407 lines
12 KiB
C
407 lines
12 KiB
C
// SPDX-License-Identifier: GPL-2.0-only
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/*
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* intel-tpmi : Driver to enumerate TPMI features and create devices
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*
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* Copyright (c) 2023, Intel Corporation.
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* All Rights Reserved.
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*
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* The TPMI (Topology Aware Register and PM Capsule Interface) provides a
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* flexible, extendable and PCIe enumerable MMIO interface for PM features.
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*
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* For example Intel RAPL (Running Average Power Limit) provides a MMIO
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* interface using TPMI. This has advantage over traditional MSR
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* (Model Specific Register) interface, where a thread needs to be scheduled
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* on the target CPU to read or write. Also the RAPL features vary between
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* CPU models, and hence lot of model specific code. Here TPMI provides an
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* architectural interface by providing hierarchical tables and fields,
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* which will not need any model specific implementation.
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*
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* The TPMI interface uses a PCI VSEC structure to expose the location of
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* MMIO region.
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*
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* This VSEC structure is present in the PCI configuration space of the
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* Intel Out-of-Band (OOB) device, which is handled by the Intel VSEC
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* driver. The Intel VSEC driver parses VSEC structures present in the PCI
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* configuration space of the given device and creates an auxiliary device
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* object for each of them. In particular, it creates an auxiliary device
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* object representing TPMI that can be bound by an auxiliary driver.
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*
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* This TPMI driver will bind to the TPMI auxiliary device object created
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* by the Intel VSEC driver.
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*
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* The TPMI specification defines a PFS (PM Feature Structure) table.
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* This table is present in the TPMI MMIO region. The starting address
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* of PFS is derived from the tBIR (Bar Indicator Register) and "Address"
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* field from the VSEC header.
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*
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* Each TPMI PM feature has one entry in the PFS with a unique TPMI
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* ID and its access details. The TPMI driver creates device nodes
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* for the supported PM features.
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*
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* The names of the devices created by the TPMI driver start with the
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* "intel_vsec.tpmi-" prefix which is followed by a specific name of the
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* given PM feature (for example, "intel_vsec.tpmi-rapl.0").
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*
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* The device nodes are create by using interface "intel_vsec_add_aux()"
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* provided by the Intel VSEC driver.
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*/
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#include <linux/auxiliary_bus.h>
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#include <linux/intel_tpmi.h>
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#include <linux/io.h>
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#include <linux/module.h>
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#include <linux/pci.h>
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#include "vsec.h"
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/**
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* struct intel_tpmi_pfs_entry - TPMI PM Feature Structure (PFS) entry
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* @tpmi_id: TPMI feature identifier (what the feature is and its data format).
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* @num_entries: Number of feature interface instances present in the PFS.
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* This represents the maximum number of Power domains in the SoC.
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* @entry_size: Interface instance entry size in 32-bit words.
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* @cap_offset: Offset from the PM_Features base address to the base of the PM VSEC
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* register bank in KB.
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* @attribute: Feature attribute: 0=BIOS. 1=OS. 2-3=Reserved.
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* @reserved: Bits for use in the future.
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*
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* Represents one TPMI feature entry data in the PFS retrieved as is
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* from the hardware.
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*/
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struct intel_tpmi_pfs_entry {
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u64 tpmi_id:8;
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u64 num_entries:8;
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u64 entry_size:16;
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u64 cap_offset:16;
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u64 attribute:2;
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u64 reserved:14;
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} __packed;
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/**
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* struct intel_tpmi_pm_feature - TPMI PM Feature information for a TPMI ID
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* @pfs_header: PFS header retireved from the hardware.
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* @vsec_offset: Starting MMIO address for this feature in bytes. Essentially
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* this offset = "Address" from VSEC header + PFS Capability
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* offset for this feature entry.
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*
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* Represents TPMI instance information for one TPMI ID.
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*/
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struct intel_tpmi_pm_feature {
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struct intel_tpmi_pfs_entry pfs_header;
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unsigned int vsec_offset;
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};
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/**
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* struct intel_tpmi_info - TPMI information for all IDs in an instance
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* @tpmi_features: Pointer to a list of TPMI feature instances
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* @vsec_dev: Pointer to intel_vsec_device structure for this TPMI device
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* @feature_count: Number of TPMI of TPMI instances pointed by tpmi_features
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* @pfs_start: Start of PFS offset for the TPMI instances in this device
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* @plat_info: Stores platform info which can be used by the client drivers
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*
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* Stores the information for all TPMI devices enumerated from a single PCI device.
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*/
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struct intel_tpmi_info {
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struct intel_tpmi_pm_feature *tpmi_features;
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struct intel_vsec_device *vsec_dev;
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int feature_count;
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u64 pfs_start;
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struct intel_tpmi_plat_info plat_info;
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};
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/**
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* struct tpmi_info_header - CPU package ID to PCI device mapping information
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* @fn: PCI function number
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* @dev: PCI device number
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* @bus: PCI bus number
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* @pkg: CPU Package id
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* @reserved: Reserved for future use
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* @lock: When set to 1 the register is locked and becomes read-only
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* until next reset. Not for use by the OS driver.
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*
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* The structure to read hardware provided mapping information.
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*/
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struct tpmi_info_header {
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u64 fn:3;
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u64 dev:5;
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u64 bus:8;
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u64 pkg:8;
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u64 reserved:39;
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u64 lock:1;
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} __packed;
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/*
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* List of supported TMPI IDs.
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* Some TMPI IDs are not used by Linux, so the numbers are not consecutive.
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*/
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enum intel_tpmi_id {
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TPMI_ID_RAPL = 0, /* Running Average Power Limit */
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TPMI_ID_PEM = 1, /* Power and Perf excursion Monitor */
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TPMI_ID_UNCORE = 2, /* Uncore Frequency Scaling */
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TPMI_ID_SST = 5, /* Speed Select Technology */
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TPMI_INFO_ID = 0x81, /* Special ID for PCI BDF and Package ID information */
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};
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/* Used during auxbus device creation */
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static DEFINE_IDA(intel_vsec_tpmi_ida);
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struct intel_tpmi_plat_info *tpmi_get_platform_data(struct auxiliary_device *auxdev)
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{
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struct intel_vsec_device *vsec_dev = auxdev_to_ivdev(auxdev);
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return vsec_dev->priv_data;
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}
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EXPORT_SYMBOL_NS_GPL(tpmi_get_platform_data, INTEL_TPMI);
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int tpmi_get_resource_count(struct auxiliary_device *auxdev)
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{
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struct intel_vsec_device *vsec_dev = auxdev_to_ivdev(auxdev);
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if (vsec_dev)
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return vsec_dev->num_resources;
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return 0;
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}
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EXPORT_SYMBOL_NS_GPL(tpmi_get_resource_count, INTEL_TPMI);
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struct resource *tpmi_get_resource_at_index(struct auxiliary_device *auxdev, int index)
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{
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struct intel_vsec_device *vsec_dev = auxdev_to_ivdev(auxdev);
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if (vsec_dev && index < vsec_dev->num_resources)
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return &vsec_dev->resource[index];
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return NULL;
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}
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EXPORT_SYMBOL_NS_GPL(tpmi_get_resource_at_index, INTEL_TPMI);
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static const char *intel_tpmi_name(enum intel_tpmi_id id)
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{
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switch (id) {
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case TPMI_ID_RAPL:
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return "rapl";
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case TPMI_ID_PEM:
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return "pem";
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case TPMI_ID_UNCORE:
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return "uncore";
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case TPMI_ID_SST:
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return "sst";
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default:
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return NULL;
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}
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}
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/* String Length for tpmi-"feature_name(upto 8 bytes)" */
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#define TPMI_FEATURE_NAME_LEN 14
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static int tpmi_create_device(struct intel_tpmi_info *tpmi_info,
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struct intel_tpmi_pm_feature *pfs,
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u64 pfs_start)
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{
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struct intel_vsec_device *vsec_dev = tpmi_info->vsec_dev;
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char feature_id_name[TPMI_FEATURE_NAME_LEN];
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struct intel_vsec_device *feature_vsec_dev;
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struct resource *res, *tmp;
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const char *name;
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int i;
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name = intel_tpmi_name(pfs->pfs_header.tpmi_id);
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if (!name)
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return -EOPNOTSUPP;
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res = kcalloc(pfs->pfs_header.num_entries, sizeof(*res), GFP_KERNEL);
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if (!res)
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return -ENOMEM;
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feature_vsec_dev = kzalloc(sizeof(*feature_vsec_dev), GFP_KERNEL);
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if (!feature_vsec_dev) {
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kfree(res);
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return -ENOMEM;
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}
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snprintf(feature_id_name, sizeof(feature_id_name), "tpmi-%s", name);
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for (i = 0, tmp = res; i < pfs->pfs_header.num_entries; i++, tmp++) {
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u64 entry_size_bytes = pfs->pfs_header.entry_size * sizeof(u32);
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tmp->start = pfs->vsec_offset + entry_size_bytes * i;
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tmp->end = tmp->start + entry_size_bytes - 1;
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tmp->flags = IORESOURCE_MEM;
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}
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feature_vsec_dev->pcidev = vsec_dev->pcidev;
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feature_vsec_dev->resource = res;
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feature_vsec_dev->num_resources = pfs->pfs_header.num_entries;
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feature_vsec_dev->priv_data = &tpmi_info->plat_info;
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feature_vsec_dev->priv_data_size = sizeof(tpmi_info->plat_info);
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feature_vsec_dev->ida = &intel_vsec_tpmi_ida;
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/*
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* intel_vsec_add_aux() is resource managed, no explicit
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* delete is required on error or on module unload.
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* feature_vsec_dev and res memory are also freed as part of
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* device deletion.
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*/
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return intel_vsec_add_aux(vsec_dev->pcidev, &vsec_dev->auxdev.dev,
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feature_vsec_dev, feature_id_name);
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}
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static int tpmi_create_devices(struct intel_tpmi_info *tpmi_info)
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{
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struct intel_vsec_device *vsec_dev = tpmi_info->vsec_dev;
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int ret, i;
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for (i = 0; i < vsec_dev->num_resources; i++) {
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ret = tpmi_create_device(tpmi_info, &tpmi_info->tpmi_features[i],
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tpmi_info->pfs_start);
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/*
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* Fail, if the supported features fails to create device,
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* otherwise, continue. Even if one device failed to create,
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* fail the loading of driver. Since intel_vsec_add_aux()
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* is resource managed, no clean up is required for the
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* successfully created devices.
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*/
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if (ret && ret != -EOPNOTSUPP)
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return ret;
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}
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return 0;
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}
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#define TPMI_INFO_BUS_INFO_OFFSET 0x08
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static int tpmi_process_info(struct intel_tpmi_info *tpmi_info,
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struct intel_tpmi_pm_feature *pfs)
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{
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struct tpmi_info_header header;
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void __iomem *info_mem;
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info_mem = ioremap(pfs->vsec_offset + TPMI_INFO_BUS_INFO_OFFSET,
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pfs->pfs_header.entry_size * sizeof(u32) - TPMI_INFO_BUS_INFO_OFFSET);
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if (!info_mem)
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return -ENOMEM;
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memcpy_fromio(&header, info_mem, sizeof(header));
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tpmi_info->plat_info.package_id = header.pkg;
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tpmi_info->plat_info.bus_number = header.bus;
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tpmi_info->plat_info.device_number = header.dev;
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tpmi_info->plat_info.function_number = header.fn;
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iounmap(info_mem);
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return 0;
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}
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static int tpmi_fetch_pfs_header(struct intel_tpmi_pm_feature *pfs, u64 start, int size)
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{
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void __iomem *pfs_mem;
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pfs_mem = ioremap(start, size);
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if (!pfs_mem)
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return -ENOMEM;
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memcpy_fromio(&pfs->pfs_header, pfs_mem, sizeof(pfs->pfs_header));
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iounmap(pfs_mem);
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return 0;
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}
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#define TPMI_CAP_OFFSET_UNIT 1024
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static int intel_vsec_tpmi_init(struct auxiliary_device *auxdev)
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{
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struct intel_vsec_device *vsec_dev = auxdev_to_ivdev(auxdev);
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struct pci_dev *pci_dev = vsec_dev->pcidev;
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struct intel_tpmi_info *tpmi_info;
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u64 pfs_start = 0;
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int i;
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tpmi_info = devm_kzalloc(&auxdev->dev, sizeof(*tpmi_info), GFP_KERNEL);
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if (!tpmi_info)
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return -ENOMEM;
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tpmi_info->vsec_dev = vsec_dev;
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tpmi_info->feature_count = vsec_dev->num_resources;
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tpmi_info->plat_info.bus_number = pci_dev->bus->number;
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tpmi_info->tpmi_features = devm_kcalloc(&auxdev->dev, vsec_dev->num_resources,
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sizeof(*tpmi_info->tpmi_features),
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GFP_KERNEL);
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if (!tpmi_info->tpmi_features)
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return -ENOMEM;
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for (i = 0; i < vsec_dev->num_resources; i++) {
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struct intel_tpmi_pm_feature *pfs;
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struct resource *res;
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u64 res_start;
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int size, ret;
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pfs = &tpmi_info->tpmi_features[i];
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res = &vsec_dev->resource[i];
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if (!res)
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continue;
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res_start = res->start;
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size = resource_size(res);
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if (size < 0)
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continue;
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ret = tpmi_fetch_pfs_header(pfs, res_start, size);
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if (ret)
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continue;
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if (!pfs_start)
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pfs_start = res_start;
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pfs->vsec_offset = pfs_start + pfs->pfs_header.cap_offset * TPMI_CAP_OFFSET_UNIT;
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/*
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* Process TPMI_INFO to get PCI device to CPU package ID.
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* Device nodes for TPMI features are not created in this
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* for loop. So, the mapping information will be available
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* when actual device nodes created outside this
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* loop via tpmi_create_devices().
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*/
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if (pfs->pfs_header.tpmi_id == TPMI_INFO_ID)
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tpmi_process_info(tpmi_info, pfs);
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}
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tpmi_info->pfs_start = pfs_start;
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auxiliary_set_drvdata(auxdev, tpmi_info);
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return tpmi_create_devices(tpmi_info);
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}
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static int tpmi_probe(struct auxiliary_device *auxdev,
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const struct auxiliary_device_id *id)
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{
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return intel_vsec_tpmi_init(auxdev);
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}
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/*
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* Remove callback is not needed currently as there is no
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* cleanup required. All memory allocs are device managed. All
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* devices created by this modules are also device managed.
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*/
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static const struct auxiliary_device_id tpmi_id_table[] = {
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{ .name = "intel_vsec.tpmi" },
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{}
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};
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MODULE_DEVICE_TABLE(auxiliary, tpmi_id_table);
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static struct auxiliary_driver tpmi_aux_driver = {
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.id_table = tpmi_id_table,
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.probe = tpmi_probe,
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};
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module_auxiliary_driver(tpmi_aux_driver);
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MODULE_IMPORT_NS(INTEL_VSEC);
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MODULE_DESCRIPTION("Intel TPMI enumeration module");
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MODULE_LICENSE("GPL");
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