OpenCloudOS-Kernel/drivers/hwtracing/coresight/coresight-config.h

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/* SPDX-License-Identifier: GPL-2.0 */
/*
* Copyright (c) 2020 Linaro Limited, All rights reserved.
* Author: Mike Leach <mike.leach@linaro.org>
*/
#ifndef _CORESIGHT_CORESIGHT_CONFIG_H
#define _CORESIGHT_CORESIGHT_CONFIG_H
#include <linux/coresight.h>
#include <linux/types.h>
/* CoreSight Configuration Management - component and system wide configuration */
/*
* Register type flags for register value descriptor:
* describe how the value is interpreted, and handled.
*/
#define CS_CFG_REG_TYPE_STD 0x80 /* reg is standard reg */
#define CS_CFG_REG_TYPE_RESOURCE 0x40 /* reg is a resource */
#define CS_CFG_REG_TYPE_VAL_PARAM 0x08 /* reg value uses param */
#define CS_CFG_REG_TYPE_VAL_MASK 0x04 /* reg value bit masked */
#define CS_CFG_REG_TYPE_VAL_64BIT 0x02 /* reg value 64 bit */
#define CS_CFG_REG_TYPE_VAL_SAVE 0x01 /* reg value save on disable */
/*
* flags defining what device class a feature will match to when processing a
* system configuration - used by config data and devices.
*/
#define CS_CFG_MATCH_CLASS_SRC_ALL 0x0001 /* match any source */
#define CS_CFG_MATCH_CLASS_SRC_ETM4 0x0002 /* match any ETMv4 device */
/* flags defining device instance matching - used in config match desc data. */
#define CS_CFG_MATCH_INST_ANY 0x80000000 /* any instance of a class */
/*
* Limit number of presets in a configuration
* This is related to the number of bits (4) we use to select the preset on
* the perf command line. Preset 0 is always none selected.
* See PMU_FORMAT_ATTR(preset, "config:0-3") in coresight-etm-perf.c
*/
#define CS_CFG_CONFIG_PRESET_MAX 15
/**
* Parameter descriptor for a device feature.
*
* @name: Name of parameter.
* @value: Initial or default value.
*/
struct cscfg_parameter_desc {
const char *name;
u64 value;
};
/**
* Representation of register value and a descriptor of register usage.
*
* Used as a descriptor in the feature descriptors.
* Used as a value in when in a feature loading into a csdev.
*
* Supports full 64 bit register value, or 32 bit value with optional mask
* value.
*
* @type: define register usage and interpretation.
* @offset: the address offset for register in the hardware device (per device specification).
* @hw_info: optional hardware device type specific information. (ETM / CTI specific etc)
* @val64: 64 bit value.
* @val32: 32 bit value.
* @mask32: 32 bit mask when using 32 bit value to access device register - if mask type.
* @param_idx: parameter index value into parameter array if param type.
*/
struct cscfg_regval_desc {
struct {
u32 type:8;
u32 offset:12;
u32 hw_info:12;
};
union {
u64 val64;
struct {
u32 val32;
u32 mask32;
};
u32 param_idx;
};
};
/**
* Device feature descriptor - combination of registers and parameters to
* program a device to implement a specific complex function.
*
* @name: feature name.
* @description: brief description of the feature.
* @item: List entry.
* @match_flags: matching information if loading into a device
* @nr_params: number of parameters used.
* @params_desc: array of parameters used.
* @nr_regs: number of registers used.
* @regs_desc: array of registers used.
* @load_owner: handle to load owner for dynamic load and unload of features.
* @fs_group: reference to configfs group for dynamic unload.
*/
struct cscfg_feature_desc {
const char *name;
const char *description;
struct list_head item;
u32 match_flags;
int nr_params;
struct cscfg_parameter_desc *params_desc;
int nr_regs;
struct cscfg_regval_desc *regs_desc;
void *load_owner;
struct config_group *fs_group;
};
/**
* Configuration descriptor - describes selectable system configuration.
*
* A configuration describes device features in use, and may provide preset
* values for the parameters in those features.
*
* A single set of presets is the sum of the parameters declared by
* all the features in use - this value is @nr_total_params.
*
* @name: name of the configuration - used for selection.
* @description: description of the purpose of the configuration.
* @item: list entry.
* @nr_feat_refs: Number of features used in this configuration.
* @feat_ref_names: references to features used in this configuration.
* @nr_presets: Number of sets of presets supplied by this configuration.
* @nr_total_params: Sum of all parameters declared by used features
* @presets: Array of preset values.
* @event_ea: Extended attribute for perf event value
* @active_cnt: ref count for activate on this configuration.
* @load_owner: handle to load owner for dynamic load and unload of configs.
* @fs_group: reference to configfs group for dynamic unload.
coresight: syscfg: Update load and unload operations The configfs system is a source of access to the config information in the configuration and feature lists. This can result in additional LOCKDEP issues as a result of the mutex ordering between the config list mutex (cscfg_mutex) and the configfs system mutexes. As such we need to adjust how load/unload operations work to ensure correct operation. 1) Previously the cscfg_mutex was held throughout the load/unload operation. This is now only held during configuration list manipulations, resulting in a multi-stage load/unload process. 2) All operations that manipulate the configfs representation of the configurations and features are now separated out and run without the cscfg_mutex being held. This avoids circular lock_dep issue with the built-in configfs mutexes and semaphores 3) As the load and unload is now multi-stage, some parts under the cscfg_mutex and others not: i) A flag indicating a load / unload operation in progress is used to serialise load / unload operations. ii) activating any configuration not possible when unload is in progress. iii) Configurations have an "available" flag set only after the last load stage for the configuration is complete. Activation of the configuration not possible till flag is set. 4) Following load/unload rules remain: i) Unload prevented while any configuration is active remains. ii) Unload in strict reverse order of load. iii) Existing configurations can be activated while a new load operation is underway. (by definition there can be no dependencies between an existing configuration and a new loading one due to ii) above.) Fixes: eb2ec49606c2 ("coresight: syscfg: Update load API for config loadable modules") Reported-by: Suzuki Poulose <suzuki.poulose@arm.com> Signed-off-by: Mike Leach <mike.leach@linaro.org> Reviewed-and-tested-by: Suzuki K Poulose <suzuki.poulose@arm.com> Link: https://lore.kernel.org/r/20220628173004.30002-3-mike.leach@linaro.org Signed-off-by: Mathieu Poirier <mathieu.poirier@linaro.org>
2022-06-29 01:30:04 +08:00
* @available: config can be activated - multi-stage load sets true on completion.
*/
struct cscfg_config_desc {
const char *name;
const char *description;
struct list_head item;
int nr_feat_refs;
const char **feat_ref_names;
int nr_presets;
int nr_total_params;
const u64 *presets; /* nr_presets * nr_total_params */
struct dev_ext_attribute *event_ea;
atomic_t active_cnt;
void *load_owner;
struct config_group *fs_group;
coresight: syscfg: Update load and unload operations The configfs system is a source of access to the config information in the configuration and feature lists. This can result in additional LOCKDEP issues as a result of the mutex ordering between the config list mutex (cscfg_mutex) and the configfs system mutexes. As such we need to adjust how load/unload operations work to ensure correct operation. 1) Previously the cscfg_mutex was held throughout the load/unload operation. This is now only held during configuration list manipulations, resulting in a multi-stage load/unload process. 2) All operations that manipulate the configfs representation of the configurations and features are now separated out and run without the cscfg_mutex being held. This avoids circular lock_dep issue with the built-in configfs mutexes and semaphores 3) As the load and unload is now multi-stage, some parts under the cscfg_mutex and others not: i) A flag indicating a load / unload operation in progress is used to serialise load / unload operations. ii) activating any configuration not possible when unload is in progress. iii) Configurations have an "available" flag set only after the last load stage for the configuration is complete. Activation of the configuration not possible till flag is set. 4) Following load/unload rules remain: i) Unload prevented while any configuration is active remains. ii) Unload in strict reverse order of load. iii) Existing configurations can be activated while a new load operation is underway. (by definition there can be no dependencies between an existing configuration and a new loading one due to ii) above.) Fixes: eb2ec49606c2 ("coresight: syscfg: Update load API for config loadable modules") Reported-by: Suzuki Poulose <suzuki.poulose@arm.com> Signed-off-by: Mike Leach <mike.leach@linaro.org> Reviewed-and-tested-by: Suzuki K Poulose <suzuki.poulose@arm.com> Link: https://lore.kernel.org/r/20220628173004.30002-3-mike.leach@linaro.org Signed-off-by: Mathieu Poirier <mathieu.poirier@linaro.org>
2022-06-29 01:30:04 +08:00
bool available;
};
/**
* config register instance - part of a loaded feature.
* maps register values to csdev driver structures
*
* @reg_desc: value to use when setting feature on device / store for
* readback of volatile values.
* @driver_regval: pointer to internal driver element used to set the value
* in hardware.
*/
struct cscfg_regval_csdev {
struct cscfg_regval_desc reg_desc;
void *driver_regval;
};
/**
* config parameter instance - part of a loaded feature.
*
* @feat_csdev: parent feature
* @reg_csdev: register value updated by this parameter.
* @current_value: current value of parameter - may be set by user via
* sysfs, or modified during device operation.
* @val64: true if 64 bit value
*/
struct cscfg_parameter_csdev {
struct cscfg_feature_csdev *feat_csdev;
struct cscfg_regval_csdev *reg_csdev;
u64 current_value;
bool val64;
};
/**
* Feature instance loaded into a CoreSight device.
*
* When a feature is loaded into a specific device, then this structure holds
* the connections between the register / parameter values used and the
* internal data structures that are written when the feature is enabled.
*
* Since applying a feature modifies internal data structures in the device,
* then we have a reference to the device spinlock to protect access to these
* structures (@drv_spinlock).
*
* @feat_desc: pointer to the static descriptor for this feature.
* @csdev: parent CoreSight device instance.
* @node: list entry into feature list for this device.
* @drv_spinlock: device spinlock for access to driver register data.
* @nr_params: number of parameters.
* @params_csdev: current parameter values on this device
* @nr_regs: number of registers to be programmed.
* @regs_csdev: Programming details for the registers
*/
struct cscfg_feature_csdev {
const struct cscfg_feature_desc *feat_desc;
struct coresight_device *csdev;
struct list_head node;
spinlock_t *drv_spinlock;
int nr_params;
struct cscfg_parameter_csdev *params_csdev;
int nr_regs;
struct cscfg_regval_csdev *regs_csdev;
};
/**
* Configuration instance when loaded into a CoreSight device.
*
* The instance contains references to loaded features on this device that are
* used by the configuration.
*
* @config_desc:reference to the descriptor for this configuration
* @csdev: parent coresight device for this configuration instance.
* @enabled: true if configuration is enabled on this device.
* @node: list entry within the coresight device
* @nr_feat: Number of features on this device that are used in the
* configuration.
* @feats_csdev:references to the device features to enable.
*/
struct cscfg_config_csdev {
const struct cscfg_config_desc *config_desc;
struct coresight_device *csdev;
bool enabled;
struct list_head node;
int nr_feat;
struct cscfg_feature_csdev *feats_csdev[];
};
/**
* Coresight device operations.
*
* Registered coresight devices provide these operations to manage feature
* instances compatible with the device hardware and drivers
*
* @load_feat: Pass a feature descriptor into the device and create the
* loaded feature instance (struct cscfg_feature_csdev).
*/
struct cscfg_csdev_feat_ops {
int (*load_feat)(struct coresight_device *csdev,
struct cscfg_feature_csdev *feat_csdev);
};
/* coresight config helper functions*/
/* enable / disable config on a device - called with appropriate locks set.*/
int cscfg_csdev_enable_config(struct cscfg_config_csdev *config_csdev, int preset);
void cscfg_csdev_disable_config(struct cscfg_config_csdev *config_csdev);
/* reset a feature to default values */
void cscfg_reset_feat(struct cscfg_feature_csdev *feat_csdev);
#endif /* _CORESIGHT_CORESIGHT_CONFIG_H */