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/*
* Copyright (c) 2018, ARM Limited and Contributors. All rights reserved.
* Copyright (c) 2020, NVIDIA Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#ifndef RAS_ARCH_H
#define RAS_ARCH_H
/*
* Size of nodes implementing Standard Error Records - currently only 4k is
* supported.
*/
#define STD_ERR_NODE_SIZE_NUM_K 4U
/*
* Individual register offsets within an error record in Standard Error Record
* format when error records are accessed through memory-mapped registers.
*/
#define ERR_FR(n) (0x0ULL + (64ULL * (n)))
#define ERR_CTLR(n) (0x8ULL + (64ULL * (n)))
#define ERR_STATUS(n) (0x10ULL + (64ULL * (n)))
#define ERR_ADDR(n) (0x18ULL + (64ULL * (n)))
#define ERR_MISC0(n) (0x20ULL + (64ULL * (n)))
#define ERR_MISC1(n) (0x28ULL + (64ULL * (n)))
/* Group Status Register (ERR_STATUS) offset */
#define ERR_GSR(base, size_num_k, n) \
((base) + (0x380ULL * (size_num_k)) + (8ULL * (n)))
/* Management register offsets */
#define ERR_DEVID(base, size_num_k) \
((base) + ((0x400ULL * (size_num_k)) - 0x100ULL) + 0xc8ULL)
#define ERR_DEVID_MASK 0xffffUL
/* Standard Error Record status register fields */
#define ERR_STATUS_AV_SHIFT 31
#define ERR_STATUS_AV_MASK U(0x1)
#define ERR_STATUS_V_SHIFT 30
#define ERR_STATUS_V_MASK U(0x1)
#define ERR_STATUS_UE_SHIFT 29
#define ERR_STATUS_UE_MASK U(0x1)
#define ERR_STATUS_ER_SHIFT 28
#define ERR_STATUS_ER_MASK U(0x1)
#define ERR_STATUS_OF_SHIFT 27
#define ERR_STATUS_OF_MASK U(0x1)
#define ERR_STATUS_MV_SHIFT 26
#define ERR_STATUS_MV_MASK U(0x1)
#define ERR_STATUS_CE_SHIFT 24
#define ERR_STATUS_CE_MASK U(0x3)
#define ERR_STATUS_DE_SHIFT 23
#define ERR_STATUS_DE_MASK U(0x1)
#define ERR_STATUS_PN_SHIFT 22
#define ERR_STATUS_PN_MASK U(0x1)
#define ERR_STATUS_UET_SHIFT 20
#define ERR_STATUS_UET_MASK U(0x3)
#define ERR_STATUS_IERR_SHIFT 8
#define ERR_STATUS_IERR_MASK U(0xff)
#define ERR_STATUS_SERR_SHIFT 0
#define ERR_STATUS_SERR_MASK U(0xff)
#define ERR_STATUS_GET_FIELD(_status, _field) \
(((_status) >> ERR_STATUS_ ##_field ##_SHIFT) & ERR_STATUS_ ##_field ##_MASK)
#define ERR_STATUS_CLR_FIELD(_status, _field) \
(_status) &= ~(ERR_STATUS_ ##_field ##_MASK << ERR_STATUS_ ##_field ##_SHIFT)
#define ERR_STATUS_SET_FIELD(_status, _field, _value) \
(_status) |= (((_value) & ERR_STATUS_ ##_field ##_MASK) << ERR_STATUS_ ##_field ##_SHIFT)
#define ERR_STATUS_WRITE_FIELD(_status, _field, _value) do { \
ERR_STATUS_CLR_FIELD(_status, _field, _value); \
ERR_STATUS_SET_FIELD(_status, _field, _value); \
} while (0)
/* Standard Error Record control register fields */
#define ERR_CTLR_WDUI_SHIFT 11
#define ERR_CTLR_WDUI_MASK 0x1
#define ERR_CTLR_RDUI_SHIFT 10
#define ERR_CTLR_RDUI_MASK 0x1
#define ERR_CTLR_DUI_SHIFT ERR_CTLR_RDUI_SHIFT
#define ERR_CTLR_DUI_MASK ERR_CTLR_RDUI_MASK
#define ERR_CTLR_WCFI_SHIFT 9
#define ERR_CTLR_WCFI_MASK 0x1
#define ERR_CTLR_RCFI_SHIFT 8
#define ERR_CTLR_RCFI_MASK 0x1
#define ERR_CTLR_CFI_SHIFT ERR_CTLR_RCFI_SHIFT
#define ERR_CTLR_CFI_MASK ERR_CTLR_RCFI_MASK
#define ERR_CTLR_WUE_SHIFT 7
#define ERR_CTLR_WUE_MASK 0x1
#define ERR_CTLR_WFI_SHIFT 6
#define ERR_CTLR_WFI_MASK 0x1
#define ERR_CTLR_WUI_SHIFT 5
#define ERR_CTLR_WUI_MASK 0x1
#define ERR_CTLR_RUE_SHIFT 4
#define ERR_CTLR_RUE_MASK 0x1
#define ERR_CTLR_UE_SHIFT ERR_CTLR_RUE_SHIFT
#define ERR_CTLR_UE_MASK ERR_CTLR_RUE_MASK
#define ERR_CTLR_RFI_SHIFT 3
#define ERR_CTLR_RFI_MASK 0x1
#define ERR_CTLR_FI_SHIFT ERR_CTLR_RFI_SHIFT
#define ERR_CTLR_FI_MASK ERR_CTLR_RFI_MASK
#define ERR_CTLR_RUI_SHIFT 2
#define ERR_CTLR_RUI_MASK 0x1
#define ERR_CTLR_UI_SHIFT ERR_CTLR_RUI_SHIFT
#define ERR_CTLR_UI_MASK ERR_CTLR_RUI_MASK
#define ERR_CTLR_ED_SHIFT 0
#define ERR_CTLR_ED_MASK 0x1
#define ERR_CTLR_CLR_FIELD(_ctlr, _field) \
(_ctlr) &= ~(ERR_CTLR_ ##_field _MASK << ERR_CTLR_ ##_field ##_SHIFT)
#define ERR_CTLR_SET_FIELD(_ctlr, _field, _value) \
(_ctlr) |= (((_value) & ERR_CTLR_ ##_field ##_MASK) << ERR_CTLR_ ##_field ##_SHIFT)
#define ERR_CTLR_ENABLE_FIELD(_ctlr, _field) \
ERR_CTLR_SET_FIELD(_ctlr, _field, ERR_CTLR_ ##_field ##_MASK)
/* Uncorrected error types for Asynchronous exceptions */
#define ERROR_STATUS_UET_UC 0x0 /* Uncontainable */
#define ERROR_STATUS_UET_UEU 0x1 /* Unrecoverable */
#define ERROR_STATUS_UET_UEO 0x2 /* Restable */
#define ERROR_STATUS_UET_UER 0x3 /* Recoverable */
/* Error types for Synchronous exceptions */
#define ERROR_STATUS_SET_UER 0x0 /* Recoverable */
#define ERROR_STATUS_SET_UEO 0x1 /* Restable */
#define ERROR_STATUS_SET_UC 0x2 /* Uncontainable */
#define ERROR_STATUS_SET_CE 0x3 /* Corrected */
/* Number of architecturally-defined primary error codes */
#define ERROR_STATUS_NUM_SERR U(22)
/* Implementation Defined Syndrome bit in ESR */
#define SERROR_IDS_BIT U(24)
/*
* Asynchronous Error Type in exception syndrome. The field has same values in
* both DISR_EL1 and ESR_EL3 for SError.
*/
#define EABORT_AET_SHIFT U(10)
#define EABORT_AET_WIDTH U(3)
#define EABORT_AET_MASK U(0x7)
/* DFSC field in Asynchronous exception syndrome */
#define EABORT_DFSC_SHIFT U(0)
#define EABORT_DFSC_WIDTH U(6)
#define EABORT_DFSC_MASK U(0x3f)
/* Synchronous Error Type in exception syndrome. */
#define EABORT_SET_SHIFT U(11)
#define EABORT_SET_WIDTH U(2)
#define EABORT_SET_MASK U(0x3)
/* DFSC code for SErrors */
#define DFSC_SERROR 0x11
/* I/DFSC code for synchronous external abort */
#define SYNC_EA_FSC 0x10
#ifndef __ASSEMBLER__
#include <arch.h>
#include <arch_helpers.h>
#include <assert.h>
#include <context.h>
#include <lib/mmio.h>
#include <stdint.h>
/*
* Standard Error Record accessors for memory-mapped registers.
*/
static inline uint64_t ser_get_feature(uintptr_t base, unsigned int idx)
{
return mmio_read_64(base + ERR_FR(idx));
}
static inline uint64_t ser_get_control(uintptr_t base, unsigned int idx)
{
return mmio_read_64(base + ERR_CTLR(idx));
}
static inline uint64_t ser_get_status(uintptr_t base, unsigned int idx)
{
return mmio_read_64(base + ERR_STATUS(idx));
}
/*
* Error handling agent would write to the status register to clear an
* identified/handled error. Most fields in the status register are
* conditional write-one-to-clear.
*
* Typically, to clear the status, it suffices to write back the same value
* previously read. However, if there were new, higher-priority errors recorded
* on the node since status was last read, writing read value won't clear the
* status. Therefore, an error handling agent must wait on and verify the status
* has indeed been cleared.
*/
static inline void ser_set_status(uintptr_t base, unsigned int idx,
uint64_t status)
{
mmio_write_64(base + ERR_STATUS(idx), status);
}
static inline uint64_t ser_get_addr(uintptr_t base, unsigned int idx)
{
return mmio_read_64(base + ERR_ADDR(idx));
}
static inline uint64_t ser_get_misc0(uintptr_t base, unsigned int idx)
{
return mmio_read_64(base + ERR_MISC0(idx));
}
static inline uint64_t ser_get_misc1(uintptr_t base, unsigned int idx)
{
return mmio_read_64(base + ERR_MISC1(idx));
}
/*
* Standard Error Record helpers for System registers.
*/
static inline void ser_sys_select_record(unsigned int idx)
{
unsigned int max_idx __unused =
(unsigned int) read_erridr_el1() & ERRIDR_MASK;
assert(idx < max_idx);
write_errselr_el1(idx);
isb();
}
/* Library functions to probe Standard Error Record */
int ser_probe_memmap(uintptr_t base, unsigned int size_num_k, int *probe_data);
int ser_probe_sysreg(unsigned int idx_start, unsigned int num_idx, int *probe_data);
#endif /* __ASSEMBLER__ */
#endif /* RAS_ARCH_H */