/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright 2009 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
#ifndef _RFIOSPC_TABLES_H
#define _RFIOSPC_TABLES_H
/*
* Table definitions for the RF IOS performance counters.
*
* Each table consists of one or more groups of counters.
*
* A counter group will have a name (used by busstat as the kstat "module"
* name), have its own set of kstats, and a common event select register.
* A group is represented as an iospc_grp_t.
*
* Each counter is represented by an iospc_cntr_t. Each has its own register
* offset (or address), bits for the data it represents, plus an associated
* register for zeroing it.
*
* All registers for iospc are 64 bit, but a size field can be entered into this
* structure if registers sizes vary for other implementations (as if this code
* is leveraged for a future driver).
*
* A select register is represented by an iospc_regsel_t. This defines the
* offset or address, and an array of fields which define the events for each
* counter it services. All counters need to have an entry in the fields array
* even if they don't have any representation in a select register. Please see
* the explanation of the events array (below) for more information. Counters
* without representation in a select register can specify their (non-existant)
* select register field with mask NONPROG_DUMMY_MASK and offset
* NONPROG_DUMMY_OFF.
*
* This implementation supports only one select register per group. If more
* are needed (e.g. if this implementation is used as a template for another
* device which has multiple select registers per group) the data structures can
* easily be changed to support an array of them. Add an array index in the
* counter structure to associate that counter with a particular select
* register, and add a field for the number of select registers in the group
* structure.
*
* Each counter has an array of programmable events associated with it, even if
* it is not programmable. This array is a series of name/value pairs defined
* by iospc_event_t. The value is the event value loaded into the select
* register to select that event for that counter. The last entry in the array
* is always an entry with a bitmask of LSB-aligned bits of that counter's
* select register's field's width; it is usually called the CLEAR_PIC entry.
* CLEAR_PIC entries are not shown to the user.
*
* Note that counters without programmable events still need to define a
* (small) events array with at least CLEAR_PIC and a single event, so that
* event's name can display in busstat output. The CLEAR_PIC entry of
* nonprogrammable counters can have a value of NONPROG_DUMMY_MASK.
*/
#ifdef __cplusplus
extern "C" {
#endif
#include <sys/types.h>
#include <sys/kstat.h>
/* RF IOS specific definitions. */
/*
* Event bitmask definitions for all groups.
*/
#define RFIOS_IMU_CTR_EVT_MASK 0xffull
#define RFIOS_IMU_CTR_0_EVT_OFF 0
#define RFIOS_IMU_CTR_1_EVT_OFF 8
#define RFIOS_ATU_CTR_EVT_MASK 0xffull
#define RFIOS_ATU_CTR_0_EVT_OFF 0
#define RFIOS_ATU_CTR_1_EVT_OFF 8
#define RFIOS_NPU_CTR_EVT_MASK 0xffull
#define RFIOS_NPU_CTR_0_EVT_OFF 0
#define RFIOS_NPU_CTR_1_EVT_OFF 8
#define RFIOS_PEX_CTR_EVT_MASK 0xffull
#define RFIOS_PEX_CTR_0_EVT_OFF 0
#define RFIOS_PEX_CTR_1_EVT_OFF 8
#define RFIOS_PEU_CTR_EVT_MASK 0x7full
#define RFIOS_PEU_CTR_0_EVT_OFF 0
#define RFIOS_PEU_CTR_1_EVT_OFF 32
/*
* Definitions of the different types of events.
*
* The first part says which registers these events are for.
* For example, IMU01 means the IMU performance counters 0 and 1
*/
/* String sought by busstat to locate the event field width "event" entry. */
#define COMMON_S_CLEAR_PIC "clear_pic"
#define RFIOS_IMU01_S_EVT_NONE "event_none"
#define RFIOS_IMU01_S_EVT_CLK "clock_cyc"
#define RFIOS_IMU01_S_EVT_TOTAL_MSIX "total_msix"
#define RFIOS_IMU01_S_EVT_IOS_MSI "ios_msi"
#define RFIOS_IMU01_S_EVT_PCIE_MSIX "pcie_msix"
#define RFIOS_IMU01_S_EVT_PCIE_MSGS "pcie_msgs"
#define RFIOS_IMU01_S_EVT_FILTERED_MSIX "filtered_msix"
#define RFIOS_IMU01_S_EVT_EQ_WR "eq_write"
#define RFIOS_IMU01_S_EVT_MONDOS "mondos"
#define RFIOS_IMU01_EVT_NONE 0x0
#define RFIOS_IMU01_EVT_CLK 0x1
#define RFIOS_IMU01_EVT_TOTAL_MSIX 0x2
#define RFIOS_IMU01_EVT_IOS_MSI 0x3
#define RFIOS_IMU01_EVT_PCIE_MSIX 0x4
#define RFIOS_IMU01_EVT_PCIE_MSGS 0x5
#define RFIOS_IMU01_EVT_FILTERED_MSIX 0x6
#define RFIOS_IMU01_EVT_EQ_WR 0x7
#define RFIOS_IMU01_EVT_MONDOS 0x8
#define RFIOS_ATU01_S_EVT_NONE "event_none"
#define RFIOS_ATU01_S_EVT_CLK "clock_cyc"
#define RFIOS_ATU01_S_EVT_FLOW_CTRL_STALL "flow_ctrl_cyc"
#define RFIOS_ATU01_S_EVT_CLUMP_ACC "clump_accesses"
#define RFIOS_ATU01_S_EVT_CLUMP_MISS "clump_misses"
#define RFIOS_ATU01_S_EVT_CLUMP_RESETS "clump_resets"
#define RFIOS_ATU01_S_EVT_CLUMP_TBL_WALK "clump_table_walk"
#define RFIOS_ATU01_S_EVT_VIRT_ACC "virt_accesses"
#define RFIOS_ATU01_S_EVT_VIRT_MISS "virt_misses"
#define RFIOS_ATU01_S_EVT_VIRT_RESETS "virt_resets"
#define RFIOS_ATU01_S_EVT_VIRT_TBL_WALK "virt_table_walk"
#define RFIOS_ATU01_S_EVT_REAL_ACC "real_accesses"
#define RFIOS_ATU01_S_EVT_REAL_MISS "real_misses"
#define RFIOS_ATU01_S_EVT_REAL_RESETS "real_resets"
#define RFIOS_ATU01_S_EVT_REAL_TBL_WALK "real_table_walk"
#define RFIOS_ATU01_S_EVT_CMD_ERRORS "cmd_errors"
#define RFIOS_ATU01_S_EVT_VIRT_TRANS "virt_trans"
#define RFIOS_ATU01_S_EVT_REAL_TRANS "real_trans"
#define RFIOS_ATU01_S_EVT_PHYS_TRANS "phys_trans"
#define RFIOS_ATU01_S_EVT_STRICT_ORDER_FORCED "str_order_forced"
#define RFIOS_ATU01_S_EVT_RELAX_ORDER_FORCED "relax_order_forced"
#define RFIOS_ATU01_S_EVT_RELAX_ORDER_TLP "relax_order_tlp"
#define RFIOS_ATU01_S_EVT_RELAX_ORDER_TOTAL "relax_order_total"
#define RFIOS_ATU01_EVT_NONE 0x0
#define RFIOS_ATU01_EVT_CLK 0x1
#define RFIOS_ATU01_EVT_FLOW_CTRL_STALL 0x3
#define RFIOS_ATU01_EVT_CLUMP_ACC 0x4
#define RFIOS_ATU01_EVT_CLUMP_MISS 0x5
#define RFIOS_ATU01_EVT_CLUMP_RESETS 0x6
#define RFIOS_ATU01_EVT_CLUMP_TBL_WALK 0x7
#define RFIOS_ATU01_EVT_VIRT_ACC 0x8
#define RFIOS_ATU01_EVT_VIRT_MISS 0x9
#define RFIOS_ATU01_EVT_VIRT_RESETS 0xa
#define RFIOS_ATU01_EVT_VIRT_TBL_WALK 0xb
#define RFIOS_ATU01_EVT_REAL_ACC 0xc
#define RFIOS_ATU01_EVT_REAL_MISS 0xd
#define RFIOS_ATU01_EVT_REAL_RESETS 0xe
#define RFIOS_ATU01_EVT_REAL_TBL_WALK 0xf
#define RFIOS_ATU01_EVT_CMD_ERRORS 0x10
#define RFIOS_ATU01_EVT_VIRT_TRANS 0x11
#define RFIOS_ATU01_EVT_REAL_TRANS 0x12
#define RFIOS_ATU01_EVT_PHYS_TRANS 0x13
#define RFIOS_ATU01_EVT_STRICT_ORDER_FORCED 0x14
#define RFIOS_ATU01_EVT_RELAX_ORDER_FORCED 0x15
#define RFIOS_ATU01_EVT_RELAX_ORDER_TLP 0x16
#define RFIOS_ATU01_EVT_RELAX_ORDER_TOTAL 0x17
#define RFIOS_NPU01_S_EVT_NONE "event_none"
#define RFIOS_NPU01_S_EVT_CLK "clock_cyc"
#define RFIOS_NPU01_S_EVT_ZERO_BYTE_READ "zero_byte_reads"
#define RFIOS_NPU01_S_EVT_DMA_WRITE_LATENCY "write_latency"
#define RFIOS_NPU01_S_EVT_DMA_WRITE_LATENCY_NUM "write_latency_num"
#define RFIOS_NPU01_S_EVT_OSB_FULL_CYCLES "osb_full_cyc"
#define RFIOS_NPU01_S_EVT_DMA_READ_LATENCY "read_latency"
#define RFIOS_NPU01_S_EVT_DMA_READ_LATENCY_NUM "read_latency_num"
#define RFIOS_NPU01_S_EVT_PSB_FULL_CYCLES "psb_full_cyc"
#define RFIOS_NPU01_S_EVT_ICB_FULL_CYCLES "icb_full_cyc"
#define RFIOS_NPU01_S_EVT_ECB_FULL_CYCLES "ecb_full_cyc"
#define RFIOS_NPU01_S_EVT_ATU_CSR_CFG_WRITES "atu_csr_cfg_wrs"
#define RFIOS_NPU01_S_EVT_ATU_CSR_CFG_READS "atu_csr_cfg_rds"
#define RFIOS_NPU01_S_EVT_ATU_CSR_MEM_WRITES "atu_csr_mem_wrs"
#define RFIOS_NPU01_S_EVT_ATU_CSR_MEM_READS "atu_csr_mem_rds"
#define RFIOS_NPU01_S_EVT_IMU_CSR_CFG_WRITES "imu_csr_cfg_wrs"
#define RFIOS_NPU01_S_EVT_IMU_CSR_CFG_READS "imu_csr_cfg_rds"
#define RFIOS_NPU01_S_EVT_IMU_CSR_MEM_WRITES "imu_csr_mem_wrs"
#define RFIOS_NPU01_S_EVT_IMU_CSR_MEM_READS "imu_csr_mem_rds"
#define RFIOS_NPU01_S_EVT_NPU_CSR_CFG_WRITES "npu_csr_cfg_wrs"
#define RFIOS_NPU01_S_EVT_NPU_CSR_CFG_READS "npu_csr_cfg_rds"
#define RFIOS_NPU01_S_EVT_NPU_CSR_MEM_WRITES "npu_csr_mem_wrs"
#define RFIOS_NPU01_S_EVT_NPU_CSR_MEM_READS "npu_csr_mem_rds"
#define RFIOS_NPU01_S_EVT_OTHER_CSR_CFG_WRITES "other_csr_cfg_wrs"
#define RFIOS_NPU01_S_EVT_OTHER_CSR_CFG_READS "other_csr_cfg_rds"
#define RFIOS_NPU01_S_EVT_OTHER_CSR_MEM64_WRITES \
"other_csr_mem64_wrs"
#define RFIOS_NPU01_S_EVT_OTHER_CSR_MEM64_READS "other_csr_mem64_rds"
#define RFIOS_NPU01_S_EVT_OTHER_CSR_MEM32_WRITES \
"other_csr_mem32_wrs"
#define RFIOS_NPU01_S_EVT_OTHER_CSR_MEM32_READS "other_csr_mem32_rds"
#define RFIOS_NPU01_S_EVT_IO_SPACE_WRITES "io_space_wrs"
#define RFIOS_NPU01_S_EVT_IO_SPACE_READS "io_space_rds"
#define RFIOS_NPU01_S_EVT_TOTAL_MSI "total_msi"
#define RFIOS_NPU01_S_EVT_ATU_MSI "atu_msi"
#define RFIOS_NPU01_S_EVT_IMU_MSI "imu_msi"
#define RFIOS_NPU01_S_EVT_NPU_MSI "npu_msi"
#define RFIOS_NPU01_S_EVT_RETIRED_TAGS_CTO "retired_tags"
#define RFIOS_NPU01_S_EVT_NO_POSTED_TAGS_CYCYLES \
"no_posted_tags_cyc"
#define RFIOS_NPU01_EVT_NONE 0
#define RFIOS_NPU01_EVT_CLK 1
#define RFIOS_NPU01_EVT_ZERO_BYTE_READ 2
#define RFIOS_NPU01_EVT_DMA_WRITE_LATENCY 3
#define RFIOS_NPU01_EVT_DMA_WRITE_LATENCY_NUM 4
#define RFIOS_NPU01_EVT_OSB_FULL_CYCLES 5
#define RFIOS_NPU01_EVT_DMA_READ_LATENCY 8
#define RFIOS_NPU01_EVT_DMA_READ_LATENCY_NUM 9
#define RFIOS_NPU01_EVT_PSB_FULL_CYCLES 10
#define RFIOS_NPU01_EVT_ICB_FULL_CYCLES 16
#define RFIOS_NPU01_EVT_ECB_FULL_CYCLES 24
#define RFIOS_NPU01_EVT_ATU_CSR_CFG_WRITES 32
#define RFIOS_NPU01_EVT_ATU_CSR_CFG_READS 33
#define RFIOS_NPU01_EVT_ATU_CSR_MEM_WRITES 34
#define RFIOS_NPU01_EVT_ATU_CSR_MEM_READS 35
#define RFIOS_NPU01_EVT_IMU_CSR_CFG_WRITES 36
#define RFIOS_NPU01_EVT_IMU_CSR_CFG_READS 37
#define RFIOS_NPU01_EVT_IMU_CSR_MEM_WRITES 38
#define RFIOS_NPU01_EVT_IMU_CSR_MEM_READS 39
#define RFIOS_NPU01_EVT_NPU_CSR_CFG_WRITES 40
#define RFIOS_NPU01_EVT_NPU_CSR_CFG_READS 41
#define RFIOS_NPU01_EVT_NPU_CSR_MEM_WRITES 42
#define RFIOS_NPU01_EVT_NPU_CSR_MEM_READS 43
#define RFIOS_NPU01_EVT_OTHER_CSR_CFG_WRITES 44
#define RFIOS_NPU01_EVT_OTHER_CSR_CFG_READS 45
#define RFIOS_NPU01_EVT_OTHER_CSR_MEM64_WRITES 46
#define RFIOS_NPU01_EVT_OTHER_CSR_MEM64_READS 47
#define RFIOS_NPU01_EVT_OTHER_CSR_MEM32_WRITES 48
#define RFIOS_NPU01_EVT_OTHER_CSR_MEM32_READS 49
#define RFIOS_NPU01_EVT_IO_SPACE_WRITES 50
#define RFIOS_NPU01_EVT_IO_SPACE_READS 51
#define RFIOS_NPU01_EVT_TOTAL_MSI 52
#define RFIOS_NPU01_EVT_ATU_MSI 53
#define RFIOS_NPU01_EVT_IMU_MSI 54
#define RFIOS_NPU01_EVT_NPU_MSI 55
#define RFIOS_NPU01_EVT_RETIRED_TAGS_CTO 56
#define RFIOS_NPU01_EVT_NO_POSTED_TAGS_CYCYLES 57
#define RFIOS_PEX01_S_EVT_NONE "event_none"
#define RFIOS_PEX01_S_EVT_CLK "clock_cyc"
#define RFIOS_PEX01_S_EVT_PEU0_DMA_WR_REC "peu0_dma_wr_received"
#define RFIOS_PEX01_S_EVT_PEU0_PIO_RD_REC "peu0_pio_rd_received"
#define RFIOS_PEX01_S_EVT_PEU0_DMA_RD_SENT "peu0_dma_rd_sent"
#define RFIOS_PEX01_S_EVT_PEU0_TLP_REC "peu0_tlp_recieved"
#define RFIOS_PEX01_S_EVT_PEU0_TRP_FULL_CYCLES "peu0_trp_full_cyc"
#define RFIOS_PEX01_S_EVT_PEU0_TCH_FULL_CYCLES "peu0_tch_full_cyc"
#define RFIOS_PEX01_S_EVT_PEU0_TCD_FULL_CYCLES "peu0_tcd_full_cyc"
#define RFIOS_PEX01_S_EVT_NON_POSTED_PIOS_LATENCY \
"non_posted_pios_latency"
#define RFIOS_PEX01_S_EVT_NON_POSTED_PIOS_NUM "non_posted_pios_num"
#define RFIOS_PEX01_S_EVT_PEX_CFG_WRITE "pex_config_wr"
#define RFIOS_PEX01_S_EVT_PEX_CFG_READ "pex_config_rd"
#define RFIOS_PEX01_S_EVT_PEX_MEM_WRITE "pex_mem_wr"
#define RFIOS_PEX01_S_EVT_PEX_MEM_READ "pex_mem_rd"
#define RFIOS_PEX01_S_EVT_PEU1_DMA_WR_REC "peu1_dma_wr_received"
#define RFIOS_PEX01_S_EVT_PEU1_PIO_RD_REC "peu1_pio_rd_received"
#define RFIOS_PEX01_S_EVT_PEU1_DMA_RD_SENT "peu1_dma_rd_sent"
#define RFIOS_PEX01_S_EVT_PEU1_TLP_REC "peu1_tlp_recieved"
#define RFIOS_PEX01_S_EVT_PEU1_TRP_FULL_CYCLES "peu1_trp_full_cyc"
#define RFIOS_PEX01_S_EVT_PEU1_TCH_FULL_CYCLES "peu1_tch_full_cyc"
#define RFIOS_PEX01_S_EVT_PEU1_TCD_FULL_CYCLES "peu1_tcd_full_cyc"
#define RFIOS_PEX01_EVT_NONE 0x0
#define RFIOS_PEX01_EVT_CLK 0x1
#define RFIOS_PEX01_EVT_PEU0_DMA_WR_REC 0x2
#define RFIOS_PEX01_EVT_PEU0_PIO_RD_REC 0x3
#define RFIOS_PEX01_EVT_PEU0_DMA_RD_SENT 0x4
#define RFIOS_PEX01_EVT_PEU0_TLP_REC 0x5
#define RFIOS_PEX01_EVT_PEU0_TRP_FULL_CYCLES 0x6
#define RFIOS_PEX01_EVT_PEU0_TCH_FULL_CYCLES 0x7
#define RFIOS_PEX01_EVT_PEU0_TCD_FULL_CYCLES 0x8
#define RFIOS_PEX01_EVT_NON_POSTED_PIOS_LATENCY 0x9
#define RFIOS_PEX01_EVT_NON_POSTED_PIOS_NUM 0xa
#define RFIOS_PEX01_EVT_PEX_CFG_WRITE 0xb
#define RFIOS_PEX01_EVT_PEX_CFG_READ 0xc
#define RFIOS_PEX01_EVT_PEX_MEM_WRITE 0xd
#define RFIOS_PEX01_EVT_PEX_MEM_READ 0xe
#define RFIOS_PEX01_EVT_PEU1_DMA_WR_REC 0x20
#define RFIOS_PEX01_EVT_PEU1_PIO_RD_REC 0x30
#define RFIOS_PEX01_EVT_PEU1_DMA_RD_SENT 0x40
#define RFIOS_PEX01_EVT_PEU1_TLP_REC 0x50
#define RFIOS_PEX01_EVT_PEU1_TRP_FULL_CYCLES 0x60
#define RFIOS_PEX01_EVT_PEU1_TCH_FULL_CYCLES 0x70
#define RFIOS_PEX01_EVT_PEU1_TCD_FULL_CYCLES 0x80
#define RFIOS_PEU01_S_EVT_NONE "event_none"
#define RFIOS_PEU01_S_EVT_CLK "clock_cyc"
#define RFIOS_PEU01_S_EVT_INT_CFG_WR_RECD "int_config_wr_recd"
#define RFIOS_PEU01_S_EVT_INT_CFG_RD_RECD "int_config_rd_recd"
#define RFIOS_PEU01_S_EVT_INT_MEM_WR_RECD "int_mem_wr_recd"
#define RFIOS_PEU01_S_EVT_INT_MEM_RD_RECD "int_mem_rd_recd"
#define RFIOS_PEU01_S_EVT_EXT_CFG_WR_RECD "ext_config_wr_recd"
#define RFIOS_PEU01_S_EVT_EXT_CFG_RD_RECD "ext_config_rd_recd"
#define RFIOS_PEU01_S_EVT_EXT_MEM_WR_RECD "ext_mem_wr_recd"
#define RFIOS_PEU01_S_EVT_EXT_MEM_RD_RECD "ext_mem_rd_recd"
#define RFIOS_PEU01_S_EVT_MEM_RD_REQ_RECD_ALL "mem_rd_recd_all"
#define RFIOS_PEU01_S_EVT_MEM_RD_REQ_RECD_1_15DW \
"mem_rd_recd_1_15dw"
#define RFIOS_PEU01_S_EVT_MEM_RD_REQ_RECD_16_31DW \
"mem_rd_recd_16_31dw"
#define RFIOS_PEU01_S_EVT_MEM_RD_REQ_RECD_32_63DW \
"mem_rd_recd_32_63dw"
#define RFIOS_PEU01_S_EVT_MEM_RD_REQ_RECD_64_127DW \
"mem_rd_recd_64_127dw"
#define RFIOS_PEU01_S_EVT_MEM_RD_REQ_RECD_128_255DW \
"mem_rd_recd_128_255dw"
#define RFIOS_PEU01_S_EVT_MEM_RD_REQ_RECD_256_511DW \
"mem_rd_recd_256_511dw"
#define RFIOS_PEU01_S_EVT_MEM_RD_REQ_RECD_512_1024DW \
"mem_rd_recd_512_1024dw"
#define RFIOS_PEU01_S_EVT_MEM_WR_REQ_RECD_ALL "mem_wr_recd_all"
#define RFIOS_PEU01_S_EVT_MEM_WR_REQ_RECD_1_15DW \
"mem_wr_recd_1_15dw"
#define RFIOS_PEU01_S_EVT_MEM_WR_REQ_RECD_16_31DW \
"mem_wr_recd_16_31dw"
#define RFIOS_PEU01_S_EVT_MEM_WR_REQ_RECD_32_63DW \
"mem_wr_recd_32_63dw"
#define RFIOS_PEU01_S_EVT_MEM_WR_REQ_RECD_64_127DW \
"mem_wr_recd_64_127dw"
#define RFIOS_PEU01_S_EVT_MEM_WR_REQ_RECD_128_255DW \
"mem_wr_recd_128_255dw"
#define RFIOS_PEU01_S_EVT_MEM_WR_REQ_RECD_256_511DW \
"mem_wr_recd_256_511dw"
#define RFIOS_PEU01_S_EVT_MEM_WR_REQ_RECD_512_1024DW \
"mem_wr_recd_512_1024dw"
#define RFIOS_PEU01_S_EVT_XMIT_POSTED_HDR_NA_CYC \
"xmit_posted_hdr_na_cyc"
#define RFIOS_PEU01_S_EVT_XMIT_POSTED_DATA_NA_CYC \
"xmit_posted_data_na_cyc"
#define RFIOS_PEU01_S_EVT_XMIT_NON_POSTED_HDR_NA_CYC \
"xmit_non_posted_hdr_na_cyc"
#define RFIOS_PEU01_S_EVT_XMIT_NON_POSTED_DATA_NA_CYC \
"xmit_non_posted_data_na_cyc"
#define RFIOS_PEU01_S_EVT_XMIT_COMPL_HDR_NA_CYC "xmit_compl_hdr_na_cyc"
#define RFIOS_PEU01_S_EVT_XMIT_COMPL_DATA_NA_CYC \
"xmit_compl_data_na_cyc"
#define RFIOS_PEU01_S_EVT_NO_XMIT_CRED_CYC "no_xmit_cred_cyc"
#define RFIOS_PEU01_S_EVT_RETRY_BUFF_NA_CYC "retry_buffer_na_cyc"
#define RFIOS_PEU01_S_EVT_REC_FLCTRL_COMP_EXST_CYC \
"rec_flw_compl_hdr_exhast_cyc"
#define RFIOS_PEU01_S_EVT_REC_FLCTRL_NPOST_EXST_CYC \
"rec_flw_npost_hdr_exhast_cyc"
#define RFIOS_PEU01_S_EVT_REC_FLCTRL_PST_DAT_EXST \
"rec_flw_post_data_exhast_cyc"
#define RFIOS_PEU01_S_EVT_REC_FLCTRL_PST_DT_CDT_EXST \
"rec_flw_post_data_cred_exh_cyc"
#define RFIOS_PEU01_S_EVT_REC_FLCTRL_PST_CDT_EXST \
"rec_flw_post_data_exh_cyc"
#define RFIOS_PEU01_S_EVT_REC_FLCTRL_CDT_EXST "rec_flw_cred_exh_cyc"
#define RFIOS_PEU01_S_EVT_DLLP_CRC_ERRORS "dllp_crc_errs"
#define RFIOS_PEU01_S_EVT_TLP_CRC_ERRORS "tlp_crc_errs"
#define RFIOS_PEU01_S_EVT_TLP_RECD_WITH_EDB "tlp_recd_with_edb"
#define RFIOS_PEU01_S_EVT_RECD_FC_TIMEOUT_ERROR "recd_fc_to_errs"
#define RFIOS_PEU01_S_EVT_REPLAY_NUM_ROLLOVERS "replay_num_ro"
#define RFIOS_PEU01_S_EVT_REPLAY_TIMER_TIMEOUTS "replay_timer_to"
#define RFIOS_PEU01_S_EVT_REPLAYS_INITIATED "replays_init"
#define RFIOS_PEU01_S_EVT_LTSSM_RECOVERY_CYC "ltssm_rec_cyc"
#define RFIOS_PEU01_S_EVT_ENTRIES_LTSSM_RECOVERY \
"entries_ltssm_rec"
#define RFIOS_PEU01_S_EVT_REC_L0S_STATE_CYC "rec_l0s_state_cyc"
#define RFIOS_PEU01_S_EVT_REC_L0S_STATE_TRANS "rec_l0s_state_trans"
#define RFIOS_PEU01_S_EVT_XMIT_L0S_STATE_CYC "xmit_l0s_state_cyc"
#define RFIOS_PEU01_S_EVT_XMIT_L0S_STATE_TRANS "xmit_l0s_state_trans"
#define RFIOS_PEU01_EVT_NONE 0x0
#define RFIOS_PEU01_EVT_CLK 0x1
#define RFIOS_PEU01_EVT_INT_CFG_WR_RECD 0x2
#define RFIOS_PEU01_EVT_INT_CFG_RD_RECD 0x3
#define RFIOS_PEU01_EVT_INT_MEM_WR_RECD 0x4
#define RFIOS_PEU01_EVT_INT_MEM_RD_RECD 0x5
#define RFIOS_PEU01_EVT_EXT_CFG_WR_RECD 0x6
#define RFIOS_PEU01_EVT_EXT_CFG_RD_RECD 0x7
#define RFIOS_PEU01_EVT_EXT_MEM_WR_RECD 0x8
#define RFIOS_PEU01_EVT_EXT_MEM_RD_RECD 0x9
#define RFIOS_PEU01_EVT_MEM_RD_REQ_RECD_ALL 0x10
#define RFIOS_PEU01_EVT_MEM_RD_REQ_RECD_1_15DW 0x11
#define RFIOS_PEU01_EVT_MEM_RD_REQ_RECD_16_31DW 0x12
#define RFIOS_PEU01_EVT_MEM_RD_REQ_RECD_32_63DW 0x13
#define RFIOS_PEU01_EVT_MEM_RD_REQ_RECD_64_127DW 0x14
#define RFIOS_PEU01_EVT_MEM_RD_REQ_RECD_128_255DW 0x15
#define RFIOS_PEU01_EVT_MEM_RD_REQ_RECD_256_511DW 0x16
#define RFIOS_PEU01_EVT_MEM_RD_REQ_RECD_512_1024DW 0x17
#define RFIOS_PEU01_EVT_MEM_WR_REQ_RECD_ALL 0x18
#define RFIOS_PEU01_EVT_MEM_WR_REQ_RECD_1_15DW 0x19
#define RFIOS_PEU01_EVT_MEM_WR_REQ_RECD_16_31DW 0x1a
#define RFIOS_PEU01_EVT_MEM_WR_REQ_RECD_32_63DW 0x1b
#define RFIOS_PEU01_EVT_MEM_WR_REQ_RECD_64_127DW 0x1c
#define RFIOS_PEU01_EVT_MEM_WR_REQ_RECD_128_255DW 0x1d
#define RFIOS_PEU01_EVT_MEM_WR_REQ_RECD_256_511DW 0x1e
#define RFIOS_PEU01_EVT_MEM_WR_REQ_RECD_512_1024DW 0x1f
#define RFIOS_PEU01_EVT_XMIT_POSTED_HDR_NA_CYC 0x20
#define RFIOS_PEU01_EVT_XMIT_POSTED_DATA_NA_CYC 0x21
#define RFIOS_PEU01_EVT_XMIT_NON_POSTED_HDR_NA_CYC 0x22
#define RFIOS_PEU01_EVT_XMIT_NON_POSTED_DATA_NA_CYC 0x23
#define RFIOS_PEU01_EVT_XMIT_COMPL_HDR_NA_CYC 0x24
#define RFIOS_PEU01_EVT_XMIT_COMPL_DATA_NA_CYC 0x25
#define RFIOS_PEU01_EVT_NO_XMIT_CRED_CYC 0x26
#define RFIOS_PEU01_EVT_RETRY_BUFF_NA_CYC 0x27
#define RFIOS_PEU01_EVT_REC_FLCTRL_COMP_EXST_CYC 0x28
#define RFIOS_PEU01_EVT_REC_FLCTRL_NPOST_EXST_CYC 0x29
#define RFIOS_PEU01_EVT_REC_FLCTRL_PST_DAT_EXST 0x2a
#define RFIOS_PEU01_EVT_REC_FLCTRL_PST_DT_CDT_EXST 0x2b
#define RFIOS_PEU01_EVT_REC_FLCTRL_PST_CDT_EXST 0x2c
#define RFIOS_PEU01_EVT_REC_FLCTRL_CDT_EXST 0x2d
#define RFIOS_PEU01_EVT_DLLP_CRC_ERRORS 0x30
#define RFIOS_PEU01_EVT_TLP_CRC_ERRORS 0x31
#define RFIOS_PEU01_EVT_TLP_RECD_WITH_EDB 0x32
#define RFIOS_PEU01_EVT_RECD_FC_TIMEOUT_ERROR 0x33
#define RFIOS_PEU01_EVT_REPLAY_NUM_ROLLOVERS 0x34
#define RFIOS_PEU01_EVT_REPLAY_TIMER_TIMEOUTS 0x35
#define RFIOS_PEU01_EVT_REPLAYS_INITIATED 0x36
#define RFIOS_PEU01_EVT_LTSSM_RECOVERY_CYC 0x37
#define RFIOS_PEU01_EVT_ENTRIES_LTSSM_RECOVERY 0x38
#define RFIOS_PEU01_EVT_REC_L0S_STATE_CYC 0x40
#define RFIOS_PEU01_EVT_REC_L0S_STATE_TRANS 0x41
#define RFIOS_PEU01_EVT_XMIT_L0S_STATE_CYC 0x42
#define RFIOS_PEU01_EVT_XMIT_L0S_STATE_TRANS 0x43
extern int rfiospc_get_perfreg(cntr_handle_t handle, int regid, uint64_t *data);
extern int rfiospc_set_perfreg(cntr_handle_t handle, int regid, uint64_t data);
extern int rfios_access_hv(iospc_t *iospc_p, void *arg, int op, int regid,
uint64_t *data);
extern int rfios_access_init(iospc_t *iospc_p, iospc_ksinfo_t *ksinfo_p);
extern int rfios_access_fini(iospc_t *iospc_p, iospc_ksinfo_t *ksinfo_p);
#ifdef __cplusplus
}
#endif
#endif /* _RFIOSPC_TABLES_H */