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|
/* SPDX-License-Identifier: GPL-2.0 */
/*
* Copyright (c) 2014-2015, The Linux Foundation. All rights reserved.
*/
#ifndef _CORESIGHT_CORESIGHT_ETM_H
#define _CORESIGHT_CORESIGHT_ETM_H
#include <asm/local.h>
#include <linux/spinlock.h>
#include <linux/types.h>
#include "coresight-priv.h"
/*
* Device registers:
* 0x000 - 0x2FC: Trace registers
* 0x300 - 0x314: Management registers
* 0x318 - 0xEFC: Trace registers
* 0xF00: Management registers
* 0xFA0 - 0xFA4: Trace registers
* 0xFA8 - 0xFFC: Management registers
*/
/* Trace registers (0x000-0x2FC) */
/* Main control and configuration registers */
#define TRCPRGCTLR 0x004
#define TRCPROCSELR 0x008
#define TRCSTATR 0x00C
#define TRCCONFIGR 0x010
#define TRCAUXCTLR 0x018
#define TRCEVENTCTL0R 0x020
#define TRCEVENTCTL1R 0x024
#define TRCSTALLCTLR 0x02C
#define TRCTSCTLR 0x030
#define TRCSYNCPR 0x034
#define TRCCCCTLR 0x038
#define TRCBBCTLR 0x03C
#define TRCTRACEIDR 0x040
#define TRCQCTLR 0x044
/* Filtering control registers */
#define TRCVICTLR 0x080
#define TRCVIIECTLR 0x084
#define TRCVISSCTLR 0x088
#define TRCVIPCSSCTLR 0x08C
#define TRCVDCTLR 0x0A0
#define TRCVDSACCTLR 0x0A4
#define TRCVDARCCTLR 0x0A8
/* Derived resources registers */
#define TRCSEQEVRn(n) (0x100 + (n * 4)) /* n = 0-2 */
#define TRCSEQRSTEVR 0x118
#define TRCSEQSTR 0x11C
#define TRCEXTINSELR 0x120
#define TRCCNTRLDVRn(n) (0x140 + (n * 4)) /* n = 0-3 */
#define TRCCNTCTLRn(n) (0x150 + (n * 4)) /* n = 0-3 */
#define TRCCNTVRn(n) (0x160 + (n * 4)) /* n = 0-3 */
/* ID registers */
#define TRCIDR8 0x180
#define TRCIDR9 0x184
#define TRCIDR10 0x188
#define TRCIDR11 0x18C
#define TRCIDR12 0x190
#define TRCIDR13 0x194
#define TRCIMSPEC0 0x1C0
#define TRCIMSPECn(n) (0x1C0 + (n * 4)) /* n = 1-7 */
#define TRCIDR0 0x1E0
#define TRCIDR1 0x1E4
#define TRCIDR2 0x1E8
#define TRCIDR3 0x1EC
#define TRCIDR4 0x1F0
#define TRCIDR5 0x1F4
#define TRCIDR6 0x1F8
#define TRCIDR7 0x1FC
/*
* Resource selection registers, n = 2-31.
* First pair (regs 0, 1) is always present and is reserved.
*/
#define TRCRSCTLRn(n) (0x200 + (n * 4))
/* Single-shot comparator registers, n = 0-7 */
#define TRCSSCCRn(n) (0x280 + (n * 4))
#define TRCSSCSRn(n) (0x2A0 + (n * 4))
#define TRCSSPCICRn(n) (0x2C0 + (n * 4))
/* Management registers (0x300-0x314) */
#define TRCOSLAR 0x300
#define TRCOSLSR 0x304
#define TRCPDCR 0x310
#define TRCPDSR 0x314
/* Trace registers (0x318-0xEFC) */
/* Address Comparator registers n = 0-15 */
#define TRCACVRn(n) (0x400 + (n * 8))
#define TRCACATRn(n) (0x480 + (n * 8))
/* Data Value Comparator Value registers, n = 0-7 */
#define TRCDVCVRn(n) (0x500 + (n * 16))
#define TRCDVCMRn(n) (0x580 + (n * 16))
/* ContextID/Virtual ContextID comparators, n = 0-7 */
#define TRCCIDCVRn(n) (0x600 + (n * 8))
#define TRCVMIDCVRn(n) (0x640 + (n * 8))
#define TRCCIDCCTLR0 0x680
#define TRCCIDCCTLR1 0x684
#define TRCVMIDCCTLR0 0x688
#define TRCVMIDCCTLR1 0x68C
/* Management register (0xF00) */
/* Integration control registers */
#define TRCITCTRL 0xF00
/* Trace registers (0xFA0-0xFA4) */
/* Claim tag registers */
#define TRCCLAIMSET 0xFA0
#define TRCCLAIMCLR 0xFA4
/* Management registers (0xFA8-0xFFC) */
#define TRCDEVAFF0 0xFA8
#define TRCDEVAFF1 0xFAC
#define TRCLAR 0xFB0
#define TRCLSR 0xFB4
#define TRCAUTHSTATUS 0xFB8
#define TRCDEVARCH 0xFBC
#define TRCDEVID 0xFC8
#define TRCDEVTYPE 0xFCC
#define TRCPIDR4 0xFD0
#define TRCPIDR5 0xFD4
#define TRCPIDR6 0xFD8
#define TRCPIDR7 0xFDC
#define TRCPIDR0 0xFE0
#define TRCPIDR1 0xFE4
#define TRCPIDR2 0xFE8
#define TRCPIDR3 0xFEC
#define TRCCIDR0 0xFF0
#define TRCCIDR1 0xFF4
#define TRCCIDR2 0xFF8
#define TRCCIDR3 0xFFC
/*
* System instructions to access ETM registers.
* See ETMv4.4 spec ARM IHI0064F section 4.3.6 System instructions
*/
#define ETM4x_OFFSET_TO_REG(x) ((x) >> 2)
#define ETM4x_CRn(n) (((n) >> 7) & 0x7)
#define ETM4x_Op2(n) (((n) >> 4) & 0x7)
#define ETM4x_CRm(n) ((n) & 0xf)
#include <asm/sysreg.h>
#define ETM4x_REG_NUM_TO_SYSREG(n) \
sys_reg(2, 1, ETM4x_CRn(n), ETM4x_CRm(n), ETM4x_Op2(n))
#define READ_ETM4x_REG(reg) \
read_sysreg_s(ETM4x_REG_NUM_TO_SYSREG((reg)))
#define WRITE_ETM4x_REG(val, reg) \
write_sysreg_s(val, ETM4x_REG_NUM_TO_SYSREG((reg)))
#define read_etm4x_sysreg_const_offset(offset) \
READ_ETM4x_REG(ETM4x_OFFSET_TO_REG(offset))
#define write_etm4x_sysreg_const_offset(val, offset) \
WRITE_ETM4x_REG(val, ETM4x_OFFSET_TO_REG(offset))
#define CASE_READ(res, x) \
case (x): { (res) = read_etm4x_sysreg_const_offset((x)); break; }
#define CASE_WRITE(val, x) \
case (x): { write_etm4x_sysreg_const_offset((val), (x)); break; }
#define CASE_NOP(__unused, x) \
case (x): /* fall through */
/* List of registers accessible via System instructions */
#define ETM_SYSREG_LIST(op, val) \
CASE_##op((val), TRCPRGCTLR) \
CASE_##op((val), TRCPROCSELR) \
CASE_##op((val), TRCSTATR) \
CASE_##op((val), TRCCONFIGR) \
CASE_##op((val), TRCAUXCTLR) \
CASE_##op((val), TRCEVENTCTL0R) \
CASE_##op((val), TRCEVENTCTL1R) \
CASE_##op((val), TRCSTALLCTLR) \
CASE_##op((val), TRCTSCTLR) \
CASE_##op((val), TRCSYNCPR) \
CASE_##op((val), TRCCCCTLR) \
CASE_##op((val), TRCBBCTLR) \
CASE_##op((val), TRCTRACEIDR) \
CASE_##op((val), TRCQCTLR) \
CASE_##op((val), TRCVICTLR) \
CASE_##op((val), TRCVIIECTLR) \
CASE_##op((val), TRCVISSCTLR) \
CASE_##op((val), TRCVIPCSSCTLR) \
CASE_##op((val), TRCVDCTLR) \
CASE_##op((val), TRCVDSACCTLR) \
CASE_##op((val), TRCVDARCCTLR) \
CASE_##op((val), TRCSEQEVRn(0)) \
CASE_##op((val), TRCSEQEVRn(1)) \
CASE_##op((val), TRCSEQEVRn(2)) \
CASE_##op((val), TRCSEQRSTEVR) \
CASE_##op((val), TRCSEQSTR) \
CASE_##op((val), TRCEXTINSELR) \
CASE_##op((val), TRCCNTRLDVRn(0)) \
CASE_##op((val), TRCCNTRLDVRn(1)) \
CASE_##op((val), TRCCNTRLDVRn(2)) \
CASE_##op((val), TRCCNTRLDVRn(3)) \
CASE_##op((val), TRCCNTCTLRn(0)) \
CASE_##op((val), TRCCNTCTLRn(1)) \
CASE_##op((val), TRCCNTCTLRn(2)) \
CASE_##op((val), TRCCNTCTLRn(3)) \
CASE_##op((val), TRCCNTVRn(0)) \
CASE_##op((val), TRCCNTVRn(1)) \
CASE_##op((val), TRCCNTVRn(2)) \
CASE_##op((val), TRCCNTVRn(3)) \
CASE_##op((val), TRCIDR8) \
CASE_##op((val), TRCIDR9) \
CASE_##op((val), TRCIDR10) \
CASE_##op((val), TRCIDR11) \
CASE_##op((val), TRCIDR12) \
CASE_##op((val), TRCIDR13) \
CASE_##op((val), TRCIMSPECn(0)) \
CASE_##op((val), TRCIMSPECn(1)) \
CASE_##op((val), TRCIMSPECn(2)) \
CASE_##op((val), TRCIMSPECn(3)) \
CASE_##op((val), TRCIMSPECn(4)) \
CASE_##op((val), TRCIMSPECn(5)) \
CASE_##op((val), TRCIMSPECn(6)) \
CASE_##op((val), TRCIMSPECn(7)) \
CASE_##op((val), TRCIDR0) \
CASE_##op((val), TRCIDR1) \
CASE_##op((val), TRCIDR2) \
CASE_##op((val), TRCIDR3) \
CASE_##op((val), TRCIDR4) \
CASE_##op((val), TRCIDR5) \
CASE_##op((val), TRCIDR6) \
CASE_##op((val), TRCIDR7) \
CASE_##op((val), TRCRSCTLRn(2)) \
CASE_##op((val), TRCRSCTLRn(3)) \
CASE_##op((val), TRCRSCTLRn(4)) \
CASE_##op((val), TRCRSCTLRn(5)) \
CASE_##op((val), TRCRSCTLRn(6)) \
CASE_##op((val), TRCRSCTLRn(7)) \
CASE_##op((val), TRCRSCTLRn(8)) \
CASE_##op((val), TRCRSCTLRn(9)) \
CASE_##op((val), TRCRSCTLRn(10)) \
CASE_##op((val), TRCRSCTLRn(11)) \
CASE_##op((val), TRCRSCTLRn(12)) \
CASE_##op((val), TRCRSCTLRn(13)) \
CASE_##op((val), TRCRSCTLRn(14)) \
CASE_##op((val), TRCRSCTLRn(15)) \
CASE_##op((val), TRCRSCTLRn(16)) \
CASE_##op((val), TRCRSCTLRn(17)) \
CASE_##op((val), TRCRSCTLRn(18)) \
CASE_##op((val), TRCRSCTLRn(19)) \
CASE_##op((val), TRCRSCTLRn(20)) \
CASE_##op((val), TRCRSCTLRn(21)) \
CASE_##op((val), TRCRSCTLRn(22)) \
CASE_##op((val), TRCRSCTLRn(23)) \
CASE_##op((val), TRCRSCTLRn(24)) \
CASE_##op((val), TRCRSCTLRn(25)) \
CASE_##op((val), TRCRSCTLRn(26)) \
CASE_##op((val), TRCRSCTLRn(27)) \
CASE_##op((val), TRCRSCTLRn(28)) \
CASE_##op((val), TRCRSCTLRn(29)) \
CASE_##op((val), TRCRSCTLRn(30)) \
CASE_##op((val), TRCRSCTLRn(31)) \
CASE_##op((val), TRCSSCCRn(0)) \
CASE_##op((val), TRCSSCCRn(1)) \
CASE_##op((val), TRCSSCCRn(2)) \
CASE_##op((val), TRCSSCCRn(3)) \
CASE_##op((val), TRCSSCCRn(4)) \
CASE_##op((val), TRCSSCCRn(5)) \
CASE_##op((val), TRCSSCCRn(6)) \
CASE_##op((val), TRCSSCCRn(7)) \
CASE_##op((val), TRCSSCSRn(0)) \
CASE_##op((val), TRCSSCSRn(1)) \
CASE_##op((val), TRCSSCSRn(2)) \
CASE_##op((val), TRCSSCSRn(3)) \
CASE_##op((val), TRCSSCSRn(4)) \
CASE_##op((val), TRCSSCSRn(5)) \
CASE_##op((val), TRCSSCSRn(6)) \
CASE_##op((val), TRCSSCSRn(7)) \
CASE_##op((val), TRCSSPCICRn(0)) \
CASE_##op((val), TRCSSPCICRn(1)) \
CASE_##op((val), TRCSSPCICRn(2)) \
CASE_##op((val), TRCSSPCICRn(3)) \
CASE_##op((val), TRCSSPCICRn(4)) \
CASE_##op((val), TRCSSPCICRn(5)) \
CASE_##op((val), TRCSSPCICRn(6)) \
CASE_##op((val), TRCSSPCICRn(7)) \
CASE_##op((val), TRCOSLAR) \
CASE_##op((val), TRCOSLSR) \
CASE_##op((val), TRCACVRn(0)) \
CASE_##op((val), TRCACVRn(1)) \
CASE_##op((val), TRCACVRn(2)) \
CASE_##op((val), TRCACVRn(3)) \
CASE_##op((val), TRCACVRn(4)) \
CASE_##op((val), TRCACVRn(5)) \
CASE_##op((val), TRCACVRn(6)) \
CASE_##op((val), TRCACVRn(7)) \
CASE_##op((val), TRCACVRn(8)) \
CASE_##op((val), TRCACVRn(9)) \
CASE_##op((val), TRCACVRn(10)) \
CASE_##op((val), TRCACVRn(11)) \
CASE_##op((val), TRCACVRn(12)) \
CASE_##op((val), TRCACVRn(13)) \
CASE_##op((val), TRCACVRn(14)) \
CASE_##op((val), TRCACVRn(15)) \
CASE_##op((val), TRCACATRn(0)) \
CASE_##op((val), TRCACATRn(1)) \
CASE_##op((val), TRCACATRn(2)) \
CASE_##op((val), TRCACATRn(3)) \
CASE_##op((val), TRCACATRn(4)) \
CASE_##op((val), TRCACATRn(5)) \
CASE_##op((val), TRCACATRn(6)) \
CASE_##op((val), TRCACATRn(7)) \
CASE_##op((val), TRCACATRn(8)) \
CASE_##op((val), TRCACATRn(9)) \
CASE_##op((val), TRCACATRn(10)) \
CASE_##op((val), TRCACATRn(11)) \
CASE_##op((val), TRCACATRn(12)) \
CASE_##op((val), TRCACATRn(13)) \
CASE_##op((val), TRCACATRn(14)) \
CASE_##op((val), TRCACATRn(15)) \
CASE_##op((val), TRCDVCVRn(0)) \
CASE_##op((val), TRCDVCVRn(1)) \
CASE_##op((val), TRCDVCVRn(2)) \
CASE_##op((val), TRCDVCVRn(3)) \
CASE_##op((val), TRCDVCVRn(4)) \
CASE_##op((val), TRCDVCVRn(5)) \
CASE_##op((val), TRCDVCVRn(6)) \
CASE_##op((val), TRCDVCVRn(7)) \
CASE_##op((val), TRCDVCMRn(0)) \
CASE_##op((val), TRCDVCMRn(1)) \
CASE_##op((val), TRCDVCMRn(2)) \
CASE_##op((val), TRCDVCMRn(3)) \
CASE_##op((val), TRCDVCMRn(4)) \
CASE_##op((val), TRCDVCMRn(5)) \
CASE_##op((val), TRCDVCMRn(6)) \
CASE_##op((val), TRCDVCMRn(7)) \
CASE_##op((val), TRCCIDCVRn(0)) \
CASE_##op((val), TRCCIDCVRn(1)) \
CASE_##op((val), TRCCIDCVRn(2)) \
CASE_##op((val), TRCCIDCVRn(3)) \
CASE_##op((val), TRCCIDCVRn(4)) \
CASE_##op((val), TRCCIDCVRn(5)) \
CASE_##op((val), TRCCIDCVRn(6)) \
CASE_##op((val), TRCCIDCVRn(7)) \
CASE_##op((val), TRCVMIDCVRn(0)) \
CASE_##op((val), TRCVMIDCVRn(1)) \
CASE_##op((val), TRCVMIDCVRn(2)) \
CASE_##op((val), TRCVMIDCVRn(3)) \
CASE_##op((val), TRCVMIDCVRn(4)) \
CASE_##op((val), TRCVMIDCVRn(5)) \
CASE_##op((val), TRCVMIDCVRn(6)) \
CASE_##op((val), TRCVMIDCVRn(7)) \
CASE_##op((val), TRCCIDCCTLR0) \
CASE_##op((val), TRCCIDCCTLR1) \
CASE_##op((val), TRCVMIDCCTLR0) \
CASE_##op((val), TRCVMIDCCTLR1) \
CASE_##op((val), TRCCLAIMSET) \
CASE_##op((val), TRCCLAIMCLR) \
CASE_##op((val), TRCAUTHSTATUS) \
CASE_##op((val), TRCDEVARCH) \
CASE_##op((val), TRCDEVID)
/* List of registers only accessible via memory-mapped interface */
#define ETM_MMAP_LIST(op, val) \
CASE_##op((val), TRCDEVTYPE) \
CASE_##op((val), TRCPDCR) \
CASE_##op((val), TRCPDSR) \
CASE_##op((val), TRCDEVAFF0) \
CASE_##op((val), TRCDEVAFF1) \
CASE_##op((val), TRCLAR) \
CASE_##op((val), TRCLSR) \
CASE_##op((val), TRCITCTRL) \
CASE_##op((val), TRCPIDR4) \
CASE_##op((val), TRCPIDR0) \
CASE_##op((val), TRCPIDR1) \
CASE_##op((val), TRCPIDR2) \
CASE_##op((val), TRCPIDR3)
#define ETM4x_READ_SYSREG_CASES(res) ETM_SYSREG_LIST(READ, (res))
#define ETM4x_WRITE_SYSREG_CASES(val) ETM_SYSREG_LIST(WRITE, (val))
#define ETM4x_SYSREG_LIST_CASES ETM_SYSREG_LIST(NOP, __unused)
#define ETM4x_MMAP_LIST_CASES ETM_MMAP_LIST(NOP, __unused)
#define read_etm4x_sysreg_offset(offset, _64bit) \
({ \
u64 __val; \
\
if (__builtin_constant_p((offset))) \
__val = read_etm4x_sysreg_const_offset((offset)); \
else \
__val = etm4x_sysreg_read((offset), true, (_64bit)); \
__val; \
})
#define write_etm4x_sysreg_offset(val, offset, _64bit) \
do { \
if (__builtin_constant_p((offset))) \
write_etm4x_sysreg_const_offset((val), \
(offset)); \
else \
etm4x_sysreg_write((val), (offset), true, \
(_64bit)); \
} while (0)
#define etm4x_relaxed_read32(csa, offset) \
((u32)((csa)->io_mem ? \
readl_relaxed((csa)->base + (offset)) : \
read_etm4x_sysreg_offset((offset), false)))
#define etm4x_relaxed_read64(csa, offset) \
((u64)((csa)->io_mem ? \
readq_relaxed((csa)->base + (offset)) : \
read_etm4x_sysreg_offset((offset), true)))
#define etm4x_read32(csa, offset) \
({ \
u32 __val = etm4x_relaxed_read32((csa), (offset)); \
__iormb(__val); \
__val; \
})
#define etm4x_read64(csa, offset) \
({ \
u64 __val = etm4x_relaxed_read64((csa), (offset)); \
__iormb(__val); \
__val; \
})
#define etm4x_relaxed_write32(csa, val, offset) \
do { \
if ((csa)->io_mem) \
writel_relaxed((val), (csa)->base + (offset)); \
else \
write_etm4x_sysreg_offset((val), (offset), \
false); \
} while (0)
#define etm4x_relaxed_write64(csa, val, offset) \
do { \
if ((csa)->io_mem) \
writeq_relaxed((val), (csa)->base + (offset)); \
else \
write_etm4x_sysreg_offset((val), (offset), \
true); \
} while (0)
#define etm4x_write32(csa, val, offset) \
do { \
__iowmb(); \
etm4x_relaxed_write32((csa), (val), (offset)); \
} while (0)
#define etm4x_write64(csa, val, offset) \
do { \
__iowmb(); \
etm4x_relaxed_write64((csa), (val), (offset)); \
} while (0)
/* ETMv4 resources */
#define ETM_MAX_NR_PE 8
#define ETMv4_MAX_CNTR 4
#define ETM_MAX_SEQ_STATES 4
#define ETM_MAX_EXT_INP_SEL 4
#define ETM_MAX_EXT_INP 256
#define ETM_MAX_EXT_OUT 4
#define ETM_MAX_SINGLE_ADDR_CMP 16
#define ETM_MAX_ADDR_RANGE_CMP (ETM_MAX_SINGLE_ADDR_CMP / 2)
#define ETM_MAX_DATA_VAL_CMP 8
#define ETMv4_MAX_CTXID_CMP 8
#define ETM_MAX_VMID_CMP 8
#define ETM_MAX_PE_CMP 8
#define ETM_MAX_RES_SEL 32
#define ETM_MAX_SS_CMP 8
#define ETMv4_SYNC_MASK 0x1F
#define ETM_CYC_THRESHOLD_MASK 0xFFF
#define ETM_CYC_THRESHOLD_DEFAULT 0x100
#define ETMv4_EVENT_MASK 0xFF
#define ETM_CNTR_MAX_VAL 0xFFFF
#define ETM_TRACEID_MASK 0x3f
/* ETMv4 programming modes */
#define ETM_MODE_EXCLUDE BIT(0)
#define ETM_MODE_LOAD BIT(1)
#define ETM_MODE_STORE BIT(2)
#define ETM_MODE_LOAD_STORE BIT(3)
#define ETM_MODE_BB BIT(4)
#define ETMv4_MODE_CYCACC BIT(5)
#define ETMv4_MODE_CTXID BIT(6)
#define ETM_MODE_VMID BIT(7)
#define ETM_MODE_COND(val) BMVAL(val, 8, 10)
#define ETMv4_MODE_TIMESTAMP BIT(11)
#define ETM_MODE_RETURNSTACK BIT(12)
#define ETM_MODE_QELEM(val) BMVAL(val, 13, 14)
#define ETM_MODE_DATA_TRACE_ADDR BIT(15)
#define ETM_MODE_DATA_TRACE_VAL BIT(16)
#define ETM_MODE_ISTALL BIT(17)
#define ETM_MODE_DSTALL BIT(18)
#define ETM_MODE_ATB_TRIGGER BIT(19)
#define ETM_MODE_LPOVERRIDE BIT(20)
#define ETM_MODE_ISTALL_EN BIT(21)
#define ETM_MODE_DSTALL_EN BIT(22)
#define ETM_MODE_INSTPRIO BIT(23)
#define ETM_MODE_NOOVERFLOW BIT(24)
#define ETM_MODE_TRACE_RESET BIT(25)
#define ETM_MODE_TRACE_ERR BIT(26)
#define ETM_MODE_VIEWINST_STARTSTOP BIT(27)
#define ETMv4_MODE_ALL (GENMASK(27, 0) | \
ETM_MODE_EXCL_KERN | \
ETM_MODE_EXCL_USER)
/*
* TRCDEVARCH Bit field definitions
* Bits[31:21] - ARCHITECT = Always Arm Ltd.
* * Bits[31:28] = 0x4
* * Bits[27:21] = 0b0111011
* Bit[20] - PRESENT, Indicates the presence of this register.
*
* Bit[19:16] - REVISION, Revision of the architecture.
*
* Bit[15:0] - ARCHID, Identifies this component as an ETM
* * Bits[15:12] - architecture version of ETM
* * = 4 for ETMv4
* * Bits[11:0] = 0xA13, architecture part number for ETM.
*/
#define ETM_DEVARCH_ARCHITECT_MASK GENMASK(31, 21)
#define ETM_DEVARCH_ARCHITECT_ARM ((0x4 << 28) | (0b0111011 << 21))
#define ETM_DEVARCH_PRESENT BIT(20)
#define ETM_DEVARCH_REVISION_SHIFT 16
#define ETM_DEVARCH_REVISION_MASK GENMASK(19, 16)
#define ETM_DEVARCH_REVISION(x) \
(((x) & ETM_DEVARCH_REVISION_MASK) >> ETM_DEVARCH_REVISION_SHIFT)
#define ETM_DEVARCH_ARCHID_MASK GENMASK(15, 0)
#define ETM_DEVARCH_ARCHID_ARCH_VER_SHIFT 12
#define ETM_DEVARCH_ARCHID_ARCH_VER_MASK GENMASK(15, 12)
#define ETM_DEVARCH_ARCHID_ARCH_VER(x) \
(((x) & ETM_DEVARCH_ARCHID_ARCH_VER_MASK) >> ETM_DEVARCH_ARCHID_ARCH_VER_SHIFT)
#define ETM_DEVARCH_MAKE_ARCHID_ARCH_VER(ver) \
(((ver) << ETM_DEVARCH_ARCHID_ARCH_VER_SHIFT) & ETM_DEVARCH_ARCHID_ARCH_VER_MASK)
#define ETM_DEVARCH_ARCHID_ARCH_PART(x) ((x) & 0xfffUL)
#define ETM_DEVARCH_MAKE_ARCHID(major) \
((ETM_DEVARCH_MAKE_ARCHID_ARCH_VER(major)) | ETM_DEVARCH_ARCHID_ARCH_PART(0xA13))
#define ETM_DEVARCH_ARCHID_ETMv4x ETM_DEVARCH_MAKE_ARCHID(0x4)
#define ETM_DEVARCH_ID_MASK \
(ETM_DEVARCH_ARCHITECT_MASK | ETM_DEVARCH_ARCHID_MASK | ETM_DEVARCH_PRESENT)
#define ETM_DEVARCH_ETMv4x_ARCH \
(ETM_DEVARCH_ARCHITECT_ARM | ETM_DEVARCH_ARCHID_ETMv4x | ETM_DEVARCH_PRESENT)
#define TRCSTATR_IDLE_BIT 0
#define TRCSTATR_PMSTABLE_BIT 1
#define ETM_DEFAULT_ADDR_COMP 0
#define TRCSSCSRn_PC BIT(3)
/* PowerDown Control Register bits */
#define TRCPDCR_PU BIT(3)
#define TRCACATR_EXLEVEL_SHIFT 8
/*
* Exception level mask for Secure and Non-Secure ELs.
* ETM defines the bits for EL control (e.g, TRVICTLR, TRCACTRn).
* The Secure and Non-Secure ELs are always to gether.
* Non-secure EL3 is never implemented.
* We use the following generic mask as they appear in different
* registers and this can be shifted for the appropriate
* fields.
*/
#define ETM_EXLEVEL_S_APP BIT(0) /* Secure EL0 */
#define ETM_EXLEVEL_S_OS BIT(1) /* Secure EL1 */
#define ETM_EXLEVEL_S_HYP BIT(2) /* Secure EL2 */
#define ETM_EXLEVEL_S_MON BIT(3) /* Secure EL3/Monitor */
#define ETM_EXLEVEL_NS_APP BIT(4) /* NonSecure EL0 */
#define ETM_EXLEVEL_NS_OS BIT(5) /* NonSecure EL1 */
#define ETM_EXLEVEL_NS_HYP BIT(6) /* NonSecure EL2 */
#define ETM_EXLEVEL_MASK (GENMASK(6, 0))
#define ETM_EXLEVEL_S_MASK (GENMASK(3, 0))
#define ETM_EXLEVEL_NS_MASK (GENMASK(6, 4))
/* access level controls in TRCACATRn */
#define TRCACATR_EXLEVEL_SHIFT 8
/* access level control in TRCVICTLR */
#define TRCVICTLR_EXLEVEL_SHIFT 16
#define TRCVICTLR_EXLEVEL_S_SHIFT 16
#define TRCVICTLR_EXLEVEL_NS_SHIFT 20
/* secure / non secure masks - TRCVICTLR, IDR3 */
#define TRCVICTLR_EXLEVEL_MASK (ETM_EXLEVEL_MASK << TRCVICTLR_EXLEVEL_SHIFT)
#define TRCVICTLR_EXLEVEL_S_MASK (ETM_EXLEVEL_S_MASK << TRCVICTLR_EXLEVEL_SHIFT)
#define TRCVICTLR_EXLEVEL_NS_MASK (ETM_EXLEVEL_NS_MASK << TRCVICTLR_EXLEVEL_SHIFT)
#define ETM_TRCIDR1_ARCH_MAJOR_SHIFT 8
#define ETM_TRCIDR1_ARCH_MAJOR_MASK (0xfU << ETM_TRCIDR1_ARCH_MAJOR_SHIFT)
#define ETM_TRCIDR1_ARCH_MAJOR(x) \
(((x) & ETM_TRCIDR1_ARCH_MAJOR_MASK) >> ETM_TRCIDR1_ARCH_MAJOR_SHIFT)
#define ETM_TRCIDR1_ARCH_MINOR_SHIFT 4
#define ETM_TRCIDR1_ARCH_MINOR_MASK (0xfU << ETM_TRCIDR1_ARCH_MINOR_SHIFT)
#define ETM_TRCIDR1_ARCH_MINOR(x) \
(((x) & ETM_TRCIDR1_ARCH_MINOR_MASK) >> ETM_TRCIDR1_ARCH_MINOR_SHIFT)
#define ETM_TRCIDR1_ARCH_SHIFT ETM_TRCIDR1_ARCH_MINOR_SHIFT
#define ETM_TRCIDR1_ARCH_MASK \
(ETM_TRCIDR1_ARCH_MAJOR_MASK | ETM_TRCIDR1_ARCH_MINOR_MASK)
#define ETM_TRCIDR1_ARCH_ETMv4 0x4
/*
* Driver representation of the ETM architecture.
* The version of an ETM component can be detected from
*
* TRCDEVARCH - CoreSight architected register
* - Bits[15:12] - Major version
* - Bits[19:16] - Minor version
* TRCIDR1 - ETM architected register
* - Bits[11:8] - Major version
* - Bits[7:4] - Minor version
* We must rely on TRCDEVARCH for the version information,
* however we don't want to break the support for potential
* old implementations which might not implement it. Thus
* we fall back to TRCIDR1 if TRCDEVARCH is not implemented
* for memory mapped components.
* Now to make certain decisions easier based on the version
* we use an internal representation of the version in the
* driver, as follows :
*
* ETM_ARCH_VERSION[7:0], where :
* Bits[7:4] - Major version
* Bits[3:0] - Minro version
*/
#define ETM_ARCH_VERSION(major, minor) \
((((major) & 0xfU) << 4) | (((minor) & 0xfU)))
#define ETM_ARCH_MAJOR_VERSION(arch) (((arch) >> 4) & 0xfU)
#define ETM_ARCH_MINOR_VERSION(arch) ((arch) & 0xfU)
#define ETM_ARCH_V4 ETM_ARCH_VERSION(4, 0)
/* Interpretation of resource numbers change at ETM v4.3 architecture */
#define ETM_ARCH_V4_3 ETM_ARCH_VERSION(4, 3)
static inline u8 etm_devarch_to_arch(u32 devarch)
{
return ETM_ARCH_VERSION(ETM_DEVARCH_ARCHID_ARCH_VER(devarch),
ETM_DEVARCH_REVISION(devarch));
}
static inline u8 etm_trcidr_to_arch(u32 trcidr1)
{
return ETM_ARCH_VERSION(ETM_TRCIDR1_ARCH_MAJOR(trcidr1),
ETM_TRCIDR1_ARCH_MINOR(trcidr1));
}
enum etm_impdef_type {
ETM4_IMPDEF_HISI_CORE_COMMIT,
ETM4_IMPDEF_FEATURE_MAX,
};
/**
* struct etmv4_config - configuration information related to an ETMv4
* @mode: Controls various modes supported by this ETM.
* @pe_sel: Controls which PE to trace.
* @cfg: Controls the tracing options.
* @eventctrl0: Controls the tracing of arbitrary events.
* @eventctrl1: Controls the behavior of the events that @event_ctrl0 selects.
* @stallctl: If functionality that prevents trace unit buffer overflows
* is available.
* @ts_ctrl: Controls the insertion of global timestamps in the
* trace streams.
* @syncfreq: Controls how often trace synchronization requests occur.
* the TRCCCCTLR register.
* @ccctlr: Sets the threshold value for cycle counting.
* @vinst_ctrl: Controls instruction trace filtering.
* @viiectlr: Set or read, the address range comparators.
* @vissctlr: Set, or read, the single address comparators that control the
* ViewInst start-stop logic.
* @vipcssctlr: Set, or read, which PE comparator inputs can control the
* ViewInst start-stop logic.
* @seq_idx: Sequencor index selector.
* @seq_ctrl: Control for the sequencer state transition control register.
* @seq_rst: Moves the sequencer to state 0 when a programmed event occurs.
* @seq_state: Set, or read the sequencer state.
* @cntr_idx: Counter index seletor.
* @cntrldvr: Sets or returns the reload count value for a counter.
* @cntr_ctrl: Controls the operation of a counter.
* @cntr_val: Sets or returns the value for a counter.
* @res_idx: Resource index selector.
* @res_ctrl: Controls the selection of the resources in the trace unit.
* @ss_idx: Single-shot index selector.
* @ss_ctrl: Controls the corresponding single-shot comparator resource.
* @ss_status: The status of the corresponding single-shot comparator.
* @ss_pe_cmp: Selects the PE comparator inputs for Single-shot control.
* @addr_idx: Address comparator index selector.
* @addr_val: Value for address comparator.
* @addr_acc: Address comparator access type.
* @addr_type: Current status of the comparator register.
* @ctxid_idx: Context ID index selector.
* @ctxid_pid: Value of the context ID comparator.
* @ctxid_mask0:Context ID comparator mask for comparator 0-3.
* @ctxid_mask1:Context ID comparator mask for comparator 4-7.
* @vmid_idx: VM ID index selector.
* @vmid_val: Value of the VM ID comparator.
* @vmid_mask0: VM ID comparator mask for comparator 0-3.
* @vmid_mask1: VM ID comparator mask for comparator 4-7.
* @ext_inp: External input selection.
* @s_ex_level: Secure ELs where tracing is supported.
*/
struct etmv4_config {
u32 mode;
u32 pe_sel;
u32 cfg;
u32 eventctrl0;
u32 eventctrl1;
u32 stall_ctrl;
u32 ts_ctrl;
u32 syncfreq;
u32 ccctlr;
u32 bb_ctrl;
u32 vinst_ctrl;
u32 viiectlr;
u32 vissctlr;
u32 vipcssctlr;
u8 seq_idx;
u32 seq_ctrl[ETM_MAX_SEQ_STATES];
u32 seq_rst;
u32 seq_state;
u8 cntr_idx;
u32 cntrldvr[ETMv4_MAX_CNTR];
u32 cntr_ctrl[ETMv4_MAX_CNTR];
u32 cntr_val[ETMv4_MAX_CNTR];
u8 res_idx;
u32 res_ctrl[ETM_MAX_RES_SEL];
u8 ss_idx;
u32 ss_ctrl[ETM_MAX_SS_CMP];
u32 ss_status[ETM_MAX_SS_CMP];
u32 ss_pe_cmp[ETM_MAX_SS_CMP];
u8 addr_idx;
u64 addr_val[ETM_MAX_SINGLE_ADDR_CMP];
u64 addr_acc[ETM_MAX_SINGLE_ADDR_CMP];
u8 addr_type[ETM_MAX_SINGLE_ADDR_CMP];
u8 ctxid_idx;
u64 ctxid_pid[ETMv4_MAX_CTXID_CMP];
u32 ctxid_mask0;
u32 ctxid_mask1;
u8 vmid_idx;
u64 vmid_val[ETM_MAX_VMID_CMP];
u32 vmid_mask0;
u32 vmid_mask1;
u32 ext_inp;
u8 s_ex_level;
};
/**
* struct etm4_save_state - state to be preserved when ETM is without power
*/
struct etmv4_save_state {
u32 trcprgctlr;
u32 trcprocselr;
u32 trcconfigr;
u32 trcauxctlr;
u32 trceventctl0r;
u32 trceventctl1r;
u32 trcstallctlr;
u32 trctsctlr;
u32 trcsyncpr;
u32 trcccctlr;
u32 trcbbctlr;
u32 trctraceidr;
u32 trcqctlr;
u32 trcvictlr;
u32 trcviiectlr;
u32 trcvissctlr;
u32 trcvipcssctlr;
u32 trcvdctlr;
u32 trcvdsacctlr;
u32 trcvdarcctlr;
u32 trcseqevr[ETM_MAX_SEQ_STATES];
u32 trcseqrstevr;
u32 trcseqstr;
u32 trcextinselr;
u32 trccntrldvr[ETMv4_MAX_CNTR];
u32 trccntctlr[ETMv4_MAX_CNTR];
u32 trccntvr[ETMv4_MAX_CNTR];
u32 trcrsctlr[ETM_MAX_RES_SEL];
u32 trcssccr[ETM_MAX_SS_CMP];
u32 trcsscsr[ETM_MAX_SS_CMP];
u32 trcsspcicr[ETM_MAX_SS_CMP];
u64 trcacvr[ETM_MAX_SINGLE_ADDR_CMP];
u64 trcacatr[ETM_MAX_SINGLE_ADDR_CMP];
u64 trccidcvr[ETMv4_MAX_CTXID_CMP];
u64 trcvmidcvr[ETM_MAX_VMID_CMP];
u32 trccidcctlr0;
u32 trccidcctlr1;
u32 trcvmidcctlr0;
u32 trcvmidcctlr1;
u32 trcclaimset;
u32 cntr_val[ETMv4_MAX_CNTR];
u32 seq_state;
u32 vinst_ctrl;
u32 ss_status[ETM_MAX_SS_CMP];
u32 trcpdcr;
};
/**
* struct etm4_drvdata - specifics associated to an ETM component
* @base: Memory mapped base address for this component.
* @csdev: Component vitals needed by the framework.
* @spinlock: Only one at a time pls.
* @mode: This tracer's mode, i.e sysFS, Perf or disabled.
* @cpu: The cpu this component is affined to.
* @arch: ETM architecture version.
* @nr_pe: The number of processing entity available for tracing.
* @nr_pe_cmp: The number of processing entity comparator inputs that are
* available for tracing.
* @nr_addr_cmp:Number of pairs of address comparators available
* as found in ETMIDR4 0-3.
* @nr_cntr: Number of counters as found in ETMIDR5 bit 28-30.
* @nr_ext_inp: Number of external input.
* @numcidc: Number of contextID comparators.
* @numvmidc: Number of VMID comparators.
* @nrseqstate: The number of sequencer states that are implemented.
* @nr_event: Indicates how many events the trace unit support.
* @nr_resource:The number of resource selection pairs available for tracing.
* @nr_ss_cmp: Number of single-shot comparator controls that are available.
* @trcid: value of the current ID for this component.
* @trcid_size: Indicates the trace ID width.
* @ts_size: Global timestamp size field.
* @ctxid_size: Size of the context ID field to consider.
* @vmid_size: Size of the VM ID comparator to consider.
* @ccsize: Indicates the size of the cycle counter in bits.
* @ccitmin: minimum value that can be programmed in
* @s_ex_level: In secure state, indicates whether instruction tracing is
* supported for the corresponding Exception level.
* @ns_ex_level:In non-secure state, indicates whether instruction tracing is
* supported for the corresponding Exception level.
* @sticky_enable: true if ETM base configuration has been done.
* @boot_enable:True if we should start tracing at boot time.
* @os_unlock: True if access to management registers is allowed.
* @instrp0: Tracing of load and store instructions
* as P0 elements is supported.
* @trcbb: Indicates if the trace unit supports branch broadcast tracing.
* @trccond: If the trace unit supports conditional
* instruction tracing.
* @retstack: Indicates if the implementation supports a return stack.
* @trccci: Indicates if the trace unit supports cycle counting
* for instruction.
* @q_support: Q element support characteristics.
* @trc_error: Whether a trace unit can trace a system
* error exception.
* @syncpr: Indicates if an implementation has a fixed
* synchronization period.
* @stall_ctrl: Enables trace unit functionality that prevents trace
* unit buffer overflows.
* @sysstall: Does the system support stall control of the PE?
* @nooverflow: Indicate if overflow prevention is supported.
* @atbtrig: If the implementation can support ATB triggers
* @lpoverride: If the implementation can support low-power state over.
* @config: structure holding configuration parameters.
* @save_state: State to be preserved across power loss
* @state_needs_restore: True when there is context to restore after PM exit
* @skip_power_up: Indicates if an implementation can skip powering up
* the trace unit.
* @arch_features: Bitmap of arch features of etmv4 devices.
*/
struct etmv4_drvdata {
void __iomem *base;
struct coresight_device *csdev;
spinlock_t spinlock;
local_t mode;
int cpu;
u8 arch;
u8 nr_pe;
u8 nr_pe_cmp;
u8 nr_addr_cmp;
u8 nr_cntr;
u8 nr_ext_inp;
u8 numcidc;
u8 numvmidc;
u8 nrseqstate;
u8 nr_event;
u8 nr_resource;
u8 nr_ss_cmp;
u8 trcid;
u8 trcid_size;
u8 ts_size;
u8 ctxid_size;
u8 vmid_size;
u8 ccsize;
u8 ccitmin;
u8 s_ex_level;
u8 ns_ex_level;
u8 q_support;
bool sticky_enable;
bool boot_enable;
bool os_unlock;
bool instrp0;
bool trcbb;
bool trccond;
bool retstack;
bool trccci;
bool trc_error;
bool syncpr;
bool stallctl;
bool sysstall;
bool nooverflow;
bool atbtrig;
bool lpoverride;
struct etmv4_config config;
struct etmv4_save_state *save_state;
bool state_needs_restore;
bool skip_power_up;
DECLARE_BITMAP(arch_features, ETM4_IMPDEF_FEATURE_MAX);
};
/* Address comparator access types */
enum etm_addr_acctype {
ETM_INSTR_ADDR,
ETM_DATA_LOAD_ADDR,
ETM_DATA_STORE_ADDR,
ETM_DATA_LOAD_STORE_ADDR,
};
/* Address comparator context types */
enum etm_addr_ctxtype {
ETM_CTX_NONE,
ETM_CTX_CTXID,
ETM_CTX_VMID,
ETM_CTX_CTXID_VMID,
};
extern const struct attribute_group *coresight_etmv4_groups[];
void etm4_config_trace_mode(struct etmv4_config *config);
u64 etm4x_sysreg_read(u32 offset, bool _relaxed, bool _64bit);
void etm4x_sysreg_write(u64 val, u32 offset, bool _relaxed, bool _64bit);
#endif
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