freebsd-nq/sys/dev/cxgbe/cudbg/cudbg_entity.h
Navdeep Parhar f856f099cb cxgbe(4): Initial import of the "collect" component of Chelsio unified
debug (cudbg) code, hooked up to the main driver via an ioctl.

The ioctl can be used to collect the chip's internal state in a
compressed dump file.  These dumps can be decoded with the "view"
component of cudbg.

Obtained from:	Chelsio Communications
MFC after:	2 months
Sponsored by:	Chelsio Communications
2017-08-03 14:43:30 +00:00

910 lines
24 KiB
C

/*-
* Copyright (c) 2017 Chelsio Communications, Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* $FreeBSD$
*
*/
#ifndef __CUDBG_ENTITY_H__
#define __CUDBG_ENTITY_H__
#ifdef __GNUC__
#define ATTRIBUTE_UNUSED __attribute__ ((unused))
#else
#define ATTRIBUTE_UNUSED
#endif
#define MC0_FLAG 1
#define MC1_FLAG 2
#define EDC0_FLAG 3
#define EDC1_FLAG 4
#define NUM_PCIE_CONFIG_REGS 0x61
#define CUDBG_CTXT_SIZE_BYTES 24
#define CUDBG_MAX_INGRESS_QIDS 65536
#define CUDBG_MAX_FL_QIDS 2048
#define CUDBG_MAX_CNM_QIDS 1024
#define CUDBG_LOWMEM_MAX_CTXT_QIDS 256
#define ETH_ALEN 6
#define CUDBG_MAX_RPLC_SIZE 128
#define CUDBG_NUM_REQ_REGS 17
#define CUDBG_MAX_TCAM_TID 0x800
#define CUDBG_NUM_ULPTX 11
#define CUDBG_NUM_ULPTX_READ 512
#define SN_REG_ADDR 0x183f
#define BN_REG_ADDR 0x1819
#define NA_REG_ADDR 0x185a
#define MN_REG_ADDR 0x1803
#define A_MPS_VF_RPLCT_MAP0 0x1111c
#define A_MPS_VF_RPLCT_MAP1 0x11120
#define A_MPS_VF_RPLCT_MAP2 0x11124
#define A_MPS_VF_RPLCT_MAP3 0x11128
#define A_MPS_VF_RPLCT_MAP4 0x11300
#define A_MPS_VF_RPLCT_MAP5 0x11304
#define A_MPS_VF_RPLCT_MAP6 0x11308
#define A_MPS_VF_RPLCT_MAP7 0x1130c
#define PORT_TYPE_ADDR 0x1869
#define PORT_TYPE_LEN 8
/* For T6 */
#define SN_T6_ADDR 0x83f
#define BN_T6_ADDR 0x819
#define NA_T6_ADDR 0x85a
#define MN_T6_ADDR 0x803
#define SN_MAX_LEN 24
#define BN_MAX_LEN 16
#define NA_MAX_LEN 12
#define MN_MAX_LEN 16
#define MAX_VPD_DATA_LEN 32
#define VPD_VER_ADDR 0x18c7
#define VPD_VER_LEN 2
#define SCFG_VER_ADDR 0x06
#define SCFG_VER_LEN 4
#define CUDBG_CIM_BUSY_BIT (1 << 17)
#define CUDBG_CHAC_PBT_ADDR 0x2800
#define CUDBG_CHAC_PBT_LRF 0x3000
#define CUDBG_CHAC_PBT_DATA 0x3800
#define CUDBG_PBT_DYNAMIC_ENTRIES 8
#define CUDBG_PBT_STATIC_ENTRIES 16
#define CUDBG_LRF_ENTRIES 8
#define CUDBG_PBT_DATA_ENTRIES 512
#define CUDBG_ENTITY_SIGNATURE 0xCCEDB001
#define CUDBG_TID_INFO_REV 1
#define CUDBG_MAC_STATS_REV 1
#ifndef ARRAY_SIZE
#define ARRAY_SIZE(_a) (sizeof((_a)) / sizeof((_a)[0]))
#endif
struct cudbg_pbt_tables {
u32 pbt_dynamic[CUDBG_PBT_DYNAMIC_ENTRIES];
u32 pbt_static[CUDBG_PBT_STATIC_ENTRIES];
u32 lrf_table[CUDBG_LRF_ENTRIES];
u32 pbt_data[CUDBG_PBT_DATA_ENTRIES];
};
struct card_mem {
u16 size_mc0;
u16 size_mc1;
u16 size_edc0;
u16 size_edc1;
u16 mem_flag;
u16 res;
};
struct rss_pf_conf {
u32 rss_pf_map;
u32 rss_pf_mask;
u32 rss_pf_config;
};
struct cudbg_ch_cntxt {
uint32_t cntxt_type;
uint32_t cntxt_id;
uint32_t data[SGE_CTXT_SIZE / 4];
};
struct cudbg_tcam {
u32 filter_start;
u32 server_start;
u32 clip_start;
u32 routing_start;
u32 tid_hash_base;
u32 max_tid;
};
#if 0
struct cudbg_mbox_log {
struct mbox_cmd entry;
u32 hi[MBOX_LEN / 8];
u32 lo[MBOX_LEN / 8];
};
#endif
struct cudbg_tid_data {
u32 tid;
u32 dbig_cmd;
u32 dbig_conf;
u32 dbig_rsp_stat;
u32 data[CUDBG_NUM_REQ_REGS];
};
struct cudbg_cntxt_field {
char *name;
u32 start_bit;
u32 end_bit;
u32 shift;
u32 islog2;
};
struct cudbg_mps_tcam {
u64 mask;
u32 rplc[8];
u32 idx;
u32 cls_lo;
u32 cls_hi;
u32 rplc_size;
u32 vniy;
u32 vnix;
u32 dip_hit;
u32 vlan_vld;
u32 repli;
u16 ivlan;
u8 addr[ETH_ALEN];
u8 lookup_type;
u8 port_num;
u8 reserved[2];
};
struct rss_vf_conf {
u32 rss_vf_vfl;
u32 rss_vf_vfh;
};
struct rss_config {
u32 tp_rssconf; /* A_TP_RSS_CONFIG */
u32 tp_rssconf_tnl; /* A_TP_RSS_CONFIG_TNL */
u32 tp_rssconf_ofd; /* A_TP_RSS_CONFIG_OFD */
u32 tp_rssconf_syn; /* A_TP_RSS_CONFIG_SYN */
u32 tp_rssconf_vrt; /* A_TP_RSS_CONFIG_VRT */
u32 tp_rssconf_cng; /* A_TP_RSS_CONFIG_CNG */
u32 chip;
};
struct struct_pm_stats {
u32 tx_cnt[T6_PM_NSTATS];
u32 rx_cnt[T6_PM_NSTATS];
u64 tx_cyc[T6_PM_NSTATS];
u64 rx_cyc[T6_PM_NSTATS];
};
struct struct_hw_sched {
u32 kbps[NTX_SCHED];
u32 ipg[NTX_SCHED];
u32 pace_tab[NTX_SCHED];
u32 mode;
u32 map;
};
struct struct_tcp_stats {
struct tp_tcp_stats v4, v6;
};
struct struct_tp_err_stats {
struct tp_err_stats stats;
u32 nchan;
};
struct struct_tp_fcoe_stats {
struct tp_fcoe_stats stats[4];
u32 nchan;
};
struct struct_mac_stats {
u32 port_count;
struct port_stats stats[4];
};
struct struct_mac_stats_rev1 {
struct cudbg_ver_hdr ver_hdr;
u32 port_count;
u32 reserved;
struct port_stats stats[4];
};
struct struct_tp_cpl_stats {
struct tp_cpl_stats stats;
u32 nchan;
};
struct struct_wc_stats {
u32 wr_cl_success;
u32 wr_cl_fail;
};
struct struct_ulptx_la {
u32 rdptr[CUDBG_NUM_ULPTX];
u32 wrptr[CUDBG_NUM_ULPTX];
u32 rddata[CUDBG_NUM_ULPTX];
u32 rd_data[CUDBG_NUM_ULPTX][CUDBG_NUM_ULPTX_READ];
};
struct struct_ulprx_la {
u32 data[ULPRX_LA_SIZE * 8];
u32 size;
};
struct struct_cim_qcfg {
u8 chip;
u16 base[CIM_NUM_IBQ + CIM_NUM_OBQ_T5];
u16 size[CIM_NUM_IBQ + CIM_NUM_OBQ_T5];
u16 thres[CIM_NUM_IBQ];
u32 obq_wr[2 * CIM_NUM_OBQ_T5];
u32 stat[4 * (CIM_NUM_IBQ + CIM_NUM_OBQ_T5)];
};
enum region_index {
REGN_DBQ_CONTEXS_IDX,
REGN_IMSG_CONTEXTS_IDX,
REGN_FLM_CACHE_IDX,
REGN_TCBS_IDX,
REGN_PSTRUCT_IDX,
REGN_TIMERS_IDX,
REGN_RX_FL_IDX,
REGN_TX_FL_IDX,
REGN_PSTRUCT_FL_IDX,
REGN_TX_PAYLOAD_IDX,
REGN_RX_PAYLOAD_IDX,
REGN_LE_HASH_IDX,
REGN_ISCSI_IDX,
REGN_TDDP_IDX,
REGN_TPT_IDX,
REGN_STAG_IDX,
REGN_RQ_IDX,
REGN_RQUDP_IDX,
REGN_PBL_IDX,
REGN_TXPBL_IDX,
REGN_DBVFIFO_IDX,
REGN_ULPRX_STATE_IDX,
REGN_ULPTX_STATE_IDX,
#ifndef __NO_DRIVER_OCQ_SUPPORT__
REGN_ON_CHIP_Q_IDX,
#endif
};
static const char * const region[] = {
"DBQ contexts:", "IMSG contexts:", "FLM cache:", "TCBs:",
"Pstructs:", "Timers:", "Rx FL:", "Tx FL:", "Pstruct FL:",
"Tx payload:", "Rx payload:", "LE hash:", "iSCSI region:",
"TDDP region:", "TPT region:", "STAG region:", "RQ region:",
"RQUDP region:", "PBL region:", "TXPBL region:",
"DBVFIFO region:", "ULPRX state:", "ULPTX state:",
#ifndef __NO_DRIVER_OCQ_SUPPORT__
"On-chip queues:"
#endif
};
/* Info relative to memory region (i.e. wrt 0). */
struct struct_region_info {
bool exist; /* Does region exists in current memory region? */
u32 start; /* Start wrt 0 */
u32 end; /* End wrt 0 */
};
struct struct_port_usage {
u32 id;
u32 used;
u32 alloc;
};
struct struct_lpbk_usage {
u32 id;
u32 used;
u32 alloc;
};
struct struct_mem_desc {
u32 base;
u32 limit;
u32 idx;
};
enum string_size_units {
STRING_UNITS_10, /* use powers of 10^3 (standard SI) */
STRING_UNITS_2, /* use binary powers of 2^10 */
};
struct struct_meminfo {
struct struct_mem_desc avail[4];
struct struct_mem_desc mem[ARRAY_SIZE(region) + 3];
u32 avail_c;
u32 mem_c;
u32 up_ram_lo;
u32 up_ram_hi;
u32 up_extmem2_lo;
u32 up_extmem2_hi;
u32 rx_pages_data[3];
u32 tx_pages_data[4];
u32 p_structs;
struct struct_port_usage port_data[4];
u32 port_used[4];
u32 port_alloc[4];
u32 loopback_used[NCHAN];
u32 loopback_alloc[NCHAN];
};
#ifndef __GNUC__
#pragma warning(disable : 4200)
#endif
struct struct_lb_stats {
int nchan;
struct lb_port_stats s[0];
};
struct struct_clk_info {
u64 retransmit_min;
u64 retransmit_max;
u64 persist_timer_min;
u64 persist_timer_max;
u64 keepalive_idle_timer;
u64 keepalive_interval;
u64 initial_srtt;
u64 finwait2_timer;
u32 dack_timer;
u32 res;
u32 cclk_ps;
u32 tre;
u32 dack_re;
char core_clk_period[32];
char tp_timer_tick[32];
char tcp_tstamp_tick[32];
char dack_tick[32];
};
struct cim_pif_la {
int size;
u8 data[0];
};
struct struct_tp_la {
u32 size;
u32 mode;
u8 data[0];
};
struct field_desc {
const char *name;
u32 start;
u32 width;
};
struct tp_mib_type {
char *key;
u32 addr;
u32 value;
};
struct wtp_type_0 {
u32 sop;
u32 eop;
};
struct wtp_type_1 {
u32 sop[2];
u32 eop[2];
};
struct wtp_type_2 {
u32 sop[4];
u32 eop[4];
};
struct wtp_type_3 {
u32 sop[4];
u32 eop[4];
u32 drops;
};
struct wtp_data {
/*TX path, Request Work request sub-path:*/
struct wtp_type_1 sge_pcie_cmd_req; /*SGE_DEBUG PC_Req_xOPn*/
struct wtp_type_1 pcie_core_cmd_req; /*PCIE_CMDR_REQ_CNT*/
/*TX path, Work request to uP sub-path*/
struct wtp_type_1 core_pcie_cmd_rsp; /*PCIE_CMDR_RSP_CNT*/
struct wtp_type_1 pcie_sge_cmd_rsp; /*SGE_DEBUG PC_Rsp_xOPn*/
struct wtp_type_1 sge_cim; /*SGE_DEBUG CIM_xOPn*/
/*TX path, Data request path from ULP_TX to core*/
struct wtp_type_2 utx_sge_dma_req; /*SGE UD_Rx_xOPn*/
struct wtp_type_2 sge_pcie_dma_req; /*SGE PD_Req_Rdn (no eops)*/
struct wtp_type_2 pcie_core_dma_req; /*PCIE_DMAR_REQ_CNT (no eops)*/
/*Main TX path, from core to wire*/
struct wtp_type_2 core_pcie_dma_rsp; /*PCIE_DMAR_RSP_SOP_CNT/
PCIE_DMAR_EOP_CNT*/
struct wtp_type_2 pcie_sge_dma_rsp; /*SGE_DEBUG PD_Rsp_xOPn*/
struct wtp_type_2 sge_utx; /*SGE_DEBUG U_Tx_xOPn*/
struct wtp_type_2 utx_tp; /*ULP_TX_SE_CNT_CHn[xOP_CNT_ULP2TP]*/
struct wtp_type_2 utx_tpcside; /*TP_DBG_CSIDE_RXn[RxXoPCnt]*/
struct wtp_type_2 tpcside_rxpld;
struct wtp_type_2 tpcside_rxarb; /*TP_DBG_CSIDE_RXn[RxArbXopCnt]*/
struct wtp_type_2 tpcside_rxcpl;
struct wtp_type_2 tpeside_mps; /*TP_DBG_ESDIE_PKT0[TxXoPCnt]*/
struct wtp_type_2 tpeside_pm;
struct wtp_type_2 tpeside_pld;
/*Tx path, PCIE t5 DMA stat*/
struct wtp_type_2 pcie_t5_dma_stat3;
/*Tx path, SGE debug data high index 6*/
struct wtp_type_2 sge_debug_data_high_index_6;
/*Tx path, SGE debug data high index 3*/
struct wtp_type_2 sge_debug_data_high_index_3;
/*Tx path, ULP SE CNT CHx*/
struct wtp_type_2 ulp_se_cnt_chx;
/*pcie cmd stat 2*/
struct wtp_type_2 pcie_cmd_stat2;
/*pcie cmd stat 3*/
struct wtp_type_2 pcie_cmd_stat3;
struct wtp_type_2 pcie_dma1_stat2_core;
struct wtp_type_1 sge_work_req_pkt;
struct wtp_type_2 sge_debug_data_high_indx5;
/*Tx path, mac portx pkt count*/
struct wtp_type_2 mac_portx_pkt_count;
/*Rx path, mac porrx pkt count*/
struct wtp_type_2 mac_porrx_pkt_count;
/*Rx path, PCIE T5 dma1 stat 2*/
struct wtp_type_2 pcie_dma1_stat2;
/*Rx path, sge debug data high index 7*/
struct wtp_type_2 sge_debug_data_high_indx7;
/*Rx path, sge debug data high index 1*/
struct wtp_type_1 sge_debug_data_high_indx1;
/*Rx path, TP debug CSIDE Tx register*/
struct wtp_type_1 utx_tpcside_tx;
/*Rx path, LE DB response count*/
struct wtp_type_0 le_db_rsp_cnt;
/*Rx path, TP debug Eside PKTx*/
struct wtp_type_2 tp_dbg_eside_pktx;
/*Rx path, sge debug data high index 9*/
struct wtp_type_1 sge_debug_data_high_indx9;
/*Tx path, mac portx aFramesTransmittesok*/
struct wtp_type_2 mac_portx_aframestra_ok;
/*Rx path, mac portx aFramesTransmittesok*/
struct wtp_type_2 mac_porrx_aframestra_ok;
/*Tx path, MAC_PORT_MTIP_1G10G_RX_etherStatsPkts*/
struct wtp_type_1 mac_portx_etherstatspkts;
/*Rx path, MAC_PORT_MTIP_1G10G_RX_etherStatsPkts*/
struct wtp_type_1 mac_porrx_etherstatspkts;
struct wtp_type_3 tp_mps; /*MPS_TX_SE_CNT_TP01 and
MPS_TX_SE_CNT_TP34*/
struct wtp_type_3 mps_xgm; /*MPS_TX_SE_CNT_MAC01 and
MPS_TX_SE_CNT_MAC34*/
struct wtp_type_2 tx_xgm_xgm; /*XGMAC_PORT_PKT_CNT_PORT_n*/
struct wtp_type_2 xgm_wire; /*XGMAC_PORT_XGM_STAT_TX_FRAME_LOW_PORT_N
(clear on read)*/
/*RX path, from wire to core.*/
struct wtp_type_2 wire_xgm; /*XGMAC_PORT_XGM_STAT_RX_FRAMES_LOW_PORT_N
(clear on read)*/
struct wtp_type_2 rx_xgm_xgm; /*XGMAC_PORT_PKT_CNT_PORT_n*/
struct _xgm_mps { /*MPS_RX_SE_CNT_INn*/
u32 sop[8]; /* => undef,*/
u32 eop[8]; /* => undef,*/
u32 drop; /* => undef,*/
u32 cls_drop; /* => undef,*/
u32 err; /* => undef,*/
u32 bp; /* => undef,*/
} xgm_mps;
struct wtp_type_3 mps_tp; /*MPS_RX_SE_CNT_OUT01 and
MPS_RX_SE_CNT_OUT23*/
struct wtp_type_2 mps_tpeside; /*TP_DBG_ESIDE_PKTn*/
struct wtp_type_1 tpeside_pmrx; /*???*/
struct wtp_type_2 pmrx_ulprx; /*ULP_RX_SE_CNT_CHn[xOP_CNT_INn]*/
struct wtp_type_2 ulprx_tpcside; /*ULP_RX_SE_CNT_CHn[xOP_CNT_OUTn]*/
struct wtp_type_2 tpcside_csw; /*TP_DBG_CSIDE_TXn[TxSopCnt]*/
struct wtp_type_2 tpcside_pm;
struct wtp_type_2 tpcside_uturn;
struct wtp_type_2 tpcside_txcpl;
struct wtp_type_1 tp_csw; /*SGE_DEBUG CPLSW_TP_Rx_xOPn*/
struct wtp_type_1 csw_sge; /*SGE_DEBUG T_Rx_xOPn*/
struct wtp_type_2 sge_pcie; /*SGE_DEBUG PD_Req_SopN -
PD_Req_RdN - PD_ReqIntN*/
struct wtp_type_2 sge_pcie_ints; /*SGE_DEBUG PD_Req_IntN*/
struct wtp_type_2 pcie_core_dmaw; /*PCIE_DMAW_SOP_CNT and
PCIE_DMAW_EOP_CNT*/
struct wtp_type_2 pcie_core_dmai; /*PCIE_DMAI_CNT*/
};
struct tp_mib_data {
struct tp_mib_type TP_MIB_MAC_IN_ERR_0;
struct tp_mib_type TP_MIB_MAC_IN_ERR_1;
struct tp_mib_type TP_MIB_MAC_IN_ERR_2;
struct tp_mib_type TP_MIB_MAC_IN_ERR_3;
struct tp_mib_type TP_MIB_HDR_IN_ERR_0;
struct tp_mib_type TP_MIB_HDR_IN_ERR_1;
struct tp_mib_type TP_MIB_HDR_IN_ERR_2;
struct tp_mib_type TP_MIB_HDR_IN_ERR_3;
struct tp_mib_type TP_MIB_TCP_IN_ERR_0;
struct tp_mib_type TP_MIB_TCP_IN_ERR_1;
struct tp_mib_type TP_MIB_TCP_IN_ERR_2;
struct tp_mib_type TP_MIB_TCP_IN_ERR_3;
struct tp_mib_type TP_MIB_TCP_OUT_RST;
struct tp_mib_type TP_MIB_TCP_IN_SEG_HI;
struct tp_mib_type TP_MIB_TCP_IN_SEG_LO;
struct tp_mib_type TP_MIB_TCP_OUT_SEG_HI;
struct tp_mib_type TP_MIB_TCP_OUT_SEG_LO;
struct tp_mib_type TP_MIB_TCP_RXT_SEG_HI;
struct tp_mib_type TP_MIB_TCP_RXT_SEG_LO;
struct tp_mib_type TP_MIB_TNL_CNG_DROP_0;
struct tp_mib_type TP_MIB_TNL_CNG_DROP_1;
struct tp_mib_type TP_MIB_TNL_CNG_DROP_2;
struct tp_mib_type TP_MIB_TNL_CNG_DROP_3;
struct tp_mib_type TP_MIB_OFD_CHN_DROP_0;
struct tp_mib_type TP_MIB_OFD_CHN_DROP_1;
struct tp_mib_type TP_MIB_OFD_CHN_DROP_2;
struct tp_mib_type TP_MIB_OFD_CHN_DROP_3;
struct tp_mib_type TP_MIB_TNL_OUT_PKT_0;
struct tp_mib_type TP_MIB_TNL_OUT_PKT_1;
struct tp_mib_type TP_MIB_TNL_OUT_PKT_2;
struct tp_mib_type TP_MIB_TNL_OUT_PKT_3;
struct tp_mib_type TP_MIB_TNL_IN_PKT_0;
struct tp_mib_type TP_MIB_TNL_IN_PKT_1;
struct tp_mib_type TP_MIB_TNL_IN_PKT_2;
struct tp_mib_type TP_MIB_TNL_IN_PKT_3;
struct tp_mib_type TP_MIB_TCP_V6IN_ERR_0;
struct tp_mib_type TP_MIB_TCP_V6IN_ERR_1;
struct tp_mib_type TP_MIB_TCP_V6IN_ERR_2;
struct tp_mib_type TP_MIB_TCP_V6IN_ERR_3;
struct tp_mib_type TP_MIB_TCP_V6OUT_RST;
struct tp_mib_type TP_MIB_TCP_V6IN_SEG_HI;
struct tp_mib_type TP_MIB_TCP_V6IN_SEG_LO;
struct tp_mib_type TP_MIB_TCP_V6OUT_SEG_HI;
struct tp_mib_type TP_MIB_TCP_V6OUT_SEG_LO;
struct tp_mib_type TP_MIB_TCP_V6RXT_SEG_HI;
struct tp_mib_type TP_MIB_TCP_V6RXT_SEG_LO;
struct tp_mib_type TP_MIB_OFD_ARP_DROP;
struct tp_mib_type TP_MIB_OFD_DFR_DROP;
struct tp_mib_type TP_MIB_CPL_IN_REQ_0;
struct tp_mib_type TP_MIB_CPL_IN_REQ_1;
struct tp_mib_type TP_MIB_CPL_IN_REQ_2;
struct tp_mib_type TP_MIB_CPL_IN_REQ_3;
struct tp_mib_type TP_MIB_CPL_OUT_RSP_0;
struct tp_mib_type TP_MIB_CPL_OUT_RSP_1;
struct tp_mib_type TP_MIB_CPL_OUT_RSP_2;
struct tp_mib_type TP_MIB_CPL_OUT_RSP_3;
struct tp_mib_type TP_MIB_TNL_LPBK_0;
struct tp_mib_type TP_MIB_TNL_LPBK_1;
struct tp_mib_type TP_MIB_TNL_LPBK_2;
struct tp_mib_type TP_MIB_TNL_LPBK_3;
struct tp_mib_type TP_MIB_TNL_DROP_0;
struct tp_mib_type TP_MIB_TNL_DROP_1;
struct tp_mib_type TP_MIB_TNL_DROP_2;
struct tp_mib_type TP_MIB_TNL_DROP_3;
struct tp_mib_type TP_MIB_FCOE_DDP_0;
struct tp_mib_type TP_MIB_FCOE_DDP_1;
struct tp_mib_type TP_MIB_FCOE_DDP_2;
struct tp_mib_type TP_MIB_FCOE_DDP_3;
struct tp_mib_type TP_MIB_FCOE_DROP_0;
struct tp_mib_type TP_MIB_FCOE_DROP_1;
struct tp_mib_type TP_MIB_FCOE_DROP_2;
struct tp_mib_type TP_MIB_FCOE_DROP_3;
struct tp_mib_type TP_MIB_FCOE_BYTE_0_HI;
struct tp_mib_type TP_MIB_FCOE_BYTE_0_LO;
struct tp_mib_type TP_MIB_FCOE_BYTE_1_HI;
struct tp_mib_type TP_MIB_FCOE_BYTE_1_LO;
struct tp_mib_type TP_MIB_FCOE_BYTE_2_HI;
struct tp_mib_type TP_MIB_FCOE_BYTE_2_LO;
struct tp_mib_type TP_MIB_FCOE_BYTE_3_HI;
struct tp_mib_type TP_MIB_FCOE_BYTE_3_LO;
struct tp_mib_type TP_MIB_OFD_VLN_DROP_0;
struct tp_mib_type TP_MIB_OFD_VLN_DROP_1;
struct tp_mib_type TP_MIB_OFD_VLN_DROP_2;
struct tp_mib_type TP_MIB_OFD_VLN_DROP_3;
struct tp_mib_type TP_MIB_USM_PKTS;
struct tp_mib_type TP_MIB_USM_DROP;
struct tp_mib_type TP_MIB_USM_BYTES_HI;
struct tp_mib_type TP_MIB_USM_BYTES_LO;
struct tp_mib_type TP_MIB_TID_DEL;
struct tp_mib_type TP_MIB_TID_INV;
struct tp_mib_type TP_MIB_TID_ACT;
struct tp_mib_type TP_MIB_TID_PAS;
struct tp_mib_type TP_MIB_RQE_DFR_MOD;
struct tp_mib_type TP_MIB_RQE_DFR_PKT;
};
struct cudbg_reg_info {
const char *name;
unsigned int addr;
unsigned int len;
};
struct tp1_reg_info {
char addr[10];
char name[40];
};
struct ireg_field {
u32 ireg_addr;
u32 ireg_data;
u32 ireg_local_offset;
u32 ireg_offset_range;
};
struct ireg_buf {
struct ireg_field tp_pio;
u32 outbuf[32];
};
struct tx_rate {
u64 nrate[NCHAN];
u64 orate[NCHAN];
u32 nchan;
};
struct tid_info_region {
u32 ntids;
u32 nstids;
u32 stid_base;
u32 hash_base;
u32 natids;
u32 nftids;
u32 ftid_base;
u32 aftid_base;
u32 aftid_end;
/* Server filter region */
u32 sftid_base;
u32 nsftids;
/* UO context range */
u32 uotid_base;
u32 nuotids;
u32 sb;
u32 flags;
u32 le_db_conf;
u32 IP_users;
u32 IPv6_users;
u32 hpftid_base;
u32 nhpftids;
};
struct tid_info_region_rev1 {
struct cudbg_ver_hdr ver_hdr;
struct tid_info_region tid;
u32 tid_start;
u32 reserved[16];
};
struct struct_vpd_data {
u8 sn[SN_MAX_LEN + 1];
u8 bn[BN_MAX_LEN + 1];
u8 na[NA_MAX_LEN + 1];
u8 mn[MN_MAX_LEN + 1];
u16 fw_major;
u16 fw_minor;
u16 fw_micro;
u16 fw_build;
u32 scfg_vers;
u32 vpd_vers;
};
struct sw_state {
u32 fw_state;
u8 caller_string[100];
u8 os_type;
u8 reserved[3];
u32 reserved1[16];
};
static u32 ATTRIBUTE_UNUSED t6_tp_pio_array[][4] = {
{0x7e40, 0x7e44, 0x020, 28}, /* t6_tp_pio_regs_20_to_3b */
{0x7e40, 0x7e44, 0x040, 10}, /* t6_tp_pio_regs_40_to_49 */
{0x7e40, 0x7e44, 0x050, 10}, /* t6_tp_pio_regs_50_to_59 */
{0x7e40, 0x7e44, 0x060, 14}, /* t6_tp_pio_regs_60_to_6d */
{0x7e40, 0x7e44, 0x06F, 1}, /* t6_tp_pio_regs_6f */
{0x7e40, 0x7e44, 0x070, 6}, /* t6_tp_pio_regs_70_to_75 */
{0x7e40, 0x7e44, 0x130, 18}, /* t6_tp_pio_regs_130_to_141 */
{0x7e40, 0x7e44, 0x145, 19}, /* t6_tp_pio_regs_145_to_157 */
{0x7e40, 0x7e44, 0x160, 1}, /* t6_tp_pio_regs_160 */
{0x7e40, 0x7e44, 0x230, 25}, /* t6_tp_pio_regs_230_to_248 */
{0x7e40, 0x7e44, 0x24a, 3}, /* t6_tp_pio_regs_24c */
{0x7e40, 0x7e44, 0x8C0, 1} /* t6_tp_pio_regs_8c0 */
};
static u32 ATTRIBUTE_UNUSED t5_tp_pio_array[][4] = {
{0x7e40, 0x7e44, 0x020, 28}, /* t5_tp_pio_regs_20_to_3b */
{0x7e40, 0x7e44, 0x040, 19}, /* t5_tp_pio_regs_40_to_52 */
{0x7e40, 0x7e44, 0x054, 2}, /* t5_tp_pio_regs_54_to_55 */
{0x7e40, 0x7e44, 0x060, 13}, /* t5_tp_pio_regs_60_to_6c */
{0x7e40, 0x7e44, 0x06F, 1}, /* t5_tp_pio_regs_6f */
{0x7e40, 0x7e44, 0x120, 4}, /* t5_tp_pio_regs_120_to_123 */
{0x7e40, 0x7e44, 0x12b, 2}, /* t5_tp_pio_regs_12b_to_12c */
{0x7e40, 0x7e44, 0x12f, 21}, /* t5_tp_pio_regs_12f_to_143 */
{0x7e40, 0x7e44, 0x145, 19}, /* t5_tp_pio_regs_145_to_157 */
{0x7e40, 0x7e44, 0x230, 25}, /* t5_tp_pio_regs_230_to_248 */
{0x7e40, 0x7e44, 0x8C0, 1} /* t5_tp_pio_regs_8c0 */
};
static u32 ATTRIBUTE_UNUSED t6_ma_ireg_array[][4] = {
{0x78f8, 0x78fc, 0xa000, 23}, /* t6_ma_regs_a000_to_a016 */
{0x78f8, 0x78fc, 0xa400, 30}, /* t6_ma_regs_a400_to_a41e */
{0x78f8, 0x78fc, 0xa800, 20} /* t6_ma_regs_a800_to_a813 */
};
static u32 ATTRIBUTE_UNUSED t6_ma_ireg_array2[][4] = {
{0x78f8, 0x78fc, 0xe400, 17}, /* t6_ma_regs_e400_to_e600 */
{0x78f8, 0x78fc, 0xe640, 13} /* t6_ma_regs_e640_to_e7c0 */
};
static u32 ATTRIBUTE_UNUSED t6_hma_ireg_array[][4] = {
{0x51320, 0x51324, 0xa000, 32} /* t6_hma_regs_a000_to_a01f */
};
static u32 ATTRIBUTE_UNUSED t5_pcie_pdbg_array[][4] = {
{0x5a04, 0x5a0c, 0x00, 0x20}, /* t5_pcie_pdbg_regs_00_to_20 */
{0x5a04, 0x5a0c, 0x21, 0x20}, /* t5_pcie_pdbg_regs_21_to_40 */
{0x5a04, 0x5a0c, 0x41, 0x10}, /* t5_pcie_pdbg_regs_41_to_50 */
};
static u32 ATTRIBUTE_UNUSED t5_pcie_config_array[][2] = {
{0x0, 0x34},
{0x3c, 0x40},
{0x50, 0x64},
{0x70, 0x80},
{0x94, 0xa0},
{0xb0, 0xb8},
{0xd0, 0xd4},
{0x100, 0x128},
{0x140, 0x148},
{0x150, 0x164},
{0x170, 0x178},
{0x180, 0x194},
{0x1a0, 0x1b8},
{0x1c0, 0x208},
};
static u32 ATTRIBUTE_UNUSED t5_pcie_cdbg_array[][4] = {
{0x5a10, 0x5a18, 0x00, 0x20}, /* t5_pcie_cdbg_regs_00_to_20 */
{0x5a10, 0x5a18, 0x21, 0x18}, /* t5_pcie_cdbg_regs_21_to_37 */
};
static u32 ATTRIBUTE_UNUSED t6_tp_tm_pio_array[1][4] = {
{0x7e18, 0x7e1c, 0x0, 12}
};
static u32 ATTRIBUTE_UNUSED t5_tp_tm_pio_array[1][4] = {
{0x7e18, 0x7e1c, 0x0, 12}
};
static u32 ATTRIBUTE_UNUSED t5_pm_rx_array[][4] = {
{0x8FD0, 0x8FD4, 0x10000, 0x20}, /* t5_pm_rx_regs_10000_to_10020 */
{0x8FD0, 0x8FD4, 0x10021, 0x0D}, /* t5_pm_rx_regs_10021_to_1002c */
};
static u32 ATTRIBUTE_UNUSED t5_pm_tx_array[][4] = {
{0x8FF0, 0x8FF4, 0x10000, 0x20}, /* t5_pm_tx_regs_10000_to_10020 */
{0x8FF0, 0x8FF4, 0x10021, 0x1D}, /* t5_pm_tx_regs_10021_to_1003c */
};
static u32 ATTRIBUTE_UNUSED t6_tp_mib_index_array[6][4] = {
{0x7e50, 0x7e54, 0x0, 13},
{0x7e50, 0x7e54, 0x10, 6},
{0x7e50, 0x7e54, 0x18, 21},
{0x7e50, 0x7e54, 0x30, 32},
{0x7e50, 0x7e54, 0x50, 22},
{0x7e50, 0x7e54, 0x68, 12}
};
static u32 ATTRIBUTE_UNUSED t5_tp_mib_index_array[9][4] = {
{0x7e50, 0x7e54, 0x0, 13},
{0x7e50, 0x7e54, 0x10, 6},
{0x7e50, 0x7e54, 0x18, 8},
{0x7e50, 0x7e54, 0x20, 13},
{0x7e50, 0x7e54, 0x30, 16},
{0x7e50, 0x7e54, 0x40, 16},
{0x7e50, 0x7e54, 0x50, 16},
{0x7e50, 0x7e54, 0x60, 6},
{0x7e50, 0x7e54, 0x68, 4}
};
static u32 ATTRIBUTE_UNUSED t5_sge_dbg_index_array[9][4] = {
{0x10cc, 0x10d0, 0x0, 16},
{0x10cc, 0x10d4, 0x0, 16},
};
static u32 ATTRIBUTE_UNUSED t6_up_cim_reg_array[][4] = {
{0x7b50, 0x7b54, 0x2000, 0x20}, /* up_cim_2000_to_207c */
{0x7b50, 0x7b54, 0x2080, 0x1d}, /* up_cim_2080_to_20fc */
{0x7b50, 0x7b54, 0x00, 0x20}, /* up_cim_00_to_7c */
{0x7b50, 0x7b54, 0x80, 0x20}, /* up_cim_80_to_fc */
{0x7b50, 0x7b54, 0x100, 0x11}, /* up_cim_100_to_14c */
{0x7b50, 0x7b54, 0x200, 0x10}, /* up_cim_200_to_23c */
{0x7b50, 0x7b54, 0x240, 0x2}, /* up_cim_240_to_244 */
{0x7b50, 0x7b54, 0x250, 0x2}, /* up_cim_250_to_254 */
{0x7b50, 0x7b54, 0x260, 0x2}, /* up_cim_260_to_264 */
{0x7b50, 0x7b54, 0x270, 0x2}, /* up_cim_270_to_274 */
{0x7b50, 0x7b54, 0x280, 0x20}, /* up_cim_280_to_2fc */
{0x7b50, 0x7b54, 0x300, 0x20}, /* up_cim_300_to_37c */
{0x7b50, 0x7b54, 0x380, 0x14}, /* up_cim_380_to_3cc */
};
static u32 ATTRIBUTE_UNUSED t5_up_cim_reg_array[][4] = {
{0x7b50, 0x7b54, 0x2000, 0x20}, /* up_cim_2000_to_207c */
{0x7b50, 0x7b54, 0x2080, 0x19}, /* up_cim_2080_to_20ec */
{0x7b50, 0x7b54, 0x00, 0x20}, /* up_cim_00_to_7c */
{0x7b50, 0x7b54, 0x80, 0x20}, /* up_cim_80_to_fc */
{0x7b50, 0x7b54, 0x100, 0x11}, /* up_cim_100_to_14c */
{0x7b50, 0x7b54, 0x200, 0x10}, /* up_cim_200_to_23c */
{0x7b50, 0x7b54, 0x240, 0x2}, /* up_cim_240_to_244 */
{0x7b50, 0x7b54, 0x250, 0x2}, /* up_cim_250_to_254 */
{0x7b50, 0x7b54, 0x260, 0x2}, /* up_cim_260_to_264 */
{0x7b50, 0x7b54, 0x270, 0x2}, /* up_cim_270_to_274 */
{0x7b50, 0x7b54, 0x280, 0x20}, /* up_cim_280_to_2fc */
{0x7b50, 0x7b54, 0x300, 0x20}, /* up_cim_300_to_37c */
{0x7b50, 0x7b54, 0x380, 0x14}, /* up_cim_380_to_3cc */
};
#endif