drivers/platform/x86/intel/ifs/ifs.h - third_party/linux - Git at Google

 /* SPDX-License-Identifier: GPL-2.0-only */
 /* Copyright(c) 2022 Intel Corporation. */

 #ifndef _IFS_H_
 #define _IFS_H_

 /**
  * DOC: In-Field Scan
  *
  * =============
  * In-Field Scan
  * =============
  *
  * Introduction
  * ------------
  *
  * In Field Scan (IFS) is a hardware feature to run circuit level tests on
  * a CPU core to detect problems that are not caught by parity or ECC checks.
  * Future CPUs will support more than one type of test which will show up
  * with a new platform-device instance-id, for now only .0 is exposed.
  *
  *
  * IFS Image
  * ---------
  *
  * Intel provides a firmware file containing the scan tests via
  * github [#f1]_.  Similar to microcode there is a separate file for each
  * family-model-stepping.
  *
  * IFS Image Loading
  * -----------------
  *
  * The driver loads the tests into memory reserved BIOS local to each CPU
  * socket in a two step process using writes to MSRs to first load the
  * SHA hashes for the test. Then the tests themselves. Status MSRs provide
  * feedback on the success/failure of these steps. When a new test file
  * is installed it can be loaded by writing to the driver reload file::
  *
  *   # echo 1 > /sys/devices/virtual/misc/intel_ifs_0/reload
  *
  * Similar to microcode, the current version of the scan tests is stored
  * in a fixed location: /lib/firmware/intel/ifs.0/family-model-stepping.scan
  *
  * Running tests
  * -------------
  *
  * Tests are run by the driver synchronizing execution of all threads on a
  * core and then writing to the ACTIVATE_SCAN MSR on all threads. Instruction
  * execution continues when:
  *
  * 1) All tests have completed.
  * 2) Execution was interrupted.
  * 3) A test detected a problem.
  *
  * Note that ALL THREADS ON THE CORE ARE EFFECTIVELY OFFLINE FOR THE
  * DURATION OF THE TEST. This can be up to 200 milliseconds. If the system
  * is running latency sensitive applications that cannot tolerate an
  * interruption of this magnitude, the system administrator must arrange
  * to migrate those applications to other cores before running a core test.
  * It may also be necessary to redirect interrupts to other CPUs.
  *
  * In all cases reading the SCAN_STATUS MSR provides details on what
  * happened. The driver makes the value of this MSR visible to applications
  * via the "details" file (see below). Interrupted tests may be restarted.
  *
  * The IFS driver provides sysfs interfaces via /sys/devices/virtual/misc/intel_ifs_0/
  * to control execution:
  *
  * Test a specific core::
  *
  *   # echo <cpu#> > /sys/devices/virtual/misc/intel_ifs_0/run_test
  *
  * when HT is enabled any of the sibling cpu# can be specified to test
  * its corresponding physical core. Since the tests are per physical core,
  * the result of testing any thread is same. All siblings must be online
  * to run a core test. It is only necessary to test one thread.
  *
  * For e.g. to test core corresponding to cpu5
  *
  *   # echo 5 > /sys/devices/virtual/misc/intel_ifs_0/run_test
  *
  * Results of the last test is provided in /sys::
  *
  *   $ cat /sys/devices/virtual/misc/intel_ifs_0/status
  *   pass
  *
  * Status can be one of pass, fail, untested
  *
  * Additional details of the last test is provided by the details file::
  *
  *   $ cat /sys/devices/virtual/misc/intel_ifs_0/details
  *   0x8081
  *
  * The details file reports the hex value of the SCAN_STATUS MSR.
  * Hardware defined error codes are documented in volume 4 of the Intel
  * Software Developer's Manual but the error_code field may contain one of
  * the following driver defined software codes:
  *
  * +------+--------------------+
  * | 0xFD | Software timeout   |
  * +------+--------------------+
  * | 0xFE | Partial completion |
  * +------+--------------------+
  *
  * Driver design choices
  * ---------------------
  *
  * 1) The ACTIVATE_SCAN MSR allows for running any consecutive subrange of
  * available tests. But the driver always tries to run all tests and only
  * uses the subrange feature to restart an interrupted test.
  *
  * 2) Hardware allows for some number of cores to be tested in parallel.
  * The driver does not make use of this, it only tests one core at a time.
  *
  * .. [#f1] https://github.com/intel/TBD
  */
 #include <linux/device.h>
 #include <linux/miscdevice.h>

 #define MSR_COPY_SCAN_HASHES			0x000002c2
 #define MSR_SCAN_HASHES_STATUS			0x000002c3
 #define MSR_AUTHENTICATE_AND_COPY_CHUNK		0x000002c4
 #define MSR_CHUNKS_AUTHENTICATION_STATUS	0x000002c5
 #define MSR_ACTIVATE_SCAN			0x000002c6
 #define MSR_SCAN_STATUS				0x000002c7
 #define SCAN_NOT_TESTED				0
 #define SCAN_TEST_PASS				1
 #define SCAN_TEST_FAIL				2

 /* MSR_SCAN_HASHES_STATUS bit fields */
 union ifs_scan_hashes_status {
 	u64	data;
 	struct {
 		u32	chunk_size	:16;
 		u32	num_chunks	:8;
 		u32	rsvd1		:8;
 		u32	error_code	:8;
 		u32	rsvd2		:11;
 		u32	max_core_limit	:12;
 		u32	valid		:1;
 	};
 };

 /* MSR_CHUNKS_AUTH_STATUS bit fields */
 union ifs_chunks_auth_status {
 	u64	data;
 	struct {
 		u32	valid_chunks	:8;
 		u32	total_chunks	:8;
 		u32	rsvd1		:16;
 		u32	error_code	:8;
 		u32	rsvd2		:24;
 	};
 };

 /* MSR_ACTIVATE_SCAN bit fields */
 union ifs_scan {
 	u64	data;
 	struct {
 		u32	start	:8;
 		u32	stop	:8;
 		u32	rsvd	:16;
 		u32	delay	:31;
 		u32	sigmce	:1;
 	};
 };

 /* MSR_SCAN_STATUS bit fields */
 union ifs_status {
 	u64	data;
 	struct {
 		u32	chunk_num		:8;
 		u32	chunk_stop_index	:8;
 		u32	rsvd1			:16;
 		u32	error_code		:8;
 		u32	rsvd2			:22;
 		u32	control_error		:1;
 		u32	signature_error		:1;
 	};
 };

 /*
  * Driver populated error-codes
  * 0xFD: Test timed out before completing all the chunks.
  * 0xFE: not all scan chunks were executed. Maximum forward progress retries exceeded.
  */
 #define IFS_SW_TIMEOUT				0xFD
 #define IFS_SW_PARTIAL_COMPLETION		0xFE

 /**
  * struct ifs_data - attributes related to intel IFS driver
  * @integrity_cap_bit: MSR_INTEGRITY_CAPS bit enumerating this test
  * @loaded_version: stores the currently loaded ifs image version.
  * @loaded: If a valid test binary has been loaded into the memory
  * @loading_error: Error occurred on another CPU while loading image
  * @valid_chunks: number of chunks which could be validated.
  * @status: it holds simple status pass/fail/untested
  * @scan_details: opaque scan status code from h/w
  */
 struct ifs_data {
 	int	integrity_cap_bit;
 	int	loaded_version;
 	bool	loaded;
 	bool	loading_error;
 	int	valid_chunks;
 	int	status;
 	u64	scan_details;
 };

 struct ifs_work {
 	struct work_struct w;
 	struct device *dev;
 };

 struct ifs_device {
 	struct ifs_data data;
 	struct miscdevice misc;
 };

 static inline struct ifs_data *ifs_get_data(struct device *dev)
 {
 	struct miscdevice *m = dev_get_drvdata(dev);
 	struct ifs_device *d = container_of(m, struct ifs_device, misc);

 	return &d->data;
 }

 void ifs_load_firmware(struct device *dev);
 int do_core_test(int cpu, struct device *dev);
 const struct attribute_group **ifs_get_groups(void);

 extern struct semaphore ifs_sem;

 #endif
	/* SPDX-License-Identifier: GPL-2.0-only */
	/* Copyright(c) 2022 Intel Corporation. */

	#ifndef _IFS_H_
	#define _IFS_H_

	/**
	* DOC: In-Field Scan
	*
	* =============
	* In-Field Scan
	* =============
	*
	* Introduction
	* ------------
	*
	* In Field Scan (IFS) is a hardware feature to run circuit level tests on
	* a CPU core to detect problems that are not caught by parity or ECC checks.
	* Future CPUs will support more than one type of test which will show up
	* with a new platform-device instance-id, for now only .0 is exposed.
	*
	*
	* IFS Image
	* ---------
	*
	* Intel provides a firmware file containing the scan tests via
	* github [#f1]_. Similar to microcode there is a separate file for each
	* family-model-stepping.
	*
	* IFS Image Loading
	* -----------------
	*
	* The driver loads the tests into memory reserved BIOS local to each CPU
	* socket in a two step process using writes to MSRs to first load the
	* SHA hashes for the test. Then the tests themselves. Status MSRs provide
	* feedback on the success/failure of these steps. When a new test file
	* is installed it can be loaded by writing to the driver reload file::
	*
	* # echo 1 > /sys/devices/virtual/misc/intel_ifs_0/reload
	*
	* Similar to microcode, the current version of the scan tests is stored
	* in a fixed location: /lib/firmware/intel/ifs.0/family-model-stepping.scan
	*
	* Running tests
	* -------------
	*
	* Tests are run by the driver synchronizing execution of all threads on a
	* core and then writing to the ACTIVATE_SCAN MSR on all threads. Instruction
	* execution continues when:
	*
	* 1) All tests have completed.
	* 2) Execution was interrupted.
	* 3) A test detected a problem.
	*
	* Note that ALL THREADS ON THE CORE ARE EFFECTIVELY OFFLINE FOR THE
	* DURATION OF THE TEST. This can be up to 200 milliseconds. If the system
	* is running latency sensitive applications that cannot tolerate an
	* interruption of this magnitude, the system administrator must arrange
	* to migrate those applications to other cores before running a core test.
	* It may also be necessary to redirect interrupts to other CPUs.
	*
	* In all cases reading the SCAN_STATUS MSR provides details on what
	* happened. The driver makes the value of this MSR visible to applications
	* via the "details" file (see below). Interrupted tests may be restarted.
	*
	* The IFS driver provides sysfs interfaces via /sys/devices/virtual/misc/intel_ifs_0/
	* to control execution:
	*
	* Test a specific core::
	*
	* # echo <cpu#> > /sys/devices/virtual/misc/intel_ifs_0/run_test
	*
	* when HT is enabled any of the sibling cpu# can be specified to test
	* its corresponding physical core. Since the tests are per physical core,
	* the result of testing any thread is same. All siblings must be online
	* to run a core test. It is only necessary to test one thread.
	*
	* For e.g. to test core corresponding to cpu5
	*
	* # echo 5 > /sys/devices/virtual/misc/intel_ifs_0/run_test
	*
	* Results of the last test is provided in /sys::
	*
	* $ cat /sys/devices/virtual/misc/intel_ifs_0/status
	* pass
	*
	* Status can be one of pass, fail, untested
	*
	* Additional details of the last test is provided by the details file::
	*
	* $ cat /sys/devices/virtual/misc/intel_ifs_0/details
	* 0x8081
	*
	* The details file reports the hex value of the SCAN_STATUS MSR.
	* Hardware defined error codes are documented in volume 4 of the Intel
	* Software Developer's Manual but the error_code field may contain one of
	* the following driver defined software codes:
	*
	* +------+--------------------+
	* \| 0xFD \| Software timeout \|
	* +------+--------------------+
	* \| 0xFE \| Partial completion \|
	* +------+--------------------+
	*
	* Driver design choices
	* ---------------------
	*
	* 1) The ACTIVATE_SCAN MSR allows for running any consecutive subrange of
	* available tests. But the driver always tries to run all tests and only
	* uses the subrange feature to restart an interrupted test.
	*
	* 2) Hardware allows for some number of cores to be tested in parallel.
	* The driver does not make use of this, it only tests one core at a time.
	*
	* .. [#f1] https://github.com/intel/TBD
	*/
	#include <linux/device.h>
	#include <linux/miscdevice.h>

	#define MSR_COPY_SCAN_HASHES 0x000002c2
	#define MSR_SCAN_HASHES_STATUS 0x000002c3
	#define MSR_AUTHENTICATE_AND_COPY_CHUNK 0x000002c4
	#define MSR_CHUNKS_AUTHENTICATION_STATUS 0x000002c5
	#define MSR_ACTIVATE_SCAN 0x000002c6
	#define MSR_SCAN_STATUS 0x000002c7
	#define SCAN_NOT_TESTED 0
	#define SCAN_TEST_PASS 1
	#define SCAN_TEST_FAIL 2

	/* MSR_SCAN_HASHES_STATUS bit fields */
	union ifs_scan_hashes_status {
	u64 data;
	struct {
	u32 chunk_size :16;
	u32 num_chunks :8;
	u32 rsvd1 :8;
	u32 error_code :8;
	u32 rsvd2 :11;
	u32 max_core_limit :12;
	u32 valid :1;
	};
	};

	/* MSR_CHUNKS_AUTH_STATUS bit fields */
	union ifs_chunks_auth_status {
	u64 data;
	struct {
	u32 valid_chunks :8;
	u32 total_chunks :8;
	u32 rsvd1 :16;
	u32 error_code :8;
	u32 rsvd2 :24;
	};
	};

	/* MSR_ACTIVATE_SCAN bit fields */
	union ifs_scan {
	u64 data;
	struct {
	u32 start :8;
	u32 stop :8;
	u32 rsvd :16;
	u32 delay :31;
	u32 sigmce :1;
	};
	};

	/* MSR_SCAN_STATUS bit fields */
	union ifs_status {
	u64 data;
	struct {
	u32 chunk_num :8;
	u32 chunk_stop_index :8;
	u32 rsvd1 :16;
	u32 error_code :8;
	u32 rsvd2 :22;
	u32 control_error :1;
	u32 signature_error :1;
	};
	};

	/*
	* Driver populated error-codes
	* 0xFD: Test timed out before completing all the chunks.
	* 0xFE: not all scan chunks were executed. Maximum forward progress retries exceeded.
	*/
	#define IFS_SW_TIMEOUT 0xFD
	#define IFS_SW_PARTIAL_COMPLETION 0xFE

	/**
	* struct ifs_data - attributes related to intel IFS driver
	* @integrity_cap_bit: MSR_INTEGRITY_CAPS bit enumerating this test
	* @loaded_version: stores the currently loaded ifs image version.
	* @loaded: If a valid test binary has been loaded into the memory
	* @loading_error: Error occurred on another CPU while loading image
	* @valid_chunks: number of chunks which could be validated.
	* @status: it holds simple status pass/fail/untested
	* @scan_details: opaque scan status code from h/w
	*/
	struct ifs_data {
	int integrity_cap_bit;
	int loaded_version;
	bool loaded;
	bool loading_error;
	int valid_chunks;
	int status;
	u64 scan_details;
	};

	struct ifs_work {
	struct work_struct w;
	struct device *dev;
	};

	struct ifs_device {
	struct ifs_data data;
	struct miscdevice misc;
	};

	static inline struct ifs_data ifs_get_data(struct device dev)
	{
	struct miscdevice *m = dev_get_drvdata(dev);
	struct ifs_device *d = container_of(m, struct ifs_device, misc);

	return &d->data;
	}

	void ifs_load_firmware(struct device *dev);
	int do_core_test(int cpu, struct device *dev);
	const struct attribute_group **ifs_get_groups(void);

	extern struct semaphore ifs_sem;

	#endif