/*- * SPDX-License-Identifier: BSD-2-Clause * * Copyright (c) 2016, Anish Gupta (anish@freebsd.org) * Copyright (c) 2021 The FreeBSD Foundation * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice unmodified, this list of conditions, and the following * disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include "opt_acpi.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include "io/iommu.h" #include "amdvi_priv.h" device_t *ivhd_devs; /* IVHD or AMD-Vi device list. */ int ivhd_count; /* Number of IVHD header. */ /* * Cached IVHD header list. * Single entry for each IVHD, filtered the legacy one. */ ACPI_IVRS_HARDWARE1 **ivhd_hdrs; extern int amdvi_ptp_level; /* Page table levels. */ typedef int (*ivhd_iter_t)(ACPI_IVRS_HEADER *ptr, void *arg); /* * Iterate IVRS table for IVHD and IVMD device type. */ static void ivrs_hdr_iterate_tbl(ivhd_iter_t iter, void *arg) { ACPI_TABLE_IVRS *ivrs; ACPI_IVRS_HEADER *ivrs_hdr, *end; ACPI_STATUS status; status = AcpiGetTable(ACPI_SIG_IVRS, 1, (ACPI_TABLE_HEADER **)&ivrs); if (ACPI_FAILURE(status)) return; if (ivrs->Header.Length == 0) { return; } ivrs_hdr = (ACPI_IVRS_HEADER *)(ivrs + 1); end = (ACPI_IVRS_HEADER *)((char *)ivrs + ivrs->Header.Length); while (ivrs_hdr < end) { if ((uint8_t *)ivrs_hdr + ivrs_hdr->Length > (uint8_t *)end) { printf("AMD-Vi:IVHD/IVMD is corrupted, length : %d\n", ivrs_hdr->Length); break; } switch (ivrs_hdr->Type) { case IVRS_TYPE_HARDWARE_LEGACY: /* Legacy */ case IVRS_TYPE_HARDWARE_EFR: case IVRS_TYPE_HARDWARE_MIXED: if (!iter(ivrs_hdr, arg)) return; break; case ACPI_IVRS_TYPE_MEMORY1: case ACPI_IVRS_TYPE_MEMORY2: case ACPI_IVRS_TYPE_MEMORY3: if (!iter(ivrs_hdr, arg)) return; break; default: printf("AMD-Vi:Not IVHD/IVMD type(%d)", ivrs_hdr->Type); } ivrs_hdr = (ACPI_IVRS_HEADER *)((uint8_t *)ivrs_hdr + ivrs_hdr->Length); } } static bool ivrs_is_ivhd(UINT8 type) { switch(type) { case IVRS_TYPE_HARDWARE_LEGACY: case IVRS_TYPE_HARDWARE_EFR: case IVRS_TYPE_HARDWARE_MIXED: return (true); default: return (false); } } /* Count the number of AMD-Vi devices in the system. */ static int ivhd_count_iter(ACPI_IVRS_HEADER * ivrs_he, void *arg) { int *count; count = (int *)arg; if (ivrs_is_ivhd(ivrs_he->Type)) (*count)++; return (1); } struct find_ivrs_hdr_args { int i; ACPI_IVRS_HEADER *ptr; }; static int ivrs_hdr_find_iter(ACPI_IVRS_HEADER * ivrs_hdr, void *args) { struct find_ivrs_hdr_args *fi; fi = (struct find_ivrs_hdr_args *)args; if (ivrs_is_ivhd(ivrs_hdr->Type)) { if (fi->i == 0) { fi->ptr = ivrs_hdr; return (0); } fi->i--; } return (1); } static ACPI_IVRS_HARDWARE1 * ivhd_find_by_index(int idx) { struct find_ivrs_hdr_args fi; fi.i = idx; fi.ptr = NULL; ivrs_hdr_iterate_tbl(ivrs_hdr_find_iter, &fi); return ((ACPI_IVRS_HARDWARE1 *)fi.ptr); } static void ivhd_dev_add_entry(struct amdvi_softc *softc, uint32_t start_id, uint32_t end_id, uint8_t cfg, bool ats) { struct ivhd_dev_cfg *dev_cfg; KASSERT(softc->dev_cfg_cap >= softc->dev_cfg_cnt, ("Impossible case: number of dev_cfg exceeding capacity")); if (softc->dev_cfg_cap == softc->dev_cfg_cnt) { if (softc->dev_cfg_cap == 0) softc->dev_cfg_cap = 1; else softc->dev_cfg_cap <<= 2; softc->dev_cfg = realloc(softc->dev_cfg, sizeof(*softc->dev_cfg) * softc->dev_cfg_cap, M_DEVBUF, M_WAITOK); } dev_cfg = &softc->dev_cfg[softc->dev_cfg_cnt++]; dev_cfg->start_id = start_id; dev_cfg->end_id = end_id; dev_cfg->data = cfg; dev_cfg->enable_ats = ats; } /* * Record device attributes as suggested by BIOS. */ static int ivhd_dev_parse(ACPI_IVRS_HARDWARE1 *ivhd, struct amdvi_softc *softc) { ACPI_IVRS_DE_HEADER *de; uint8_t *p, *end; int range_start_id = -1, range_end_id = -1, i; uint32_t *extended; uint8_t all_data = 0, range_data = 0; bool range_enable_ats = false, enable_ats; switch (ivhd->Header.Type) { case IVRS_TYPE_HARDWARE_LEGACY: p = (uint8_t *)ivhd + sizeof(ACPI_IVRS_HARDWARE1); break; case IVRS_TYPE_HARDWARE_EFR: case IVRS_TYPE_HARDWARE_MIXED: p = (uint8_t *)ivhd + sizeof(ACPI_IVRS_HARDWARE2); break; default: device_printf(softc->dev, "unknown type: 0x%x\n", ivhd->Header.Type); return (-1); } end = (uint8_t *)ivhd + ivhd->Header.Length; while (p < end) { de = (ACPI_IVRS_DE_HEADER *)p; switch (de->Type) { case ACPI_IVRS_TYPE_ALL: all_data = de->DataSetting; for (i = 0; i < softc->dev_cfg_cnt; i++) softc->dev_cfg[i].data |= all_data; break; case ACPI_IVRS_TYPE_SELECT: case ACPI_IVRS_TYPE_ALIAS_SELECT: case ACPI_IVRS_TYPE_EXT_SELECT: enable_ats = false; if (de->Type == ACPI_IVRS_TYPE_EXT_SELECT) { extended = (uint32_t *)(de + 1); enable_ats = (*extended & IVHD_DEV_EXT_ATS_DISABLE) ? false : true; } ivhd_dev_add_entry(softc, de->Id, de->Id, de->DataSetting | all_data, enable_ats); break; case ACPI_IVRS_TYPE_START: case ACPI_IVRS_TYPE_ALIAS_START: case ACPI_IVRS_TYPE_EXT_START: if (range_start_id != -1) { device_printf(softc->dev, "Unexpected start-of-range device entry\n"); return (EINVAL); } range_start_id = de->Id; range_data = de->DataSetting; if (de->Type == ACPI_IVRS_TYPE_EXT_START) { extended = (uint32_t *)(de + 1); range_enable_ats = (*extended & IVHD_DEV_EXT_ATS_DISABLE) ? false : true; } break; case ACPI_IVRS_TYPE_END: if (range_start_id == -1) { device_printf(softc->dev, "Unexpected end-of-range device entry\n"); return (EINVAL); } range_end_id = de->Id; if (range_end_id < range_start_id) { device_printf(softc->dev, "Device entry range going backward\n"); return (EINVAL); } ivhd_dev_add_entry(softc, range_start_id, range_end_id, range_data | all_data, range_enable_ats); range_start_id = range_end_id = -1; range_data = 0; all_data = 0; break; case ACPI_IVRS_TYPE_PAD4: break; case ACPI_IVRS_TYPE_SPECIAL: /* HPET or IOAPIC */ break; default: if ((de->Type < 5) || (de->Type >= ACPI_IVRS_TYPE_PAD8)) device_printf(softc->dev, "Unknown dev entry:0x%x\n", de->Type); } if (de->Type < 0x40) p += sizeof(ACPI_IVRS_DEVICE4); else if (de->Type < 0x80) p += sizeof(ACPI_IVRS_DEVICE8A); else { printf("Variable size IVHD type 0x%x not supported\n", de->Type); break; } } return (0); } static bool ivhd_is_newer(ACPI_IVRS_HEADER *old, ACPI_IVRS_HEADER *new) { if (old->DeviceId == new->DeviceId) { /* * Newer IVRS header type take precedence. */ if (old->Type == IVRS_TYPE_HARDWARE_LEGACY && ((new->Type == IVRS_TYPE_HARDWARE_EFR) || (new->Type == IVRS_TYPE_HARDWARE_MIXED))) return (true); /* * Mixed format IVHD header type take precedence * over fixed format IVHD header types. */ if (old->Type == IVRS_TYPE_HARDWARE_EFR && new->Type == IVRS_TYPE_HARDWARE_MIXED) return (true); } return (false); } static void ivhd_identify(driver_t *driver, device_t parent) { ACPI_TABLE_IVRS *ivrs; ACPI_IVRS_HARDWARE1 *ivhd; ACPI_STATUS status; int i, j, count = 0; uint32_t ivrs_ivinfo; if (acpi_disabled("ivhd")) return; status = AcpiGetTable(ACPI_SIG_IVRS, 1, (ACPI_TABLE_HEADER **)&ivrs); if (ACPI_FAILURE(status)) return; if (ivrs->Header.Length == 0) { return; } ivrs_ivinfo = ivrs->Info; printf("AMD-Vi: IVRS Info VAsize = %d PAsize = %d GVAsize = %d" " flags:%b\n", REG_BITS(ivrs_ivinfo, 21, 15), REG_BITS(ivrs_ivinfo, 14, 8), REG_BITS(ivrs_ivinfo, 7, 5), REG_BITS(ivrs_ivinfo, 22, 22), "\020\001EFRSup"); ivrs_hdr_iterate_tbl(ivhd_count_iter, &count); if (!count) return; ivhd_hdrs = malloc(sizeof(void *) * count, M_DEVBUF, M_WAITOK | M_ZERO); for (i = 0; i < count; i++) { ivhd = ivhd_find_by_index(i); KASSERT(ivhd, ("ivhd%d is NULL\n", i)); /* * Scan for presence of legacy and non-legacy device type * for same IOMMU device and override the old one. * * If there is no existing IVHD to the same IOMMU device, * the IVHD header pointer is appended. */ for (j = 0; j < ivhd_count; j++) { if (ivhd_is_newer(&ivhd_hdrs[j]->Header, &ivhd->Header)) break; } ivhd_hdrs[j] = ivhd; if (j == ivhd_count) ivhd_count++; } ivhd_devs = malloc(sizeof(device_t) * ivhd_count, M_DEVBUF, M_WAITOK | M_ZERO); for (i = 0, j = 0; i < ivhd_count; i++) { ivhd = ivhd_hdrs[i]; KASSERT(ivhd, ("ivhd%d is NULL\n", i)); /* * Use a high order to ensure that this driver is probed after * the Host-PCI bridge and the root PCI bus. */ ivhd_devs[i] = BUS_ADD_CHILD(parent, ACPI_DEV_BASE_ORDER + 10 * 10, "ivhd", i); /* * XXX: In case device was not destroyed before, add will fail. * locate the old device instance. */ if (ivhd_devs[i] == NULL) { ivhd_devs[i] = device_find_child(parent, "ivhd", i); if (ivhd_devs[i] == NULL) { printf("AMD-Vi: can't find ivhd%d\n", i); break; } } j++; } /* * Update device count in case failed to attach. */ ivhd_count = j; } static int ivhd_probe(device_t dev) { ACPI_IVRS_HARDWARE1 *ivhd; int unit; if (acpi_get_handle(dev) != NULL) return (ENXIO); unit = device_get_unit(dev); KASSERT((unit < ivhd_count), ("ivhd unit %d > count %d", unit, ivhd_count)); ivhd = ivhd_hdrs[unit]; KASSERT(ivhd, ("ivhd is NULL")); switch (ivhd->Header.Type) { case IVRS_TYPE_HARDWARE_EFR: device_set_desc(dev, "AMD-Vi/IOMMU ivhd with EFR"); break; case IVRS_TYPE_HARDWARE_MIXED: device_set_desc(dev, "AMD-Vi/IOMMU ivhd in mixed format"); break; case IVRS_TYPE_HARDWARE_LEGACY: default: device_set_desc(dev, "AMD-Vi/IOMMU ivhd"); break; } return (BUS_PROBE_NOWILDCARD); } static void ivhd_print_flag(device_t dev, enum IvrsType ivhd_type, uint8_t flag) { /* * IVHD lgeacy type has two extra high bits in flag which has * been moved to EFR for non-legacy device. */ switch (ivhd_type) { case IVRS_TYPE_HARDWARE_LEGACY: device_printf(dev, "Flag:%b\n", flag, "\020" "\001HtTunEn" "\002PassPW" "\003ResPassPW" "\004Isoc" "\005IotlbSup" "\006Coherent" "\007PreFSup" "\010PPRSup"); break; case IVRS_TYPE_HARDWARE_EFR: case IVRS_TYPE_HARDWARE_MIXED: device_printf(dev, "Flag:%b\n", flag, "\020" "\001HtTunEn" "\002PassPW" "\003ResPassPW" "\004Isoc" "\005IotlbSup" "\006Coherent"); break; default: device_printf(dev, "Can't decode flag of ivhd type :0x%x\n", ivhd_type); break; } } /* * Feature in legacy IVHD type(0x10) and attribute in newer type(0x11 and 0x40). */ static void ivhd_print_feature(device_t dev, enum IvrsType ivhd_type, uint32_t feature) { switch (ivhd_type) { case IVRS_TYPE_HARDWARE_LEGACY: device_printf(dev, "Features(type:0x%x) HATS = %d GATS = %d" " MsiNumPPR = %d PNBanks= %d PNCounters= %d\n", ivhd_type, REG_BITS(feature, 31, 30), REG_BITS(feature, 29, 28), REG_BITS(feature, 27, 23), REG_BITS(feature, 22, 17), REG_BITS(feature, 16, 13)); device_printf(dev, "max PASID = %d GLXSup = %d Feature:%b\n", REG_BITS(feature, 12, 8), REG_BITS(feature, 4, 3), feature, "\020" "\002NXSup" "\003GTSup" "\004" "\005IASup" "\006GASup" "\007HESup"); break; /* Fewer features or attributes are reported in non-legacy type. */ case IVRS_TYPE_HARDWARE_EFR: case IVRS_TYPE_HARDWARE_MIXED: device_printf(dev, "Features(type:0x%x) MsiNumPPR = %d" " PNBanks= %d PNCounters= %d\n", ivhd_type, REG_BITS(feature, 27, 23), REG_BITS(feature, 22, 17), REG_BITS(feature, 16, 13)); break; default: /* Other ivhd type features are not decoded. */ device_printf(dev, "Can't decode ivhd type :0x%x\n", ivhd_type); } } /* Print extended features of IOMMU. */ static void ivhd_print_ext_feature(device_t dev, uint64_t ext_feature) { uint32_t ext_low, ext_high; if (!ext_feature) return; ext_low = ext_feature; device_printf(dev, "Extended features[31:0]:%b " "HATS = 0x%x GATS = 0x%x " "GLXSup = 0x%x SmiFSup = 0x%x SmiFRC = 0x%x " "GAMSup = 0x%x DualPortLogSup = 0x%x DualEventLogSup = 0x%x\n", (int)ext_low, "\020" "\001PreFSup" "\002PPRSup" "\003" "\004NXSup" "\005GTSup" "\006" "\007IASup" "\010GASup" "\011HESup" "\012PCSup", REG_BITS(ext_low, 11, 10), REG_BITS(ext_low, 13, 12), REG_BITS(ext_low, 15, 14), REG_BITS(ext_low, 17, 16), REG_BITS(ext_low, 20, 18), REG_BITS(ext_low, 23, 21), REG_BITS(ext_low, 25, 24), REG_BITS(ext_low, 29, 28)); ext_high = ext_feature >> 32; device_printf(dev, "Extended features[62:32]:%b " "Max PASID: 0x%x DevTblSegSup = 0x%x " "MarcSup = 0x%x\n", (int)(ext_high), "\020" "\006USSup" "\011PprOvrflwEarlySup" "\012PPRAutoRspSup" "\015BlKStopMrkSup" "\016PerfOptSup" "\017MsiCapMmioSup" "\021GIOSup" "\022HASup" "\023EPHSup" "\024AttrFWSup" "\025HDSup" "\027InvIotlbSup", REG_BITS(ext_high, 5, 0), REG_BITS(ext_high, 8, 7), REG_BITS(ext_high, 11, 10)); } static int ivhd_print_cap(struct amdvi_softc *softc, ACPI_IVRS_HARDWARE1 * ivhd) { device_t dev; int max_ptp_level; dev = softc->dev; ivhd_print_flag(dev, softc->ivhd_type, softc->ivhd_flag); ivhd_print_feature(dev, softc->ivhd_type, softc->ivhd_feature); ivhd_print_ext_feature(dev, softc->ext_feature); max_ptp_level = 7; /* Make sure device support minimum page level as requested by user. */ if (max_ptp_level < amdvi_ptp_level) { device_printf(dev, "insufficient PTP level:%d\n", max_ptp_level); return (EINVAL); } else { device_printf(softc->dev, "supported paging level:%d, will use only: %d\n", max_ptp_level, amdvi_ptp_level); } return (0); } static int ivhd_attach(device_t dev) { ACPI_IVRS_HARDWARE1 *ivhd; ACPI_IVRS_HARDWARE2 *ivhd_efr; struct amdvi_softc *softc; int status, unit; unit = device_get_unit(dev); KASSERT((unit < ivhd_count), ("ivhd unit %d > count %d", unit, ivhd_count)); /* Make sure its same device for which attach is called. */ KASSERT((ivhd_devs[unit] == dev), ("Not same device old %p new %p", ivhd_devs[unit], dev)); softc = device_get_softc(dev); softc->dev = dev; ivhd = ivhd_hdrs[unit]; KASSERT(ivhd, ("ivhd is NULL")); softc->pci_dev = pci_find_dbsf(ivhd->PciSegmentGroup, PCI_RID2BUS(ivhd->Header.DeviceId), PCI_RID2SLOT(ivhd->Header.DeviceId), PCI_RID2FUNC(ivhd->Header.DeviceId)); softc->ivhd_type = ivhd->Header.Type; softc->pci_seg = ivhd->PciSegmentGroup; softc->pci_rid = ivhd->Header.DeviceId; softc->ivhd_flag = ivhd->Header.Flags; /* * On lgeacy IVHD type(0x10), it is documented as feature * but in newer type it is attribute. */ softc->ivhd_feature = ivhd->FeatureReporting; /* * PCI capability has more capabilities that are not part of IVRS. */ softc->cap_off = ivhd->CapabilityOffset; #ifdef notyet /* IVHD Info bit[4:0] is event MSI/X number. */ softc->event_msix = ivhd->Info & 0x1F; #endif switch (ivhd->Header.Type) { case IVRS_TYPE_HARDWARE_EFR: case IVRS_TYPE_HARDWARE_MIXED: ivhd_efr = (ACPI_IVRS_HARDWARE2 *)ivhd; softc->ext_feature = ivhd_efr->EfrRegisterImage; break; } softc->ctrl = (struct amdvi_ctrl *) PHYS_TO_DMAP(ivhd->BaseAddress); status = ivhd_dev_parse(ivhd, softc); if (status != 0) { device_printf(dev, "endpoint device parsing error=%d\n", status); goto fail; } status = ivhd_print_cap(softc, ivhd); if (status != 0) goto fail; status = amdvi_setup_hw(softc); if (status != 0) { device_printf(dev, "couldn't be initialised, error=%d\n", status); goto fail; } return (0); fail: free(softc->dev_cfg, M_DEVBUF); return (status); } static int ivhd_detach(device_t dev) { struct amdvi_softc *softc; softc = device_get_softc(dev); amdvi_teardown_hw(softc); free(softc->dev_cfg, M_DEVBUF); /* * XXX: delete the device. * don't allow detach, return EBUSY. */ return (0); } static int ivhd_suspend(device_t dev) { return (0); } static int ivhd_resume(device_t dev) { return (0); } static device_method_t ivhd_methods[] = { DEVMETHOD(device_identify, ivhd_identify), DEVMETHOD(device_probe, ivhd_probe), DEVMETHOD(device_attach, ivhd_attach), DEVMETHOD(device_detach, ivhd_detach), DEVMETHOD(device_suspend, ivhd_suspend), DEVMETHOD(device_resume, ivhd_resume), DEVMETHOD_END }; static driver_t ivhd_driver = { "ivhd", ivhd_methods, sizeof(struct amdvi_softc), }; /* * Load this module at the end after PCI re-probing to configure interrupt. */ DRIVER_MODULE_ORDERED(ivhd, acpi, ivhd_driver, 0, 0, SI_ORDER_ANY); MODULE_DEPEND(ivhd, acpi, 1, 1, 1); MODULE_DEPEND(ivhd, pci, 1, 1, 1);