linux/arch/x86/include/asm/amd-ibs.h
Ravi Bangoria 610c238041 perf/x86/amd: Add IBS OP_DATA2 DataSrc bit definitions
IBS_OP_DATA2 DataSrc provides detail about location of the data
being accessed from by load ops. Define macros for legacy and
extended DataSrc values.

Signed-off-by: Ravi Bangoria <ravi.bangoria@amd.com>
Signed-off-by: Peter Zijlstra (Intel) <peterz@infradead.org>
Link: https://lkml.kernel.org/r/20220928095805.596-3-ravi.bangoria@amd.com
2022-09-29 12:20:54 +02:00

153 lines
4.9 KiB
C

/* SPDX-License-Identifier: GPL-2.0 */
/*
* From PPR Vol 1 for AMD Family 19h Model 01h B1
* 55898 Rev 0.35 - Feb 5, 2021
*/
#include <asm/msr-index.h>
/* IBS_OP_DATA2 DataSrc */
#define IBS_DATA_SRC_LOC_CACHE 2
#define IBS_DATA_SRC_DRAM 3
#define IBS_DATA_SRC_REM_CACHE 4
#define IBS_DATA_SRC_IO 7
/* IBS_OP_DATA2 DataSrc Extension */
#define IBS_DATA_SRC_EXT_LOC_CACHE 1
#define IBS_DATA_SRC_EXT_NEAR_CCX_CACHE 2
#define IBS_DATA_SRC_EXT_DRAM 3
#define IBS_DATA_SRC_EXT_FAR_CCX_CACHE 5
#define IBS_DATA_SRC_EXT_PMEM 6
#define IBS_DATA_SRC_EXT_IO 7
#define IBS_DATA_SRC_EXT_EXT_MEM 8
#define IBS_DATA_SRC_EXT_PEER_AGENT_MEM 12
/*
* IBS Hardware MSRs
*/
/* MSR 0xc0011030: IBS Fetch Control */
union ibs_fetch_ctl {
__u64 val;
struct {
__u64 fetch_maxcnt:16,/* 0-15: instruction fetch max. count */
fetch_cnt:16, /* 16-31: instruction fetch count */
fetch_lat:16, /* 32-47: instruction fetch latency */
fetch_en:1, /* 48: instruction fetch enable */
fetch_val:1, /* 49: instruction fetch valid */
fetch_comp:1, /* 50: instruction fetch complete */
ic_miss:1, /* 51: i-cache miss */
phy_addr_valid:1,/* 52: physical address valid */
l1tlb_pgsz:2, /* 53-54: i-cache L1TLB page size
* (needs IbsPhyAddrValid) */
l1tlb_miss:1, /* 55: i-cache fetch missed in L1TLB */
l2tlb_miss:1, /* 56: i-cache fetch missed in L2TLB */
rand_en:1, /* 57: random tagging enable */
fetch_l2_miss:1,/* 58: L2 miss for sampled fetch
* (needs IbsFetchComp) */
l3_miss_only:1, /* 59: Collect L3 miss samples only */
fetch_oc_miss:1,/* 60: Op cache miss for the sampled fetch */
fetch_l3_miss:1,/* 61: L3 cache miss for the sampled fetch */
reserved:2; /* 62-63: reserved */
};
};
/* MSR 0xc0011033: IBS Execution Control */
union ibs_op_ctl {
__u64 val;
struct {
__u64 opmaxcnt:16, /* 0-15: periodic op max. count */
l3_miss_only:1, /* 16: Collect L3 miss samples only */
op_en:1, /* 17: op sampling enable */
op_val:1, /* 18: op sample valid */
cnt_ctl:1, /* 19: periodic op counter control */
opmaxcnt_ext:7, /* 20-26: upper 7 bits of periodic op maximum count */
reserved0:5, /* 27-31: reserved */
opcurcnt:27, /* 32-58: periodic op counter current count */
reserved1:5; /* 59-63: reserved */
};
};
/* MSR 0xc0011035: IBS Op Data 1 */
union ibs_op_data {
__u64 val;
struct {
__u64 comp_to_ret_ctr:16, /* 0-15: op completion to retire count */
tag_to_ret_ctr:16, /* 15-31: op tag to retire count */
reserved1:2, /* 32-33: reserved */
op_return:1, /* 34: return op */
op_brn_taken:1, /* 35: taken branch op */
op_brn_misp:1, /* 36: mispredicted branch op */
op_brn_ret:1, /* 37: branch op retired */
op_rip_invalid:1, /* 38: RIP is invalid */
op_brn_fuse:1, /* 39: fused branch op */
op_microcode:1, /* 40: microcode op */
reserved2:23; /* 41-63: reserved */
};
};
/* MSR 0xc0011036: IBS Op Data 2 */
union ibs_op_data2 {
__u64 val;
struct {
__u64 data_src_lo:3, /* 0-2: data source low */
reserved0:1, /* 3: reserved */
rmt_node:1, /* 4: destination node */
cache_hit_st:1, /* 5: cache hit state */
data_src_hi:2, /* 6-7: data source high */
reserved1:56; /* 8-63: reserved */
};
};
/* MSR 0xc0011037: IBS Op Data 3 */
union ibs_op_data3 {
__u64 val;
struct {
__u64 ld_op:1, /* 0: load op */
st_op:1, /* 1: store op */
dc_l1tlb_miss:1, /* 2: data cache L1TLB miss */
dc_l2tlb_miss:1, /* 3: data cache L2TLB hit in 2M page */
dc_l1tlb_hit_2m:1, /* 4: data cache L1TLB hit in 2M page */
dc_l1tlb_hit_1g:1, /* 5: data cache L1TLB hit in 1G page */
dc_l2tlb_hit_2m:1, /* 6: data cache L2TLB hit in 2M page */
dc_miss:1, /* 7: data cache miss */
dc_mis_acc:1, /* 8: misaligned access */
reserved:4, /* 9-12: reserved */
dc_wc_mem_acc:1, /* 13: write combining memory access */
dc_uc_mem_acc:1, /* 14: uncacheable memory access */
dc_locked_op:1, /* 15: locked operation */
dc_miss_no_mab_alloc:1, /* 16: DC miss with no MAB allocated */
dc_lin_addr_valid:1, /* 17: data cache linear address valid */
dc_phy_addr_valid:1, /* 18: data cache physical address valid */
dc_l2_tlb_hit_1g:1, /* 19: data cache L2 hit in 1GB page */
l2_miss:1, /* 20: L2 cache miss */
sw_pf:1, /* 21: software prefetch */
op_mem_width:4, /* 22-25: load/store size in bytes */
op_dc_miss_open_mem_reqs:6, /* 26-31: outstanding mem reqs on DC fill */
dc_miss_lat:16, /* 32-47: data cache miss latency */
tlb_refill_lat:16; /* 48-63: L1 TLB refill latency */
};
};
/* MSR 0xc001103c: IBS Fetch Control Extended */
union ic_ibs_extd_ctl {
__u64 val;
struct {
__u64 itlb_refill_lat:16, /* 0-15: ITLB Refill latency for sampled fetch */
reserved:48; /* 16-63: reserved */
};
};
/*
* IBS driver related
*/
struct perf_ibs_data {
u32 size;
union {
u32 data[0]; /* data buffer starts here */
u32 caps;
};
u64 regs[MSR_AMD64_IBS_REG_COUNT_MAX];
};