linux/drivers/iommu/intel/cap_audit.c

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iommu/vt-d: Audit IOMMU Capabilities and add helper functions Audit IOMMU Capability/Extended Capability and check if the IOMMUs have the consistent value for features. Report out or scale to the lowest supported when IOMMU features have incompatibility among IOMMUs. Report out features when below features are mismatched: - First Level 5 Level Paging Support (FL5LP) - First Level 1 GByte Page Support (FL1GP) - Read Draining (DRD) - Write Draining (DWD) - Page Selective Invalidation (PSI) - Zero Length Read (ZLR) - Caching Mode (CM) - Protected High/Low-Memory Region (PHMR/PLMR) - Required Write-Buffer Flushing (RWBF) - Advanced Fault Logging (AFL) - RID-PASID Support (RPS) - Scalable Mode Page Walk Coherency (SMPWC) - First Level Translation Support (FLTS) - Second Level Translation Support (SLTS) - No Write Flag Support (NWFS) - Second Level Accessed/Dirty Support (SLADS) - Virtual Command Support (VCS) - Scalable Mode Translation Support (SMTS) - Device TLB Invalidation Throttle (DIT) - Page Drain Support (PDS) - Process Address Space ID Support (PASID) - Extended Accessed Flag Support (EAFS) - Supervisor Request Support (SRS) - Execute Request Support (ERS) - Page Request Support (PRS) - Nested Translation Support (NEST) - Snoop Control (SC) - Pass Through (PT) - Device TLB Support (DT) - Queued Invalidation (QI) - Page walk Coherency (C) Set capability to the lowest supported when below features are mismatched: - Maximum Address Mask Value (MAMV) - Number of Fault Recording Registers (NFR) - Second Level Large Page Support (SLLPS) - Fault Recording Offset (FRO) - Maximum Guest Address Width (MGAW) - Supported Adjusted Guest Address Width (SAGAW) - Number of Domains supported (NDOMS) - Pasid Size Supported (PSS) - Maximum Handle Mask Value (MHMV) - IOTLB Register Offset (IRO) Signed-off-by: Kyung Min Park <kyung.min.park@intel.com> Signed-off-by: Lu Baolu <baolu.lu@linux.intel.com> Link: https://lore.kernel.org/r/20210130184452.31711-1-kyung.min.park@intel.com Link: https://lore.kernel.org/r/20210204014401.2846425-3-baolu.lu@linux.intel.com Signed-off-by: Joerg Roedel <jroedel@suse.de>
2021-02-04 01:43:56 +00:00
// SPDX-License-Identifier: GPL-2.0
/*
* cap_audit.c - audit iommu capabilities for boot time and hot plug
*
* Copyright (C) 2021 Intel Corporation
*
* Author: Kyung Min Park <kyung.min.park@intel.com>
* Lu Baolu <baolu.lu@linux.intel.com>
*/
#define pr_fmt(fmt) "DMAR: " fmt
#include <linux/intel-iommu.h>
#include "cap_audit.h"
static u64 intel_iommu_cap_sanity;
static u64 intel_iommu_ecap_sanity;
static inline void check_irq_capabilities(struct intel_iommu *a,
struct intel_iommu *b)
{
CHECK_FEATURE_MISMATCH(a, b, cap, pi_support, CAP_PI_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, eim_support, ECAP_EIM_MASK);
}
static inline void check_dmar_capabilities(struct intel_iommu *a,
struct intel_iommu *b)
{
MINIMAL_FEATURE_IOMMU(b, cap, CAP_MAMV_MASK);
MINIMAL_FEATURE_IOMMU(b, cap, CAP_NFR_MASK);
MINIMAL_FEATURE_IOMMU(b, cap, CAP_SLLPS_MASK);
MINIMAL_FEATURE_IOMMU(b, cap, CAP_FRO_MASK);
MINIMAL_FEATURE_IOMMU(b, cap, CAP_MGAW_MASK);
MINIMAL_FEATURE_IOMMU(b, cap, CAP_SAGAW_MASK);
MINIMAL_FEATURE_IOMMU(b, cap, CAP_NDOMS_MASK);
MINIMAL_FEATURE_IOMMU(b, ecap, ECAP_PSS_MASK);
MINIMAL_FEATURE_IOMMU(b, ecap, ECAP_MHMV_MASK);
MINIMAL_FEATURE_IOMMU(b, ecap, ECAP_IRO_MASK);
CHECK_FEATURE_MISMATCH(a, b, cap, 5lp_support, CAP_FL5LP_MASK);
CHECK_FEATURE_MISMATCH(a, b, cap, fl1gp_support, CAP_FL1GP_MASK);
CHECK_FEATURE_MISMATCH(a, b, cap, read_drain, CAP_RD_MASK);
CHECK_FEATURE_MISMATCH(a, b, cap, write_drain, CAP_WD_MASK);
CHECK_FEATURE_MISMATCH(a, b, cap, pgsel_inv, CAP_PSI_MASK);
CHECK_FEATURE_MISMATCH(a, b, cap, zlr, CAP_ZLR_MASK);
CHECK_FEATURE_MISMATCH(a, b, cap, caching_mode, CAP_CM_MASK);
CHECK_FEATURE_MISMATCH(a, b, cap, phmr, CAP_PHMR_MASK);
CHECK_FEATURE_MISMATCH(a, b, cap, plmr, CAP_PLMR_MASK);
CHECK_FEATURE_MISMATCH(a, b, cap, rwbf, CAP_RWBF_MASK);
CHECK_FEATURE_MISMATCH(a, b, cap, afl, CAP_AFL_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, rps, ECAP_RPS_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, smpwc, ECAP_SMPWC_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, flts, ECAP_FLTS_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, slts, ECAP_SLTS_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, nwfs, ECAP_NWFS_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, slads, ECAP_SLADS_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, vcs, ECAP_VCS_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, smts, ECAP_SMTS_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, pds, ECAP_PDS_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, dit, ECAP_DIT_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, pasid, ECAP_PASID_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, eafs, ECAP_EAFS_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, srs, ECAP_SRS_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, ers, ECAP_ERS_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, prs, ECAP_PRS_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, nest, ECAP_NEST_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, mts, ECAP_MTS_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, sc_support, ECAP_SC_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, pass_through, ECAP_PT_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, dev_iotlb_support, ECAP_DT_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, qis, ECAP_QI_MASK);
CHECK_FEATURE_MISMATCH(a, b, ecap, coherent, ECAP_C_MASK);
}
static int cap_audit_hotplug(struct intel_iommu *iommu, enum cap_audit_type type)
{
bool mismatch = false;
u64 old_cap = intel_iommu_cap_sanity;
u64 old_ecap = intel_iommu_ecap_sanity;
if (type == CAP_AUDIT_HOTPLUG_IRQR) {
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, cap, pi_support, CAP_PI_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, eim_support, ECAP_EIM_MASK);
goto out;
}
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, cap, 5lp_support, CAP_FL5LP_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, cap, fl1gp_support, CAP_FL1GP_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, cap, read_drain, CAP_RD_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, cap, write_drain, CAP_WD_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, cap, pgsel_inv, CAP_PSI_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, cap, zlr, CAP_ZLR_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, cap, caching_mode, CAP_CM_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, cap, phmr, CAP_PHMR_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, cap, plmr, CAP_PLMR_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, cap, rwbf, CAP_RWBF_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, cap, afl, CAP_AFL_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, rps, ECAP_RPS_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, smpwc, ECAP_SMPWC_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, flts, ECAP_FLTS_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, slts, ECAP_SLTS_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, nwfs, ECAP_NWFS_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, slads, ECAP_SLADS_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, vcs, ECAP_VCS_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, smts, ECAP_SMTS_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, pds, ECAP_PDS_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, dit, ECAP_DIT_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, pasid, ECAP_PASID_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, eafs, ECAP_EAFS_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, srs, ECAP_SRS_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, ers, ECAP_ERS_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, prs, ECAP_PRS_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, nest, ECAP_NEST_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, mts, ECAP_MTS_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, sc_support, ECAP_SC_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, pass_through, ECAP_PT_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, dev_iotlb_support, ECAP_DT_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, qis, ECAP_QI_MASK);
CHECK_FEATURE_MISMATCH_HOTPLUG(iommu, ecap, coherent, ECAP_C_MASK);
/* Abort hot plug if the hot plug iommu feature is smaller than global */
MINIMAL_FEATURE_HOTPLUG(iommu, cap, max_amask_val, CAP_MAMV_MASK, mismatch);
MINIMAL_FEATURE_HOTPLUG(iommu, cap, num_fault_regs, CAP_NFR_MASK, mismatch);
MINIMAL_FEATURE_HOTPLUG(iommu, cap, super_page_val, CAP_SLLPS_MASK, mismatch);
MINIMAL_FEATURE_HOTPLUG(iommu, cap, fault_reg_offset, CAP_FRO_MASK, mismatch);
MINIMAL_FEATURE_HOTPLUG(iommu, cap, mgaw, CAP_MGAW_MASK, mismatch);
MINIMAL_FEATURE_HOTPLUG(iommu, cap, sagaw, CAP_SAGAW_MASK, mismatch);
MINIMAL_FEATURE_HOTPLUG(iommu, cap, ndoms, CAP_NDOMS_MASK, mismatch);
MINIMAL_FEATURE_HOTPLUG(iommu, ecap, pss, ECAP_PSS_MASK, mismatch);
MINIMAL_FEATURE_HOTPLUG(iommu, ecap, max_handle_mask, ECAP_MHMV_MASK, mismatch);
MINIMAL_FEATURE_HOTPLUG(iommu, ecap, iotlb_offset, ECAP_IRO_MASK, mismatch);
out:
if (mismatch) {
intel_iommu_cap_sanity = old_cap;
intel_iommu_ecap_sanity = old_ecap;
return -EFAULT;
}
return 0;
}
static int cap_audit_static(struct intel_iommu *iommu, enum cap_audit_type type)
{
struct dmar_drhd_unit *d;
struct intel_iommu *i;
int rc = 0;
iommu/vt-d: Audit IOMMU Capabilities and add helper functions Audit IOMMU Capability/Extended Capability and check if the IOMMUs have the consistent value for features. Report out or scale to the lowest supported when IOMMU features have incompatibility among IOMMUs. Report out features when below features are mismatched: - First Level 5 Level Paging Support (FL5LP) - First Level 1 GByte Page Support (FL1GP) - Read Draining (DRD) - Write Draining (DWD) - Page Selective Invalidation (PSI) - Zero Length Read (ZLR) - Caching Mode (CM) - Protected High/Low-Memory Region (PHMR/PLMR) - Required Write-Buffer Flushing (RWBF) - Advanced Fault Logging (AFL) - RID-PASID Support (RPS) - Scalable Mode Page Walk Coherency (SMPWC) - First Level Translation Support (FLTS) - Second Level Translation Support (SLTS) - No Write Flag Support (NWFS) - Second Level Accessed/Dirty Support (SLADS) - Virtual Command Support (VCS) - Scalable Mode Translation Support (SMTS) - Device TLB Invalidation Throttle (DIT) - Page Drain Support (PDS) - Process Address Space ID Support (PASID) - Extended Accessed Flag Support (EAFS) - Supervisor Request Support (SRS) - Execute Request Support (ERS) - Page Request Support (PRS) - Nested Translation Support (NEST) - Snoop Control (SC) - Pass Through (PT) - Device TLB Support (DT) - Queued Invalidation (QI) - Page walk Coherency (C) Set capability to the lowest supported when below features are mismatched: - Maximum Address Mask Value (MAMV) - Number of Fault Recording Registers (NFR) - Second Level Large Page Support (SLLPS) - Fault Recording Offset (FRO) - Maximum Guest Address Width (MGAW) - Supported Adjusted Guest Address Width (SAGAW) - Number of Domains supported (NDOMS) - Pasid Size Supported (PSS) - Maximum Handle Mask Value (MHMV) - IOTLB Register Offset (IRO) Signed-off-by: Kyung Min Park <kyung.min.park@intel.com> Signed-off-by: Lu Baolu <baolu.lu@linux.intel.com> Link: https://lore.kernel.org/r/20210130184452.31711-1-kyung.min.park@intel.com Link: https://lore.kernel.org/r/20210204014401.2846425-3-baolu.lu@linux.intel.com Signed-off-by: Joerg Roedel <jroedel@suse.de>
2021-02-04 01:43:56 +00:00
rcu_read_lock();
if (list_empty(&dmar_drhd_units))
goto out;
for_each_active_iommu(i, d) {
if (!iommu) {
intel_iommu_ecap_sanity = i->ecap;
intel_iommu_cap_sanity = i->cap;
iommu = i;
continue;
}
if (type == CAP_AUDIT_STATIC_DMAR)
check_dmar_capabilities(iommu, i);
else
check_irq_capabilities(iommu, i);
}
/*
* If the system is sane to support scalable mode, either SL or FL
* should be sane.
*/
if (intel_cap_smts_sanity() &&
!intel_cap_flts_sanity() && !intel_cap_slts_sanity())
rc = -EOPNOTSUPP;
iommu/vt-d: Audit IOMMU Capabilities and add helper functions Audit IOMMU Capability/Extended Capability and check if the IOMMUs have the consistent value for features. Report out or scale to the lowest supported when IOMMU features have incompatibility among IOMMUs. Report out features when below features are mismatched: - First Level 5 Level Paging Support (FL5LP) - First Level 1 GByte Page Support (FL1GP) - Read Draining (DRD) - Write Draining (DWD) - Page Selective Invalidation (PSI) - Zero Length Read (ZLR) - Caching Mode (CM) - Protected High/Low-Memory Region (PHMR/PLMR) - Required Write-Buffer Flushing (RWBF) - Advanced Fault Logging (AFL) - RID-PASID Support (RPS) - Scalable Mode Page Walk Coherency (SMPWC) - First Level Translation Support (FLTS) - Second Level Translation Support (SLTS) - No Write Flag Support (NWFS) - Second Level Accessed/Dirty Support (SLADS) - Virtual Command Support (VCS) - Scalable Mode Translation Support (SMTS) - Device TLB Invalidation Throttle (DIT) - Page Drain Support (PDS) - Process Address Space ID Support (PASID) - Extended Accessed Flag Support (EAFS) - Supervisor Request Support (SRS) - Execute Request Support (ERS) - Page Request Support (PRS) - Nested Translation Support (NEST) - Snoop Control (SC) - Pass Through (PT) - Device TLB Support (DT) - Queued Invalidation (QI) - Page walk Coherency (C) Set capability to the lowest supported when below features are mismatched: - Maximum Address Mask Value (MAMV) - Number of Fault Recording Registers (NFR) - Second Level Large Page Support (SLLPS) - Fault Recording Offset (FRO) - Maximum Guest Address Width (MGAW) - Supported Adjusted Guest Address Width (SAGAW) - Number of Domains supported (NDOMS) - Pasid Size Supported (PSS) - Maximum Handle Mask Value (MHMV) - IOTLB Register Offset (IRO) Signed-off-by: Kyung Min Park <kyung.min.park@intel.com> Signed-off-by: Lu Baolu <baolu.lu@linux.intel.com> Link: https://lore.kernel.org/r/20210130184452.31711-1-kyung.min.park@intel.com Link: https://lore.kernel.org/r/20210204014401.2846425-3-baolu.lu@linux.intel.com Signed-off-by: Joerg Roedel <jroedel@suse.de>
2021-02-04 01:43:56 +00:00
out:
rcu_read_unlock();
return rc;
iommu/vt-d: Audit IOMMU Capabilities and add helper functions Audit IOMMU Capability/Extended Capability and check if the IOMMUs have the consistent value for features. Report out or scale to the lowest supported when IOMMU features have incompatibility among IOMMUs. Report out features when below features are mismatched: - First Level 5 Level Paging Support (FL5LP) - First Level 1 GByte Page Support (FL1GP) - Read Draining (DRD) - Write Draining (DWD) - Page Selective Invalidation (PSI) - Zero Length Read (ZLR) - Caching Mode (CM) - Protected High/Low-Memory Region (PHMR/PLMR) - Required Write-Buffer Flushing (RWBF) - Advanced Fault Logging (AFL) - RID-PASID Support (RPS) - Scalable Mode Page Walk Coherency (SMPWC) - First Level Translation Support (FLTS) - Second Level Translation Support (SLTS) - No Write Flag Support (NWFS) - Second Level Accessed/Dirty Support (SLADS) - Virtual Command Support (VCS) - Scalable Mode Translation Support (SMTS) - Device TLB Invalidation Throttle (DIT) - Page Drain Support (PDS) - Process Address Space ID Support (PASID) - Extended Accessed Flag Support (EAFS) - Supervisor Request Support (SRS) - Execute Request Support (ERS) - Page Request Support (PRS) - Nested Translation Support (NEST) - Snoop Control (SC) - Pass Through (PT) - Device TLB Support (DT) - Queued Invalidation (QI) - Page walk Coherency (C) Set capability to the lowest supported when below features are mismatched: - Maximum Address Mask Value (MAMV) - Number of Fault Recording Registers (NFR) - Second Level Large Page Support (SLLPS) - Fault Recording Offset (FRO) - Maximum Guest Address Width (MGAW) - Supported Adjusted Guest Address Width (SAGAW) - Number of Domains supported (NDOMS) - Pasid Size Supported (PSS) - Maximum Handle Mask Value (MHMV) - IOTLB Register Offset (IRO) Signed-off-by: Kyung Min Park <kyung.min.park@intel.com> Signed-off-by: Lu Baolu <baolu.lu@linux.intel.com> Link: https://lore.kernel.org/r/20210130184452.31711-1-kyung.min.park@intel.com Link: https://lore.kernel.org/r/20210204014401.2846425-3-baolu.lu@linux.intel.com Signed-off-by: Joerg Roedel <jroedel@suse.de>
2021-02-04 01:43:56 +00:00
}
int intel_cap_audit(enum cap_audit_type type, struct intel_iommu *iommu)
{
switch (type) {
case CAP_AUDIT_STATIC_DMAR:
case CAP_AUDIT_STATIC_IRQR:
return cap_audit_static(iommu, type);
case CAP_AUDIT_HOTPLUG_DMAR:
case CAP_AUDIT_HOTPLUG_IRQR:
return cap_audit_hotplug(iommu, type);
default:
break;
}
return -EFAULT;
}
bool intel_cap_smts_sanity(void)
{
return ecap_smts(intel_iommu_ecap_sanity);
}
bool intel_cap_pasid_sanity(void)
{
return ecap_pasid(intel_iommu_ecap_sanity);
}
bool intel_cap_nest_sanity(void)
{
return ecap_nest(intel_iommu_ecap_sanity);
}
bool intel_cap_flts_sanity(void)
{
return ecap_flts(intel_iommu_ecap_sanity);
}
bool intel_cap_slts_sanity(void)
{
return ecap_slts(intel_iommu_ecap_sanity);
}