/*
* SPDX-License-Identifier: BSD-2-Clause
*
* Copyright (c) 2019 Western Digital Corporation or its affiliates.
*
* Authors:
* Anup Patel <anup.patel@wdc.com>
*/
#ifndef __SBI_PLATFORM_H__
#define __SBI_PLATFORM_H__
/**
* OpenSBI 32-bit platform version with:
* 1. upper 16-bits as major number
* 2. lower 16-bits as minor number
*/
#define SBI_PLATFORM_VERSION(Major, Minor) ((Major << 16) | Minor)
/** Offset of opensbi_version in struct sbi_platform */
#define SBI_PLATFORM_OPENSBI_VERSION_OFFSET (0x00)
/** Offset of platform_version in struct sbi_platform */
#define SBI_PLATFORM_VERSION_OFFSET (0x04)
/** Offset of name in struct sbi_platform */
#define SBI_PLATFORM_NAME_OFFSET (0x08)
/** Offset of features in struct sbi_platform */
#define SBI_PLATFORM_FEATURES_OFFSET (0x48)
/** Offset of hart_count in struct sbi_platform */
#define SBI_PLATFORM_HART_COUNT_OFFSET (0x50)
/** Offset of hart_stack_size in struct sbi_platform */
#define SBI_PLATFORM_HART_STACK_SIZE_OFFSET (0x54)
/** Offset of platform_ops_addr in struct sbi_platform */
#define SBI_PLATFORM_OPS_OFFSET (0x58)
/** Offset of firmware_context in struct sbi_platform */
#define SBI_PLATFORM_FIRMWARE_CONTEXT_OFFSET (0x58 + __SIZEOF_POINTER__)
/** Offset of hart_index2id in struct sbi_platform */
#define SBI_PLATFORM_HART_INDEX2ID_OFFSET (0x58 + (__SIZEOF_POINTER__ * 2))
#define SBI_PLATFORM_TLB_RANGE_FLUSH_LIMIT_DEFAULT (1UL << 12)
#ifndef __ASSEMBLER__
#include <sbi/sbi_ecall_interface.h>
#include <sbi/sbi_error.h>
#include <sbi/sbi_scratch.h>
#include <sbi/sbi_version.h>
struct sbi_domain_memregion;
struct sbi_trap_info;
struct sbi_trap_regs;
/** Possible feature flags of a platform */
enum sbi_platform_features {
/** Platform has fault delegation support */
SBI_PLATFORM_HAS_MFAULTS_DELEGATION = (1 << 1),
/** Last index of Platform features*/
SBI_PLATFORM_HAS_LAST_FEATURE = SBI_PLATFORM_HAS_MFAULTS_DELEGATION,
};
/** Default feature set for a platform */
#define SBI_PLATFORM_DEFAULT_FEATURES \
(SBI_PLATFORM_HAS_MFAULTS_DELEGATION)
/** Platform functions */
struct sbi_platform_operations {
/** Platform early initialization */
int (*early_init)(bool cold_boot);
/** Platform final initialization */
int (*final_init)(bool cold_boot);
/** Platform early exit */
void (*early_exit)(void);
/** Platform final exit */
void (*final_exit)(void);
/**
* For platforms that do not implement misa, non-standard
* methods are needed to determine cpu extension.
*/
int (*misa_check_extension)(char ext);
/**
* For platforms that do not implement misa, non-standard
* methods are needed to get MXL field of misa.
*/
int (*misa_get_xlen)(void);
/** Initialize (or populate) domains for the platform */
int (*domains_init)(void);
/** Initialize hw performance counters */
int (*pmu_init)(void);
/** Get platform specific mhpmevent value */
uint64_t (*pmu_xlate_to_mhpmevent)(uint32_t event_idx, uint64_t data);
/** Initialize the platform console */
int (*console_init)(void);
/** Initialize the platform interrupt controller for current HART */
int (*irqchip_init)(bool cold_boot);
/** Exit the platform interrupt controller for current HART */
void (*irqchip_exit)(void);
/** Initialize IPI for current HART */
int (*ipi_init)(bool cold_boot);
/** Exit IPI for current HART */
void (*ipi_exit)(void);
/** Get tlb flush limit value **/
u64 (*get_tlbr_flush_limit)(void);
/** Initialize platform timer for current HART */
int (*timer_init)(bool cold_boot);
/** Exit platform timer for current HART */
void (*timer_exit)(void);
/** platform specific SBI extension implementation probe function */
int (*vendor_ext_check)(long extid);
/** platform specific SBI extension implementation provider */
int (*vendor_ext_provider)(long extid, long funcid,
const struct sbi_trap_regs *regs,
unsigned long *out_value,
struct sbi_trap_info *out_trap);
};
/** Platform default per-HART stack size for exception/interrupt handling */
#define SBI_PLATFORM_DEFAULT_HART_STACK_SIZE 8192
/** Representation of a platform */
struct sbi_platform {
/**
* OpenSBI version this sbi_platform is based on.
* It's a 32-bit value where upper 16-bits are major number
* and lower 16-bits are minor number
*/
u32 opensbi_version;
/**
* OpenSBI platform version released by vendor.
* It's a 32-bit value where upper 16-bits are major number
* and lower 16-bits are minor number
*/
u32 platform_version;
/** Name of the platform */
char name[64];
/** Supported features */
u64 features;
/** Total number of HARTs */
u32 hart_count;
/** Per-HART stack size for exception/interrupt handling */
u32 hart_stack_size;
/** Pointer to sbi platform operations */
unsigned long platform_ops_addr;
/** Pointer to system firmware specific context */
unsigned long firmware_context;
/**
* HART index to HART id table
*
* For used HART index <abc>:
* hart_index2id[<abc>] = some HART id
* For unused HART index <abc>:
* hart_index2id[<abc>] = -1U
*
* If hart_index2id == NULL then we assume identity mapping
* hart_index2id[<abc>] = <abc>
*
* We have only two restrictions:
* 1. HART index < sbi_platform hart_count
* 2. HART id < SBI_HARTMASK_MAX_BITS
*/
const u32 *hart_index2id;
};
/** Get pointer to sbi_platform for sbi_scratch pointer */
#define sbi_platform_ptr(__s) \
((const struct sbi_platform *)((__s)->platform_addr))
/** Get pointer to sbi_platform for current HART */
#define sbi_platform_thishart_ptr() ((const struct sbi_platform *) \
(sbi_scratch_thishart_ptr()->platform_addr))
/** Get pointer to platform_ops_addr from platform pointer **/
#define sbi_platform_ops(__p) \
((const struct sbi_platform_operations *)(__p)->platform_ops_addr)
/** Check whether the platform supports fault delegation */
#define sbi_platform_has_mfaults_delegation(__p) \
((__p)->features & SBI_PLATFORM_HAS_MFAULTS_DELEGATION)
/**
* Get HART index for the given HART
*
* @param plat pointer to struct sbi_platform
* @param hartid HART ID
*
* @return 0 <= value < hart_count for valid HART otherwise -1U
*/
u32 sbi_platform_hart_index(const struct sbi_platform *plat, u32 hartid);
/**
* Get the platform features in string format
*
* @param plat pointer to struct sbi_platform
* @param features_str pointer to a char array where the features string will be
* updated
* @param nfstr length of the features_str. The feature string will be truncated
* if nfstr is not long enough.
*/
void sbi_platform_get_features_str(const struct sbi_platform *plat,
char *features_str, int nfstr);
/**
* Get name of the platform
*
* @param plat pointer to struct sbi_platform
*
* @return pointer to platform name on success and "Unknown" on failure
*/
static inline const char *sbi_platform_name(const struct sbi_platform *plat)
{
if (plat)
return plat->name;
return "Unknown";
}
/**
* Get the platform features
*
* @param plat pointer to struct sbi_platform
*
* @return the features value currently set for the given platform
*/
static inline unsigned long sbi_platform_get_features(
const struct sbi_platform *plat)
{
if (plat)
return plat->features;
return 0;
}
/**
* Get platform specific tlb range flush maximum value. Any request with size
* higher than this is upgraded to a full flush.
*
* @param plat pointer to struct sbi_platform
*
* @return tlb range flush limit value. Returns a default (page size) if not
* defined by platform.
*/
static inline u64 sbi_platform_tlbr_flush_limit(const struct sbi_platform *plat)
{
if (plat && sbi_platform_ops(plat)->get_tlbr_flush_limit)
return sbi_platform_ops(plat)->get_tlbr_flush_limit();
return SBI_PLATFORM_TLB_RANGE_FLUSH_LIMIT_DEFAULT;
}
/**
* Get total number of HARTs supported by the platform
*
* @param plat pointer to struct sbi_platform
*
* @return total number of HARTs
*/
static inline u32 sbi_platform_hart_count(const struct sbi_platform *plat)
{
if (plat)
return plat->hart_count;
return 0;
}
/**
* Get per-HART stack size for exception/interrupt handling
*
* @param plat pointer to struct sbi_platform
*
* @return stack size in bytes
*/
static inline u32 sbi_platform_hart_stack_size(const struct sbi_platform *plat)
{
if (plat)
return plat->hart_stack_size;
return 0;
}
/**
* Check whether given HART is invalid
*
* @param plat pointer to struct sbi_platform
* @param hartid HART ID
*
* @return TRUE if HART is invalid and FALSE otherwise
*/
static inline bool sbi_platform_hart_invalid(const struct sbi_platform *plat,
u32 hartid)
{
if (!plat)
return TRUE;
if (plat->hart_count <= sbi_platform_hart_index(plat, hartid))
return TRUE;
return FALSE;
}
/**
* Early initialization for current HART
*
* @param plat pointer to struct sbi_platform
* @param cold_boot whether cold boot (TRUE) or warm_boot (FALSE)
*
* @return 0 on success and negative error code on failure
*/
static inline int sbi_platform_early_init(const struct sbi_platform *plat,
bool cold_boot)
{
if (plat && sbi_platform_ops(plat)->early_init)
return sbi_platform_ops(plat)->early_init(cold_boot);
return 0;
}
/**
* Final initialization for current HART
*
* @param plat pointer to struct sbi_platform
* @param cold_boot whether cold boot (TRUE) or warm_boot (FALSE)
*
* @return 0 on success and negative error code on failure
*/
static inline int sbi_platform_final_init(const struct sbi_platform *plat,
bool cold_boot)
{
if (plat && sbi_platform_ops(plat)->final_init)
return sbi_platform_ops(plat)->final_init(cold_boot);
return 0;
}
/**
* Early exit for current HART
*
* @param plat pointer to struct sbi_platform
*/
static inline void sbi_platform_early_exit(const struct sbi_platform *plat)
{
if (plat && sbi_platform_ops(plat)->early_exit)
sbi_platform_ops(plat)->early_exit();
}
/**
* Final exit for current HART
*
* @param plat pointer to struct sbi_platform
*/
static inline void sbi_platform_final_exit(const struct sbi_platform *plat)
{
if (plat && sbi_platform_ops(plat)->final_exit)
sbi_platform_ops(plat)->final_exit();
}
/**
* Check CPU extension in MISA
*
* @param plat pointer to struct sbi_platform
* @param ext shorthand letter for CPU extensions
*
* @return zero for not-supported and non-zero for supported
*/
static inline int sbi_platform_misa_extension(const struct sbi_platform *plat,
char ext)
{
if (plat && sbi_platform_ops(plat)->misa_check_extension)
return sbi_platform_ops(plat)->misa_check_extension(ext);
return 0;
}
/**
* Get MXL field of MISA
*
* @param plat pointer to struct sbi_platform
*
* @return 1/2/3 on success and error code on failure
*/
static inline int sbi_platform_misa_xlen(const struct sbi_platform *plat)
{
if (plat && sbi_platform_ops(plat)->misa_get_xlen)
return sbi_platform_ops(plat)->misa_get_xlen();
return -1;
}
/**
* Initialize (or populate) domains for the platform
*
* @param plat pointer to struct sbi_platform
*
* @return 0 on success and negative error code on failure
*/
static inline int sbi_platform_domains_init(const struct sbi_platform *plat)
{
if (plat && sbi_platform_ops(plat)->domains_init)
return sbi_platform_ops(plat)->domains_init();
return 0;
}
/**
* Setup hw PMU events for the platform
*
* @param plat pointer to struct sbi_platform
*
* @return 0 on success and negative error code on failure
*/
static inline int sbi_platform_pmu_init(const struct sbi_platform *plat)
{
if (plat && sbi_platform_ops(plat)->pmu_init)
return sbi_platform_ops(plat)->pmu_init();
return 0;
}
/**
* Get the value to be written in mhpmeventx for event_idx
*
* @param plat pointer to struct sbi_platform
* @param event_idx ID of the PMU event
* @param data Additional configuration data passed from supervisor software
*
* @return expected value by the platform or 0 if platform doesn't know about
* the event
*/
static inline uint64_t sbi_platform_pmu_xlate_to_mhpmevent(const struct sbi_platform *plat,
uint32_t event_idx, uint64_t data)
{
if (plat && sbi_platform_ops(plat)->pmu_xlate_to_mhpmevent)
return sbi_platform_ops(plat)->pmu_xlate_to_mhpmevent(event_idx,
data);
return 0;
}
/**
* Initialize the platform console
*
* @param plat pointer to struct sbi_platform
*
* @return 0 on success and negative error code on failure
*/
static inline int sbi_platform_console_init(const struct sbi_platform *plat)
{
if (plat && sbi_platform_ops(plat)->console_init)
return sbi_platform_ops(plat)->console_init();
return 0;
}
/**
* Initialize the platform interrupt controller for current HART
*
* @param plat pointer to struct sbi_platform
* @param cold_boot whether cold boot (TRUE) or warm_boot (FALSE)
*
* @return 0 on success and negative error code on failure
*/
static inline int sbi_platform_irqchip_init(const struct sbi_platform *plat,
bool cold_boot)
{
if (plat && sbi_platform_ops(plat)->irqchip_init)
return sbi_platform_ops(plat)->irqchip_init(cold_boot);
return 0;
}
/**
* Exit the platform interrupt controller for current HART
*
* @param plat pointer to struct sbi_platform
*/
static inline void sbi_platform_irqchip_exit(const struct sbi_platform *plat)
{
if (plat && sbi_platform_ops(plat)->irqchip_exit)
sbi_platform_ops(plat)->irqchip_exit();
}
/**
* Initialize the platform IPI support for current HART
*
* @param plat pointer to struct sbi_platform
* @param cold_boot whether cold boot (TRUE) or warm_boot (FALSE)
*
* @return 0 on success and negative error code on failure
*/
static inline int sbi_platform_ipi_init(const struct sbi_platform *plat,
bool cold_boot)
{
if (plat && sbi_platform_ops(plat)->ipi_init)
return sbi_platform_ops(plat)->ipi_init(cold_boot);
return 0;
}
/**
* Exit the platform IPI support for current HART
*
* @param plat pointer to struct sbi_platform
*/
static inline void sbi_platform_ipi_exit(const struct sbi_platform *plat)
{
if (plat && sbi_platform_ops(plat)->ipi_exit)
sbi_platform_ops(plat)->ipi_exit();
}
/**
* Initialize the platform timer for current HART
*
* @param plat pointer to struct sbi_platform
* @param cold_boot whether cold boot (TRUE) or warm_boot (FALSE)
*
* @return 0 on success and negative error code on failure
*/
static inline int sbi_platform_timer_init(const struct sbi_platform *plat,
bool cold_boot)
{
if (plat && sbi_platform_ops(plat)->timer_init)
return sbi_platform_ops(plat)->timer_init(cold_boot);
return 0;
}
/**
* Exit the platform timer for current HART
*
* @param plat pointer to struct sbi_platform
*/
static inline void sbi_platform_timer_exit(const struct sbi_platform *plat)
{
if (plat && sbi_platform_ops(plat)->timer_exit)
sbi_platform_ops(plat)->timer_exit();
}
/**
* Check if a vendor extension is implemented or not.
*
* @param plat pointer to struct sbi_platform
* @param extid vendor SBI extension id
*
* @return 0 if extid is not implemented and 1 if implemented
*/
static inline int sbi_platform_vendor_ext_check(const struct sbi_platform *plat,
long extid)
{
if (plat && sbi_platform_ops(plat)->vendor_ext_check)
return sbi_platform_ops(plat)->vendor_ext_check(extid);
return 0;
}
/**
* Invoke platform specific vendor SBI extension implementation.
*
* @param plat pointer to struct sbi_platform
* @param extid vendor SBI extension id
* @param funcid SBI function id within the extension id
* @param regs pointer to trap registers passed by the caller
* @param out_value output value that can be filled by the callee
* @param out_trap trap info that can be filled by the callee
*
* @return 0 on success and negative error code on failure
*/
static inline int sbi_platform_vendor_ext_provider(
const struct sbi_platform *plat,
long extid, long funcid,
const struct sbi_trap_regs *regs,
unsigned long *out_value,
struct sbi_trap_info *out_trap)
{
if (plat && sbi_platform_ops(plat)->vendor_ext_provider) {
return sbi_platform_ops(plat)->vendor_ext_provider(extid,
funcid, regs,
out_value,
out_trap);
}
return SBI_ENOTSUPP;
}
#endif
#endif