1fc1f75e5SRui Paulo /*- 2718cf2ccSPedro F. Giffuni * SPDX-License-Identifier: BSD-2-Clause-FreeBSD 3718cf2ccSPedro F. Giffuni * 4454e82d7SRui Paulo * Copyright (c) 2008, 2009 Rui Paulo <rpaulo@FreeBSD.org> 5454e82d7SRui Paulo * Copyright (c) 2009 Norikatsu Shigemura <nork@FreeBSD.org> 6074d80acSJung-uk Kim * Copyright (c) 2009-2012 Jung-uk Kim <jkim@FreeBSD.org> 7fc1f75e5SRui Paulo * All rights reserved. 8c59b9a4fSConrad Meyer * Copyright (c) 2017-2020 Conrad Meyer <cem@FreeBSD.org>. All rights reserved. 9fc1f75e5SRui Paulo * 10fc1f75e5SRui Paulo * Redistribution and use in source and binary forms, with or without 11fc1f75e5SRui Paulo * modification, are permitted provided that the following conditions 12fc1f75e5SRui Paulo * are met: 13fc1f75e5SRui Paulo * 1. Redistributions of source code must retain the above copyright 14fc1f75e5SRui Paulo * notice, this list of conditions and the following disclaimer. 15fc1f75e5SRui Paulo * 2. Redistributions in binary form must reproduce the above copyright 16fc1f75e5SRui Paulo * notice, this list of conditions and the following disclaimer in the 17fc1f75e5SRui Paulo * documentation and/or other materials provided with the distribution. 18fc1f75e5SRui Paulo * 19fc1f75e5SRui Paulo * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 20fc1f75e5SRui Paulo * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED 21fc1f75e5SRui Paulo * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE 22fc1f75e5SRui Paulo * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, 23fc1f75e5SRui Paulo * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES 24fc1f75e5SRui Paulo * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR 25fc1f75e5SRui Paulo * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 26fc1f75e5SRui Paulo * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, 27fc1f75e5SRui Paulo * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN 28fc1f75e5SRui Paulo * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29fc1f75e5SRui Paulo * POSSIBILITY OF SUCH DAMAGE. 30fc1f75e5SRui Paulo */ 31fc1f75e5SRui Paulo 32fc1f75e5SRui Paulo /* 33074d80acSJung-uk Kim * Driver for the AMD CPU on-die thermal sensors. 34a4165bbaSJung-uk Kim * Initially based on the k8temp Linux driver. 35fc1f75e5SRui Paulo */ 36fc1f75e5SRui Paulo 37fc1f75e5SRui Paulo #include <sys/cdefs.h> 38fc1f75e5SRui Paulo __FBSDID("$FreeBSD$"); 39fc1f75e5SRui Paulo 40fc1f75e5SRui Paulo #include <sys/param.h> 41fc1f75e5SRui Paulo #include <sys/bus.h> 42fc1f75e5SRui Paulo #include <sys/conf.h> 43fc1f75e5SRui Paulo #include <sys/kernel.h> 44a4165bbaSJung-uk Kim #include <sys/module.h> 45fc1f75e5SRui Paulo #include <sys/sysctl.h> 46a4165bbaSJung-uk Kim #include <sys/systm.h> 47fc1f75e5SRui Paulo 48fdfa6079SJung-uk Kim #include <machine/cpufunc.h> 49fc1f75e5SRui Paulo #include <machine/md_var.h> 50a4165bbaSJung-uk Kim #include <machine/specialreg.h> 51fc1f75e5SRui Paulo 52fc1f75e5SRui Paulo #include <dev/pci/pcivar.h> 53074d80acSJung-uk Kim #include <x86/pci_cfgreg.h> 54fc1f75e5SRui Paulo 55a03d621bSConrad Meyer #include <dev/amdsmn/amdsmn.h> 56a03d621bSConrad Meyer 57fc1f75e5SRui Paulo typedef enum { 58074d80acSJung-uk Kim CORE0_SENSOR0, 59074d80acSJung-uk Kim CORE0_SENSOR1, 60074d80acSJung-uk Kim CORE1_SENSOR0, 61074d80acSJung-uk Kim CORE1_SENSOR1, 62fc1f75e5SRui Paulo CORE0, 63c59b9a4fSConrad Meyer CORE1, 64c59b9a4fSConrad Meyer CCD1, 65c59b9a4fSConrad Meyer CCD_BASE = CCD1, 66c59b9a4fSConrad Meyer CCD2, 67c59b9a4fSConrad Meyer CCD3, 68c59b9a4fSConrad Meyer CCD4, 69c59b9a4fSConrad Meyer CCD5, 70c59b9a4fSConrad Meyer CCD6, 71c59b9a4fSConrad Meyer CCD7, 72c59b9a4fSConrad Meyer CCD8, 73c59b9a4fSConrad Meyer CCD_MAX = CCD8, 74c59b9a4fSConrad Meyer NUM_CCDS = CCD_MAX - CCD_BASE + 1, 75454e82d7SRui Paulo } amdsensor_t; 76454e82d7SRui Paulo 77454e82d7SRui Paulo struct amdtemp_softc { 78a4165bbaSJung-uk Kim int sc_ncores; 79454e82d7SRui Paulo int sc_ntemps; 80fdfa6079SJung-uk Kim int sc_flags; 81074d80acSJung-uk Kim #define AMDTEMP_FLAG_CS_SWAP 0x01 /* ThermSenseCoreSel is inverted. */ 82074d80acSJung-uk Kim #define AMDTEMP_FLAG_CT_10BIT 0x02 /* CurTmp is 10-bit wide. */ 83074d80acSJung-uk Kim #define AMDTEMP_FLAG_ALT_OFFSET 0x04 /* CurTmp starts at -28C. */ 84074d80acSJung-uk Kim int32_t sc_offset; 85454e82d7SRui Paulo int32_t (*sc_gettemp)(device_t, amdsensor_t); 86a4165bbaSJung-uk Kim struct sysctl_oid *sc_sysctl_cpu[MAXCPU]; 87a4165bbaSJung-uk Kim struct intr_config_hook sc_ich; 88a03d621bSConrad Meyer device_t sc_smn; 89454e82d7SRui Paulo }; 90454e82d7SRui Paulo 91e49ec461SConrad Meyer /* 92e49ec461SConrad Meyer * N.B. The numbers in macro names below are significant and represent CPU 93e49ec461SConrad Meyer * family and model numbers. Do not make up fictitious family or model numbers 94e49ec461SConrad Meyer * when adding support for new devices. 95e49ec461SConrad Meyer */ 96454e82d7SRui Paulo #define VENDORID_AMD 0x1022 97454e82d7SRui Paulo #define DEVICEID_AMD_MISC0F 0x1103 98454e82d7SRui Paulo #define DEVICEID_AMD_MISC10 0x1203 99454e82d7SRui Paulo #define DEVICEID_AMD_MISC11 0x1303 100074d80acSJung-uk Kim #define DEVICEID_AMD_MISC14 0x1703 101074d80acSJung-uk Kim #define DEVICEID_AMD_MISC15 0x1603 102e49ec461SConrad Meyer #define DEVICEID_AMD_MISC15_M10H 0x1403 103e49ec461SConrad Meyer #define DEVICEID_AMD_MISC15_M30H 0x141d 104e49ec461SConrad Meyer #define DEVICEID_AMD_MISC15_M60H_ROOT 0x1576 1052b56f12bSChristian Brueffer #define DEVICEID_AMD_MISC16 0x1533 106df20515dSLuiz Otavio O Souza #define DEVICEID_AMD_MISC16_M30H 0x1583 1079d49c422SConrad Meyer #define DEVICEID_AMD_HOSTB17H_ROOT 0x1450 1089d49c422SConrad Meyer #define DEVICEID_AMD_HOSTB17H_M10H_ROOT 0x15d0 109ea6189d3SConrad Meyer #define DEVICEID_AMD_HOSTB17H_M30H_ROOT 0x1480 /* Also M70H, F19H M00H/M20H */ 1105b505170SConrad Meyer #define DEVICEID_AMD_HOSTB17H_M60H_ROOT 0x1630 111454e82d7SRui Paulo 112e49ec461SConrad Meyer static const struct amdtemp_product { 113454e82d7SRui Paulo uint16_t amdtemp_vendorid; 114454e82d7SRui Paulo uint16_t amdtemp_deviceid; 115e49ec461SConrad Meyer /* 116e49ec461SConrad Meyer * 0xFC register is only valid on the D18F3 PCI device; SMN temp 117e49ec461SConrad Meyer * drivers do not attach to that device. 118e49ec461SConrad Meyer */ 119e49ec461SConrad Meyer bool amdtemp_has_cpuid; 120454e82d7SRui Paulo } amdtemp_products[] = { 121e49ec461SConrad Meyer { VENDORID_AMD, DEVICEID_AMD_MISC0F, true }, 122e49ec461SConrad Meyer { VENDORID_AMD, DEVICEID_AMD_MISC10, true }, 123e49ec461SConrad Meyer { VENDORID_AMD, DEVICEID_AMD_MISC11, true }, 124e49ec461SConrad Meyer { VENDORID_AMD, DEVICEID_AMD_MISC14, true }, 125e49ec461SConrad Meyer { VENDORID_AMD, DEVICEID_AMD_MISC15, true }, 126e49ec461SConrad Meyer { VENDORID_AMD, DEVICEID_AMD_MISC15_M10H, true }, 127e49ec461SConrad Meyer { VENDORID_AMD, DEVICEID_AMD_MISC15_M30H, true }, 128e49ec461SConrad Meyer { VENDORID_AMD, DEVICEID_AMD_MISC15_M60H_ROOT, false }, 129e49ec461SConrad Meyer { VENDORID_AMD, DEVICEID_AMD_MISC16, true }, 130e49ec461SConrad Meyer { VENDORID_AMD, DEVICEID_AMD_MISC16_M30H, true }, 131e49ec461SConrad Meyer { VENDORID_AMD, DEVICEID_AMD_HOSTB17H_ROOT, false }, 132e49ec461SConrad Meyer { VENDORID_AMD, DEVICEID_AMD_HOSTB17H_M10H_ROOT, false }, 13385dbddbeSConrad Meyer { VENDORID_AMD, DEVICEID_AMD_HOSTB17H_M30H_ROOT, false }, 1345b505170SConrad Meyer { VENDORID_AMD, DEVICEID_AMD_HOSTB17H_M60H_ROOT, false }, 135454e82d7SRui Paulo }; 136454e82d7SRui Paulo 137454e82d7SRui Paulo /* 138e49ec461SConrad Meyer * Reported Temperature Control Register, family 0Fh-15h (some models), 16h. 139454e82d7SRui Paulo */ 140a4165bbaSJung-uk Kim #define AMDTEMP_REPTMP_CTRL 0xa4 141454e82d7SRui Paulo 142e49ec461SConrad Meyer #define AMDTEMP_REPTMP10H_CURTMP_MASK 0x7ff 143e49ec461SConrad Meyer #define AMDTEMP_REPTMP10H_CURTMP_SHIFT 21 144e49ec461SConrad Meyer #define AMDTEMP_REPTMP10H_TJSEL_MASK 0x3 145e49ec461SConrad Meyer #define AMDTEMP_REPTMP10H_TJSEL_SHIFT 16 146e49ec461SConrad Meyer 147e49ec461SConrad Meyer /* 148e49ec461SConrad Meyer * Reported Temperature, Family 15h, M60+ 149e49ec461SConrad Meyer * 150e49ec461SConrad Meyer * Same register bit definitions as other Family 15h CPUs, but access is 151e49ec461SConrad Meyer * indirect via SMN, like Family 17h. 152e49ec461SConrad Meyer */ 153e49ec461SConrad Meyer #define AMDTEMP_15H_M60H_REPTMP_CTRL 0xd8200ca4 154e49ec461SConrad Meyer 155454e82d7SRui Paulo /* 156a03d621bSConrad Meyer * Reported Temperature, Family 17h 157fbd5d782SConrad Meyer * 158fbd5d782SConrad Meyer * According to AMD OSRR for 17H, section 4.2.1, bits 31-21 of this register 159fbd5d782SConrad Meyer * provide the current temp. bit 19, when clear, means the temp is reported in 160fbd5d782SConrad Meyer * a range 0.."225C" (probable typo for 255C), and when set changes the range 161fbd5d782SConrad Meyer * to -49..206C. 162a03d621bSConrad Meyer */ 163a03d621bSConrad Meyer #define AMDTEMP_17H_CUR_TMP 0x59800 164c59b9a4fSConrad Meyer #define AMDTEMP_17H_CUR_TMP_RANGE_SEL (1u << 19) 165c59b9a4fSConrad Meyer /* 166c59b9a4fSConrad Meyer * The following register set was discovered experimentally by Ondrej Čerman 167c59b9a4fSConrad Meyer * and collaborators, but is not (yet) documented in a PPR/OSRR (other than 168c59b9a4fSConrad Meyer * the M70H PPR SMN memory map showing [0x59800, +0x314] as allocated to 169c59b9a4fSConrad Meyer * SMU::THM). It seems plausible and the Linux sensor folks have adopted it. 170c59b9a4fSConrad Meyer */ 171c59b9a4fSConrad Meyer #define AMDTEMP_17H_CCD_TMP_BASE 0x59954 172c59b9a4fSConrad Meyer #define AMDTEMP_17H_CCD_TMP_VALID (1u << 11) 173e49ec461SConrad Meyer 174e49ec461SConrad Meyer /* 175e49ec461SConrad Meyer * AMD temperature range adjustment, in deciKelvins (i.e., 49.0 Celsius). 176e49ec461SConrad Meyer */ 177e49ec461SConrad Meyer #define AMDTEMP_CURTMP_RANGE_ADJUST 490 178a03d621bSConrad Meyer 179a03d621bSConrad Meyer /* 180074d80acSJung-uk Kim * Thermaltrip Status Register (Family 0Fh only) 181454e82d7SRui Paulo */ 182a4165bbaSJung-uk Kim #define AMDTEMP_THERMTP_STAT 0xe4 183074d80acSJung-uk Kim #define AMDTEMP_TTSR_SELCORE 0x04 184074d80acSJung-uk Kim #define AMDTEMP_TTSR_SELSENSOR 0x40 185074d80acSJung-uk Kim 186074d80acSJung-uk Kim /* 187074d80acSJung-uk Kim * DRAM Configuration High Register 188074d80acSJung-uk Kim */ 189074d80acSJung-uk Kim #define AMDTEMP_DRAM_CONF_HIGH 0x94 /* Function 2 */ 190074d80acSJung-uk Kim #define AMDTEMP_DRAM_MODE_DDR3 0x0100 191454e82d7SRui Paulo 192a4165bbaSJung-uk Kim /* 193a4165bbaSJung-uk Kim * CPU Family/Model Register 194a4165bbaSJung-uk Kim */ 195a4165bbaSJung-uk Kim #define AMDTEMP_CPUID 0xfc 196fc1f75e5SRui Paulo 197fc1f75e5SRui Paulo /* 198fc1f75e5SRui Paulo * Device methods. 199fc1f75e5SRui Paulo */ 200454e82d7SRui Paulo static void amdtemp_identify(driver_t *driver, device_t parent); 201454e82d7SRui Paulo static int amdtemp_probe(device_t dev); 202454e82d7SRui Paulo static int amdtemp_attach(device_t dev); 203454e82d7SRui Paulo static void amdtemp_intrhook(void *arg); 204454e82d7SRui Paulo static int amdtemp_detach(device_t dev); 205454e82d7SRui Paulo static int32_t amdtemp_gettemp0f(device_t dev, amdsensor_t sensor); 206454e82d7SRui Paulo static int32_t amdtemp_gettemp(device_t dev, amdsensor_t sensor); 207e49ec461SConrad Meyer static int32_t amdtemp_gettemp15hm60h(device_t dev, amdsensor_t sensor); 208a03d621bSConrad Meyer static int32_t amdtemp_gettemp17h(device_t dev, amdsensor_t sensor); 209c59b9a4fSConrad Meyer static void amdtemp_probe_ccd_sensors17h(device_t dev, uint32_t model); 210ea6189d3SConrad Meyer static void amdtemp_probe_ccd_sensors19h(device_t dev, uint32_t model); 211454e82d7SRui Paulo static int amdtemp_sysctl(SYSCTL_HANDLER_ARGS); 212fc1f75e5SRui Paulo 213454e82d7SRui Paulo static device_method_t amdtemp_methods[] = { 214fc1f75e5SRui Paulo /* Device interface */ 215454e82d7SRui Paulo DEVMETHOD(device_identify, amdtemp_identify), 216454e82d7SRui Paulo DEVMETHOD(device_probe, amdtemp_probe), 217454e82d7SRui Paulo DEVMETHOD(device_attach, amdtemp_attach), 218454e82d7SRui Paulo DEVMETHOD(device_detach, amdtemp_detach), 219fc1f75e5SRui Paulo 22061bfd867SSofian Brabez DEVMETHOD_END 221fc1f75e5SRui Paulo }; 222fc1f75e5SRui Paulo 223454e82d7SRui Paulo static driver_t amdtemp_driver = { 224454e82d7SRui Paulo "amdtemp", 225454e82d7SRui Paulo amdtemp_methods, 226454e82d7SRui Paulo sizeof(struct amdtemp_softc), 227fc1f75e5SRui Paulo }; 228fc1f75e5SRui Paulo 229454e82d7SRui Paulo static devclass_t amdtemp_devclass; 230454e82d7SRui Paulo DRIVER_MODULE(amdtemp, hostb, amdtemp_driver, amdtemp_devclass, NULL, NULL); 231a03d621bSConrad Meyer MODULE_VERSION(amdtemp, 1); 232a03d621bSConrad Meyer MODULE_DEPEND(amdtemp, amdsmn, 1, 1, 1); 233a64bf59cSConrad Meyer MODULE_PNP_INFO("U16:vendor;U16:device", pci, amdtemp, amdtemp_products, 234329e817fSWarner Losh nitems(amdtemp_products)); 235fc1f75e5SRui Paulo 236e49ec461SConrad Meyer static bool 237e49ec461SConrad Meyer amdtemp_match(device_t dev, const struct amdtemp_product **product_out) 238fc1f75e5SRui Paulo { 239fc1f75e5SRui Paulo int i; 240fc1f75e5SRui Paulo uint16_t vendor, devid; 241fc1f75e5SRui Paulo 242fc1f75e5SRui Paulo vendor = pci_get_vendor(dev); 243fc1f75e5SRui Paulo devid = pci_get_device(dev); 244fc1f75e5SRui Paulo 245a64bf59cSConrad Meyer for (i = 0; i < nitems(amdtemp_products); i++) { 246454e82d7SRui Paulo if (vendor == amdtemp_products[i].amdtemp_vendorid && 247e49ec461SConrad Meyer devid == amdtemp_products[i].amdtemp_deviceid) { 248e49ec461SConrad Meyer if (product_out != NULL) 249e49ec461SConrad Meyer *product_out = &amdtemp_products[i]; 250e49ec461SConrad Meyer return (true); 251fc1f75e5SRui Paulo } 252e49ec461SConrad Meyer } 253e49ec461SConrad Meyer return (false); 254fc1f75e5SRui Paulo } 255fc1f75e5SRui Paulo 256fc1f75e5SRui Paulo static void 257454e82d7SRui Paulo amdtemp_identify(driver_t *driver, device_t parent) 258fc1f75e5SRui Paulo { 259fc1f75e5SRui Paulo device_t child; 260fc1f75e5SRui Paulo 261fc1f75e5SRui Paulo /* Make sure we're not being doubly invoked. */ 262454e82d7SRui Paulo if (device_find_child(parent, "amdtemp", -1) != NULL) 263fc1f75e5SRui Paulo return; 264fc1f75e5SRui Paulo 265e49ec461SConrad Meyer if (amdtemp_match(parent, NULL)) { 266db0ac6deSCy Schubert child = device_add_child(parent, "amdtemp", -1); 267fc1f75e5SRui Paulo if (child == NULL) 268454e82d7SRui Paulo device_printf(parent, "add amdtemp child failed\n"); 269fc1f75e5SRui Paulo } 270fc1f75e5SRui Paulo } 271fc1f75e5SRui Paulo 272fc1f75e5SRui Paulo static int 273454e82d7SRui Paulo amdtemp_probe(device_t dev) 274fc1f75e5SRui Paulo { 275fdfa6079SJung-uk Kim uint32_t family, model; 276fc1f75e5SRui Paulo 277a8de37b0SEitan Adler if (resource_disabled("amdtemp", 0)) 278a8de37b0SEitan Adler return (ENXIO); 279e49ec461SConrad Meyer if (!amdtemp_match(device_get_parent(dev), NULL)) 28040f7bccbSConrad Meyer return (ENXIO); 281a8de37b0SEitan Adler 282fdfa6079SJung-uk Kim family = CPUID_TO_FAMILY(cpu_id); 283fdfa6079SJung-uk Kim model = CPUID_TO_MODEL(cpu_id); 284a4165bbaSJung-uk Kim 285a4165bbaSJung-uk Kim switch (family) { 286a4165bbaSJung-uk Kim case 0x0f: 287fdfa6079SJung-uk Kim if ((model == 0x04 && (cpu_id & CPUID_STEPPING) == 0) || 288fdfa6079SJung-uk Kim (model == 0x05 && (cpu_id & CPUID_STEPPING) <= 1)) 289a4165bbaSJung-uk Kim return (ENXIO); 290a4165bbaSJung-uk Kim break; 291a4165bbaSJung-uk Kim case 0x10: 292a4165bbaSJung-uk Kim case 0x11: 293074d80acSJung-uk Kim case 0x12: 294074d80acSJung-uk Kim case 0x14: 295074d80acSJung-uk Kim case 0x15: 2962b56f12bSChristian Brueffer case 0x16: 297a03d621bSConrad Meyer case 0x17: 298ea6189d3SConrad Meyer case 0x19: 299a4165bbaSJung-uk Kim break; 300a4165bbaSJung-uk Kim default: 301fc1f75e5SRui Paulo return (ENXIO); 302fc1f75e5SRui Paulo } 303a4165bbaSJung-uk Kim device_set_desc(dev, "AMD CPU On-Die Thermal Sensors"); 304fc1f75e5SRui Paulo 305fc1f75e5SRui Paulo return (BUS_PROBE_GENERIC); 306fc1f75e5SRui Paulo } 307fc1f75e5SRui Paulo 308fc1f75e5SRui Paulo static int 309454e82d7SRui Paulo amdtemp_attach(device_t dev) 310fc1f75e5SRui Paulo { 311074d80acSJung-uk Kim char tn[32]; 312074d80acSJung-uk Kim u_int regs[4]; 313e49ec461SConrad Meyer const struct amdtemp_product *product; 314e49ec461SConrad Meyer struct amdtemp_softc *sc; 315fc1f75e5SRui Paulo struct sysctl_ctx_list *sysctlctx; 316fc1f75e5SRui Paulo struct sysctl_oid *sysctlnode; 317a4165bbaSJung-uk Kim uint32_t cpuid, family, model; 318074d80acSJung-uk Kim u_int bid; 319074d80acSJung-uk Kim int erratum319, unit; 320e49ec461SConrad Meyer bool needsmn; 321fc1f75e5SRui Paulo 322e49ec461SConrad Meyer sc = device_get_softc(dev); 323074d80acSJung-uk Kim erratum319 = 0; 324e49ec461SConrad Meyer needsmn = false; 325fdfa6079SJung-uk Kim 326e49ec461SConrad Meyer if (!amdtemp_match(device_get_parent(dev), &product)) 327e49ec461SConrad Meyer return (ENXIO); 328e49ec461SConrad Meyer 329074d80acSJung-uk Kim cpuid = cpu_id; 330074d80acSJung-uk Kim family = CPUID_TO_FAMILY(cpuid); 331074d80acSJung-uk Kim model = CPUID_TO_MODEL(cpuid); 332e49ec461SConrad Meyer 333e49ec461SConrad Meyer /* 334e49ec461SConrad Meyer * This checks for the byzantine condition of running a heterogenous 335e49ec461SConrad Meyer * revision multi-socket system where the attach thread is potentially 336e49ec461SConrad Meyer * probing a remote socket's PCI device. 337e49ec461SConrad Meyer * 338e49ec461SConrad Meyer * Currently, such scenarios are unsupported on models using the SMN 339e49ec461SConrad Meyer * (because on those models, amdtemp(4) attaches to a different PCI 340e49ec461SConrad Meyer * device than the one that contains AMDTEMP_CPUID). 341e49ec461SConrad Meyer * 342e49ec461SConrad Meyer * The ancient 0x0F family of devices only supports this register from 343e49ec461SConrad Meyer * models 40h+. 344e49ec461SConrad Meyer */ 345e49ec461SConrad Meyer if (product->amdtemp_has_cpuid && (family > 0x0f || 346e49ec461SConrad Meyer (family == 0x0f && model >= 0x40))) { 347e49ec461SConrad Meyer cpuid = pci_read_config(device_get_parent(dev), AMDTEMP_CPUID, 348e49ec461SConrad Meyer 4); 349a4165bbaSJung-uk Kim family = CPUID_TO_FAMILY(cpuid); 350a4165bbaSJung-uk Kim model = CPUID_TO_MODEL(cpuid); 351fdfa6079SJung-uk Kim } 352a4165bbaSJung-uk Kim 353a4165bbaSJung-uk Kim switch (family) { 354a4165bbaSJung-uk Kim case 0x0f: 355a4165bbaSJung-uk Kim /* 356fdfa6079SJung-uk Kim * Thermaltrip Status Register 357fdfa6079SJung-uk Kim * 358fdfa6079SJung-uk Kim * - ThermSenseCoreSel 359fdfa6079SJung-uk Kim * 360fdfa6079SJung-uk Kim * Revision F & G: 0 - Core1, 1 - Core0 361fdfa6079SJung-uk Kim * Other: 0 - Core0, 1 - Core1 362fdfa6079SJung-uk Kim * 363fdfa6079SJung-uk Kim * - CurTmp 364a4165bbaSJung-uk Kim * 365a4165bbaSJung-uk Kim * Revision G: bits 23-14 366fdfa6079SJung-uk Kim * Other: bits 23-16 367a4165bbaSJung-uk Kim * 368fdfa6079SJung-uk Kim * XXX According to the BKDG, CurTmp, ThermSenseSel and 369fdfa6079SJung-uk Kim * ThermSenseCoreSel bits were introduced in Revision F 370fdfa6079SJung-uk Kim * but CurTmp seems working fine as early as Revision C. 371fdfa6079SJung-uk Kim * However, it is not clear whether ThermSenseSel and/or 372fdfa6079SJung-uk Kim * ThermSenseCoreSel work in undocumented cases as well. 373fdfa6079SJung-uk Kim * In fact, the Linux driver suggests it may not work but 374fdfa6079SJung-uk Kim * we just assume it does until we find otherwise. 375074d80acSJung-uk Kim * 376074d80acSJung-uk Kim * XXX According to Linux, CurTmp starts at -28C on 377074d80acSJung-uk Kim * Socket AM2 Revision G processors, which is not 378074d80acSJung-uk Kim * documented anywhere. 379fc1f75e5SRui Paulo */ 380074d80acSJung-uk Kim if (model >= 0x40) 381fdfa6079SJung-uk Kim sc->sc_flags |= AMDTEMP_FLAG_CS_SWAP; 382074d80acSJung-uk Kim if (model >= 0x60 && model != 0xc1) { 383074d80acSJung-uk Kim do_cpuid(0x80000001, regs); 384074d80acSJung-uk Kim bid = (regs[1] >> 9) & 0x1f; 385074d80acSJung-uk Kim switch (model) { 386074d80acSJung-uk Kim case 0x68: /* Socket S1g1 */ 387074d80acSJung-uk Kim case 0x6c: 388074d80acSJung-uk Kim case 0x7c: 389074d80acSJung-uk Kim break; 390074d80acSJung-uk Kim case 0x6b: /* Socket AM2 and ASB1 (2 cores) */ 391074d80acSJung-uk Kim if (bid != 0x0b && bid != 0x0c) 392074d80acSJung-uk Kim sc->sc_flags |= 393074d80acSJung-uk Kim AMDTEMP_FLAG_ALT_OFFSET; 394074d80acSJung-uk Kim break; 395074d80acSJung-uk Kim case 0x6f: /* Socket AM2 and ASB1 (1 core) */ 396074d80acSJung-uk Kim case 0x7f: 397074d80acSJung-uk Kim if (bid != 0x07 && bid != 0x09 && 398074d80acSJung-uk Kim bid != 0x0c) 399074d80acSJung-uk Kim sc->sc_flags |= 400074d80acSJung-uk Kim AMDTEMP_FLAG_ALT_OFFSET; 401074d80acSJung-uk Kim break; 402074d80acSJung-uk Kim default: 403074d80acSJung-uk Kim sc->sc_flags |= AMDTEMP_FLAG_ALT_OFFSET; 404074d80acSJung-uk Kim } 405fdfa6079SJung-uk Kim sc->sc_flags |= AMDTEMP_FLAG_CT_10BIT; 406fdfa6079SJung-uk Kim } 407a4165bbaSJung-uk Kim 408a4165bbaSJung-uk Kim /* 409a4165bbaSJung-uk Kim * There are two sensors per core. 410a4165bbaSJung-uk Kim */ 411a4165bbaSJung-uk Kim sc->sc_ntemps = 2; 412a4165bbaSJung-uk Kim 413a4165bbaSJung-uk Kim sc->sc_gettemp = amdtemp_gettemp0f; 414a4165bbaSJung-uk Kim break; 415a4165bbaSJung-uk Kim case 0x10: 416074d80acSJung-uk Kim /* 417074d80acSJung-uk Kim * Erratum 319 Inaccurate Temperature Measurement 418074d80acSJung-uk Kim * 419074d80acSJung-uk Kim * http://support.amd.com/us/Processor_TechDocs/41322.pdf 420074d80acSJung-uk Kim */ 421074d80acSJung-uk Kim do_cpuid(0x80000001, regs); 422074d80acSJung-uk Kim switch ((regs[1] >> 28) & 0xf) { 423074d80acSJung-uk Kim case 0: /* Socket F */ 424074d80acSJung-uk Kim erratum319 = 1; 425074d80acSJung-uk Kim break; 426074d80acSJung-uk Kim case 1: /* Socket AM2+ or AM3 */ 427074d80acSJung-uk Kim if ((pci_cfgregread(pci_get_bus(dev), 428074d80acSJung-uk Kim pci_get_slot(dev), 2, AMDTEMP_DRAM_CONF_HIGH, 2) & 429074d80acSJung-uk Kim AMDTEMP_DRAM_MODE_DDR3) != 0 || model > 0x04 || 430074d80acSJung-uk Kim (model == 0x04 && (cpuid & CPUID_STEPPING) >= 3)) 431074d80acSJung-uk Kim break; 432074d80acSJung-uk Kim /* XXX 00100F42h (RB-C2) exists in both formats. */ 433074d80acSJung-uk Kim erratum319 = 1; 434074d80acSJung-uk Kim break; 435074d80acSJung-uk Kim } 436074d80acSJung-uk Kim /* FALLTHROUGH */ 437a4165bbaSJung-uk Kim case 0x11: 438074d80acSJung-uk Kim case 0x12: 439074d80acSJung-uk Kim case 0x14: 440074d80acSJung-uk Kim case 0x15: 4412b56f12bSChristian Brueffer case 0x16: 442a4165bbaSJung-uk Kim sc->sc_ntemps = 1; 443e49ec461SConrad Meyer /* 444e49ec461SConrad Meyer * Some later (60h+) models of family 15h use a similar SMN 445e49ec461SConrad Meyer * network as family 17h. (However, the register index differs 446e49ec461SConrad Meyer * from 17h and the decoding matches other 10h-15h models, 447e49ec461SConrad Meyer * which differ from 17h.) 448e49ec461SConrad Meyer */ 449e49ec461SConrad Meyer if (family == 0x15 && model >= 0x60) { 450e49ec461SConrad Meyer sc->sc_gettemp = amdtemp_gettemp15hm60h; 451e49ec461SConrad Meyer needsmn = true; 452e49ec461SConrad Meyer } else 453a4165bbaSJung-uk Kim sc->sc_gettemp = amdtemp_gettemp; 454a4165bbaSJung-uk Kim break; 455a03d621bSConrad Meyer case 0x17: 456ea6189d3SConrad Meyer case 0x19: 457a03d621bSConrad Meyer sc->sc_ntemps = 1; 458a03d621bSConrad Meyer sc->sc_gettemp = amdtemp_gettemp17h; 459e49ec461SConrad Meyer needsmn = true; 460e49ec461SConrad Meyer break; 461e49ec461SConrad Meyer default: 462e49ec461SConrad Meyer device_printf(dev, "Bogus family 0x%x\n", family); 463e49ec461SConrad Meyer return (ENXIO); 464e49ec461SConrad Meyer } 465e49ec461SConrad Meyer 466e49ec461SConrad Meyer if (needsmn) { 467a03d621bSConrad Meyer sc->sc_smn = device_find_child( 468a03d621bSConrad Meyer device_get_parent(dev), "amdsmn", -1); 469a03d621bSConrad Meyer if (sc->sc_smn == NULL) { 470a03d621bSConrad Meyer if (bootverbose) 471a03d621bSConrad Meyer device_printf(dev, "No SMN device found\n"); 472a03d621bSConrad Meyer return (ENXIO); 473a03d621bSConrad Meyer } 474fc1f75e5SRui Paulo } 475fc1f75e5SRui Paulo 476a4165bbaSJung-uk Kim /* Find number of cores per package. */ 477a4165bbaSJung-uk Kim sc->sc_ncores = (amd_feature2 & AMDID2_CMP) != 0 ? 478a4165bbaSJung-uk Kim (cpu_procinfo2 & AMDID_CMP_CORES) + 1 : 1; 479a4165bbaSJung-uk Kim if (sc->sc_ncores > MAXCPU) 480a4165bbaSJung-uk Kim return (ENXIO); 481a4165bbaSJung-uk Kim 482074d80acSJung-uk Kim if (erratum319) 483074d80acSJung-uk Kim device_printf(dev, 484074d80acSJung-uk Kim "Erratum 319: temperature measurement may be inaccurate\n"); 485a4165bbaSJung-uk Kim if (bootverbose) 486a4165bbaSJung-uk Kim device_printf(dev, "Found %d cores and %d sensors.\n", 487a4165bbaSJung-uk Kim sc->sc_ncores, 488a4165bbaSJung-uk Kim sc->sc_ntemps > 1 ? sc->sc_ntemps * sc->sc_ncores : 1); 489454e82d7SRui Paulo 490fc1f75e5SRui Paulo /* 491454e82d7SRui Paulo * dev.amdtemp.N tree. 492fc1f75e5SRui Paulo */ 493074d80acSJung-uk Kim unit = device_get_unit(dev); 494074d80acSJung-uk Kim snprintf(tn, sizeof(tn), "dev.amdtemp.%d.sensor_offset", unit); 495074d80acSJung-uk Kim TUNABLE_INT_FETCH(tn, &sc->sc_offset); 496074d80acSJung-uk Kim 497fc1f75e5SRui Paulo sysctlctx = device_get_sysctl_ctx(dev); 498074d80acSJung-uk Kim SYSCTL_ADD_INT(sysctlctx, 499074d80acSJung-uk Kim SYSCTL_CHILDREN(device_get_sysctl_tree(dev)), OID_AUTO, 500074d80acSJung-uk Kim "sensor_offset", CTLFLAG_RW, &sc->sc_offset, 0, 501074d80acSJung-uk Kim "Temperature sensor offset"); 502fc1f75e5SRui Paulo sysctlnode = SYSCTL_ADD_NODE(sysctlctx, 503a4165bbaSJung-uk Kim SYSCTL_CHILDREN(device_get_sysctl_tree(dev)), OID_AUTO, 5047029da5cSPawel Biernacki "core0", CTLFLAG_RD | CTLFLAG_MPSAFE, 0, "Core 0"); 505fc1f75e5SRui Paulo 506fc1f75e5SRui Paulo SYSCTL_ADD_PROC(sysctlctx, 507fc1f75e5SRui Paulo SYSCTL_CHILDREN(sysctlnode), 5087029da5cSPawel Biernacki OID_AUTO, "sensor0", 5097029da5cSPawel Biernacki CTLTYPE_INT | CTLFLAG_RD | CTLFLAG_NEEDGIANT, 510074d80acSJung-uk Kim dev, CORE0_SENSOR0, amdtemp_sysctl, "IK", 511074d80acSJung-uk Kim "Core 0 / Sensor 0 temperature"); 512fc1f75e5SRui Paulo 513c59b9a4fSConrad Meyer if (family == 0x17) 514c59b9a4fSConrad Meyer amdtemp_probe_ccd_sensors17h(dev, model); 515ea6189d3SConrad Meyer else if (family == 0x19) 516ea6189d3SConrad Meyer amdtemp_probe_ccd_sensors19h(dev, model); 517c59b9a4fSConrad Meyer else if (sc->sc_ntemps > 1) { 518fc1f75e5SRui Paulo SYSCTL_ADD_PROC(sysctlctx, 519fc1f75e5SRui Paulo SYSCTL_CHILDREN(sysctlnode), 5207029da5cSPawel Biernacki OID_AUTO, "sensor1", 5217029da5cSPawel Biernacki CTLTYPE_INT | CTLFLAG_RD | CTLFLAG_NEEDGIANT, 522074d80acSJung-uk Kim dev, CORE0_SENSOR1, amdtemp_sysctl, "IK", 523074d80acSJung-uk Kim "Core 0 / Sensor 1 temperature"); 524fc1f75e5SRui Paulo 525074d80acSJung-uk Kim if (sc->sc_ncores > 1) { 526fc1f75e5SRui Paulo sysctlnode = SYSCTL_ADD_NODE(sysctlctx, 527074d80acSJung-uk Kim SYSCTL_CHILDREN(device_get_sysctl_tree(dev)), 5287029da5cSPawel Biernacki OID_AUTO, "core1", CTLFLAG_RD | CTLFLAG_MPSAFE, 5297029da5cSPawel Biernacki 0, "Core 1"); 530fc1f75e5SRui Paulo 531fc1f75e5SRui Paulo SYSCTL_ADD_PROC(sysctlctx, 532fc1f75e5SRui Paulo SYSCTL_CHILDREN(sysctlnode), 5337029da5cSPawel Biernacki OID_AUTO, "sensor0", 5347029da5cSPawel Biernacki CTLTYPE_INT | CTLFLAG_RD | CTLFLAG_NEEDGIANT, 535074d80acSJung-uk Kim dev, CORE1_SENSOR0, amdtemp_sysctl, "IK", 536074d80acSJung-uk Kim "Core 1 / Sensor 0 temperature"); 537fc1f75e5SRui Paulo 538fc1f75e5SRui Paulo SYSCTL_ADD_PROC(sysctlctx, 539fc1f75e5SRui Paulo SYSCTL_CHILDREN(sysctlnode), 5407029da5cSPawel Biernacki OID_AUTO, "sensor1", 5417029da5cSPawel Biernacki CTLTYPE_INT | CTLFLAG_RD | CTLFLAG_NEEDGIANT, 542074d80acSJung-uk Kim dev, CORE1_SENSOR1, amdtemp_sysctl, "IK", 543074d80acSJung-uk Kim "Core 1 / Sensor 1 temperature"); 544074d80acSJung-uk Kim } 545a4165bbaSJung-uk Kim } 546a4165bbaSJung-uk Kim 547a4165bbaSJung-uk Kim /* 548a4165bbaSJung-uk Kim * Try to create dev.cpu sysctl entries and setup intrhook function. 549a4165bbaSJung-uk Kim * This is needed because the cpu driver may be loaded late on boot, 550a4165bbaSJung-uk Kim * after us. 551a4165bbaSJung-uk Kim */ 552a4165bbaSJung-uk Kim amdtemp_intrhook(dev); 553a4165bbaSJung-uk Kim sc->sc_ich.ich_func = amdtemp_intrhook; 554a4165bbaSJung-uk Kim sc->sc_ich.ich_arg = dev; 555a4165bbaSJung-uk Kim if (config_intrhook_establish(&sc->sc_ich) != 0) { 556a4165bbaSJung-uk Kim device_printf(dev, "config_intrhook_establish failed!\n"); 557a4165bbaSJung-uk Kim return (ENXIO); 558a4165bbaSJung-uk Kim } 559fc1f75e5SRui Paulo 560fc1f75e5SRui Paulo return (0); 561fc1f75e5SRui Paulo } 562fc1f75e5SRui Paulo 563fc1f75e5SRui Paulo void 564454e82d7SRui Paulo amdtemp_intrhook(void *arg) 565fc1f75e5SRui Paulo { 566454e82d7SRui Paulo struct amdtemp_softc *sc; 567fc1f75e5SRui Paulo struct sysctl_ctx_list *sysctlctx; 568a4165bbaSJung-uk Kim device_t dev = (device_t)arg; 569a4165bbaSJung-uk Kim device_t acpi, cpu, nexus; 570a4165bbaSJung-uk Kim amdsensor_t sensor; 571a4165bbaSJung-uk Kim int i; 572fc1f75e5SRui Paulo 573fc1f75e5SRui Paulo sc = device_get_softc(dev); 574fc1f75e5SRui Paulo 575fc1f75e5SRui Paulo /* 576fc1f75e5SRui Paulo * dev.cpu.N.temperature. 577fc1f75e5SRui Paulo */ 578fc1f75e5SRui Paulo nexus = device_find_child(root_bus, "nexus", 0); 579fc1f75e5SRui Paulo acpi = device_find_child(nexus, "acpi", 0); 580fc1f75e5SRui Paulo 581a4165bbaSJung-uk Kim for (i = 0; i < sc->sc_ncores; i++) { 582a4165bbaSJung-uk Kim if (sc->sc_sysctl_cpu[i] != NULL) 583a4165bbaSJung-uk Kim continue; 584fc1f75e5SRui Paulo cpu = device_find_child(acpi, "cpu", 585a4165bbaSJung-uk Kim device_get_unit(dev) * sc->sc_ncores + i); 586a4165bbaSJung-uk Kim if (cpu != NULL) { 587fc1f75e5SRui Paulo sysctlctx = device_get_sysctl_ctx(cpu); 588fc1f75e5SRui Paulo 589a4165bbaSJung-uk Kim sensor = sc->sc_ntemps > 1 ? 590074d80acSJung-uk Kim (i == 0 ? CORE0 : CORE1) : CORE0_SENSOR0; 591fc1f75e5SRui Paulo sc->sc_sysctl_cpu[i] = SYSCTL_ADD_PROC(sysctlctx, 592fc1f75e5SRui Paulo SYSCTL_CHILDREN(device_get_sysctl_tree(cpu)), 5937029da5cSPawel Biernacki OID_AUTO, "temperature", 5947029da5cSPawel Biernacki CTLTYPE_INT | CTLFLAG_RD | CTLFLAG_NEEDGIANT, 595a4165bbaSJung-uk Kim dev, sensor, amdtemp_sysctl, "IK", 596a4165bbaSJung-uk Kim "Current temparature"); 597fc1f75e5SRui Paulo } 598fc1f75e5SRui Paulo } 599a4165bbaSJung-uk Kim if (sc->sc_ich.ich_arg != NULL) 600fc1f75e5SRui Paulo config_intrhook_disestablish(&sc->sc_ich); 601fc1f75e5SRui Paulo } 602fc1f75e5SRui Paulo 603fc1f75e5SRui Paulo int 604454e82d7SRui Paulo amdtemp_detach(device_t dev) 605fc1f75e5SRui Paulo { 606454e82d7SRui Paulo struct amdtemp_softc *sc = device_get_softc(dev); 607a4165bbaSJung-uk Kim int i; 608fc1f75e5SRui Paulo 609a4165bbaSJung-uk Kim for (i = 0; i < sc->sc_ncores; i++) 610a4165bbaSJung-uk Kim if (sc->sc_sysctl_cpu[i] != NULL) 611fc1f75e5SRui Paulo sysctl_remove_oid(sc->sc_sysctl_cpu[i], 1, 0); 612fc1f75e5SRui Paulo 613454e82d7SRui Paulo /* NewBus removes the dev.amdtemp.N tree by itself. */ 614fc1f75e5SRui Paulo 615fc1f75e5SRui Paulo return (0); 616fc1f75e5SRui Paulo } 617fc1f75e5SRui Paulo 618fc1f75e5SRui Paulo static int 619454e82d7SRui Paulo amdtemp_sysctl(SYSCTL_HANDLER_ARGS) 620fc1f75e5SRui Paulo { 621fc1f75e5SRui Paulo device_t dev = (device_t)arg1; 622454e82d7SRui Paulo struct amdtemp_softc *sc = device_get_softc(dev); 623a4165bbaSJung-uk Kim amdsensor_t sensor = (amdsensor_t)arg2; 624a4165bbaSJung-uk Kim int32_t auxtemp[2], temp; 625fc1f75e5SRui Paulo int error; 626fc1f75e5SRui Paulo 627a4165bbaSJung-uk Kim switch (sensor) { 628fc1f75e5SRui Paulo case CORE0: 629074d80acSJung-uk Kim auxtemp[0] = sc->sc_gettemp(dev, CORE0_SENSOR0); 630074d80acSJung-uk Kim auxtemp[1] = sc->sc_gettemp(dev, CORE0_SENSOR1); 631fc1f75e5SRui Paulo temp = imax(auxtemp[0], auxtemp[1]); 632fc1f75e5SRui Paulo break; 633fc1f75e5SRui Paulo case CORE1: 634074d80acSJung-uk Kim auxtemp[0] = sc->sc_gettemp(dev, CORE1_SENSOR0); 635074d80acSJung-uk Kim auxtemp[1] = sc->sc_gettemp(dev, CORE1_SENSOR1); 636fc1f75e5SRui Paulo temp = imax(auxtemp[0], auxtemp[1]); 637fc1f75e5SRui Paulo break; 638fc1f75e5SRui Paulo default: 639a4165bbaSJung-uk Kim temp = sc->sc_gettemp(dev, sensor); 640fc1f75e5SRui Paulo break; 641fc1f75e5SRui Paulo } 642fc1f75e5SRui Paulo error = sysctl_handle_int(oidp, &temp, 0, req); 643fc1f75e5SRui Paulo 644fc1f75e5SRui Paulo return (error); 645fc1f75e5SRui Paulo } 646fc1f75e5SRui Paulo 6479d6672e1SLuiz Otavio O Souza #define AMDTEMP_ZERO_C_TO_K 2731 648a4165bbaSJung-uk Kim 649fc1f75e5SRui Paulo static int32_t 650454e82d7SRui Paulo amdtemp_gettemp0f(device_t dev, amdsensor_t sensor) 651fc1f75e5SRui Paulo { 652a4165bbaSJung-uk Kim struct amdtemp_softc *sc = device_get_softc(dev); 653074d80acSJung-uk Kim uint32_t mask, offset, temp; 654fc1f75e5SRui Paulo 655a4165bbaSJung-uk Kim /* Set Sensor/Core selector. */ 656074d80acSJung-uk Kim temp = pci_read_config(dev, AMDTEMP_THERMTP_STAT, 1); 657074d80acSJung-uk Kim temp &= ~(AMDTEMP_TTSR_SELCORE | AMDTEMP_TTSR_SELSENSOR); 658fc1f75e5SRui Paulo switch (sensor) { 659074d80acSJung-uk Kim case CORE0_SENSOR1: 660074d80acSJung-uk Kim temp |= AMDTEMP_TTSR_SELSENSOR; 6617ca2d97bSJung-uk Kim /* FALLTHROUGH */ 662074d80acSJung-uk Kim case CORE0_SENSOR0: 663a4165bbaSJung-uk Kim case CORE0: 664fdfa6079SJung-uk Kim if ((sc->sc_flags & AMDTEMP_FLAG_CS_SWAP) != 0) 665074d80acSJung-uk Kim temp |= AMDTEMP_TTSR_SELCORE; 666fc1f75e5SRui Paulo break; 667074d80acSJung-uk Kim case CORE1_SENSOR1: 668074d80acSJung-uk Kim temp |= AMDTEMP_TTSR_SELSENSOR; 6697ca2d97bSJung-uk Kim /* FALLTHROUGH */ 670074d80acSJung-uk Kim case CORE1_SENSOR0: 671a4165bbaSJung-uk Kim case CORE1: 672fdfa6079SJung-uk Kim if ((sc->sc_flags & AMDTEMP_FLAG_CS_SWAP) == 0) 673074d80acSJung-uk Kim temp |= AMDTEMP_TTSR_SELCORE; 674fc1f75e5SRui Paulo break; 675c59b9a4fSConrad Meyer default: 676c79cee71SKyle Evans __assert_unreachable(); 677fc1f75e5SRui Paulo } 678074d80acSJung-uk Kim pci_write_config(dev, AMDTEMP_THERMTP_STAT, temp, 1); 679a4165bbaSJung-uk Kim 680fdfa6079SJung-uk Kim mask = (sc->sc_flags & AMDTEMP_FLAG_CT_10BIT) != 0 ? 0x3ff : 0x3fc; 681074d80acSJung-uk Kim offset = (sc->sc_flags & AMDTEMP_FLAG_ALT_OFFSET) != 0 ? 28 : 49; 682074d80acSJung-uk Kim temp = pci_read_config(dev, AMDTEMP_THERMTP_STAT, 4); 683074d80acSJung-uk Kim temp = ((temp >> 14) & mask) * 5 / 2; 684074d80acSJung-uk Kim temp += AMDTEMP_ZERO_C_TO_K + (sc->sc_offset - offset) * 10; 685454e82d7SRui Paulo 686454e82d7SRui Paulo return (temp); 687454e82d7SRui Paulo } 688454e82d7SRui Paulo 689e49ec461SConrad Meyer static uint32_t 69002f70002SConrad Meyer amdtemp_decode_fam10h_to_17h(int32_t sc_offset, uint32_t val, bool minus49) 691e49ec461SConrad Meyer { 692e49ec461SConrad Meyer uint32_t temp; 693e49ec461SConrad Meyer 694e49ec461SConrad Meyer /* Convert raw register subfield units (0.125C) to units of 0.1C. */ 69502f70002SConrad Meyer temp = (val & AMDTEMP_REPTMP10H_CURTMP_MASK) * 5 / 4; 69602f70002SConrad Meyer 69702f70002SConrad Meyer if (minus49) 69802f70002SConrad Meyer temp -= AMDTEMP_CURTMP_RANGE_ADJUST; 69902f70002SConrad Meyer 70002f70002SConrad Meyer temp += AMDTEMP_ZERO_C_TO_K + sc_offset * 10; 70102f70002SConrad Meyer return (temp); 70202f70002SConrad Meyer } 70302f70002SConrad Meyer 70402f70002SConrad Meyer static uint32_t 70502f70002SConrad Meyer amdtemp_decode_fam10h_to_16h(int32_t sc_offset, uint32_t val) 70602f70002SConrad Meyer { 70702f70002SConrad Meyer bool minus49; 708e49ec461SConrad Meyer 709e49ec461SConrad Meyer /* 710e49ec461SConrad Meyer * On Family 15h and higher, if CurTmpTjSel is 11b, the range is 711e49ec461SConrad Meyer * adjusted down by 49.0 degrees Celsius. (This adjustment is not 712e49ec461SConrad Meyer * documented in BKDGs prior to family 15h model 00h.) 713e49ec461SConrad Meyer */ 71402f70002SConrad Meyer minus49 = (CPUID_TO_FAMILY(cpu_id) >= 0x15 && 715e49ec461SConrad Meyer ((val >> AMDTEMP_REPTMP10H_TJSEL_SHIFT) & 71602f70002SConrad Meyer AMDTEMP_REPTMP10H_TJSEL_MASK) == 0x3); 717e49ec461SConrad Meyer 71802f70002SConrad Meyer return (amdtemp_decode_fam10h_to_17h(sc_offset, 71902f70002SConrad Meyer val >> AMDTEMP_REPTMP10H_CURTMP_SHIFT, minus49)); 72002f70002SConrad Meyer } 72102f70002SConrad Meyer 72202f70002SConrad Meyer static uint32_t 72302f70002SConrad Meyer amdtemp_decode_fam17h_tctl(int32_t sc_offset, uint32_t val) 72402f70002SConrad Meyer { 72502f70002SConrad Meyer bool minus49; 72602f70002SConrad Meyer 72702f70002SConrad Meyer minus49 = ((val & AMDTEMP_17H_CUR_TMP_RANGE_SEL) != 0); 72802f70002SConrad Meyer return (amdtemp_decode_fam10h_to_17h(sc_offset, 72902f70002SConrad Meyer val >> AMDTEMP_REPTMP10H_CURTMP_SHIFT, minus49)); 730e49ec461SConrad Meyer } 731e49ec461SConrad Meyer 732454e82d7SRui Paulo static int32_t 733454e82d7SRui Paulo amdtemp_gettemp(device_t dev, amdsensor_t sensor) 734454e82d7SRui Paulo { 735074d80acSJung-uk Kim struct amdtemp_softc *sc = device_get_softc(dev); 736454e82d7SRui Paulo uint32_t temp; 737a4165bbaSJung-uk Kim 738a4165bbaSJung-uk Kim temp = pci_read_config(dev, AMDTEMP_REPTMP_CTRL, 4); 739e49ec461SConrad Meyer return (amdtemp_decode_fam10h_to_16h(sc->sc_offset, temp)); 740e49ec461SConrad Meyer } 741fc1f75e5SRui Paulo 742e49ec461SConrad Meyer static int32_t 743e49ec461SConrad Meyer amdtemp_gettemp15hm60h(device_t dev, amdsensor_t sensor) 744e49ec461SConrad Meyer { 745e49ec461SConrad Meyer struct amdtemp_softc *sc = device_get_softc(dev); 746e49ec461SConrad Meyer uint32_t val; 747*b9723c5bSMateusz Guzik int error __diagused; 748e49ec461SConrad Meyer 749e49ec461SConrad Meyer error = amdsmn_read(sc->sc_smn, AMDTEMP_15H_M60H_REPTMP_CTRL, &val); 750e49ec461SConrad Meyer KASSERT(error == 0, ("amdsmn_read")); 751e49ec461SConrad Meyer return (amdtemp_decode_fam10h_to_16h(sc->sc_offset, val)); 752fc1f75e5SRui Paulo } 753a03d621bSConrad Meyer 754a03d621bSConrad Meyer static int32_t 755a03d621bSConrad Meyer amdtemp_gettemp17h(device_t dev, amdsensor_t sensor) 756a03d621bSConrad Meyer { 757a03d621bSConrad Meyer struct amdtemp_softc *sc = device_get_softc(dev); 75802f70002SConrad Meyer uint32_t val; 759*b9723c5bSMateusz Guzik int error __diagused; 760a03d621bSConrad Meyer 761c59b9a4fSConrad Meyer switch (sensor) { 762c59b9a4fSConrad Meyer case CORE0_SENSOR0: 763c59b9a4fSConrad Meyer /* Tctl */ 764fbd5d782SConrad Meyer error = amdsmn_read(sc->sc_smn, AMDTEMP_17H_CUR_TMP, &val); 765a03d621bSConrad Meyer KASSERT(error == 0, ("amdsmn_read")); 76602f70002SConrad Meyer return (amdtemp_decode_fam17h_tctl(sc->sc_offset, val)); 767c59b9a4fSConrad Meyer case CCD_BASE ... CCD_MAX: 768c59b9a4fSConrad Meyer /* Tccd<N> */ 769c59b9a4fSConrad Meyer error = amdsmn_read(sc->sc_smn, AMDTEMP_17H_CCD_TMP_BASE + 770c59b9a4fSConrad Meyer (((int)sensor - CCD_BASE) * sizeof(val)), &val); 771c59b9a4fSConrad Meyer KASSERT(error == 0, ("amdsmn_read2")); 772c59b9a4fSConrad Meyer KASSERT((val & AMDTEMP_17H_CCD_TMP_VALID) != 0, 773c59b9a4fSConrad Meyer ("sensor %d: not valid", (int)sensor)); 774c59b9a4fSConrad Meyer return (amdtemp_decode_fam10h_to_17h(sc->sc_offset, val, true)); 775c59b9a4fSConrad Meyer default: 776c79cee71SKyle Evans __assert_unreachable(); 777c59b9a4fSConrad Meyer } 778c59b9a4fSConrad Meyer } 779c59b9a4fSConrad Meyer 780c59b9a4fSConrad Meyer static void 781ea6189d3SConrad Meyer amdtemp_probe_ccd_sensors(device_t dev, uint32_t maxreg) 782c59b9a4fSConrad Meyer { 783c59b9a4fSConrad Meyer char sensor_name[16], sensor_descr[32]; 784c59b9a4fSConrad Meyer struct amdtemp_softc *sc; 785ea6189d3SConrad Meyer uint32_t i, val; 786c59b9a4fSConrad Meyer int error; 787c59b9a4fSConrad Meyer 788c59b9a4fSConrad Meyer sc = device_get_softc(dev); 789c59b9a4fSConrad Meyer for (i = 0; i < maxreg; i++) { 790c59b9a4fSConrad Meyer error = amdsmn_read(sc->sc_smn, AMDTEMP_17H_CCD_TMP_BASE + 791c59b9a4fSConrad Meyer (i * sizeof(val)), &val); 792c59b9a4fSConrad Meyer if (error != 0) 793c59b9a4fSConrad Meyer continue; 794c59b9a4fSConrad Meyer if ((val & AMDTEMP_17H_CCD_TMP_VALID) == 0) 795c59b9a4fSConrad Meyer continue; 796c59b9a4fSConrad Meyer 797c59b9a4fSConrad Meyer snprintf(sensor_name, sizeof(sensor_name), "ccd%u", i); 798c59b9a4fSConrad Meyer snprintf(sensor_descr, sizeof(sensor_descr), 799c59b9a4fSConrad Meyer "CCD %u temperature (Tccd%u)", i, i); 800c59b9a4fSConrad Meyer 801c59b9a4fSConrad Meyer SYSCTL_ADD_PROC(device_get_sysctl_ctx(dev), 802c59b9a4fSConrad Meyer SYSCTL_CHILDREN(device_get_sysctl_tree(dev)), OID_AUTO, 803c59b9a4fSConrad Meyer sensor_name, CTLTYPE_INT | CTLFLAG_RD | CTLFLAG_MPSAFE, 804c59b9a4fSConrad Meyer dev, CCD_BASE + i, amdtemp_sysctl, "IK", sensor_descr); 805c59b9a4fSConrad Meyer } 806a03d621bSConrad Meyer } 807ea6189d3SConrad Meyer 808ea6189d3SConrad Meyer static void 809ea6189d3SConrad Meyer amdtemp_probe_ccd_sensors17h(device_t dev, uint32_t model) 810ea6189d3SConrad Meyer { 811ea6189d3SConrad Meyer uint32_t maxreg; 812ea6189d3SConrad Meyer 813ea6189d3SConrad Meyer switch (model) { 814b499ab87SConrad Meyer case 0x00 ... 0x2f: /* Zen1, Zen+ */ 815ea6189d3SConrad Meyer maxreg = 4; 816ea6189d3SConrad Meyer break; 817b499ab87SConrad Meyer case 0x30 ... 0x3f: /* Zen2 TR (Castle Peak)/EPYC (Rome) */ 818b499ab87SConrad Meyer case 0x60 ... 0x7f: /* Zen2 Ryzen (Renoir APU, Matisse) */ 819b499ab87SConrad Meyer case 0x90 ... 0x9f: /* Zen2 Ryzen (Van Gogh APU) */ 820ea6189d3SConrad Meyer maxreg = 8; 821ea6189d3SConrad Meyer _Static_assert((int)NUM_CCDS >= 8, ""); 822ea6189d3SConrad Meyer break; 823ea6189d3SConrad Meyer default: 824ea6189d3SConrad Meyer device_printf(dev, 825ea6189d3SConrad Meyer "Unrecognized Family 17h Model: %02xh\n", model); 826ea6189d3SConrad Meyer return; 827ea6189d3SConrad Meyer } 828ea6189d3SConrad Meyer 829ea6189d3SConrad Meyer amdtemp_probe_ccd_sensors(dev, maxreg); 830ea6189d3SConrad Meyer } 831ea6189d3SConrad Meyer 832ea6189d3SConrad Meyer static void 833ea6189d3SConrad Meyer amdtemp_probe_ccd_sensors19h(device_t dev, uint32_t model) 834ea6189d3SConrad Meyer { 835ea6189d3SConrad Meyer uint32_t maxreg; 836ea6189d3SConrad Meyer 837ea6189d3SConrad Meyer switch (model) { 838ea6189d3SConrad Meyer case 0x00 ... 0x0f: /* Zen3 EPYC "Milan" */ 839ea6189d3SConrad Meyer case 0x20 ... 0x2f: /* Zen3 Ryzen "Vermeer" */ 840ea6189d3SConrad Meyer maxreg = 8; 841ea6189d3SConrad Meyer _Static_assert((int)NUM_CCDS >= 8, ""); 842ea6189d3SConrad Meyer break; 843ea6189d3SConrad Meyer default: 844ea6189d3SConrad Meyer device_printf(dev, 845ea6189d3SConrad Meyer "Unrecognized Family 19h Model: %02xh\n", model); 846ea6189d3SConrad Meyer return; 847ea6189d3SConrad Meyer } 848ea6189d3SConrad Meyer 849ea6189d3SConrad Meyer amdtemp_probe_ccd_sensors(dev, maxreg); 850ea6189d3SConrad Meyer } 851