linux/drivers/accel/habanalabs/common/security.h

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/* SPDX-License-Identifier: GPL-2.0
*
* Copyright 2016-2022 HabanaLabs, Ltd.
* All Rights Reserved.
*
*/
#ifndef SECURITY_H_
#define SECURITY_H_
#include <linux/io-64-nonatomic-lo-hi.h>
extern struct hl_device *hdev;
/* special blocks */
#define HL_MAX_NUM_OF_GLBL_ERR_CAUSE 10
#define HL_GLBL_ERR_ADDRESS_MASK GENMASK(11, 0)
/* GLBL_ERR_ADDR register offset from the start of the block */
#define HL_GLBL_ERR_ADDR_OFFSET 0xF44
/* GLBL_ERR_CAUSE register offset from the start of the block */
#define HL_GLBL_ERR_CAUSE_OFFSET 0xF48
/*
* struct hl_special_block_info - stores address details of a particular type of
* IP block which has a SPECIAL part.
*
* @block_type: block type as described in every ASIC's block_types enum.
* @base_addr: base address of the first block of particular type,
* e.g., address of NIC0_UMR0_0 of 'NIC_UMR' block.
* @major: number of major blocks of particular type.
* @minor: number of minor blocks of particular type.
* @sub_minor: number of sub minor blocks of particular type.
* @major_offset: address gap between 2 consecutive major blocks of particular type,
* e.g., offset between NIC0_UMR0_0 and NIC1_UMR0_0 is 0x80000.
* @minor_offset: address gap between 2 consecutive minor blocks of particular type,
* e.g., offset between NIC0_UMR0_0 and NIC0_UMR1_0 is 0x20000.
* @sub_minor_offset: address gap between 2 consecutive sub_minor blocks of particular
* type, e.g., offset between NIC0_UMR0_0 and NIC0_UMR0_1 is 0x1000.
*
* e.g., in Gaudi2, NIC_UMR blocks can be interpreted as:
* NIC<major>_UMR<minor>_<sub_minor> where major=12, minor=2, sub_minor=15.
* In other words, for each of 12 major numbers (i.e 0 to 11) there are
* 2 blocks with different minor numbers (i.e. 0 to 1). Again, for each minor
* number there are 15 blocks with different sub_minor numbers (i.e. 0 to 14).
* So different blocks are NIC0_UMR0_0, NIC0_UMR0_1, ..., NIC0_UMR1_0, ....,
* NIC11_UMR1_14.
*
* Struct's formatted data is located in the SOL-based auto-generated protbits headers.
*/
struct hl_special_block_info {
int block_type;
u32 base_addr;
u32 major;
u32 minor;
u32 sub_minor;
u32 major_offset;
u32 minor_offset;
u32 sub_minor_offset;
};
/*
* struct hl_automated_pb_cfg - represents configurations of a particular type
* of IP block which has protection bits.
*
* @addr: address details as described in hl_automation_pb_addr struct.
* @prot_map: each bit corresponds to one among 32 protection configuration regs
* (e.g., SPECIAL_GLBL_PRIV). '1' means 0xffffffff and '0' means 0x0
* to be written into the corresponding protection configuration reg.
* This bit is meaningful if same bit in data_map is 0, otherwise ignored.
* @data_map: each bit corresponds to one among 32 protection configuration regs
* (e.g., SPECIAL_GLBL_PRIV). '1' means corresponding protection
* configuration reg is to be written with a value in array pointed
* by 'data', otherwise the value is decided by 'prot_map'.
* @data: pointer to data array which stores the config value(s) to be written
* to corresponding protection configuration reg(s).
* @data_size: size of the data array.
*
* Each bit of 'data_map' and 'prot_map' fields corresponds to one among 32
* protection configuration registers e.g., SPECIAL GLBL PRIV regs (starting at
* offset 0xE80). '1' in 'data_map' means protection configuration to be done
* using configuration in data array. '0' in 'data_map" means protection
* configuration to be done as per the value of corresponding bit in 'prot_map'.
* '1' in 'prot_map' means the register to be programmed with 0xFFFFFFFF
* (all non-protected). '0' in 'prot_map' means the register to be programmed
* with 0x0 (all protected).
*
* e.g., prot_map = 0x00000001, data_map = 0xC0000000 , data = {0xff, 0x12}
* SPECIAL_GLBL_PRIV[0] = 0xFFFFFFFF
* SPECIAL_GLBL_PRIV[1..29] = 0x0
* SPECIAL_GLBL_PRIV[30] = 0xFF
* SPECIAL_GLBL_PRIV[31] = 0x12
*/
struct hl_automated_pb_cfg {
struct hl_special_block_info addr;
u32 prot_map;
u32 data_map;
const u32 *data;
u8 data_size;
};
/* struct hl_special_blocks_cfg - holds special blocks cfg data.
*
* @priv_automated_pb_cfg: points to the main privileged PB array.
* @sec_automated_pb_cfg: points to the main secured PB array.
* @skip_blocks_cfg: holds arrays of block types & block ranges to be excluded.
* @priv_cfg_size: size of the main privileged PB array.
* @sec_cfg_size: size of the main secured PB array.
* @prot_lvl_priv: indication if it's a privileged/secured PB configurations.
*/
struct hl_special_blocks_cfg {
struct hl_automated_pb_cfg *priv_automated_pb_cfg;
struct hl_automated_pb_cfg *sec_automated_pb_cfg;
struct hl_skip_blocks_cfg *skip_blocks_cfg;
u32 priv_cfg_size;
u32 sec_cfg_size;
u8 prot_lvl_priv;
};
/* Automated security */
/* struct hl_skip_blocks_cfg - holds arrays of block types & block ranges to be
* excluded from special blocks configurations.
*
* @block_types: an array of block types NOT to be configured.
* @block_types_len: len of an array of block types not to be configured.
* @block_ranges: an array of block ranges not to be configured.
* @block_ranges_len: len of an array of block ranges not to be configured.
* @skip_block_hook: hook that will be called before initializing special blocks.
*/
struct hl_skip_blocks_cfg {
int *block_types;
size_t block_types_len;
struct range *block_ranges;
size_t block_ranges_len;
bool (*skip_block_hook)(struct hl_device *hdev,
struct hl_special_blocks_cfg *special_blocks_cfg,
u32 blk_idx, u32 major, u32 minor, u32 sub_minor);
};
/**
* struct iterate_special_ctx - HW module special block iterator
* @fn: function to apply to each HW module special block instance
* @data: optional internal data to the function iterator
*/
struct iterate_special_ctx {
/*
* callback for the HW module special block iterator
* @hdev: pointer to the habanalabs device structure
* @block_id: block (ASIC specific definition can be dcore/hdcore)
* @major: major block index within block_id
* @minor: minor block index within the major block
* @sub_minor: sub_minor block index within the minor block
* @data: function specific data
*/
int (*fn)(struct hl_device *hdev, u32 block_id, u32 major, u32 minor,
u32 sub_minor, void *data);
void *data;
};
int hl_iterate_special_blocks(struct hl_device *hdev, struct iterate_special_ctx *ctx);
void hl_check_for_glbl_errors(struct hl_device *hdev);
#endif /* SECURITY_H_ */