vid = ACPI_PN8_CTRL_TO_VID(ctrl); 80932580301SAttilio Rao state.freq = 100 * pn8_fid_to_mult[state.fid] * sc->fsb; 81032580301SAttilio Rao break; 81132580301SAttilio Rao } 81232580301SAttilio Rao 81332580301SAttilio Rao state.power = sets[i].power; 81432580301SAttilio Rao 81532580301SAttilio Rao j = n; 81632580301SAttilio Rao while (j > 0 && sc->powernow_states[j - 1].freq < state.freq) { 81732580301SAttilio Rao memcpy(&sc->powernow_states[j], 81832580301SAttilio Rao &sc->powernow_states[j - 1], 81932580301SAttilio Rao sizeof(struct powernow_state)); 82032580301SAttilio Rao --j; 82132580301SAttilio Rao } 82232580301SAttilio Rao memcpy(&sc->powernow_states[j], &state, 82332580301SAttilio Rao sizeof(struct powernow_state)); 82432580301SAttilio Rao ++n; 82532580301SAttilio Rao } 82632580301SAttilio Rao 82732580301SAttilio Rao sc->powernow_max_states = n; 82832580301SAttilio Rao state = sc->powernow_states[0]; 82932580301SAttilio Rao status = rdmsr(MSR_AMDK7_FIDVID_STATUS); 83032580301SAttilio Rao 83132580301SAttilio Rao switch (sc->pn_type) { 83232580301SAttilio Rao case PN7_TYPE: 83332580301SAttilio Rao sc->sgtc = ACPI_PN7_CTRL_TO_SGTC(ctrl); 83432580301SAttilio Rao /* 83532580301SAttilio Rao * XXX Some bios forget the max frequency! 83632580301SAttilio Rao * This maybe indicates we have the wrong tables. Therefore, 83732580301SAttilio Rao * don't implement a quirk, but fallback to BIOS legacy 83832580301SAttilio Rao * tables instead. 83932580301SAttilio Rao */ 84032580301SAttilio Rao if (PN7_STA_MFID(status) != state.fid) { 84132580301SAttilio Rao device_printf(dev, "ACPI MAX frequency not found\n"); 84232580301SAttilio Rao return (EINVAL); 84332580301SAttilio Rao } 84432580301SAttilio Rao break; 84532580301SAttilio Rao case PN8_TYPE: 84632580301SAttilio Rao sc->vst = ACPI_PN8_CTRL_TO_VST(ctrl), 84732580301SAttilio Rao sc->mvs = ACPI_PN8_CTRL_TO_MVS(ctrl), 84832580301SAttilio Rao sc->pll = ACPI_PN8_CTRL_TO_PLL(ctrl), 84932580301SAttilio Rao sc->rvo = ACPI_PN8_CTRL_TO_RVO(ctrl), 85032580301SAttilio Rao sc->irt = ACPI_PN8_CTRL_TO_IRT(ctrl); 85132580301SAttilio Rao sc->low = 0; /* XXX */ 85232580301SAttilio Rao 85332580301SAttilio Rao /* 85432580301SAttilio Rao * powernow k8 supports only one low frequency. 85532580301SAttilio Rao */ 85632580301SAttilio Rao if (sc->powernow_max_states >= 2 && 85732580301SAttilio Rao (sc->powernow_states[sc->powernow_max_states - 2].fid < 8)) 85832580301SAttilio Rao return (EINVAL); 85932580301SAttilio Rao break; 86032580301SAttilio Rao } 86132580301SAttilio Rao 86232580301SAttilio Rao return (0); 86332580301SAttilio Rao } 86432580301SAttilio Rao 86532580301SAttilio Rao static void 86632580301SAttilio Rao pn_identify(driver_t *driver, device_t parent) 86732580301SAttilio Rao { 86832580301SAttilio Rao 86932580301SAttilio Rao if ((amd_pminfo & AMDPM_FID) == 0 || (amd_pminfo & AMDPM_VID) == 0) 87032580301SAttilio Rao return; 87132580301SAttilio Rao switch (cpu_id & 0xf00) { 87232580301SAttilio Rao case 0x600: 87332580301SAttilio Rao case 0xf00: 87432580301SAttilio Rao break; 87532580301SAttilio Rao default: 87632580301SAttilio Rao return; 87732580301SAttilio Rao } 87832580301SAttilio Rao if (device_find_child(parent, "powernow", -1) != NULL) 87932580301SAttilio Rao return; 88032580301SAttilio Rao if (BUS_ADD_CHILD(parent, 10, "powernow", -1) == NULL) 88132580301SAttilio Rao device_printf(parent, "powernow: add child failed\n"); 88232580301SAttilio Rao } 88332580301SAttilio Rao 88432580301SAttilio Rao static int 88532580301SAttilio Rao pn_probe(device_t dev) 88632580301SAttilio Rao { 88732580301SAttilio Rao struct pn_softc *sc; 88832580301SAttilio Rao uint64_t status; 88932580301SAttilio Rao uint64_t rate; 89032580301SAttilio Rao struct pcpu *pc; 89132580301SAttilio Rao u_int sfid, mfid, cfid; 89232580301SAttilio Rao 89332580301SAttilio Rao sc = device_get_softc(dev); 89432580301SAttilio Rao sc->errata = 0; 89532580301SAttilio Rao status = rdmsr(MSR_AMDK7_FIDVID_STATUS); 89632580301SAttilio Rao 89732580301SAttilio Rao pc = cpu_get_pcpu(dev); 89832580301SAttilio Rao if (pc == NULL) 89932580301SAttilio Rao return (ENODEV); 90032580301SAttilio Rao 90132580301SAttilio Rao cpu_est_clockrate(pc->pc_cpuid, &rate); 90232580301SAttilio Rao 90332580301SAttilio Rao switch (cpu_id & 0xf00) { 90432580301SAttilio Rao case 0x600: 90532580301SAttilio Rao sfid = PN7_STA_SFID(status); 90632580301SAttilio Rao mfid = PN7_STA_MFID(status); 90732580301SAttilio Rao cfid = PN7_STA_CFID(status); 90832580301SAttilio Rao sc->pn_type = PN7_TYPE; 90932580301SAttilio Rao sc->fsb = rate / 100000 / pn7_fid_to_mult[cfid]; 91032580301SAttilio Rao 91132580301SAttilio Rao /* 91232580301SAttilio Rao * If start FID is different to max FID, then it is a 91332580301SAttilio Rao * mobile processor. If not, it is a low powered desktop 91432580301SAttilio Rao * processor. 91532580301SAttilio Rao */ 91632580301SAttilio Rao if (PN7_STA_SFID(status) != PN7_STA_MFID(status)) { 91732580301SAttilio Rao sc->vid_to_volts = pn7_mobile_vid_to_volts; 91832580301SAttilio Rao device_set_desc(dev, "PowerNow! K7"); 91932580301SAttilio Rao } else { 92032580301SAttilio Rao sc->vid_to_volts = pn7_desktop_vid_to_volts; 92132580301SAttilio Rao device_set_desc(dev, "Cool`n'Quiet K7"); 92232580301SAttilio Rao } 92332580301SAttilio Rao break; 92432580301SAttilio Rao 92532580301SAttilio Rao case 0xf00: 92632580301SAttilio Rao sfid = PN8_STA_SFID(status); 92732580301SAttilio Rao mfid = PN8_STA_MFID(status); 92832580301SAttilio Rao cfid = PN8_STA_CFID(status); 92932580301SAttilio Rao sc->pn_type = PN8_TYPE; 93032580301SAttilio Rao sc->vid_to_volts = pn8_vid_to_volts; 93132580301SAttilio Rao sc->fsb = rate / 100000 / pn8_fid_to_mult[cfid]; 93232580301SAttilio Rao 93332580301SAttilio Rao if (PN8_STA_SFID(status) != PN8_STA_MFID(status)) 93432580301SAttilio Rao device_set_desc(dev, "PowerNow! K8"); 93532580301SAttilio Rao else 93632580301SAttilio Rao device_set_desc(dev, "Cool`n'Quiet K8"); 93732580301SAttilio Rao break; 93832580301SAttilio Rao default: 93932580301SAttilio Rao return (ENODEV); 94032580301SAttilio Rao } 94132580301SAttilio Rao 94232580301SAttilio Rao return (0); 94332580301SAttilio Rao } 94432580301SAttilio Rao 94532580301SAttilio Rao static int 94632580301SAttilio Rao pn_attach(device_t dev) 94732580301SAttilio Rao { 94832580301SAttilio Rao int rv; 94932580301SAttilio Rao device_t child; 95032580301SAttilio Rao 95132580301SAttilio Rao child = device_find_child(device_get_parent(dev), "acpi_perf", -1); 95232580301SAttilio Rao if (child) { 95332580301SAttilio Rao rv = pn_decode_acpi(dev, child); 95432580301SAttilio Rao if (rv) 95532580301SAttilio Rao rv = pn_decode_pst(dev); 95632580301SAttilio Rao } else 95732580301SAttilio Rao rv = pn_decode_pst(dev); 95832580301SAttilio Rao 95932580301SAttilio Rao if (rv != 0) 96032580301SAttilio Rao return (ENXIO); 96132580301SAttilio Rao cpufreq_register(dev); 96232580301SAttilio Rao return (0); 96332580301SAttilio Rao } 96432580301SAttilio Rao 96532580301SAttilio Rao static int 96632580301SAttilio Rao pn_detach(device_t dev) 96732580301SAttilio Rao { 96832580301SAttilio Rao 96932580301SAttilio Rao return (cpufreq_unregister(dev)); 97032580301SAttilio Rao } 971